CN109822419A - Wafer transfer device and wafer transfer method - Google Patents
Wafer transfer device and wafer transfer method Download PDFInfo
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- CN109822419A CN109822419A CN201910161800.4A CN201910161800A CN109822419A CN 109822419 A CN109822419 A CN 109822419A CN 201910161800 A CN201910161800 A CN 201910161800A CN 109822419 A CN109822419 A CN 109822419A
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Abstract
The application discloses a kind of wafer transfer device and wafer transfer method applied to wafer multistation edge polishing equipment, wherein, the wafer transfer device includes turntable and the multiple transfer robot arms being angularly arranged, each transfer robot arm is between two neighboring operation position, pass through driving turntable rotation, the transfer of more wafers can be completed using multiple transfer robot arms simultaneously, particularly, it may make each transfer robot arm that corresponding wafer is quick from previous operation position, steadily and with no damage it is transferred to neighbouring the latter operation position, improve wafer transfer efficiency.
Description
Technical field
This application involves wafer processing techniques fields, more particularly to a kind of wafer of wafer multistation edge polishing equipment
Transfer device and wafer transfer method.
Background technique
Generally, when silicon materials crystallize into it is very big, over much of its length for cylindrical body after, this column knot
Brilliant material is cut into disk very thin, as silicon wafer, and since its shape is circle, such silicon wafer is alternatively referred to as wafer
(Wafer).It is subsequent, it can be further processed on wafer and be fabricated to various circuit component structures, so that becoming has specific electrical function
The IC products of energy.
Direction with semiconductor technology towards large scale wafer is developed, to the surface particles degree of wafer, geometric parameter, side
The roughness on edge and surface proposes more strict requirements.Such as in slice process, it is sliced resulting crystal round fringes and compares
Coarse, there are uneven, wedge angles etc., in this way, may be subjected to the effect of external force in various subsequent machining technologies, work as external force
The problems such as will result in wafer slight crack, wafer fragmentation when maximum load or stress concentrations beyond wafer, seriously affects
Therefore the yield of wafer process can carry out edge polishing operation for wafer, the damaged portion of crystal round fringes is gone
It removes, obtains smooth crystal round fringes.
By taking the edge polishing of wafer as an example, in related process, with Chinese patent open source literature (publication number: CN1312747,
Denomination of invention: the method and apparatus of Waffer edge polishing) for, a kind of polissoir of Waffer edge is disclosed, institute is being utilized
State Waffer edge polissoir carry out edge polishing when, secure the wafer on vacuum chuck, by vacuum chuck with chip around
Center line rotation, using the EDGE CONTACT of a polishing wheel and afer rotates made of synthetic plastic, around polishing wheel
Polished surface be equipped with groove, the cross section of the groove and the profile of Waffer edge are complementary, pass through the edge of polishing wheel and chip
Between occur relative motion, realization polishes the edge of chip.But in above-mentioned Waffer edge polissoir, polishing wheel is
It is located at the side of vacuum chuck, this undoubtedly increases the overall space of equipment.In addition, above-mentioned Waffer edge polissoir is only limitted to
Simple Waffer edge polishing, for location structure (location structure may be, for example, such as recess notch, pingbian flat)
Chip, then be unable to complete the polishing of location structure in chip.
In fact, the edge polishing of the wafer may include location structure polishing and remove so that wafer is with location structure as an example
Other edge polishings except location structure, and each of these class polishing process can further comprise rough polishing and fine polishing
Deng, these refinement polishing processes be generally both needed to configure individual polissoir, in this way, there is cloth between each polissoir
The problems such as office, wafer transfer, cumbersome, inefficiency, and increase in wafer transfer process the risk of wafer damage.
Summary of the invention
In view of the missing of the relevant technologies described above, the purpose of the application is to disclose a kind of wafer multistation edge polishing
The problems such as wafer transfer device of equipment, structure is complicated in the related technology, cumbersome for solution, inefficiency.
To achieve the above object and other purposes, the first aspect of the application discloses a kind of wafer multistation edge polishing and sets
Standby wafer transfer device, the wafer multistation edge device has wafer job platform, on the wafer job platform
Equiangularly arranged multiple operation positions are equipped with, the wafer transfer device includes:
Turntable, set on the centered region of the wafer job platform;
Multiple transfer robot arms are angularly set on the turntable;Each transfer robot arm is located at two neighboring operation
Between position, under the drive of the turntable by wafer from previous operation region transfer to neighbouring the latter operation area
Position.
In the certain embodiments of the application first aspect, turntable driving motor is configured on the turntable, for driving
Move the rotation that the turntable realizes positive and reverse steering.
In the certain embodiments of the application first aspect, the angle between two neighboring transfer robot arm, which is equal to, to be corresponded to
Two neighboring operation position between angle.
In the certain embodiments of the application first aspect, in the initial state, each transfer robot arm it is initial
Position is the middle position of two neighboring operation position.
In the certain embodiments of the application first aspect, the transfer robot arm includes: holding for support wafer
Support portion and support arm for the supporting part to be connected to the turntable.
In the certain embodiments of the application first aspect, the supporting part is equipped with absorbing unit.
In the certain embodiments of the application first aspect, the supporting part is pallet or support arm.
In the certain embodiments of the application first aspect, the transfer robot arm includes be connected to the turntable two
A clamp arm.
In the certain embodiments of the application first aspect, the clamp arm is equipped with buffer structure.
Wafer transfer device disclosed in the present application applied to wafer multistation edge polishing equipment, including turntable and isogonism
Multiple transfer robot arms of setting are spent, each transfer robot arm is between two neighboring operation position, by driving turntable
Rotation particularly can may make each transfer robot arm using the transfer that multiple transfer robot arms complete more wafers simultaneously
Can by corresponding wafer from previous operation position quickly, it is steady and be transferred to neighbouring the latter operation position with no damage,
Improve wafer transfer efficiency.
The second aspect of the application discloses a kind of wafer transfer method based on wafer transfer device, includes the following steps:
It enables driving turntable turn to first and rotates first angle, so that the transfer robot arm on turntable is shifted by initial position
To corresponding previous operation position;Folder of the first angle between the previous operation position and the initial position
Angle;
Transfer robot arm is enabled to extract the wafer for being located at previous operation position;
It enables driving turntable turn to second and rotates second angle, so that the transfer robot arm on turntable is by corresponding previous
Operation region transfer is to adjacent the latter operation position;The second angle be the previous operation position with it is described latter
Angle between a operation position;
Enable transfer robot arm that wafer is placed in the latter operation position;
It enables driving turntable turn to first and rotates third angle, so that the transfer robot arm on turntable is by the latter operation area
Bit transition is to initial position;Angle of the third angle between the latter operation position and the initial position.
Wafer transfer method disclosed in the present application applied to wafer multistation edge polishing equipment is turned by driving turntable
It is dynamic, particularly it can may make each transfer robot arm energy using the transfer that multiple transfer robot arms complete more wafers simultaneously
By corresponding wafer from previous operation position quickly, it is steady and be transferred to neighbouring the latter operation position with no damage, mention
High wafer transfer efficiency.
Detailed description of the invention
Fig. 1 is structural schematic diagram of the application wafer multistation edge polishing equipment in a certain embodiment.
Fig. 2 is the top view of wafer multistation edge polishing equipment shown in FIG. 1.
Fig. 3 is that transfer robot arm is located at previous operation position in wafer multistation edge polishing equipment shown in FIG. 1
Status diagram.
Fig. 4 is that transfer robot arm is transferred to the latter operation position in wafer multistation edge polishing equipment shown in FIG. 1
Status diagram.
Fig. 5 is the structural schematic diagram of wafer bevel polishing device in one exemplary embodiment.
Fig. 6 is the structural schematic diagram of wafer bevel polishing device in a further exemplary embodiment.
Fig. 7 is the structural schematic diagram of crystal round fringes rough polishing mechanism in Fig. 1.
Fig. 8 is the top view of crystal round fringes rough polishing shown in fig. 6 mechanism.
Fig. 9 is the partial enlarged view in the portion V in Fig. 8.
Figure 10 is the cross-sectional view of line A-A in Fig. 8.
Figure 11 is the partial enlarged view in the portion L in Figure 10.
Figure 12 is the cross-sectional view of line B-B in Fig. 8.
Figure 13 is the partial enlarged view in the portion M in Figure 12.
Figure 14 is the cross-sectional view of line C-C in Fig. 8.
Figure 15 is the partial enlarged view in the portion N in Figure 14.
Figure 16 is the structural schematic diagram of crystal round fringes burnishing device in one exemplary embodiment.
Figure 17 is the structural schematic diagram of crystal round fringes burnishing device in a further exemplary embodiment.
Specific embodiment
Presently filed embodiment is illustrated by particular specific embodiment below, those skilled in the art can be by this explanation
Content disclosed by book understands other advantages and effect of the application easily.
In the following description, with reference to attached drawing, attached drawing describes several embodiments of the application.It should be appreciated that also can be used
Other embodiments, and can be carried out without departing substantially from spirit and scope mechanical composition, structure, electrically with
And operational change.Following detailed description should not be considered limiting, and the range of embodiments herein
Only limited by the claims for the patent announced.Term used herein is merely to describe specific embodiment, and be not
It is intended to limit the application.The term of space correlation, for example, "upper", "lower", "left", "right", " following ", " lower section ", " lower part ",
" top ", " top " etc. can be used in the text in order to an elements or features and another element or spy shown in explanatory diagram
The relationship of sign.
Although term first, second etc. are used to describe various elements herein in some instances, these elements
It should not be limited by these terms.These terms are only used to distinguish an element with another element.For example, first turn
It can be referred to as the second steering swing to swinging, and similarly, the second steering, which is swung, can be referred to as the first steering swing, and
The range of various described embodiments is not departed from.
In the edge polishing operation of related wafer, in some cases, edge polishing device structure is complicated, and equipment occupies
Space is larger.Alternatively, in some cases, the wafer with location structure is including comprising location structure polishing and edge polishing
Each polishing process need to correspond to the independent polissoir of configuration, there are layout, wafer transfers etc. between each polissoir to ask
Topic influences polishing operation efficiency and polishing quality.Therefore, to those skilled in the art, it is necessary to existing wafer side
Edge polissoir is transformed, in order to improve the operating efficiency and quality of crystal round fringes polishing.
Refering to fig. 1 and Fig. 2, wherein structure of Fig. 1 the application wafer multistation edge polishing equipment in a certain embodiment
Schematic diagram, Fig. 2 are the top view of wafer multistation edge polishing equipment shown in FIG. 1.In embodiment, the application wafer multiplexing
Position edge polishing equipment is for the edge lines polishing to wafer, wherein wafer (Wafer) is to be formed after sliced operation
In the silicon wafer of disc-shaped, generally, the edge of the wafer has location structure, and the location structure may be, for example, flat
(pingbian) or notch (recess).In practical applications, before being sliced to column silicon rod, first at the edge of column silicon rod
Axial along column silicon rod carries out trimming (flat) or grooving (notch) processing, and then to column silicon rod be sliced with
The wafer of sheet is formed, at this point, every wafer will have the location structure of flat or notch, in favor of subsequent in wafer
For being automatically positioned when upper production chip.Generally, for small size column silicon rod, (diameter of column silicon rod is, for example, 200mm
8 inches of ≈ or less or 6 inches of 150mm ≈ or less) mostly use trimming (flat) handle, for large scale silicon ingot (column silicon rod
Diameter is, for example, 8 inches of 200mm ≈ or more) then handled using grooving (notch), it can subtract as far as possible under conditions of ensuring positioning
The waste of few wafer.The wafer for either having flat (pingbian) still has the wafer of notch (recess), due to cutting for preamble
Blade technolgy, the edge upper surface (section to connect with the preceding wafer in slice process) of the wafer or rim under surface
(section to connect with the rear wafer in slice process) or edge front (belong to the composition portion of the periphery of column crystal bar
Point) it is relatively rough, there are sharp columns, the wafer is integrally more fragile, in this situation, the wafer by
It may be knocked in the case of touching, extruding broken.It is therefore desirable to be processed by shot blasting to the edge of the wafer, so that wafer
Edge is more round and smooth and finishing.It in the following description, is to have handled by the wafer multistation edge polishing equipment of embodiment
It is illustrated for the wafer of notch (recess), but is not intended to limit the protection scope of the application.
The application wafer multistation edge polishing equipment includes: base 1, wafer handler 2, crystalline substance combined with Figure 1 and Figure 2,
Loop truss device 3, the first wafer bevel polishing device 4, the second wafer bevel polishing device 5, the first crystal round fringes burnishing device
6, the second crystal round fringes burnishing device 7, wafer cleaning device 8 and wafer transfer device 9.
The application wafer multistation edge polishing equipment is described in detail below.
Main element of the base 1 as the application wafer multistation edge polishing equipment has wafer job platform,
In, the wafer job platform can process the specific job content of operation according to wafer and be divided into multiple operation positions.At certain
In a little embodiments, these operation positions are located on all edges of the wafer job platform.Specifically, in embodiment, described
Wafer job platform includes at least pretreatment position 1115 and post-processing position 16, wherein corresponding on pretreatment position 11
Be provided with wafer detecting apparatus 3, the first recess polishing position 12 on be correspondingly arranged on the first wafer bevel polishing device 4,
Second recess polishing position 13 on be correspondingly arranged on the second wafer bevel polishing device 5, first edge polishing position 14 on it is right
The first crystal round fringes burnishing device 6 should be provided with, be correspondingly arranged on the throwing of the second crystal round fringes on second edge polishing position 15
Electro-optical device 7 is correspondingly arranged on wafer cleaning device 8 on post-processing position 16.In this way, can be by the wafer multiplexing in embodiment
Position edge polishing equipment can realize pipelining to wafer, so that wafer sequentially completes the throwing of the first recess in same equipment
The multiple working procedures such as light operation, the second recess polishing operation, first edge polishing operation, second edge polishing operation improve conscientiously
The operating efficiency of crystal round fringes polishing.
Wafer handler 2 is adjacent to pretreatment position 11 and post-processing position 16, for by polished wafer load
To wafer job platform pretreatment position 11 and the wafer after polishing operation will be completed from the post-processing of wafer job platform
Position 16 unloads.
As depicted in figs. 1 and 2, the wafer job platform on base 1 further extends outward to form wafer handling position 17.?
Wafer loads and unloads and is equipped with magazine plummer in position 17, at least one wafer magazine 10 can be carried on the magazine plummer, such as Fig. 1
With shown in Fig. 2, three wafer magazines 10 can be carried on the magazine plummer.
In some embodiments, wafer magazine 10 may include hollow box body, divide on the opposite two sidewalls of the box body
It is not provided with several layers partition, belonging to one layer of two partitions and being parallel to each other and be formed between the two can be used for accommodating wafer
Holding tank, in this way, several holding tanks are formed on the box body, for accommodating several wafers.Due to wafer material
Box is known usual means, therefore details are not described herein.
In some embodiments, wafer magazine 10 can be also equipped with and the flat (pingbian) or notch (recess) on wafer
Corresponding oriented structure (not showing in the drawings).For with jagged wafer, by the oriented structure, appearance may make
The recess for each wafer 100 being contained in each holding tank of wafer magazine 10 is all positioned at the same direction.
In some embodiments, it can also be equipped with buffer structure (not showing in the drawings) in wafer magazine 10, can avoid
The wafer of receiving collides with box body in the handling process.
Wafer handler 2 be set to wafer job platform on, and be located at wafer handling position 17 and pretreatment position 11 and
It post-processes between position 16, for taking out and loading to wafer job platform out of wafer magazine 10 by polished wafer 100
Pretreatment position 11 and the wafer 100 after polishing operation will be completed from the unloading of the post-processing position 16 of wafer job platform simultaneously
It is put into wafer magazine 10.
In embodiment, wafer handler 2 may be, for example, assembling and disassembling manipulator.Specifically, assembling and disassembling manipulator 2 may include machine
Tool arm and arm transmission mechanism for driving mechanical arm movement.
In some embodiments, the free end band of the mechanical arm has the supporting part for support wafer, described to hold
Support portion may be, for example, pallet or at least two support arms (for example, being pitched by the support that two support arms form X-type or Y type), described
The support face corresponded to support wafer can be formed on pallet or at least two support arms.Certainly, it can more be wrapped on the supporting part
Absorbing unit is included, the supporting part holds 100 back of wafer and keeps certain space to communicate generation negative pressure with atmosphere therewith, this
Sample can consolidate support using the supporting part and live wafer 100 when fetching and delivering wafer 100.
In some embodiments, the free end of the mechanical arm has sucker, and the sucker is suitable for absorption wafer 100
Top surface.
In some embodiments, the free end of the mechanical arm is equipped at least two clamp arm being oppositely arranged, at least
It is formed with grasping part between two clamp arm, suitable for clamping the edge of wafer 100.Generally, by taking two clamp arm as an example, this two
A clamp arm be it is arranged symmetrically, for the two under clamping state, the center for the grasping part that they are constituted is the center of circle with wafer 100
It coincides.Therefore, when using clamp arm de-clamping wafer 100, two clamp arm collapse (that is, two clamp arm move towards), by
Clamping face in clamp arm is resisted against the edge of wafer 100, and during clamp arm collapses simultaneously clamping wafer 100, wafer 100 is by two
Two other clamp arm push and towards the movements of the middle section of grasping part, until wafer 100 is clamped by two clamp arm, this
When, the center of wafer 100 can be located at the center for the grasping part that two clamp arm are constituted.Particularly, to make two clamp arm
Energy is smooth and is held fixedly wafer 100, and clamp arm further includes clamp arm driving mechanism, for driving at least two clamp arm to open and close
Movement.In some embodiments, the clamp arm driving mechanism may be, for example, locking cylinder.In some embodiments, it loads and unloads
It may also comprise pressure sensor on manipulator 2, be applied to clamping force on wafer 100 for detecting, applied to avoid clamp arm
Damage may cause to wafer 100 when the clamping force added is excessive.In some embodiments, in two clamp arm with wafer
Buffer structure can be also equipped on the inner wall of 100 contacts.
In some embodiments, arm transmission mechanism may include driving motor, rotation axis and with rotation axis connection
Cursor, wherein the driving motor and the rotation axis connection, one end of the cursor are coaxially fixed with rotation axis, institute
The other end and the mechanical arm for stating rotation axis are coaxially connected.In addition, the arm transmission mechanism may also include reduction gearbox (not
Show in the drawings), the driving motor is mounted on the input terminal of the reduction gearbox, and the rotation axis is mounted on the reduction gearbox
Output end, the reduction gearbox can be fixed on base 1 by support plate.In practical applications, in some embodiments, preceding
The cursor stated can omit, that is, arm transmission mechanism may include driving motor and rotation axis, wherein the driving motor and institute
Rotation axis connection is stated, the rotation axis is directly coaxially fixed with the mechanical arm.
When shifting wafer 100 using the assembling and disassembling manipulator 2 in embodiment, rotation axis, band turn are driven by driving motor
Swing arm and its mechanical arm of connection rotate around rotation axis, by mechanical arm supporting part or clamp arm by initial position
Where (or default location) is moved to wafer to be extracted at wafer magazine 10;Supporting part support on manipulator's arm lives crystalline substance
The back of circle 100 or the clamp arm on manipulator's arm clamp the edge of wafer 100;Rotation axis, band are driven by driving motor
Turn swing arm and its mechanical arm of connection rotate around rotation axis, by mechanical arm supporting part or clamp arm be moved to and work as
The target location to be stored of the wafer of preceding extraction, the wafer that supporting part or clamp arm on manipulator's arm will currently be extracted
It stores to the target location;Rotation axis is driven by driving motor, drives cursor and its mechanical arm of connection around turning
Moving axis rotates, by mechanical arm supporting part or clamp arm be moved to initial position (or default location).
Wafer transfer device 9 is set to the centered region of the wafer job platform, for that will be loaded by wafer handler 2
Pretreatment position 11, first recess polishing position 12, second recess throwing of the wafer 100 to come up on the wafer job platform
It is sequentially shifted between light position 13, first edge polishing position 14, second edge polishing position 15 and post-processing position 16.
In embodiment, wafer transfer device 9 includes 91 He of turntable of the centered region positioned at the wafer job platform
Multiple transfer robot arms 93 on turntable 91, wherein in each transfer robot arm 93 and the wafer job platform
A certain operation position is corresponding, can be used for wafer under the drive of the turntable from previous operation region transfer to after neighbouring
One operation position.
It is recessed including pretreatment position 11, the first recess polishing position 12, second on the wafer job platform by preceding described
Mouth polishing position 13, first edge polishing position 14, second edge polishing position 15 and post-processing position 16, in embodiment
In, as depicted in figs. 1 and 2, these operation positions are sequentially arranged on wafer job platform in a ring according to flow chart, specifically
Ground, pretreatment position 11, the first recess polishing position 12, the second recess polishing position 13, first edge polish position 14, second
Edge polishing position 15 and post-processing position 16 can be used clock-wise fashion and be set in sequence, certainly, above-mentioned each operation position
Counter-clockwise can also be used to be set in sequence.Sequentially to be shifted between each operation position convenient for wafer 100, these operation areas
Position is angularly is uniformly arranged, that is, the angle between two neighboring operation position is θ=360 °/6=60 °.
It is adapted ground therewith, the transfer robot arm 93 being set on turntable 91 on wafer transfer device 9 can also be equipped with corresponding number
That measures is multiple, these transfer robot arms 93 are uniformly arranged, and the angle between two neighboring transfer robot arm 93 is equal to corresponding phase
Angle between adjacent two operation positions.It is in view of the wafer after the cleaning of wafer cleaning device 8 on post-treated position 16
It from the unloading of post-processing position 16 rather than is transferred to by wafer handler 2 and pre-processes position, that is, wafer handler 2 is located at
It pre-processes between position 11 and post-processing position 16, it can be by polished wafer using the assembling and disassembling manipulator 2 of wafer handler 2
100 load to pretreatment position 11 and unload the wafer 100 after completion polishing operation from post-processing position 16, therefore,
Transfer robot arm that no setting is required between post-processing position 16 and pretreatment position 11.In this way, in embodiment, wafer transfer device
The quantity for the transfer robot arm 93 being set on turntable 91 on 9 is five, this five transfer robot arms are angularly to be uniformly arranged,
That is, the angle between two neighboring transfer robot arm is 60 °.Specifically, first transfer robot arm 93 is used for pretreating zone
Wafer 100 on position 11 is transferred on the first recess polishing position 12, opposite first transfer robot arm of the second transfer robot arm 93
93 are separated by 60 ° of settings, and the wafer 100 for polishing the first recess on position 12 is transferred to the second recess polishing position 13,
Third transfer robot arm 93 is separated by 60 ° of settings with respect to the second transfer robot arm 93, for polishing the second recess on position 13
Wafer 100 is transferred on first edge polishing position 14, and the opposite third transfer robot arm 93 of the 4th transfer robot arm 93 is separated by 60 °
Setting, the wafer 100 for polishing first edge on position 14 are transferred to second edge polishing position 15, the 5th transfer
Tool hand 93 is separated by 60 ° of settings with respect to the 4th transfer robot arm 93, shifts for second edge to be polished the wafer 100 on position 15
To post-processing position 16.In practical applications, it can configure turntable driving motor on turntable 91, for driving 91 turns of turntable
It is dynamic.In practical applications, the turntable driving motor can realize the rotation of positive and reverse steering.It is rotated by driving turntable 91, such as
60 ° of rotation, then in single revolution, using transfer robot arm 93 by the wafer 100 respectively extracted all by respectively corresponding to
Previous operation region transfer to neighbouring the latter operation position, realize that each wafer 100 is quickly on multiple operation positions
Smoothly transfer.
For the transfer robot arm 93 in wafer transfer device 9, there can be different implementations.
In some embodiments, transfer robot arm 93 may include the supporting part for support wafer and be used for supporting part
It is connected to the support arm of turntable 91, wherein the supporting part may be, for example, pallet or at least two support arms (for example, being held by two
Trailing arm forms the support fork of X-type or Y type), the pallet or at least two support arms can form and correspond to holding to support wafer
Support.It certainly, more may include absorbing unit on the supporting part, supporting part holds 100 back of wafer and keeps certain empty therewith
Between generation negative pressure is communicated with atmosphere, in this way, can be consolidated using supporting part when fetching and delivering wafer 100 and hold wafer 100.?
When shifting wafer 100, first by the supporting part of transfer robot arm 93 by 100 support of wafer on corresponding previous operation position
Firmly, then turntable 91 is driven to rotate a predetermined angle, so that mobilization manipulator 93 and its wafer of support 100 are by previous work
Industry region transfer is to neighbouring the latter operation position.
In some embodiments, one end of the mechanical arm has sucker, and the sucker is suitable for adsorbing wafer 100
Top surface.When shifting wafer 100, first by the sucker of transfer robot arm 93 by the wafer 100 on corresponding previous operation position
It is sucked, then turntable 91 is driven to rotate a predetermined angle, so that mobilization manipulator 93 and its wafer 100 of absorption are by previous
Operation region transfer is to neighbouring the latter operation position.
In some embodiments, transfer robot arm 93 may include at least two clamp arm being oppositely arranged, at least two folders
Grasping part is formed between arm, suitable for clamping the edge of wafer 100.By taking two clamp arm as an example, when shifting wafer 100,
The edge of wafer 100 first is clamped by two clamp arm of transfer robot arm 93, then turntable 91 is driven to rotate a predetermined angle, thus
Mobilization manipulator 93 and its wafer 100 of clamping are by previous operation region transfer to neighbouring the latter operation position.
Generally, for two clamp arm under clamping state, the center for the grasping part that they are constituted is coincided with the center of circle of wafer 100
's.Therefore, when using clamp arm de-clamping wafer 100, two clamp arm are collapsed, and are resisted against wafer 100 by the clamping face in clamp arm
Edge, collapsed in clamp arm and during clamping wafer 100, wafer 100 is pushed by two clamp arm of both sides and towards folder
The middle section for holding space is mobile, until wafer 100 is clamped by two clamp arm, at this point, the center of wafer 100 can be located at two
The center for the grasping part that a clamp arm is constituted.Particularly, to enable two clamp arm smooth and be held fixedly wafer
100, clamp arm further includes clamp arm driving mechanism, for driving at least two clamp arm to make opening and closing movement.In some embodiments, institute
Stating clamp arm driving mechanism may be, for example, locking cylinder.Certainly, it may also comprise pressure sensor on assembling and disassembling manipulator 2, for detecting
It is applied to clamping force on wafer 100, the clamping force applied to avoid clamp arm may cause wafer 100 when excessive
Damage.In addition, can also be equipped with buffer structure on the inner wall contacted in two clamp arm with wafer 100.
Generally, in the case of without using wafer transfer device 9 to shift wafer 100, that is, wafer transfer device 9
In a non-operative state (alternatively referred to as under original state), each transfer robot arm 93 in wafer transfer device 9 is to be located at phase
Region between adjacent two operation positions.For ease of description, we are by wafer transfer device 9 in inoperative in subsequent descriptions
Position when under state is known as initial position.We can set as follows: the initial position of wafer transfer device with it is previous
Angle between operation position is first angle, and the angle between previous operation position and adjacent the latter operation position is
Second angle, the angle between the initial position and adjacent the latter operation position is third angle, wherein the first angle
It is equal to the second angle with the sum of third angle.In practical applications, when utilizing 93 turns of transfer robot arm in wafer transfer device 9
When moving wafer 100, drives turntable 91 to turn to first and rotate first angle, so that transfer robot arm 93 is transferred to by initial position
Corresponding previous operation position (transfer robot arm 93 can be known as extracting position in the position of previous operation position);Control
Transfer robot arm 93 extracts the wafer 100 on previous operation position in the extraction position by transfer robot arm 93;Driving turns
Platform 91 is turned to second rotates second angle, and mobilization manipulator 93 and its wafer 100 extracted are by previous operation position
Being transferred to neighbouring the latter operation position (can be known as putting position in the position of the latter operation position for transfer robot arm 93
It sets);Transfer robot arm 93 is controlled, wafer is placed in the latter operation position in the placement location by transfer robot arm 93
On;It drives turntable 91 to turn to first and rotates third angle, so that transfer robot arm 93 returns to initial position by placement location.
In some embodiments, the initial position of the transfer robot arm in wafer transfer device 9 is two neighboring operation
The middle position of position, that is, each transfer robot arm 93 in wafer transfer device 9 is centered at adjacent two in a non-operative state
Between a operation position.As previously mentioned, in Fig. 1 and embodiment shown in Fig. 2, the angle between two neighboring operation position is
60 °, in this way, the angle between transfer robot arm 93 and the two neighboring operation position of the left and right sides is 30 °, that is, in aforementioned
First angle is 30 °, and second angle is 60 °, and third angle is 30 °.Therefore, under above-mentioned angle design, turn when using wafer
When transfer robot arm 93 in moving device 9 shifts wafer 100, turntable 91 is driven to turn to 30 ° of rotation with first, mobilization is mechanical
Hand 93 is turned to the extraction position of previous operation position by initial position;Transfer robot arm 93 is controlled, by transfer robot arm 93
The wafer 100 on previous operation position is extracted in the extraction position;It drives turntable 91 to turn to 60 ° of rotation with second, drives
Transfer robot arm 93 and its wafer 100 extracted are by previous operation region transfer to the storing of neighbouring the latter operation position
Position;Transfer robot arm 93 is controlled, wafer is placed in the latter operation position in the placement location by transfer robot arm 93
On;Turntable 91 is driven to turn to 30 ° of rotation with first, mobilization manipulator 93 returns to initial position by placement location.Certainly, on
The setting for stating the angle between angle and transfer robot arm 93 and operation position between two neighboring operation position is only to show
Example property explanation, is not intended to limit the protection scope of the application, substantially, above-mentioned all angles still can be according to wafer multistation side
Integral layout or the control system of edge polissoir and have different variations.
To avoid the interference of other adjacent operation positions to ensure when executing corresponding operation on each operation position
Independence and safety are provided with protective device on each operation position in the application wafer multistation edge polishing equipment.
In embodiment, the protective device may be, for example, protective plate, in this way, the opposite sides in each operation position can be set respectively
Set a protective plate, that is, the opposite sides of pretreatment position 11 set there are two protective plate, the first recess polishing position 12 opposite two
Side set there are two protective plate, the second recess polishing position 13 opposite sides set there are two protective plate, first edge polishing position
14 opposite sides sets the opposite sides for polishing position 15 there are two protective plate, second edge and sets there are two protective plate, post-processes
The opposite sides of position 16 is set there are two protective plate.In this way, when each operation position executes corresponding operation, independently of each other mutually not
Interference.For example, the first recess polishing position 12, the second recess polishing position 13, first edge polishing position 14, second edge throwing
The polishing fluid that may be used when executing related polishing operation in light position 15 would not dissipate out, post-process in position 16 and execute crystalline substance
The cleaning solution that may be used when circle washing and cleaning operation would not dissipate out.
But, for pre-processing position, due to being only to carry out pretreatment behaviour for the wafer on pretreatment position
Make, therefore, in view of this, that side of adjacent wafer handler 2 can not also install protective plate in pretreatment position.In this way,
For protective plate is not installed in that side to pre-process adjacent wafer handler 2 in position, the rear side of pretreatment position 11 is set
There is protective plate PA, the front side that the first recess polishes position is equipped with protective plate PB, and the first transfer robot arm 93 is located at pretreatment position
Between 11 protective plate PA and the protective plate PB of the first recess polishing position 12, the rear side that the first recess polishes position 12 is equipped with anti-
Backplate PA, the front side that the second recess polishes position 13 are equipped with protective plate PB, and the second transfer robot arm 93 is located at the polishing of the first recess
Between the protective plate PA of position 12 and the protective plate PB of the second recess polishing position 13, the rear side of the second recess polishing position 13 is set
There is protective plate PA, the front side that first edge polishes position 14 is equipped with protective plate PB, and third transfer robot arm 93 is located at the second recess
It polishes between the protective plate PA of position 13 and the protective plate PB of first edge polishing position 14, after first edge polishes position 14
Side is equipped with protective plate PA, and the front side that second edge polishes position 15 is equipped with protective plate PB, and the 4th transfer robot arm 93 is located at first
Between the protective plate PB of protective plate PA and second edge the polishing position 15 of edge polishing position 14, second edge polishes position 15
Rear side be equipped with protective plate PA, the front side of post-processing position 16 is equipped with protective plate PB, and the 5th transfer robot arm 93 is located at the second side
Edge polishes between the protective plate PA of position 15 and the protective plate PB of post-processing position 16, and the rear side of post-processing position 16 is equipped with protection
Plate PA.Generally, each transfer robot arm 93 in wafer transfer device 9 is centered at two neighboring operation in a non-operative state
On initial position between position, transfer robot arm 93 waits instruction on initial position, at this point, being located at 93 phase of transfer robot arm
Closed state is in the protective plate PA and protective plate PB of two sides.
In some embodiments, the protective plate can design for open-close type.For example, the protective plate can be by opening and closing left and right
Two fan movable plates composition, alternatively, the protective plate can by open and close up and down two fan movable plates form.When operation position executes phase
When the operation answered, two fan activity plate closings, when needing to shift wafer 100, two fan movable plates are turned on.
In some embodiments, the middle position of the protective plate can offer opening, and can be equipped in the opening can
The dodge gate of folding.When operation position executes corresponding operation, the dodge gate on the protective plate is just closed, when needing to shift
When wafer 100, the dodge gate on the protective plate is turned on.
For opening up dodge gate on the protective plate, when needing transfer robot arm 93 by wafer 100 by previous operation
When region transfer to latter operation position, protective plate PA (the i.e. work on opening protective plate PA on rear side of previous operation position is opened
Dynamic door is to manifest opening), by the transfer robot arm 93 between previous operation position and latter operation position from initial bit
It sets to turn to 30 ° of rotation with first and enter previous operation position across the opening of protective plate PA and extracts wafer 100 (such as Fig. 3 institute
Show), the protective plate PB (i.e. dodge gate on opening protective plate PB is to manifest opening) on front side of latter operation position is opened, by turning
It moves manipulator 93 and turns to 60 ° of rotation and across the opening of protective plate PA to exit previous operation position and across protective plate with second
Wafer 100 is transferred in latter operation position (as shown in Figure 4), with entering latter operation position at this point, can close by the opening of PB
The protective plate PA on rear side of previous operation position (i.e. dodge gate on closing protective plate PA) is closed, by transfer robot arm 93 with first turn
To 30 ° of rotation and across the opening of protective plate PB to return to initial position after exiting latter operation position, latter operation area is closed
The protective plate PB (i.e. dodge gate on closing protective plate PB) of position front side.
Below in the application wafer multistation edge polishing equipment each operation position and corresponding apparatus for work
It is described in detail.
As previously mentioned, the wafer job platform can process the specific job content of operation according to wafer and be divided into pre- place
Manage position 11, the first recess polishing position 12, the second recess polishing position 13, first edge polishing position 14, second edge throwing
Light position 15 and post-processing position 16, wherein be correspondingly arranged on wafer detecting apparatus 3 on pretreatment position 11, first
The first wafer bevel polishing device 4 is correspondingly arranged on recess polishing position 12, correspondence is set on the second recess polishing position 13
It is equipped with the second wafer bevel polishing device 5, is correspondingly arranged on the first crystal round fringes polishing dress on first edge polishing position 14
It sets 6, the second crystal round fringes burnishing device 7 is correspondingly arranged on second edge polishing position 15, is right on post-processing position 16
Wafer cleaning device 8 should be provided with.In embodiment, wafer handled by the application wafer multistation edge polishing equipment has
Notch (recess), therefore, the first wafer bevel polishing device 4 and the second wafer bevel polishing device 5 are for the recessed of wafer
Mouth carries out recess polishing, but is not limited thereto, for example, in other embodiments, if handled is with flat (pingbian)
Wafer when, the first wafer bevel polishing device 4 and the second wafer bevel polishing device 5 can be changed to the first wafer pingbian respectively
Burnishing device and the second wafer pingbian burnishing device, for being polished to the pingbian of progress.
When utilization wafer handler 2 loads polished wafer 100 to the pretreatment position 11 of wafer job platform
Afterwards, detection operation can be carried out to wafer 100 by wafer detecting apparatus 3.In embodiment, the detection operation includes but is not limited to
The detection of wafer recess, the detection of wafer flatness detection, crystal round fringes etc..
The central position for pre-processing position 11 is equipped with rotation plummer, is used for support wafer 100.Certainly, rotation carrying
It may also comprise absorbing unit at the top of platform, rotate 100 back of plummer support wafer and keep certain space and big gas phase therewith
It is logical to generate negative pressure, in this way, wafer 100 will not be damaged to while firm support lives wafer 100.Rotation plummer can be with
The rotary table that wafer 100 is adapted to, but be not limited thereto, shape can also be rectangle platform, triangle table or other similar structures.
When using plummer support wafer 100 is rotated, wafer 100 is horizontality.In embodiment, rotation plummer may be designed as
Can spinning motion, for example, rotation plummer relative to wafer job platform have shaft to realize spinning motion, in this way, when rotation
After vicarious microscope carrier support wafer 100, rotation plummer can drive the wafer 100 thereon to rotate.
The side of rotation plummer is arranged in wafer detecting apparatus 3, for carrying out detection operation to wafer 100.
It in some embodiments, include that wafer recess detects in the detection operation, for detecting wafer recess.With crystalline substance
For circle recess detection, the wafer recess detection device as wafer detecting apparatus 3 may be, for example, vision inspection apparatus, the view
Feel that detection device includes at least the video camera and image recognition software of high pixel resolution, so as to precisely and rapidly detect
The position of notch (recess).Certainly, vision inspection apparatus may also include light source (such as LED light source), can reduce to the maximum extent
Influence of the surrounding enviroment to image.When detecting, driving vision inspection apparatus is moved to close to crystal round fringes, such as by video camera
The surface of crystal round fringes and the apart default spacing of wafer 100 1, driving rotation plummer drive it with a default rotation speed
On wafer 100 rotate, in this way, the notch of wafer 100 can be detected by vision inspection apparatus and be determined.It is determined when through detection
After the notch of wafer 100, driving rotation plummer drives the notch of wafer 100 thereon to turn to a designated position.
In some embodiments, may include in the detection operation wafer flatness detection, crystal round fringes detection etc., that
, wafer detecting apparatus 3 may be, for example, wafer flatness detecting device, crystal round fringes detection device etc..
In addition, can also have other pretreatments other than being correspondingly arranged on wafer detecting apparatus 3 on pretreatment position 11
Device, for example, wafer centring means.The wafer centring means is for feeling relieved to wafer.In some embodiments, institute
It states wafer centring means and drives wafer to set middle positioning for clamping the edge of wafer including at least two clamping pieces.
It is formed with grasping part between at least two clamping pieces in the wafer centring means, suitable for clamping wafer
Edge.Generally, at least two clamping piece is arranged symmetrically, in the grasping part that they are constituted under clamping state
The heart is coincided with the center of circle of wafer.Therefore, when using at least two clamping piece de-clamping wafers, at least two clamping pieces
It collapses (that is, at least two clamping pieces move towards), the edge of wafer is resisted against by the clamping face at least two clamping pieces,
At least two clamping pieces collapse and clamping wafer during, wafer is pushed by least two clamping pieces and towards grasping part
Middle section it is mobile, until wafer is clamped by least two clamping pieces, at this point, the center of wafer can be located at least two
The center for the grasping part that clamping piece is constituted, so that completes wafer sets middle positioning.
First wafer bevel polishing device 4 is set on the first recess polishing position 12 of wafer job platform, for crystalline substance
The recess of circle 100 carries out the first recess polishing operation.In embodiment, the first wafer bevel polishing device 4 may be, for example, wafer
Recess rough polishing electro-optical device carries out recess rough polishing operation for the recess to wafer.
Wafer recess rough polishing electro-optical device 4 includes: wafer carrying platform and wafer recess rough polishing mechanism.
Wafer carrying platform is set to the central position of the first recess polishing position 12, is used for support wafer 100.Certainly, brilliant
The top of circle plummer more may include absorbing unit, 100 back of wafer carrying platform support wafer and keep therewith certain space and
Atmosphere communicates generation negative pressure, in this way, will not be damaged to wafer 100 while firm support lives wafer 100.Wafer carrying platform can
It to be the rotary table being adapted to wafer 100, but is not limited thereto, shape can also be similar for rectangle platform, triangle table or others
Structure.When using wafer carrying platform support wafer 100, wafer 100 is horizontality.In addition, being so that wafer carrying platform is held
Wafer 100 can be kept to stablize after support wafer 100, in embodiment, the also settable wafer stabilizing structure in wafer carrying platform,
In certain embodiments, the wafer stabilizing structure may be, for example, the multiple limited blocks or backstop for being set to wafer carrying platform periphery
Item etc..In some embodiments, wafer carrying platform can also be designed as can spinning motion, for example, wafer carrying platform is relative to crystalline substance
Circle job platform has shaft to realize spinning motion, in this way, passing through driving after wafer carrying platform support wafer 100
Wafer carrying platform can drive wafer 100 thereon to rotate.
Generally, due to carry out wafer recess to wafer by such as wafer detecting apparatus on pretreatment position 11
Detection, wafer centring means the pretreatment, therefore, the transfer in utilization wafer transfer device 9 such as feel relieveds to wafer
Tool hand 93 by wafer 100 from pretreatment position 11 be transferred to the first recess polishing position 12 wafer carrying platform on when, can be not necessarily to
The operations such as recess detection and centering are made to wafer 100 again.But, in some embodiments, if necessary, can also be, for example,
First recess polishes position 12 or wafer detecting apparatus or wafer centring means etc. is arranged in subsequent other similar being used as on position.
The side of wafer carrying platform, the wafer for being carried to wafer carrying platform is arranged in wafer recess rough polishing mechanism
100 carry out recess rough polishing operation.
In embodiment, wafer recess rough polishing mechanism can include: rough polishing idler wheel, idler wheel rotating electric machine and idler wheel
Shift mechanism.
The rough polishing idler wheel is rotationally connected in an installing arm by shaft, is turned for being controlled by idler wheel rotating electric machine
Rough polishing that is dynamic and implementing recess by the recess of contact wafer 100.In embodiment, the rough polishing idler wheel has first
Roughness.As previously mentioned, the horizontal support wafer 100 of wafer carrying platform, therefore, the rough polishing smooth roll in wafer recess rough polishing mechanism
Wheel is vertically arranged.
The idler wheel shift mechanism is for driving the rough polishing idler wheel to shift.In some embodiments, the idler wheel
Shift mechanism may be, for example, driving and reversing mechanism, and the driving and reversing mechanism can drive the rough polishing idler wheel to retreat, close to or far from wafer
100.In practical applications, the driving and reversing mechanism can be used the combination of sliding block and sliding rail combination ball-screw and servo motor, turn
Moving gear and the combination of rack gear etc..In some embodiments, the idler wheel shift mechanism is, for example, three-dimensional displacement mechanism, described
Three-dimensional displacement mechanism can include: advance and retreat shift mechanism swings shift mechanism and lifting and translocating mechanism.In practical applications, institute
Stating three-dimensional displacement mechanism can be used combination, rotate gear and combination of rack gear of sliding block and sliding rail etc..
When carrying out recess rough polishing operation to wafer 100 using wafer recess rough polishing electro-optical device 4, wafer 100 is put
In in wafer carrying platform, wafer 100 is carried by the wafer carrying platform and is kept fixed;Enable idler wheel rotating electric machine driving institute
State the rotation of rough polishing idler wheel;According to the notch position of wafer 100, enable the idler wheel shift mechanism that the rough polishing idler wheel is driven to move
Position is gradually close by the rough polishing idler wheel until touching the recess of wafer 100 to implement recess to recess polishing position
Rough polishing.And during implementing rough polishing to recess, the idler wheel shift mechanism can still be enabled to drive the rough polishing idler wheel
Displacement is to adjust recess polishing position.By taking three-dimensional displacement mechanism as an example, by enabling the idler wheel shift mechanism drive the rough polishing
Smooth roll wheel is retreated to adjust the advance and retreat in opposed recesses depth, by enabling the idler wheel shift mechanism drive the rough polishing idler wheel
It swings to adjust the swing on opposed recesses width, to may make the rough polishing halo that can cover the recess of wafer 100
All polished regions, it is ensured that the complete rough polishing of the recess.
For the harmony for ensuring idler wheel rotating electric machine and idler wheel shift mechanism, in some embodiments, the idler wheel rotation
Rotating motor and the idler wheel shift mechanism can be connect with a controller together, controlled the idler wheel by the controller coordinate and rotated
Motor and the idler wheel shift mechanism.Specifically, the controller and the rough polishing idler wheel and the idler wheel shift mechanism connect
It connects, drives the rough polishing idler wheel to shift and control the rough polishing idler wheel rotation simultaneously for controlling the idler wheel shift mechanism
Implement the rough polishing of recess by contacting the recess of wafer 100 by the rough polishing idler wheel.As previously mentioned, in certain embodiment party
In formula, the idler wheel shift mechanism be driving and reversing mechanism, therefore, the controller is connect with the advance and retreat shift mechanism, be used for
The advance and retreat shift mechanism sends corresponding shift control instruction, to drive rough polishing idler wheel predetermined by displacement arrival of retreating
Rough polishing optical position and can be able at the rough polishing optical position contact wafer 100 recess.In some embodiments, described
Idler wheel shift mechanism is the three-dimensional displacement mechanism for including advance and retreat shift mechanism, swing shift mechanism and lifting and translocating mechanism, because
This, the controller is connect with advance and retreat shift mechanism, swing shift mechanism and lifting and translocating mechanism, for shifting to retreating
Mechanism, swing shift mechanism and lifting and translocating mechanism send corresponding shift control instruction respectively, to drive rough polishing idler wheel
Scheduled rough polishing optical position is reached by three-dimensional displacement and the recessed of contact wafer 100 can be able at the rough polishing optical position
Mouthful.In addition, the controller is connect with the idler wheel rotating electric machine of rough polishing idler wheel, for sending phase to the idler wheel rotating electric machine
The rotation control instruction answered, to control steering and the revolving speed of rough polishing idler wheel.
Second wafer bevel polishing device 5 is set on the second recess polishing position 13 of wafer job platform, for crystalline substance
The recess of circle 100 carries out the second recess polishing operation.In embodiment, the second wafer bevel polishing device 5 may be, for example, wafer
Recess finishing polish device carries out recess finishing polish operation for the recess to wafer.
Wafer recess finishing polish device 5 includes: wafer carrying platform and wafer recess finishing polish mechanism.
Wafer carrying platform is set to the central position of the second recess polishing position 13, is used for support wafer 100.Certainly, brilliant
The top of circle plummer more may include absorbing unit, 100 back of wafer carrying platform support wafer and keep therewith certain space and
Atmosphere communicates generation negative pressure, in this way, will not be damaged to wafer 100 while firm support lives wafer 100.Wafer carrying platform can
It to be the rotary table being adapted to wafer 100, but is not limited thereto, shape can also be similar for rectangle platform, triangle table or others
Structure.When using wafer carrying platform support wafer 100, wafer 100 is horizontality.In addition, being so that wafer carrying platform is held
Wafer 100 can be kept to stablize after support wafer 100, in embodiment, the also settable wafer stabilizing structure in wafer carrying platform,
In certain embodiments, the wafer stabilizing structure may be, for example, the multiple limited blocks or backstop for being set to wafer carrying platform periphery
Item etc..In some embodiments, wafer carrying platform can also be designed as can spinning motion, for example, wafer carrying platform is relative to crystalline substance
Circle job platform has shaft to realize spinning motion, in this way, passing through driving after wafer carrying platform support wafer 100
Wafer carrying platform can drive wafer 100 thereon to rotate.
Generally, due to carry out wafer recess to wafer by such as wafer detecting apparatus on pretreatment position 11
Detection, wafer centring means the pretreatment, therefore, the transfer in utilization wafer transfer device 9 such as feel relieveds to wafer
Tool hand 93 by wafer 100 from pretreatment position 11 be transferred to the second recess polishing position 13 wafer carrying platform on when, can be not necessarily to
The operations such as recess detection and centering are made to wafer 100 again.But, in some embodiments, if necessary, can also be, for example,
Second recess polishes position 13 or wafer detecting apparatus or wafer centring means etc. is arranged in subsequent other similar being used as on position.
The side of wafer carrying platform, the wafer for being carried to wafer carrying platform is arranged in wafer recess finishing polish mechanism
100 carry out recess finishing polish operation.
In embodiment, wafer recess finishing polish mechanism can include: finishing polish idler wheel, idler wheel rotating electric machine and idler wheel
Shift mechanism.
The finishing polish idler wheel is rotationally connected in an installing arm by shaft, is rotated for being controlled by a rotating electric machine
And implement the finishing polish of recess by the recess of contact wafer 100.In embodiment, the finishing polish idler wheel is thick with second
Rugosity, wherein the second roughness of the finishing polish idler wheel is less than the second roughness of the rough polishing idler wheel.Such as preceding institute
It states, the horizontal support wafer 100 of wafer carrying platform, therefore, the finishing polish idler wheel in wafer recess finishing polish mechanism are vertically arranged.
The idler wheel shift mechanism is for driving the finishing polish idler wheel to shift.In some embodiments, the idler wheel
Shift mechanism may be, for example, driving and reversing mechanism, and the driving and reversing mechanism can drive the finishing polish idler wheel to retreat, close to or far from wafer
100.In practical applications, the driving and reversing mechanism can be used the combination of sliding block and sliding rail combination ball-screw and servo motor, turn
Moving gear and the combination of rack gear etc..In some embodiments, the idler wheel shift mechanism is, for example, three-dimensional displacement mechanism, described
Three-dimensional displacement mechanism can include: advance and retreat shift mechanism swings shift mechanism and lifting and translocating mechanism.In practical applications, institute
Stating three-dimensional displacement mechanism can be used combination, rotate gear and combination of rack gear of sliding block and sliding rail etc..
When carrying out recess finishing polish operation to wafer 100 using wafer recess finishing polish device 5, wafer 100 is put
In in wafer carrying platform, wafer 100 is carried by the wafer carrying platform and is kept fixed;Enable idler wheel rotating electric machine driving institute
State the rotation of finishing polish idler wheel;According to the notch position of wafer 100, enable the idler wheel shift mechanism that the finishing polish idler wheel is driven to move
Position is gradually close by the finishing polish idler wheel until touching the recess of wafer 100 to implement recess to recess polishing position
Finishing polish.And during implementing finishing polish to recess, the idler wheel shift mechanism can still be enabled to drive the finishing polish idler wheel
Displacement is to adjust recess polishing position.By taking three-dimensional displacement mechanism as an example, by enabling the idler wheel shift mechanism that the essence is driven to throw
Smooth roll wheel is retreated to adjust the advance and retreat in opposed recesses depth, by enabling the idler wheel shift mechanism drive the finishing polish idler wheel
It swings to adjust the swing on opposed recesses width, to may make the finishing polish wheel that can cover the recess of wafer 100
All polished regions, it is ensured that the complete finishing polish of the recess.
For the harmony for ensuring idler wheel rotating electric machine and idler wheel shift mechanism, in some embodiments, the idler wheel rotation
Rotating motor and the idler wheel shift mechanism can be connect with a controller together, controlled the idler wheel by the controller coordinate and rotated
Motor and the idler wheel shift mechanism.Specifically, the controller and the finishing polish idler wheel and the idler wheel shift mechanism connect
It connects, drives the finishing polish idler wheel to shift and control the finishing polish idler wheel rotation simultaneously for controlling the idler wheel shift mechanism
Implement the finishing polish of recess by contacting the recess of wafer 100 by the finishing polish idler wheel.As previously mentioned, in certain embodiment party
In formula, the idler wheel shift mechanism be driving and reversing mechanism, therefore, the controller is connect with the advance and retreat shift mechanism, be used for
The advance and retreat shift mechanism sends corresponding shift control instruction, to drive finishing polish idler wheel predetermined by displacement arrival of retreating
Finishing polish position and can be able at the finishing polish position contact wafer 100 recess.In some embodiments, described
Idler wheel shift mechanism is the three-dimensional displacement mechanism for including advance and retreat shift mechanism, swing shift mechanism and lifting and translocating mechanism, because
This, the controller is connect with advance and retreat shift mechanism, swing shift mechanism and lifting and translocating mechanism, for shifting to retreating
Mechanism, swing shift mechanism and lifting and translocating mechanism send corresponding shift control instruction respectively, to drive finishing polish idler wheel
Scheduled finishing polish position is reached by three-dimensional displacement and the recessed of contact wafer 100 can be able at the finishing polish position
Mouthful.In addition, the controller is connect with the idler wheel rotating electric machine of finishing polish idler wheel, for sending phase to the idler wheel rotating electric machine
The rotation control instruction answered, to control steering and the revolving speed of finishing polish idler wheel.
In the foregoing it is found that the first wafer bevel polishing device 4 may be, for example, wafer recess rough polishing electro-optical device, for crystalline substance
Round recess carries out recess rough polishing operation, and the second wafer bevel polishing device 5 may be, for example, wafer recess finishing polish device, uses
Recess finishing polish operation is carried out in the recess to wafer, but is not limited thereto, in other embodiments, the first wafer recess is thrown
Electro-optical device 4 and the second wafer bevel polishing device 5 can still make other variations.For example, the first wafer is recessed in a certain embodiment
Mouth burnishing device 4 is identical with 5 structure of the second wafer bevel polishing device, wherein the first wafer bevel polishing device 4 is used for crystalline substance
Round recess is carried out along polishing on notch edge polishing and recess, and the second wafer bevel polishing device 5 is used for the recess to wafer
Notch edge polishing and the polishing of recess lower edge are carried out, alternatively, the first wafer bevel polishing device 4 is used to carry out the recess of wafer
Notch edge polishing and the polishing of recess lower edge, the second wafer bevel polishing device 5 are used to carry out notch edge to the recess of wafer
Along polishing in polishing and recess, pass through the first wafer bevel polishing device 4 and the second wafer bevel polishing device 5, on the one hand, energy
The recess polishing operation to the recess of wafer is completed, on the other hand, single wafer bevel polishing device executes entire recess polishing
A part of workload of operation, can be improved the working efficiency of recess polishing operation.
In practical applications, the application can separately disclose a kind of wafer bevel polishing device, comprising: wafer carrying platform and wafer
Recess polishing mechanism, wherein for carrying wafer, the wafer recess polishing mechanism further includes the wafer carrying platform: polishing
Idler wheel;Idler wheel rotating electric machine, for driving the polishing idler wheel to rotate;Idler wheel shift mechanism, for driving polishing idler wheel displacement
The recess of the wafer carried to the correspondence wafer carrying platform is to enable the polishing idler wheel carry out for the recess of the wafer
Recess polishing.
In one exemplary embodiment, in the wafer bevel polishing device, it can configure a wafer recess polishing machine
Structure sees Fig. 5.For example, in a specific implementation, the wafer bevel polishing device include a wafer carrying platform and
One wafer recess polishing mechanism, alternatively, the wafer bevel polishing device includes a wafer in a specific implementation
Plummer and a wafer recess rough polishing mechanism, alternatively, in another specific implementation, the wafer bevel polishing device
Including a wafer carrying platform and a wafer recess finishing polish mechanism.
In one exemplary embodiment, in the wafer bevel polishing device, two wafer recess polishing machines be can configure
Structure sees Fig. 6.For example, the wafer bevel polishing device includes two wafer carrying platforms in a specific implementation,
Wherein, a wafer carrying platform is correspondingly configured with a wafer recess rough polishing mechanism, and another wafer carrying platform correspondence is matched
It is equipped with a wafer recess finishing polish mechanism.Alternatively, the wafer bevel polishing device includes two in a specific implementation
A wafer carrying platform a, wherein wafer carrying platform is correspondingly configured with the first wafer recess polishing mechanism, and another wafer is held
Microscope carrier is correspondingly configured with the second wafer recess polishing mechanism.
Certainly, as configured in the wafer bevel polishing device of each exemplary embodiment wafer carrying platform, crystalline substance
The work of the structure and the wafer bevel polishing device of circle recess rough polishing mechanism and wafer recess finishing polish mechanism is former
Reason, which is seen, to be described above, and details are not described herein.
First crystal round fringes burnishing device 6 is set on the first edge polishing position 14 of wafer job platform, for crystalline substance
The edge (in addition to recess) of circle 100 carries out first edge polishing operation.In embodiment, the first crystal round fringes burnishing device 6
It may be, for example, crystal round fringes rough polishing electro-optical device, carry out edge rough polishing operation for the edge (in addition to recess) to wafer 100.
Crystal round fringes rough polishing electro-optical device 6 includes wafer carrying platform and crystal round fringes rough polishing mechanism.
Wafer carrying platform is set to the central position of first edge polishing position 14, is used for support wafer 100.Certainly, brilliant
The top of circle plummer more may include absorbing unit, 100 back of wafer carrying platform support wafer and keep therewith certain space and
Atmosphere communicates generation negative pressure, in this way, will not be damaged to wafer 100 while firm support lives wafer 100.Wafer carrying platform can
It to be the rotary table being adapted to wafer 100, but is not limited thereto, shape can also be similar for rectangle platform, triangle table or others
Structure.When using wafer carrying platform support wafer 100, wafer 100 is horizontality.In embodiment, wafer carrying platform can
Be designed as can spinning motion, for example, wafer carrying platform is movably arranged on wafer job platform by shaft, and, the shaft with
One plummer rotating electric machine connection, to realize spinning motion.In this way, wafer is held after wafer carrying platform support wafer 100
Microscope carrier can drive wafer 100 thereon to rotate under the control of the plummer rotating electric machine.In practical applications, the carrying
Platform rotating electric machine can send to wafer carrying platform and correspondingly rotate control instruction, to control steering and the revolving speed of wafer carrying platform.
Generally, due to carry out wafer recess to wafer by such as wafer detecting apparatus on pretreatment position 11
Detection, wafer centring means the pretreatment, therefore, the transfer in utilization wafer transfer device 9 such as feel relieveds to wafer
When wafer 100 is transferred in the wafer carrying platform of first edge polishing position 14 by tool hand 93, it can no longer need to make wafer 100 recessed
The operations such as mouth detection and centering.It but, in some embodiments, if necessary, can also be in for example, first edge polishing area
Wafer detecting apparatus or wafer centring means etc. is arranged in other similar being used as on position in position 14 or subsequent.
The wafer 100 that crystal round fringes rough polishing mechanism is used to carry wafer carrying platform carries out edge rough polishing work
Industry.In embodiment, the top of wafer carrying platform, the crystal round fringes rough polishing is arranged in crystal round fringes rough polishing mechanism
Mechanism can include: rough polishing turntable 61, edge rough polishing optical assembly, turntable rotating electric machine and turntable shift mechanism.
Rough polishing turntable 61 is connect by shaft with the turntable rotating electric machine, can be controlled by the turntable rotating electric machine and
Rotation.Referring to Fig. 7, being the structural schematic diagram of crystal round fringes rough polishing mechanism.As shown in Figure 1 and Figure 7, rough polishing turntable 61 can
The surface on the cover body structure of wafer multistation edge polishing equipment and being located at wafer carrying platform is set to by shaft.In reality
In the application of border, the turntable rotating electric machine can send to rough polishing turntable 61 and correspondingly rotate control instruction, to control rough polishing
The steering of turntable 61 and revolving speed.
Multiple edge rough polishing optical assemblies are evenly arranged at the edge of rough polishing turntable 61, wherein each edge rough polishing
Optical assembly includes that axis is connected to the overturning main body at 61 edge of rough polishing turntable, set on the edge rough polishing of the overturning bottom part body
Part and set on it is described overturning body top hinge, the edge rough polishing part have the first roughness.
Due to needing to make the edge of wafer 100 round and smooth after carrying out edge rough polishing operation by the edge to wafer 100,
The edge rough polishing optical assembly is more can include: outer circular edge rough polishing optical assembly 62, edge rough polishing component 64 suitable for reading and lower mouth
Edge rough polishing optical assembly 66, these outer circular edge rough polishing optical assemblies 62, edge rough polishing component 64 suitable for reading and the edge Xia Kou are thick
Polishing assembly 66 is sequentially spaced laying.
Referring to Fig. 8, being the top view of crystal round fringes rough polishing shown in Fig. 7 mechanism.As shown in Figure 7 and Figure 8, in rough polishing
12 edge rough polishing optical assemblies are evenly arranged on the periphery of light turntable 61, wherein four outer circular edge rough polishing optical assemblies 62,
Four edge rough polishing components 64 suitable for reading and four edge Xia Kou rough polishing optical assemblies 66, these edge rough polishing optical assemblies are sequentially
Arranged for interval, that is, outer circular edge rough polishing optical assembly 62, edge rough polishing component 64 suitable for reading, the edge Xia Kou rough polishing optical assembly
66 ..., outer circular edge rough polishing optical assembly 62, edge rough polishing component 64 suitable for reading, the edge Xia Kou rough polishing optical assembly 66.
Outer circular edge rough polishing optical assembly 62 is used to carry out the outer circular edge (i.e. the outer edge surface of wafer 100) of wafer 100 thick
Polishing operation.Referring to Fig. 10, for the cross-sectional view of line A-A in Fig. 8.In conjunction with Fig. 7 and Figure 10, outer circular edge rough polishing optical assembly 62 is wrapped
It includes axis and is connected to the overturning main body 621 at 61 edge of rough polishing turntable, the outer circular edge rough polishing part set on overturning 621 bottom of main body
623 and the hinge 625 set on overturning main body 621 top.
Figure 11 is please referred to, is the partial enlarged view in the portion L in Figure 10.As shown in figure 11, in outer circular edge rough polishing optical assembly 62
Outer circular edge rough polishing part 623 there is straight polishing portion or convex polishing portion for contacting wafer outer circular edge.
Edge rough polishing component 64 suitable for reading is used to carry out the edge suitable for reading (i.e. edge in the outer rim of wafer 100) of wafer 100
Rough polishing operation.Figure 12 is please referred to, is the cross-sectional view of line B-B in Fig. 8.In conjunction with Fig. 7 and Figure 12, edge rough polishing component 64 suitable for reading
The overturning main body 641 at 61 edge of rough polishing turntable is connected to, set on the rough polishing part in edge suitable for reading for overturning 641 bottom of main body including axis
643 and the hinge 645 set on overturning main body 641 top.
Figure 13 is please referred to, is the partial enlarged view in the portion M in Figure 12.As shown in figure 13, in edge rough polishing component 64 suitable for reading
Edge rough polishing part 643 suitable for reading have for contact wafer edge suitable for reading on carve type polishing portion.
The edge Xia Kou rough polishing optical assembly 66 is used to carry out the edge Xia Kou (i.e. the outer rim lower edge of wafer 100) of wafer 100
Rough polishing operation.Figure 14 is please referred to, is the cross-sectional view of line C-C in Fig. 8.In conjunction with Fig. 7 and Figure 14, the edge Xia Kou rough polishing optical assembly 66
The overturning main body 661 at 61 edge of rough polishing turntable is connected to, set on the edge the Xia Kou rough polishing part for overturning 661 bottom of main body including axis
663 and the hinge 665 set on overturning main body 661 top.
Figure 15 is please referred to, is the partial enlarged view in the portion N in Figure 14.As shown in figure 15, in the edge Xia Kou rough polishing optical assembly 66
The edge Xia Kou rough polishing part 663 have and for contacting carve type polishing portion under the edge wafer Xia Kou.
In some embodiments, in edge rough polishing optical assembly, rough polishing part in edge therein can be adopted with overturning main body
With detachable design.Specific to different types of edge rough polishing optical assembly: it is directed to outer circular edge rough polishing optical assembly 62, it is therein
Outer circular edge rough polishing part 623 and overturning main body 621 are detachable connection.For edge rough polishing component 64 suitable for reading, wherein
Rough polishing part in edge suitable for reading 643 and overturning main body 641 be detachable connection.For the edge Xia Kou rough polishing optical assembly 66,
In the edge Xia Kou rough polishing part 663 and overturning main body 661 be detachable connection.Such design, on the one hand can ensure that side
Edge rough polishing part is renewable, for example, when the outer circular edge rough polishing part in some outer circular edge rough polishing optical assembly 62 is because continuing
Using and polishing performance deteriorate when, the old outer circular edge rough polishing part can be replaced with new outer circular edge rough polishing part.It is another
Aspect may make rough polishing part in edge to replace type, for example, can will be in the outer circular edge rough polishing optical assembly on rough polishing turntable 61
Outer circular edge rough polishing part, the rough polishing part in edge suitable for reading in rough polishing component in edge suitable for reading and the rough polishing of the edge Xia Kou
The edge Xia Kou rough polishing part in component is same to be changed to outer circular edge rough polishing part, rough polishing part in edge suitable for reading and lower mouth
Any one of edge rough polishing part.
As previously mentioned, the overturning main body can be connected to rough polishing turntable 61 by shaft axis.Under certain condition, these are turned over
Turning main body can be overturn by shaft with respect to rough polishing turntable 61, thus adjustable edge rough polishing part and wafer frontside edge it
Between relative position.In embodiment, hinge can be equipped in the overturning main body in edge rough polishing optical assembly, hinge and overturning are led
Tangent line where body forms a water conservancy diversion inclination angle.Specifically, it is set at the top of the overturning main body 621 of outer circular edge rough polishing component 62
There is hinge 625, hinge 645 is equipped at the top of the overturning main body 641 of edge rough polishing component 64 suitable for reading, in lower mouth edge polishing
The top of component, 66 overturning main body 661 is equipped with hinge 665.In practical applications, it is formed by using hinge and overturning main body
Water conservancy diversion inclination angle, during rough polishing turntable 61 rotates, these hinges can generate air-flow, the air-flow of generation will drive hinge and
Overturning main body under it makees the overturning of predetermined amplitude by shaft with respect to rough polishing turntable 61, and the overturning may include towards rough polishing
The feeding at 61 center of light turntable or exiting far from 61 center of rough polishing turntable, to play the role of adjusting the amount of feeding.Specifically
Ground, during rough polishing turntable 61 rotates, the hinge 625 on outer circular edge rough polishing optical assembly 62 can be under the air-flow of disturbance
It drives overturning main body 621 and its lower outer circular edge rough polishing part 623 to make the overturning of predetermined amplitude with respect to rough polishing turntable 61, joins
See Figure 10.During rough polishing turntable 61 rotates, the hinge 645 on edge rough polishing component 64 suitable for reading can be in the gas of disturbance
It flows down and overturning main body 641 and its lower rough polishing part in edge suitable for reading 643 rough polishing turntable 61 relatively is driven to make turning over for predetermined amplitude
Turn, referring to Figure 12.During rough polishing turntable 61 rotates, the hinge 665 on the edge Xia Kou rough polishing optical assembly 66 can disturbed
Overturning main body 661 and its lower edge Xia Kou rough polishing part 663 is driven to make to preset width with respect to rough polishing turntable 61 under dynamic air-flow
The overturning of degree, referring to Figure 14.
For hinge, in embodiment as shown in Figure 7 and Figure 8, the hinge in each edge rough polishing optical assembly is basic
For straight laminated structure, and hinge and edge polishing part are in certain tilt angle, to realize edge polishing part in rough polishing
The opposite overturning for making predetermined amplitude during rotating of turntable 61.
In fact, the water conservancy diversion inclination angle of the shape and hinge of hinge and overturning main body can have other settings to change.With page
For the shape of piece, in some embodiments, the hinge be can be used by the dog-ear of the angled connection of at least two tabs
Structure.In some embodiments, arcuate structure or streamlined structure can be used in the hinge.In addition, rough polishing turntable 61
It can also be combined individually or with the shape of hinge and hinge with the tilt angle of edge polishing part, the rotation side of rough polishing turntable 61
To and revolving speed can have different design variations.
By taking the water conservancy diversion inclination angle of hinge and overturning main body as an example, in some embodiments, hinge is set on overturning main body top
The adjustable hinge in portion can operate adjustable hinge before carrying out edge rough polishing to wafer 100 in advance, can be by technical staff's tune
The water conservancy diversion inclination angle of whole itself and overturning main body.In some applications, the adjustable hinge has multiple adjustable gears, provides multiple lead
The adjustment of flow inclination.In some applications, the adjustable hinge can a hinge adjustment motor connection, utilize the hinge adjustment electricity
The machine driving adjustable hinge adjusts water conservancy diversion inclination angle, and the operation at the adjustment water conservancy diversion inclination angle can not only exist in edge rough polishing optical assembly
Can also carry out under edge rough polishing optical assembly off working state during carrying out edge rough polishing operation to wafer.
Turntable shift mechanism is for driving rough polishing turntable 61 and edge rough polishing optical assembly to shift.In embodiment, rough polishing
Light turntable 61 is located at the surface of wafer carrying platform, and therefore, the shift mechanism may be, for example, elevating mechanism, the elevating mechanism
The rough polishing turntable and edge rough polishing optical assembly can be driven to go up and down, close to or far from wafer carrying platform and the wafer carried
100.In practical applications, the elevating mechanism may include lifting column and lifting motor, can be driven slightly using the lifting motor
Polishing turntable 61 rises or falls along the lifting column.
For the harmony for ensuring rough polishing turntable 61 rotation and displacement, in some embodiments, the turntable electric rotating
Machine and the turntable shift mechanism can be connect with a controller together, control the turntable rotating electric machine by the controller coordinate
With the turntable shift mechanism.As previously mentioned, in some embodiments, the shift mechanism is elevating mechanism, therefore, described
Controller is connect with the elevating mechanism, for sending corresponding elevating control instruction to the elevating mechanism, to drive rough polishing
Light turntable 61 reaches scheduled edge rough polishing optical position by lifting and translocating and can correspond in the edge rough polishing optical position
The edge of wafer 100.In addition, the controller is connect with the turntable rotating electric machine of rough polishing turntable 61, for turning to rough polishing
Disk 61 sends corresponding rotation control instruction, to control steering and the revolving speed of rough polishing turntable 61.In addition, if necessary, it is described
Controller can also be connect with the plummer rotating electric machine of wafer carrying platform, for sending corresponding rotation control to wafer carrying platform
Instruction, to control steering and the revolving speed of wafer carrying platform.
Referring to Fig. 9, for the partial enlarged view in the portion V in Fig. 8.In embodiment, for any one edge rough polishing optical assembly
For, hinge therein and edge polishing part are in certain tilt angle, and substantially, the slanted angle is hinge and rotation
The angle in direction (direction of rotation is consistent with the tangent line of the edge rough polishing optical assembly on the rough polishing turntable 61).Such as Fig. 9
Shown, by taking edge rough polishing optical assembly 64 suitable for reading as an example, the angle of hinge 645 and edge polishing part is α and β, wherein hinge 645
It is α with the angle for rotating clockwise direction, hinge 645 and the angle of direction of rotation counterclockwise are β.Other outer circular edge rough polishings
Optical assembly 62 and the edge Xia Kou rough polishing optical assembly 66 can refer to edge rough polishing component 64 suitable for reading.But it should be noted that for phase
Rough polishing optical assembly (outer circular edge rough polishing optical assembly 62, edge rough polishing component 64 suitable for reading or the edge the Xia Kou rough polishing of same type
Optical assembly 66) for, belonging to hinge tilt angle it is identical, but different types of rough polishing optical assembly can still be made flexibly
Variation, that is, the tilt angle of hinge in outer circular edge rough polishing optical assembly 62, hinge inclines in edge rough polishing component 64 suitable for reading
The tilt angle of hinge can not be identical in rake angle or the edge Xia Kou rough polishing optical assembly 66.
By taking the edge rough polishing optical assembly in Fig. 7 and Fig. 8 as an example, when driving rough polishing turntable 61 rotate clockwise, any one
Hinge on edge rough polishing optical assembly and the angle α between the direction of rotation of rough polishing turntable 61 are at an acute angle, and hinge can be in rough polishing
Light turntable 61 generates air-flow during rotating clockwise, the air-flow of generation will drive overturning main body below hinge and edge is thick
Polished part is overturn towards 61 center of rough polishing turntable by shaft and realizes feeding, is carried out using edge rough polishing part to wafer 100
Edge rough polishing operation.Specific to different types of edge rough polishing optical assembly: outer circular edge rough polishing optical assembly 62 is directed to, in rough polishing
During light turntable 61 rotates, hinge 625 can generate air-flow during rough polishing turntable 61 rotates clockwise, these gas
Stream can promote the hinge 625 in outer circular edge rough polishing optical assembly 62 drive overturning main body 621 and its under outer circular edge rough polishing
Part 623 is overturn towards 61 center of rough polishing turntable by shaft and realizes feeding, using outer circular edge rough polishing part 623 to wafer
100 outer circular edge carries out rough polishing operation.For edge rough polishing component 64 suitable for reading, in the process that rough polishing turntable 61 rotates
In, hinge 645 can generate air-flow during rough polishing turntable 61 rotates clockwise, these air-flows can promote edge suitable for reading thick
Hinge 645 in polishing assembly 64 drive overturning main body 641 and its lower edge rough polishing part 643 suitable for reading by shaft direction slightly
Feeding is realized in 61 center of the turntable overturning of polishing, carries out rough polishing using suitable for reading edge of the edge rough polishing part 643 suitable for reading to wafer 100
Light operation.For the edge Xia Kou rough polishing optical assembly 66, during rough polishing turntable 61 rotates, hinge 665 can be in rough polishing
Turntable 61 generates air-flow during rotating clockwise, these air-flows can promote the hinge in the edge Xia Kou rough polishing optical assembly 66
665 drive overturning main bodys 661 and its lower edge Xia Kou rough polishing part 663 by shaft towards the overturning of 61 center of rough polishing turntable
It realizes feeding, carries out rough polishing operation using Xia Kou edge of the edge the Xia Kou rough polishing part 663 to wafer 100.It is noticeable
It is rough polishing operation to be carried out using outer circular edge of the outer circular edge rough polishing part 623 to wafer 100, to make wafer outer circumferential edge
Edge polishing planarization, when rough polishing turntable 61 rotates clockwise hinge 625 drive overturning main body 621 and its under outer circumferential edge
When edge rough polishing part 623 is overturn by shaft towards 61 center of rough polishing turntable, outer circular edge rough polishing part 623 is maintained at vertical
Under state, that is, so that the polishing portion contacted in outer circular edge rough polishing part 623 with the outer circular edge of wafer 100 is vertical state.
By taking the edge rough polishing optical assembly in Fig. 7 and Fig. 8 as an example, rotated when driving rough polishing turntable 61 is counterclockwise, any one
In obtuse angle, hinge can be in rough polishing by hinge on edge rough polishing optical assembly and the angle β between the direction of rotation of rough polishing turntable 61
Light turntable 61 generates air-flow during rotation counterclockwise, and the air-flow of generation will drive overturning main body below hinge and edge is thick
Polished part is realized backwards to the overturning of 61 center of rough polishing turntable by shaft and is exited.Specific to different types of edge rough polishing group
Part: being directed to outer circular edge rough polishing optical assembly 62, and during rough polishing turntable 61 rotates, hinge 625 can be in rough polishing turntable
61 rotate counterclockwise during generate air-flow, these air-flows can promote 625 band of hinge in outer circular edge rough polishing optical assembly 62
Dynamic overturning main body 621 and its lower outer circular edge rough polishing part 623 are by shaft backwards to the overturning realization of 61 center of rough polishing turntable
It exits.For edge rough polishing component 64 suitable for reading, during rough polishing turntable 61 rotates, hinge 645 can turn in rough polishing
Disk 61 generates air-flow during rotating counterclockwise, these air-flows can promote the hinge 645 in edge rough polishing component 64 suitable for reading
Drive overturning main body 641 and its lower edge rough polishing part 643 suitable for reading by shaft backwards to the overturning of 61 center of rough polishing turntable in fact
Now exit.For the edge Xia Kou rough polishing optical assembly 66, during rough polishing turntable 61 rotates, hinge 665 can be in rough polishing
Turntable 61 generates air-flow during rotating counterclockwise, these air-flows can promote the hinge in the edge Xia Kou rough polishing optical assembly 66
665 drive overturning main bodys 661 and its lower edge Xia Kou rough polishing part 663 by shaft backwards to the overturning of 61 center of rough polishing turntable
Realization is exited.
As previously mentioned, rough polishing turntable 61 is controlled by turntable rotating electric machine and rotates, therefore, in driving rough polishing turntable 61
It rotates clockwise or rotates counterclockwise and by the edge rough polishing optical assembly (including outer circular edge rough polishing part 62, upper brim
Edge rough polishing part 64, the edge Xia Kou rough polishing part 66) when carrying out edge rough polishing operation to wafer 100, while it can also be by carrying
Platform rotating electric machine driving wafer carrying platform and wafer 100 thereon rotate.It in some embodiments, can be by rough polishing turntable
61 and wafer carrying platform rotated with inverted fashion, that is, when rough polishing turntable 61 rotates clockwise, wafer carrying platform and thereon
Wafer 100 rotate counterclockwise;When rough polishing turntable 61 rotates counterclockwise, wafer carrying platform and wafer 100 thereon
It rotates clockwise.The efficiency of wafer frontside edge rough polishing can be improved in this kind of mode of operation.But it is not limited thereto, for example,
In other embodiments, rough polishing turntable 61 and wafer carrying platform can be rotated in a manner of in the same direction, that is, when rough polishing turntable 61
When rotating clockwise, wafer carrying platform and wafer 100 thereon are rotated clockwise;When rough polishing turntable 61 revolves counterclockwise
When turning, wafer carrying platform and wafer 100 thereon rotate counterclockwise.But, brilliant in the mode of operation that mode in the same direction rotates
The revolving speed of circle plummer will be lower than the revolving speed of rough polishing turntable 61.In the above-described embodiment, either for wafer carrying platform
Or for rough polishing turntable 61, in implementation process, the revolving speed of wafer carrying platform can be adjusted by plummer rotating electric machine
Control, the revolving speed of rough polishing turntable 61 can be adjusted control by turntable rotating electric machine.
When carrying out edge rough polishing operation to wafer 100 using crystal round fringes rough polishing electro-optical device 6, the turntable is enabled to rotate
Motor sends corresponding rotation control instruction to rough polishing turntable 61, and rough polishing turntable 61 is driven to turn to rotation with first, so that
Overturning main body and edge rough polishing part on rough polishing turntable 61 in multiple edge polishing components is relatively crude under the drive of hinge
Polishing turntable 61 is overturn outwardly;In the state of keeping rough polishing turntable to turn to rotation with first, the elevating mechanism is enabled to send
Corresponding elevating control instruction, drives rough polishing turntable 61 to reach scheduled edge rough polishing optical position by lifting and translocating, this
Sample, each edge rough polishing optical assembly (including the outer circular edge rough polishing optical assembly 62, edge rough polishing suitable for reading of 61 periphery of rough polishing turntable
Optical assembly 64 and the edge Xia Kou rough polishing optical assembly 66) the edge rough polishing optical position correspond to wafer 100 edge, make
Wafer 100 is obtained to fall into the polishing space that multiple edge rough polishing optical assemblies are surrounded.Enable the turntable rotating electric machine to rough polishing
Turntable 61 sends corresponding rotation control instruction, drives rough polishing turntable 61 to turn to rotation with second, so that rough polishing turntable 61
The above overturning main body in multiple edge rough polishing optical assemblies and edge rough polishing the part opposite rough polishing turntable 61 under the drive of hinge
Overturn inwardly, by multiple edge rough polishing optical assemblies (including outer circular edge rough polishing optical assembly 62, edge rough polishing component 64 suitable for reading,
And the edge Xia Kou rough polishing optical assembly 66) in edge rough polishing part for wafer 100 to carry out edge rough polishing operation (including outer
The edge of the circle rough polishing operation, rough polishing operation in edge suitable for reading and the rough polishing operation of the edge Xia Kou).In practical applications, work as crystalline substance
When circle plummer has plummer rotating electric machine, then, driving rough polishing turntable 61 with first by the turntable rotating electric machine
When turning to rotation, the plummer rotating electric machine driving wafer carrying platform can be enabled to turn to rotation with second.
Second crystal round fringes burnishing device 7 is set on the second edge polishing position 15 of wafer job platform, for crystalline substance
The edge (in addition to recess) of circle 100 carries out second edge polishing operation.In embodiment, the second crystal round fringes burnishing device 7
It may be, for example, crystal round fringes finishing polish device, carry out edge finishing polish operation for the edge (in addition to recess) to wafer 100.
Crystal round fringes finishing polish device 7 includes wafer carrying platform and crystal round fringes finishing polish mechanism.
Wafer carrying platform is set to the central position of second edge polishing position 15, is used for support wafer 100.Certainly, brilliant
The top of circle plummer more may include absorbing unit, 100 back of wafer carrying platform support wafer and keep therewith certain space and
Atmosphere communicates generation negative pressure, in this way, will not be damaged to wafer 100 while firm support lives wafer 100.Wafer carrying platform can
It to be the rotary table being adapted to wafer 100, but is not limited thereto, shape can also be similar for rectangle platform, triangle table or others
Structure.When using wafer carrying platform support wafer 100, wafer 100 is horizontality.In embodiment, wafer carrying platform can
Be designed as can spinning motion, for example, wafer carrying platform is movably arranged on wafer job platform by shaft, and, the shaft with
One plummer rotating electric machine connection, to realize spinning motion.In this way, wafer is held after wafer carrying platform support wafer 100
Microscope carrier can drive wafer 100 thereon to rotate under the control of the plummer rotating electric machine.In practical applications, the carrying
Platform rotating electric machine can send to wafer carrying platform and correspondingly rotate control instruction, to control steering and the revolving speed of wafer carrying platform.
Generally, due to carry out wafer recess to wafer by such as wafer detecting apparatus on pretreatment position 11
Detection, wafer centring means the pretreatment, therefore, the transfer in utilization wafer transfer device 9 such as feel relieveds to wafer
When wafer 100 is transferred in the wafer carrying platform of second edge polishing position 15 by tool hand 93, it can no longer need to make wafer 100 recessed
The operations such as mouth detection and centering.It but, in some embodiments, if necessary, can also be in for example, second edge polishing area
Wafer detecting apparatus or wafer centring means etc. is arranged in other similar being used as on position in position 15 or subsequent.
Under usual situation, the structure composition and work of crystal round fringes finishing polish device 7 and crystal round fringes rough polishing electro-optical device 6 are former
It manages essentially identical, therefore, can join during description to crystal round fringes finishing polish device 7 and its each building block below
According to Fig. 7 to Figure 15.
The wafer 100 that crystal round fringes finishing polish mechanism is used to carry wafer carrying platform carries out edge finishing polish work
Industry.In embodiment, the top of wafer carrying platform, crystal round fringes finishing polish mechanism is arranged in crystal round fringes finishing polish mechanism
Can include: finishing polish turntable, edge finishing polish component, turntable rotating electric machine and turntable shift mechanism.
Finishing polish turntable is connect by shaft with the turntable rotating electric machine, can be controlled by the turntable rotating electric machine and be revolved
Turn.Finishing polish turntable can be set on the cover body structure of wafer multistation edge polishing equipment by shaft and be located at wafer carrying
The surface of platform.In practical applications, the turntable rotating electric machine can send to finishing polish turntable and correspondingly rotate control instruction,
To control steering and the revolving speed of finishing polish turntable.
Multiple edge finishing polish components are evenly arranged at the edge of finishing polish turntable, wherein each edge finishing polish
Component include axis be connected to finishing polish disk edge overturning main body, set on it is described overturning bottom part body edge finishing polish part, with
And the hinge set on the overturning body top, the edge finishing polish part have the second roughness, the edge finishing polish part
The second roughness be less than the first roughness of the edge rough polishing part.
Due to needing to make the edge of wafer 100 round and smooth after carrying out edge finishing polish operation by the edge to wafer 100,
The edge finishing polish component is more can include: outer circular edge finishing polish component, finishing polish component in edge suitable for reading and the edge Xia Kou
Finishing polish component, these outer circular edge finishing polish components, finishing polish component in edge suitable for reading and the edge Xia Kou finishing polish component according to
It lays at sequence interval.For example, in one exemplary embodiment, 12 edges can be evenly arranged on the periphery of finishing polish turntable
Finishing polish component, wherein four outer circular edge finishing polish components, four finishing polish components in edge suitable for reading and four sides Xia Kou
Edge finishing polish component, these edge finishing polish components sequentially arranged for interval, that is, outer circular edge finishing polish component, edge suitable for reading essence
Polishing assembly, the edge Xia Kou finishing polish component ..., outer circular edge finishing polish component, finishing polish component in edge suitable for reading, the side Xia Kou
Edge finishing polish component.
Outer circular edge finishing polish component is used to carry out smart throwing to the outer circular edge (i.e. the outer edge surface of wafer 100) of wafer 100
Light operation.In embodiment, the outer circular edge finishing polish component includes that axis is connected to the overturning main body of finishing polish disk edge, sets
Outer circular edge finishing polish part in overturning bottom part body and the hinge set on overturning body top.In an exemplary embodiment
In, the outer circular edge finishing polish part in the outer circular edge finishing polish component has the straight throwing for contacting wafer outer circular edge
Light portion or convex polishing portion.
Finishing polish component in edge suitable for reading is used to carry out essence to the edge suitable for reading (i.e. edge in the outer rim of wafer 100) of wafer 100
Polishing operation.In embodiment, the finishing polish component in edge suitable for reading include axis be connected to finishing polish disk edge overturning main body,
Finishing polish part in edge suitable for reading set on overturning bottom part body and the hinge set on overturning body top.In an exemplary implementation
In example, finishing polish part in edge suitable for reading in the finishing polish component in edge suitable for reading have for contact wafer edge suitable for reading on carve
Type polishing portion.
Finishing polish component in the edge Xia Kou is used to carry out essence to the edge Xia Kou (i.e. the outer rim lower edge of wafer 100) of wafer 100
Polishing operation.In embodiment, the edge the Xia Kou finishing polish component include axis be connected to finishing polish disk edge overturning main body,
The edge Xia Kou finishing polish part set on overturning bottom part body and the hinge set on overturning body top.In an exemplary implementation
In example, the edge the Xia Kou finishing polish part in the edge the Xia Kou finishing polish component has to be carved under the edge wafer Xia Kou for contacting
Type polishing portion.
In some embodiments, in edge finishing polish component, finishing polish part in edge therein can be adopted with overturning main body
With detachable design.Specific to different types of edge finishing polish component: it is directed to outer circular edge finishing polish component, it is therein outer
The edge of the circle finishing polish part and overturning main body are detachable connection.For finishing polish component in edge suitable for reading, edge suitable for reading therein
Finishing polish part and overturning main body are detachable connection.For the edge Xia Kou finishing polish component, the edge Xia Kou therein finishing polish
Part and overturning main body are detachable connection.On the one hand such design can ensure that finishing polish part in edge is renewable, for example, working as
Outer circular edge finishing polish part in some outer circular edge finishing polish component when polishing performance deterioration, can be used new due to lasting use
Outer circular edge finishing polish part replace the old outer circular edge finishing polish part.On the other hand finishing polish part in edge may make to replace class
Type, for example, the outer circular edge finishing polish part in the outer circular edge finishing polish component on finishing polish turntable, edge essence suitable for reading can be thrown
The same replacement of the edge Xia Kou finishing polish part in finishing polish part in edge suitable for reading and the edge Xia Kou finishing polish component in optical assembly
For any one of outer circular edge finishing polish part, finishing polish part in edge suitable for reading and the edge Xia Kou finishing polish part.
As previously mentioned, the overturning main body can be connected to finishing polish turntable by shaft axis.Under certain condition, these overturn
Main body can be overturn by shaft with respect to finishing polish turntable, thus between adjustable edge finishing polish part and wafer frontside edge
Relative position.In embodiment, hinge, hinge and overturning main body institute can be equipped in the overturning main body in edge finishing polish component
Tangent line formed a water conservancy diversion inclination angle.Specifically, it is equipped with hinge at the top of the overturning main body of outer circular edge finishing polish component,
The top of the overturning main body of finishing polish component in edge suitable for reading be equipped with hinge, lower mouth edge polishing component overturning main body top
Equipped with hinge.In practical applications, it is formed by water conservancy diversion inclination angle using hinge and overturning main body, in the mistake of finishing polish turntable rotation
Cheng Zhong, these hinges can generate air-flow, the air-flow of generation will drive hinge and its under overturning main body thrown by shaft essence relatively
Light turntable makees the overturning of predetermined amplitude, and the overturning may include the feeding or separate finishing polish turntable towards finishing polish center of turntable
Center is exited, to play the role of adjusting the amount of feeding.Specifically, during finishing polish turntable rotates, outer circular edge
Hinge on finishing polish component can be driven under the air-flow of disturbance overturning main body and its under outer circular edge finishing polish part it is relatively smart
Polishing turntable makees the overturning of predetermined amplitude.The hinge during rotation of finishing polish turntable, on finishing polish component in edge suitable for reading
Overturning main body and its lower finishing polish part in edge suitable for reading finishing polish turntable relatively can be driven to make predetermined amplitude under the air-flow of disturbance
Overturning.During the rotation of finishing polish turntable, hinge on the edge Xia Kou finishing polish component can under the air-flow of disturbance band
Dynamic overturning main body and its under the edge Xia Kou finishing polish part make the overturning of predetermined amplitude with respect to finishing polish turntable.
For hinge, the generally flat laminated structure of hinge in each edge finishing polish component, and hinge and side
Edge polished part is in certain tilt angle, makees default width to realize that edge polishing part is opposite during the rotation of finishing polish turntable
The overturning of degree.
In fact, the water conservancy diversion inclination angle of the shape and hinge of hinge and overturning main body can have other settings to change.With page
For the shape of piece, in some embodiments, the hinge be can be used by the dog-ear of the angled connection of at least two tabs
Structure.In some embodiments, arcuate structure or streamlined structure can be used in the hinge.In addition, finishing polish turntable
Can be combined individually or with the shape of hinge and hinge with the tilt angle of edge polishing part, the rotation direction of finishing polish turntable and
Revolving speed can have different design variations.
By taking the water conservancy diversion inclination angle of hinge and overturning main body as an example, in some embodiments, hinge is set on overturning main body top
The adjustable hinge in portion can operate adjustable hinge before carrying out edge finishing polish to wafer 100 in advance, can be by technical staff's tune
The water conservancy diversion inclination angle of whole itself and overturning main body.In some applications, the adjustable hinge has multiple adjustable gears, provides multiple lead
The adjustment of flow inclination.In some applications, the adjustable hinge can a hinge adjustment motor connection, utilize the hinge adjustment electricity
The machine driving adjustable hinge adjusts water conservancy diversion inclination angle, and the operation at the adjustment water conservancy diversion inclination angle can not only exist in edge finishing polish component
Can also carry out under edge finishing polish component off working state during carrying out edge finishing polish operation to wafer.
Turntable shift mechanism is for driving finishing polish turntable and edge finishing polish component to shift.In embodiment, finishing polish
Turntable is located at the surface of wafer carrying platform, and therefore, the shift mechanism may be, for example, elevating mechanism, and the elevating mechanism can drive
The finishing polish turntable and the lifting of edge finishing polish component are moved, close to or far from wafer carrying platform and the wafer carried 100.?
In practical application, the elevating mechanism may include lifting column and lifting motor, finishing polish can be driven to turn using the lifting motor
Disk rises or falls along the lifting column.
For the harmony for ensuring finishing polish turntable rotation and displacement, in some embodiments, the turntable rotating electric machine
Can be connect together with a controller with the turntable shift mechanism, by the controller coordinate control the turntable rotating electric machine and
The turntable shift mechanism.As previously mentioned, in some embodiments, the shift mechanism is elevating mechanism, therefore, the control
Device processed is connect with the elevating mechanism, for sending corresponding elevating control instruction to the elevating mechanism, to drive finishing polish
Turntable reaches scheduled edge finishing polish position by lifting and translocating and can correspond to wafer in edge finishing polish position
100 edge.In addition, the controller is connect with the turntable rotating electric machine of finishing polish turntable, for sending to finishing polish turntable
Corresponding rotation control instruction, to control steering and the revolving speed of finishing polish turntable.In addition, if necessary, the controller may be used also
It is connect with the plummer rotating electric machine of wafer carrying platform, for sending corresponding rotation control instruction to wafer carrying platform, with control
The steering of wafer carrying platform processed and revolving speed.
In embodiment, for any one edge finishing polish component, hinge therein and edge polishing part are in certain
Tilt angle, substantially, the slanted angle is hinge and direction of rotation (direction of rotation and the edge finishing polish component
Tangent line on the finishing polish turntable is consistent) angle.By taking finishing polish component in edge suitable for reading as an example, hinge and edge polishing part
Angle be α and β, wherein hinge and the angle for rotating clockwise direction are α, and hinge and the angle of direction of rotation counterclockwise are
β.Other outer circular edge finishing polish components and the edge Xia Kou finishing polish component can refer to finishing polish component in edge suitable for reading.But it needs
It is bright, for same type finishing polish component (outer circular edge finishing polish component, finishing polish component in edge suitable for reading or under
Mouthful edge finishing polish component) for, belonging to hinge tilt angle it is identical, but different types of finishing polish component, still
Can flexibly it change, that is, the tilt angle of hinge in outer circular edge finishing polish component, hinge in finishing polish component in edge suitable for reading
Tilt angle or the edge Xia Kou finishing polish component in the tilt angle of hinge can not be identical.
By taking edge finishing polish component as an example, when driving finishing polish turntable rotate clockwise, any one edge finishing polish component
On hinge and finishing polish turntable direction of rotation between angle α it is at an acute angle, hinge can be rotated clockwise in finishing polish turntable
During generate air-flow, the air-flow of generation will drive overturning main body below hinge and finishing polish part in edge passes through shaft direction
Feeding is realized in the overturning of finishing polish center of turntable, carries out edge finishing polish operation to wafer 100 using edge finishing polish part.Specific to
Different types of edge finishing polish component: being directed to outer circular edge finishing polish component, during the rotation of finishing polish turntable, hinge
Air-flow can be generated during finishing polish turntable rotates clockwise, these air-flows can promote in outer circular edge finishing polish component
Hinge drive overturning main body and its lower outer circular edge finishing polish part overturn by shaft towards finishing polish center of turntable realize into
It gives, carries out finishing polish operation using outer circular edge of the outer circular edge finishing polish part to wafer 100.For finishing polish group in edge suitable for reading
Part, during the rotation of finishing polish turntable, hinge can generate air-flow during finishing polish turntable rotates clockwise, these
Air-flow can promote the hinge in finishing polish component in edge suitable for reading drive overturning main body and its under finishing polish part in edge suitable for reading pass through
Shaft overturns towards finishing polish center of turntable and realizes feeding, using finishing polish part in edge suitable for reading to the edge suitable for reading of wafer 100 into
Row finishing polish operation.For the edge Xia Kou finishing polish component, during the rotation of finishing polish turntable, hinge can turn in finishing polish
Disk generates air-flow during rotating clockwise, these air-flows can promote the hinge in the edge Xia Kou finishing polish component to drive overturning
Main body and its under the edge Xia Kou finishing polish part by shaft towards finishing polish center of turntable overturn realize feeding, utilize the side Xia Kou
Edge finishing polish part carries out finishing polish operation to the edge Xia Kou of wafer 100.It is worth noting that, utilizing outer circular edge finishing polish part
Finishing polish operation is carried out to the outer circular edge of wafer 100, for the planarization for polishing wafer outer circular edge, when finishing polish turntable
Hinge drives overturning main body and its lower outer circular edge finishing polish part to pass through shaft towards in finishing polish turntable when rotating clockwise
The heart overturn when, outer circular edge finishing polish part is maintained under vertical state, that is, so that in outer circular edge finishing polish part with wafer 100
Outer circular edge contact polishing portion be vertical state.
By taking edge finishing polish component as an example, when driving finishing polish turntable rotate counterclockwise, any one edge finishing polish component
On hinge and finishing polish turntable direction of rotation between angle β in obtuse angle, hinge can rotate counterclockwise in finishing polish turntable
During generate air-flow, the air-flow of generation will drive overturning main body below hinge and edge finishing polish part by shaft backwards
The overturning of finishing polish center of turntable, which is realized, to be exited.Specific to different types of edge finishing polish component: being directed to outer circular edge finishing polish
Component, during the rotation of finishing polish turntable, hinge can generate air-flow during finishing polish turntable rotates counterclockwise, this
A little air-flows can promote the hinge in outer circular edge finishing polish component that overturning main body and its lower outer circular edge finishing polish part is driven to lead to
Shaft is crossed to exit backwards to the overturning realization of finishing polish center of turntable.For finishing polish component in edge suitable for reading, rotated in finishing polish turntable
During, hinge can generate air-flow during finishing polish turntable rotates counterclockwise, these air-flows can promote edge suitable for reading
Hinge in finishing polish component drives overturning main body and its lower finishing polish part in edge suitable for reading to pass through shaft backwards to finishing polish turntable
Center overturning, which is realized, to be exited.For the edge Xia Kou finishing polish component, during the rotation of finishing polish turntable, hinge can be thrown in essence
Light turntable generates air-flow during rotating counterclockwise, these air-flows can promote the hinge in the edge Xia Kou finishing polish component to drive
Overturning main body and its lower edge Xia Kou finishing polish part are exited by shaft backwards to the overturning realization of finishing polish center of turntable.
As previously mentioned, finishing polish turntable is controlled by turntable rotating electric machine and rotates, therefore, make in driving finishing polish turntable suitable
Hour hands rotation or counterclockwise rotation and by the edge finishing polish component (including outer circular edge finishing polish part, edge essence suitable for reading throw
Light part, the edge Xia Kou finishing polish part) when carrying out edge finishing polish operation to wafer 100, while it can also be by plummer rotating electric machine
Driving wafer carrying platform and wafer 100 thereon rotate.It in some embodiments, can be by finishing polish turntable and wafer carrying
Platform is rotated with inverted fashion, that is, when finishing polish turntable rotates clockwise, wafer carrying platform and wafer 100 thereon are made inverse
Hour hands rotation;When finishing polish turntable makees rotation counterclockwise, wafer carrying platform and wafer 100 thereon are rotated clockwise.It should
Kind mode of operation, can be improved the efficiency of wafer frontside edge finishing polish.But it is not limited thereto, for example, in other embodiments
In, finishing polish turntable and wafer carrying platform can be rotated in a manner of in the same direction, that is, brilliant when finishing polish turntable rotates clockwise
Circle plummer and wafer 100 thereon rotate clockwise;When finishing polish turntable make counterclockwise rotation when, wafer carrying platform and its
On wafer 100 rotate counterclockwise.But, in the mode of operation that mode in the same direction rotates, the revolving speed of wafer carrying platform wants low
In the revolving speed of finishing polish turntable.In the above-described embodiment, either for wafer carrying platform still for finishing polish turntable,
In implementation process, the revolving speed of wafer carrying platform can be adjusted control by plummer rotating electric machine, and the revolving speed of finishing polish turntable can
Control is adjusted by turntable rotating electric machine.
When carrying out edge finishing polish operation to wafer 100 using crystal round fringes finishing polish device 7, the turntable is enabled to rotate
Motor sends corresponding rotation control instruction to finishing polish turntable, and finishing polish turntable is driven to turn to rotation with first, so that essence is thrown
Overturning main body and edge finishing polish the part opposite finishing polish turn under the drive of hinge on light turntable in multiple edge polishing components
Disk is overturn outwardly;In the state of keeping finishing polish turntable to turn to rotation with first, the elevating mechanism is enabled to send corresponding rise
Control instruction is dropped, finishing polish turntable is driven to reach scheduled edge finishing polish position by lifting and translocating, in this way, finishing polish turns
Each edge finishing polish component (including outer circular edge finishing polish component, finishing polish component in edge suitable for reading and the lower mouth of disk periphery
Edge finishing polish component) edge finishing polish position correspond to wafer 100 edge so that wafer 100 falls into multiple sides
In the polishing space that edge finishing polish component is surrounded.The turntable rotating electric machine is enabled to send corresponding rotation control to finishing polish turntable
System instruction, drives finishing polish turntable to turn to rotation with second, so that turning in multiple edge finishing polish components on finishing polish turntable
Turn main body and edge finishing polish the part opposite finishing polish turntable under the drive of hinge to overturn inwardly, by multiple edge finishing polish components
Edge essence in (including outer circular edge finishing polish component, finishing polish component in edge suitable for reading and the edge Xia Kou finishing polish component)
Polished part for wafer 100 carry out edge finishing polish operation (including outer circular edge finishing polish operation, edge finishing polish suitable for reading make
Industry and the finishing polish operation of the edge Xia Kou).In practical applications, when wafer carrying platform has plummer rotating electric machine, that
, when driving finishing polish turntable to turn to rotation with first by the turntable rotating electric machine, the plummer rotating electric machine can be enabled
Wafer carrying platform is driven to turn to rotation with second.
In the foregoing it is found that the first crystal round fringes burnishing device 6 may be, for example, crystal round fringes rough polishing electro-optical device, for crystalline substance
Round edge carries out edge rough polishing operation, and the second crystal round fringes burnishing device 7 may be, for example, crystal round fringes finishing polish device, uses
Edge finishing polish operation is carried out in the edge to wafer, but is not limited thereto, in other embodiments, the first crystal round fringes are thrown
Electro-optical device 6 and the second crystal round fringes burnishing device 7 can still make other variations, for example, the first crystal round fringes burnishing device 6 or the
Different combinations can be used in edge polishing component in two crystal round fringes burnishing devices 7.
Generally, the edge polishing component packet in the first crystal round fringes burnishing device 6 or the second crystal round fringes burnishing device 7
Include any one of outer circular edge polishing assembly, edge polishing assembly suitable for reading and lower mouth edge polishing component Suo Zu group.
In one exemplary embodiment, the edge polishing component of the first crystal round fringes burnishing device 6 may include edge suitable for reading
The combination of polishing assembly and outer circular edge polishing assembly, the edge polishing assembly suitable for reading and the outer circular edge polishing assembly according to
Sequence interval is laid, and the edge polishing component of the second crystal round fringes burnishing device 7 may include outer circular edge polishing assembly and the side Xia Kou
The combination of edge polishing assembly, the outer circular edge polishing assembly and the lower mouth edge polishing component are sequentially spaced laying.For example,
For being evenly arranged with 12 edge polishing components on the periphery in polishing turntable: in the first crystal round fringes burnishing device 6
In, including six edge polishing assemblies suitable for reading and six outer circular edge polishing assemblies, these edge polishing components are sequentially spaced cloth
It sets.In the second crystal round fringes burnishing device 7, including six outer circular edge polishing assemblies and six lower mouth edge polishing components,
These edge polishing components sequentially arranged for interval.In this way, i.e. using the first crystal round fringes burnishing device 6 to the edge of wafer into
Row edge polishing operation suitable for reading and outer circular edge polishing operation and using the second crystal round fringes burnishing device 7 to the edge of wafer
Carry out outer circular edge polishing operation and lower mouth edge polishing operation.Pass through the first crystal round fringes burnishing device 6 and the second wafer side
Edge burnishing device 7, on the one hand, the edge polishing operation to the edge of wafer can be completed, on the other hand, single crystal round fringes polishing
Device executes a part of workload of entire edge polishing operation, and the working efficiency of edge polishing operation can be improved.
In practical applications, the application can separately disclose a kind of crystal round fringes burnishing device, comprising: wafer carrying platform and wafer
Edge polishing mechanism, wherein the wafer carrying platform is for carrying wafer, crystal round fringes polishing mechanism, comprising: polishing turntable;
The multiple edge polishing components being uniformly arranged, each edge polishing component include the overturning that axis is connected to the polishing disk edge
Main body, the edge polishing part set on the overturning bottom part body and the hinge set on the overturning body top;Turntable rotation
Motor, for driving the polishing turntable to rotate;Turntable shift mechanism, for driving the polishing turntable to be displaced to described in correspondence
The edge polishing position of wafer carrying platform.When application crystal round fringes burnishing device carries out edge polishing to wafer, in the throwing
When light turntable is driven by the turntable rotating electric machine with the first steering rotation, the overturning main body and side are driven by the hinge
The relatively described polishing turntable of edge polished part is overturn outwardly;It is driven in the polishing turntable by the turntable rotating electric machine with second turn
To when rotation, the overturning main body and the relatively described polishing turntable of edge polishing part is driven to be overturn inwardly to enable by the hinge
The edge polishing part carries out edge polishing for wafer.
In one exemplary embodiment, in the crystal round fringes burnishing device, it can configure a crystal round fringes polishing machine
Structure sees Figure 16.Edge polishing component in the crystal round fringes polishing mechanism includes outer circular edge polishing assembly, upper brim
Any one of edge polishing assembly and lower mouth edge polishing component Suo Zu group.For example, in a specific implementation, institute
Stating crystal round fringes burnishing device includes a wafer carrying platform and a crystal round fringes polishing mechanism, wherein on the wafer side
In edge polishing mechanism, polishing turntable edge on can be uniformly arranged outer circular edge polishing assembly, edge polishing assembly suitable for reading, with
And lower mouth edge polishing component, alternatively, outer circular edge polishing assembly, edge suitable for reading can be uniformly arranged on the edge of polishing turntable
Polishing assembly or lower mouth edge polishing component, alternatively, outer circular edge polishing group can be uniformly arranged on the edge of polishing turntable
The combination of the combination of part and edge polishing assembly suitable for reading or outer circular edge polishing assembly and lower mouth edge polishing component.In a tool
In body implementation, the crystal round fringes burnishing device includes a wafer carrying platform and a crystal round fringes rough polishing mechanism,
In crystal round fringes rough polishing mechanism, the edge rough polishing optical assembly includes outer circular edge rough polishing optical assembly, edge suitable for reading
Any one of rough polishing optical assembly and the edge Xia Kou rough polishing optical assembly Suo Zu group.For example, can on the edge of polishing turntable
It is uniformly arranged outer circular edge rough polishing optical assembly, rough polishing component in edge suitable for reading and the edge Xia Kou rough polishing optical assembly.It is specific one
In implementation, the crystal round fringes burnishing device includes a wafer carrying platform and a crystal round fringes finishing polish mechanism,
In crystal round fringes finishing polish mechanism, the edge finishing polish component includes including outer circular edge finishing polish component, upper brim
Any one of edge finishing polish component and the edge Xia Kou finishing polish component Suo Zu group.For example, being thrown in the crystal round fringes essence
In ray machine structure, polishing turntable edge on can be uniformly arranged outer circular edge finishing polish component, finishing polish component in edge suitable for reading, with
And the edge Xia Kou finishing polish component.
In one exemplary embodiment, in the crystal round fringes burnishing device, two crystal round fringes polishing machines be can configure
Structure sees Figure 17.For example, the crystal round fringes burnishing device includes two wafer carrying platforms in a specific implementation,
Wherein, a wafer carrying platform is correspondingly configured with a crystal round fringes rough polishing mechanism and another wafer carrying platform corresponds to configuration
There is a crystal round fringes finishing polish mechanism, wherein, can on the edge of polishing turntable in crystal round fringes rough polishing mechanism
It is uniformly arranged outer circular edge rough polishing optical assembly, rough polishing component in edge suitable for reading and the edge Xia Kou rough polishing optical assembly, in the crystalline substance
In the edge of the circle finishing polish mechanism, outer circular edge finishing polish component, edge suitable for reading essence can be uniformly arranged on the edge of polishing turntable
Polishing assembly and the edge Xia Kou finishing polish component.As in the crystal round fringes burnishing device of each exemplary embodiment
The wafer carrying platform of configuration, the structure of crystal round fringes rough polishing mechanism and crystal round fringes finishing polish mechanism and the wafer
The working principle of edge polishing device, which is seen, to be described above, and details are not described herein.In a specific implementation, the wafer
Edge polishing device includes two wafer carrying platforms and two crystal round fringes polishing mechanisms, wherein is polished in a crystal round fringes
In mechanism, it can be uniformly arranged edge polishing assembly and outer circular edge polishing assembly suitable for reading on the edge of polishing turntable, another
In a crystal round fringes polishing mechanism, it can be uniformly arranged outer circular edge polishing assembly on the edge of polishing turntable and the edge Xia Kou is thrown
Optical assembly.As for configured in the crystal round fringes burnishing device of each exemplary embodiment wafer carrying platform, crystal round fringes
The working principle of polishing mechanism and the crystal round fringes burnishing device, which is seen, to be described above, and details are not described herein.
In one exemplary embodiment, the crystal round fringes burnishing device may include three wafer carrying platforms and three wafers
Edge polishing mechanism, wherein in first crystal round fringes polishing mechanism, outer circle can be uniformly arranged on the edge of polishing turntable
Edge polishing component can be uniformly arranged edge suitable for reading on the edge of polishing turntable in second crystal round fringes polishing mechanism
Polishing assembly can be uniformly arranged lower mouth edge polishing on the edge of polishing turntable in third crystal round fringes polishing mechanism
Component.As for configured in the crystal round fringes burnishing device of each exemplary embodiment wafer carrying platform, crystal round fringes throw
The working principle of ray machine structure and the crystal round fringes burnishing device, which is seen, to be described above, and details are not described herein.
Wafer cleaning device 8 is set on the post-processing position 16 of wafer job platform, for cleaning to wafer 100.
In embodiment, wafer cleaning device 8 includes: wafer carrying platform and cleaning spraying mechanism.
Wafer carrying platform is set to the central position of second edge polishing position 15, is used for support wafer 100.Certainly, brilliant
The top of circle plummer more may include absorbing unit, 100 back of wafer carrying platform support wafer and keep therewith certain space and
Atmosphere communicates generation negative pressure, in this way, will not be damaged to wafer 100 while firm support lives wafer 100.Wafer carrying platform can
It to be the rotary table being adapted to wafer 100, but is not limited thereto, shape can also be similar for rectangle platform, triangle table or others
Structure.When using wafer carrying platform support wafer 100, wafer 100 is horizontality.In embodiment, wafer carrying platform can
Be designed as can spinning motion, for example, wafer carrying platform is movably arranged on wafer job platform by shaft, and, the shaft with
One plummer rotating electric machine connection, to realize spinning motion.In this way, wafer is held after wafer carrying platform support wafer 100
Microscope carrier can drive wafer 100 thereon to rotate under the control of the plummer rotating electric machine.In practical applications, the carrying
Platform rotating electric machine can send to wafer carrying platform and correspondingly rotate control instruction, to control steering and the revolving speed of wafer carrying platform.
Generally, due to carry out wafer recess to wafer by such as wafer detecting apparatus on pretreatment position 11
Detection, wafer centring means the pretreatment, therefore, the transfer in utilization wafer transfer device 9 such as feel relieveds to wafer
When wafer 100 is transferred in the wafer carrying platform of second edge polishing position 15 by tool hand 93, it can no longer need to make wafer 100 recessed
The operations such as mouth detection and centering.It but, in some embodiments, if necessary, can also be in for example, second edge polishing area
Wafer detecting apparatus or wafer centring means etc. is arranged in other similar being used as on position in position 15 or subsequent.
Side or the top of rotation plummer is arranged in wafer cleaning device 8, for carrying out washing and cleaning operation to wafer 100.
For wafer cleaning device, generally, wafer 100 is formed after the polishing operation through multiple working procedure have been polished
Wafer 100, the polishing clast generated during polishing operation can be attached to 100 surface of wafer, therefore, it is necessary to wafer 100 into
The necessary cleaning of row.Generally, the wafer cleaning equipment includes cleanninfg brushes and sprays with the cleaning solution of cleanninfg brushes cooperation
Head sprays cleaning solution (for example, pure water) against wafer 100 by cleaning solution spray head in cleaning, meanwhile, cleaning is driven by motor
Brush head (such as rotary brush-head) acts on wafer 100, completes washing and cleaning operation.In some embodiments, clear using wafer
When cleaning device 8 cleans wafer 100, it can first drive wafer cleaning device 8 mobile, so that the spray on wafer cleaning device 8
Head corresponds to the edge of wafer 100, then the spray head controlled on wafer cleaning device 8 sprays cleaning agent towards the edge of wafer 100
It is cleaned.In some embodiments, when cleaning using wafer cleaning device 8 to wafer 100, wafer can first be driven
Cleaning device 8 is mobile so that the spray head on wafer cleaning device 8 corresponds to the edge of wafer 100, then drive wafer carrying platform and
Wafer 100 thereon rotates and controls the spray head on wafer cleaning device 8 to carry out clearly towards the edge of wafer 100 sprinkling cleaning agent
It washes.
Wafer multistation edge polishing equipment disclosed in the present application, has at least gathered wafer bevel polishing device and wafer side
Edge burnishing device can quickly, steadily and with no damage turn wafer using wafer transfer device between each apparatus for work
It moves, wafer can not only be enabled sequentially to complete wafer recess polishing operation and crystal round fringes polishing operation in same equipment,
Wafer bevel polishing device and crystal round fringes burnishing device can be made to carry out corresponding operation to corresponding wafer simultaneously, improve life
Produce the operation quality of efficiency and crystal round fringes polishing.
Disclosed herein as well is a kind of polishing wafer methods, for carrying out edge polishing operation to wafer.The wafer is thrown
Light method is applied in a wafer multistation edge polishing equipment, and the wafer multistation edge polishing equipment includes base, crystalline substance
Circle handler, wafer detecting apparatus, wafer recess rough polishing electro-optical device, wafer recess finishing polish device, crystal round fringes rough polishing
Device, crystal round fringes finishing polish device, wafer cleaning device and wafer transfer device.
In embodiment, the application wafer multistation edge polishing equipment is for the edge lines polishing to wafer, wherein
Wafer (Wafer) is the silicon wafer in disc-shaped formed after sliced operation, and generally, the edge of the wafer is with fixed
Bit architecture, the location structure may be, for example, flat (pingbian) or notch (recess).In practical applications, to column silicon rod
Before being sliced, trimming (flat) or grooving (notch) first are carried out along the axial of column silicon rod at the edge of column silicon rod
Processing, and then is sliced to form the wafer of sheet column silicon rod, at this point, every wafer will with flat or
The location structure of notch is used to be automatically positioned when making chip on wafer in favor of subsequent.Generally, for small size column
Shape silicon rod (diameter of column silicon rod is, for example, 8 inches of 200mm ≈ or less or 6 inches of 150mm ≈ or less) mostly uses trimming
(flat) it handles, then uses grooving for large scale silicon ingot (diameter of column silicon rod is, for example, 8 inches of 200mm ≈ or more)
(notch) it handles, it can be in the waste for ensuring to reduce wafer as far as possible under conditions of positioning.Either have the crystalline substance of flat (pingbian)
Circle or the wafer for having notch (recess), due to the slice process of preamble, the edge upper surface of the wafer is (with filleter
The section that preceding wafer in skill connects) or rim under surface (section to connect with the rear wafer in slice process) or
Edge front (component part for belonging to the periphery of column crystal bar) is relatively rough, there are sharp column, the wafers
Whole more fragile, in this situation, the wafer may knock broken in the case of being touched, being squeezed.It is therefore desirable to
The edge of the wafer is processed by shot blasting, so that crystal round fringes are more round and smooth and finishing.In the following description, the present embodiment
Wafer multistation edge polishing equipment handled by be by with notch (recess) wafer for be illustrated, but not
For limiting the protection scope of the application.
The polishing wafer method the following steps are included:
Step S101, by polished wafer load to pre-processing position.
In embodiment, the application wafer multistation edge polishing equipment includes wafer handler, the related wafer
The specific structure of bogey and the wafer transfer device, which can be found in, to be described above, and it will not be described here.It is loaded and unloaded using wafer
Device, can be by wafer load to pre-processing position.
In step s101, the step of using wafer handler by wafer load to pretreatment position, is specific can include:
The mechanical arm of wafer handler is driven to be moved to wafer handling position by initial position;Mechanical arm is controlled to load and unload from wafer
The first wafer is extracted in wafer magazine on position;Driving manipulator arm is moved to pretreatment position by wafer loading place position, will
First wafer is placed on the rotation plummer of pretreatment position;Driving manipulator arm returns to initial position.
Step S103 carries out detection operation to the wafer on pretreatment position.In embodiment, right on pretreatment position
It should be provided with wafer detecting apparatus, for carrying out detection operation to the wafer on pretreatment position.
It in step s 103, include but is not limited to that wafer recess detects using loop truss device detection wafer.It is recessed with wafer
For mouth positioning, in recess detection and localization, the first wafer of rotation plummer drive thereon on driving pretreatment position turns
It is dynamic, meanwhile, the first wafer is detected by wafer recess detection device and determines the recess of the first wafer, the first crystalline substance has been determined in detection
After round recess, driving rotation plummer drives the recess of the first wafer thereon to turn to a designated position.
Certainly, in step s 103, centering operation also is carried out to wafer using wafer centring means.
Wafer is polished position by pretreating zone bit transition to the first recess by step S105.In embodiment, the application is brilliant
Circle multistation edge polishing equipment includes wafer transfer device, and wafer transfer device includes positioned at the area placed in the middle of wafer job platform
The turntable in domain and multiple transfer robot arms on the turntable, wherein any one transfer robot arm is located at former and later two works
Between industry position, by the mobile realization between former and later two operation positions by wafer from previous operation region transfer to neighbour
Nearly the latter operation position.
In embodiment, it is assumed that the angle between two neighboring operation position is 60 °, transfer tool in wafer transfer device
Hand is located at the middle position of two neighboring operation position, and the opposite sides of each operation position is equipped with corresponding protective plate, specifically
It can in detail as shown in Figure 1.In step s105, wafer is thrown by pretreating zone bit transition to the first recess using wafer transfer device
The step of light position, is specific can include: opens the protective plate PA on rear side of pretreatment position, drives the turntable in wafer transfer device
Rotation is turned to by the transfer robot arm being located between pretreatment position and the first recess polishing position from initial position with first
(such as counterclockwise) rotate 30 ° and enter pretreatment position across the opening of protective plate PA, the rotation carrying from pretreatment position
The first wafer is extracted on platform, opens the protective plate PB on front side of the first recess polishing position, driving turntable rotation, by transfer robot arm
With the second steering (such as clockwise) 60 ° of rotation and across the opening of protective plate PA to exit pretreatment position and across protective plate
The opening of PB polishes position to enter the first recess, and the first wafer is transferred in the first recess polishing position and by the first wafer
It is placed in the wafer carrying platform in the first recess polishing position, at this point, the protective plate PA on rear side of pretreatment position can be closed, by
Transfer robot arm turns to 30 ° of rotation with first and is returned to just across the opening of protective plate PB with exiting after the first recess polishes position
The protective plate PB on front side of the first recess polishing position is closed in beginning position.
In fact, in step s105, in addition to by the first wafer by pretreating zone bit transition to the first recess polishing position it
Outside, at the same time, using wafer handler by the second wafer load to pre-processing position.In step s105, wafer is utilized
The operating process of second wafer load to pretreatment position can refer to rapid S101 by handler, and details are not described herein.
Step S107 carries out recess rough polishing operation to the wafer on the first recess polishing position.
As previously mentioned, in embodiment, the recess rough polishing electro-optical device may include wafer carrying platform and wafer recess rough polishing
Ray machine structure, wherein the wafer recess rough polishing mechanism may include rough polishing idler wheel, idler wheel rotating electric machine and idler wheel displacement
Mechanism.Therefore, in step s 107, the step of carrying out recess rough polishing operation to the first wafer using recess rough polishing electro-optical device has
Body includes: to carry the first wafer by wafer carrying platform and be kept fixed it, drives the rough polishing by the idler wheel rotating electric machine
The rotation of smooth roll wheel;According to the notch position of the first wafer, enable the idler wheel shift mechanism that the rough polishing idler wheel is driven to be displaced to
Recess polishing position, it is gradually close by the rough polishing idler wheel until touching the recess of the first wafer to implement the rough polishing of recess
Light operation.
In fact, in step s 107, it other than carrying out recess rough polishing operation to the first wafer, at the same time, also wraps
It includes and the detection of wafer recess and centering operation etc. is carried out to the second wafer on pretreatment position as described in step S103, herein not
It repeats again.
Wafer is polished region transfer to the second recess by the first recess and polishes position by step S109.
In step S109, wafer is thrown by the first recess polishing region transfer to the second recess using wafer transfer device
The step of light position, is specific can include: opens wafer by the protective plate PA on rear side of the first recess polishing position, driving wafer transfer
Turntable rotation in device, by the transfer robot arm between the first recess polishing position and the second recess polishing position from just
Beginning position turns to (such as counterclockwise) 30 ° of rotation and enter the first recess across the opening of protective plate PA with first polishes position,
The first wafer is extracted from the wafer carrying platform of the first recess polishing position, opens the protective plate on front side of the second recess polishing position
PB, driving turntable rotation turn to the opening that (such as clockwise) rotates 60 ° and pass through protective plate PA by transfer robot arm with second
To exit the first recess polishing position and polish position across the opening of protective plate PB to enter the second recess, the first wafer is turned
It moves in the second recess polishing position and the first wafer is placed in the wafer carrying platform that the second recess polishes in position, this
When, the protective plate PA on rear side of the first recess polishing position can be closed, 30 ° of rotation is turned to first by transfer robot arm and is passed through anti-
The opening of backplate PB returns to initial position to exit behind the second recess polishing position, anti-on front side of closing the second recess polishing position
Backplate PB.
In fact, in step S109, the first wafer is being polished into region transfer by the first recess using wafer transfer device
To the second recess polish position except, at the same time, using wafer transfer device by the second wafer by pretreating zone bit transition extremely
First recess polishes position, is detailed in step S105.In addition, at the same time, using wafer handler by third wafer load extremely
Position is pre-processed, step S101 is detailed in.
Step S111 carries out recess finishing polish operation to the wafer on the second recess polishing position.
As previously mentioned, in embodiment, the recess finishing polish device may include that wafer carrying platform and wafer recess essence are thrown
Ray machine structure, wherein the wafer recess finishing polish mechanism may include finishing polish idler wheel, idler wheel rotating electric machine and idler wheel displacement
Mechanism.Therefore, in step S111, have using recess finishing polish device to the step of the first wafer progress recess finishing polish operation
Body includes: to carry the first wafer by wafer carrying platform and be kept fixed it, is thrown by the idler wheel rotating electric machine driving essence
The rotation of smooth roll wheel;According to the notch position of the first wafer, enable the idler wheel shift mechanism that the finishing polish idler wheel is driven to be displaced to
Recess polishing position, it is gradually close by the finishing polish idler wheel until touching the recess of the first wafer to implement the essence of recess and throw
Light operation.
In fact, in step S111, in addition to carrying out recess finishing polish to the first wafer using wafer recess finishing polish device
Except operation, at the same time, further include using wafer recess rough polishing electro-optical device to the second wafer carry out recess rough polishing operation with
And the detection of wafer recess and centering operation etc. are carried out to the third wafer on pretreatment position, details are not described herein.
Wafer is polished region transfer to first edge by the second recess and polishes position by step S113.
In step S113, wafer is polished into region transfer to first edge by the second recess using wafer transfer device and is thrown
The step of light position, is specific can include: opens wafer by the protective plate PA on rear side of the second recess polishing position, driving wafer transfer
Turntable rotation in device, by the transfer robot arm between the second recess polishing position and first edge polishing position from just
Beginning position turns to (such as counterclockwise) 30 ° of rotation and enter the second recess across the opening of protective plate PA with first polishes position,
The first wafer is extracted from the wafer carrying platform of the second recess polishing position, opens the protective plate on front side of first edge polishing position
PB, driving turntable rotation turn to the opening that (such as clockwise) rotates 60 ° and pass through protective plate PA by transfer robot arm with second
To exit the second recess polishing position and polish position across the opening of protective plate PB to enter first edge, the first wafer is turned
It moves in first edge polishing position and the first wafer is placed in the wafer carrying platform that first edge polishes in position, this
When, the protective plate PA on rear side of the second recess polishing position can be closed, 30 ° of rotation is turned to first by transfer robot arm and is passed through anti-
The opening of backplate PB returns to initial position to exit behind first edge polishing position, anti-on front side of closing first edge polishing position
Backplate PB.
In fact, in step S113, the first wafer is being polished into region transfer by the second recess using wafer transfer device
It is polished except position to first edge, at the same time, further includes: thrown the second wafer by the first recess using wafer transfer device
Light region transfer to the second recess polishes position, using wafer transfer device by third wafer by pretreating zone bit transition to first
Recess polishes position, and, using wafer handler by the 4th wafer load to pre-processing position.
Step S115 carries out edge rough polishing operation to the wafer on first edge polishing position.
As previously mentioned, in embodiment, the edge of the circle rough polishing electro-optical device may include that wafer carrying platform and crystal round fringes are thick
Polishing mechanism, wherein crystal round fringes rough polishing mechanism may include rough polishing turntable, edge rough polishing optical assembly, turntable rotation
Motor and turntable shift mechanism.Therefore, in step sl 15, side is carried out to the first wafer using the edge of the circle rough polishing electro-optical device
The step of edge rough polishing operation, specifically includes: enabling the turntable rotating electric machine driving rough polishing turntable turn to rotation with first, makes
Overturning main body in multiple edge polishing components and edge rough polishing part under the drive of hinge outwardly with respect to rough polishing turntable
Overturning;In the state of keeping rough polishing turntable to turn to rotation with first, the elevating mechanism driving rough polishing turntable is enabled to pass through
Lifting and translocating and reach scheduled edge rough polishing optical position, in this way, each edge rough polishing optical assembly of rough polishing turntable periphery exists
The edge rough polishing optical position corresponds to the edge of the first wafer, so that the first wafer falls into multiple edge rough polishing optical assemblies and enclosed
At polishing space in;The turntable rotating electric machine driving rough polishing turntable is enabled to turn to rotation with second, so that multiple edges are thick
Overturning main body and edge rough polishing part in polishing assembly are overturn under the drive of hinge with respect to rough polishing turntable inwardly, by multiple
Edge rough polishing part in edge rough polishing optical assembly carries out edge rough polishing operation for the first wafer.
In fact, in step sl 15, in addition to carrying out edge rough polishing to the first wafer using crystal round fringes rough polishing electro-optical device
Except operation, at the same time, further includes: recess finishing polish operation is carried out to the second wafer using wafer recess finishing polish device,
Recess rough polishing operation is carried out to third wafer using wafer recess rough polishing electro-optical device and to the 4th crystalline substance on pretreatment position
Circle carries out the detection of wafer recess and centering operation etc., and details are not described herein.
Wafer is polished region transfer to second edge by first edge and polishes position by step S117.
In step S117, wafer is polished into region transfer to second edge by first edge using wafer transfer device and is thrown
The step of light position, is specific can include: opens wafer by the protective plate PA on rear side of first edge polishing position, driving wafer transfer
Turntable rotation in device, by the transfer robot arm between first edge polishing position and second edge polishing position from just
Beginning position turns to (such as counterclockwise) 30 ° of rotation with first and enters first edge polishing position across the opening of protective plate PA,
The first wafer is extracted from the wafer carrying platform of first edge polishing position, opens the protective plate on front side of second edge polishing position
PB, driving turntable rotation turn to the opening that (such as clockwise) rotates 60 ° and pass through protective plate PA by transfer robot arm with second
To exit first edge polishing position and polish position across the opening of protective plate PB to enter second edge, the first wafer is turned
It moves in second edge polishing position and the first wafer is placed in the wafer carrying platform that second edge polishes in position, this
When, the protective plate PA on rear side of first edge polishing position can be closed, 30 ° of rotation is turned to first by transfer robot arm and is passed through anti-
The opening of backplate PB returns to initial position to exit behind second edge polishing position, anti-on front side of closing second edge polishing position
Backplate PB.
In fact, in step S117, the first wafer is being polished into region transfer by first edge using wafer transfer device
It is polished except position to second edge, at the same time, further includes: thrown the second wafer by the second recess using wafer transfer device
Light region transfer to first edge polishes position, and third wafer is polished region transfer by the first recess using wafer transfer device
Position is polished to the second recess, using wafer transfer device by the 4th wafer by pretreating zone bit transition to the first recess polishing area
Position, and, using wafer handler by the 5th wafer load to pre-processing position.
Step S119 carries out edge finishing polish operation to the wafer on second edge polishing position.
As previously mentioned, in embodiment, the edge of the circle finishing polish device may include wafer carrying platform and crystal round fringes essence
Polishing mechanism, wherein crystal round fringes finishing polish mechanism may include finishing polish turntable, edge finishing polish component, turntable rotation
Motor and turntable shift mechanism.Therefore, in step S119, side is carried out to the first wafer using the edge of the circle finishing polish device
The step of edge finishing polish operation, specifically includes: enabling the turntable rotating electric machine driving finishing polish turntable turn to rotation with first, makes
Overturning main body in multiple edge polishing components and edge finishing polish part under the drive of hinge outwardly with respect to finishing polish turntable
Overturning;In the state of keeping finishing polish turntable to turn to rotation with first, the elevating mechanism driving finishing polish turntable is enabled to pass through
Lifting and translocating and reach scheduled edge finishing polish position, in this way, each edge finishing polish component of finishing polish turntable periphery exists
Edge finishing polish position corresponds to the edge of the first wafer, so that the first wafer falls into multiple edge finishing polish components and enclosed
At polishing space in;The turntable rotating electric machine driving finishing polish turntable is enabled to turn to rotation with second, so that multiple edges are smart
Overturning main body and edge finishing polish part in polishing assembly are overturn under the drive of hinge with respect to finishing polish turntable inwardly, by multiple
Edge finishing polish part in edge finishing polish component carries out edge finishing polish operation for the first wafer.
In fact, in step S119, in addition to carrying out edge finishing polish to the first wafer using crystal round fringes finishing polish device
Except operation, at the same time, further includes: rough polishing operation in edge is carried out to the second wafer using crystal round fringes rough polishing electro-optical device,
Recess finishing polish operation is carried out to third wafer using wafer recess finishing polish device, using wafer recess rough polishing electro-optical device to the
Four wafers carry out recess rough polishing operation and carry out the detection of wafer recess and centering behaviour to the 5th wafer on pretreatment position
Make etc., details are not described herein.
Wafer is polished region transfer to post-processing position by second edge by step S121.
In step S121, wafer is polished into region transfer to post-processing position by second edge using wafer transfer device
The step of it is specific can include: open wafer by second edge polishing position on rear side of protective plate PA, drive wafer transfer device in
Turntable rotation, by being located at second edge polishing position and post-processing transfer robot arm 93 between position from initial position with the
One turns to (such as counterclockwise) 30 ° of rotation and enters second edge polishing position across the opening of protective plate PA, from second edge
It polishing and extracts the first wafer in the wafer carrying platform of position, open the protective plate PB on front side of post-processing position, driving turntable rotates,
Turn to (such as clockwise) 60 ° of rotation and across the opening of protective plate PA with second by transfer robot arm 93 to exit second edge
Polish position and across protective plate PB opening with enter post-process position, by the first wafer be transferred to post-processing position in and will
First wafer is placed in the wafer carrying platform in post-processing position, at this point, can close anti-on rear side of second edge polishing position
Backplate PA is returned after exiting post-processing position with the first 30 ° of steering rotation and across the opening of protective plate PB by transfer robot arm
To initial position, the protective plate PB on front side of post-processing position is closed.
In fact, in step S121, the first wafer is being polished into region transfer by second edge using wafer transfer device
To position is post-processed, at the same time, further includes: the second wafer is polished into region transfer by first edge using wafer transfer device
Position is polished to second edge, third wafer is polished into region transfer to first edge by the second recess using wafer transfer device
Position is polished, the 4th wafer is polished into region transfer to the second recess by the first recess using wafer transfer device and polishes position,
The 5th wafer is polished into position by pretreating zone bit transition to the first recess using wafer transfer device, and, it is filled using wafer
Handler is by the 6th wafer load to pre-processing position.
Step S123 carries out washing and cleaning operation to the wafer on post-processing position.
In step S123, the step of being cleaned using wafer cleaning device to the first wafer, is specifically included: first being driven
Wafer cleaning device is mobile, so that the spray head on wafer cleaning device corresponds to the edge of the first wafer, then controls wafer cleaning
Spray head on device is cleaned towards the edge of wafer sprinkling cleaning agent.
In fact, in step S123, other than carrying out washing and cleaning operation to the first wafer using wafer cleaning device, with this
Simultaneously, further includes: finishing polish operation in edge is carried out to the second wafer using crystal round fringes finishing polish device, it is thick using crystal round fringes
Burnishing device carries out edge rough polishing operation to third wafer, carries out recess to the 4th wafer using wafer recess finishing polish device
Finishing polish operation carries out recess rough polishing operation to the 5th wafer using wafer recess rough polishing electro-optical device and to pretreatment position
On the 6th wafer carry out the detection of wafer recess and centering operation etc., details are not described herein.
Step S121 will will complete the wafer after polishing and unload from the post-processing position of wafer job platform.
It is using wafer handler that wafer is specific from the step of position unloads is post-processed in step S121 can include:
The mechanical arm of wafer handler is driven to be moved to post-processing position by initial position;Mechanical arm is controlled from post-processing position
On wafer carrying platform on extract the first wafer;Driving manipulator arm is moved to wafer loading place by post processing zone position, by first
Wafer is placed in the wafer magazine on wafer handling position;Driving manipulator arm returns to initial position.
In fact, in step S121, except the first wafer is unloaded from post-processing position using wafer handler, with
This is simultaneously, further includes: the second wafer is polished region transfer to post-processing position by second edge using wafer transfer device, benefit
Third wafer is polished into region transfer to second edge by first edge with wafer transfer device and polishes position, is shifted using wafer
4th wafer is polished region transfer to first edge by the second recess and polishes position by device, using wafer transfer device by the 5th
Wafer polishes region transfer to the second recess by the first recess and polishes position, using wafer transfer device by the 6th wafer by advance
It manages region transfer to the first recess and polishes position, and, using wafer handler by the 7th wafer load to pre-processing position.
Wafer multistation edge polishing method disclosed in the present application, quickly, steadily and with no damage by polished wafer
Shifted between each operation position, can not only enable wafer sequentially completed in same equipment wafer recess polishing operation and
Crystal round fringes polishing operation also can carry out corresponding polishing operation to multiple wafers simultaneously, improve production efficiency and crystal round fringes
The operation quality of polishing.
The principles and effects of the application are only illustrated in above-described embodiment, not for limitation the application.It is any ripe
Know the personage of this technology all can without prejudice to spirit herein and under the scope of, carry out modifications and changes to above-described embodiment.Cause
This, those of ordinary skill in the art is complete without departing from spirit disclosed herein and institute under technical idea such as
At all equivalent modifications or change, should be covered by claims hereof.
Claims (10)
1. a kind of wafer transfer device of wafer multistation edge polishing equipment, which is characterized in that wafer multistation edge
Equipment has wafer job platform, and equiangularly arranged multiple operation positions are equipped on the wafer job platform, described
Wafer transfer device includes:
Turntable, set on the centered region of the wafer job platform;
Multiple transfer robot arms are angularly set on the turntable;Each transfer robot arm is located at two neighboring operation position
Between, under the drive of the turntable by wafer from previous operation region transfer to neighbouring the latter operation position.
2. wafer transfer device according to claim 1, which is characterized in that configured with turntable driving electricity on the turntable
Machine, for driving the turntable to realize the rotation of positive and reverse steering.
3. wafer transfer device according to claim 1, which is characterized in that the angle between two neighboring transfer robot arm
Equal to the angle between corresponding two neighboring operation position.
4. wafer transfer device according to claim 1, which is characterized in that in the initial state, each transfer is mechanical
The initial position of hand is the middle position of two neighboring operation position.
5. wafer transfer device according to claim 1, which is characterized in that the transfer robot arm includes: for support
The supporting part of wafer and support arm for the supporting part to be connected to the turntable.
6. wafer transfer device according to claim 5, which is characterized in that the supporting part is equipped with absorbing unit.
7. wafer transfer device according to claim 5, which is characterized in that the supporting part is pallet or support arm.
8. wafer transfer device according to claim 1, which is characterized in that the transfer robot arm is described including being connected to
Two clamp arm of turntable.
9. wafer transfer device according to claim 8, which is characterized in that the clamp arm is equipped with buffer structure.
10. a kind of wafer transfer method based on wafer transfer device as described in claim 1, which is characterized in that the crystalline substance
Circle transfer method includes the following steps:
Enable turntable with first turn to rotate first angle so that the transfer robot arm on turntable be transferred to by initial position it is corresponding
Previous operation position;Angle of the first angle between the previous operation position and the initial position;
Transfer robot arm is enabled to extract the wafer for being located at previous operation position;
It enables turntable turn to second and rotates second angle, so that the transfer robot arm on turntable is by corresponding previous operation position
It is transferred to adjacent the latter operation position;The second angle is the previous operation position and the latter operation area
Angle between position;
Enable transfer robot arm that wafer is placed in the latter operation position;
Enable turntable with first turn to rotate third angle so that the transfer robot arm on turntable by the latter operation region transfer extremely
Initial position;Angle of the third angle between the latter operation position and the initial position.
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CN113211216A (en) * | 2021-04-23 | 2021-08-06 | 科莱思半导体智造(浙江)有限公司 | Polishing equipment for semiconductor silicon wafer |
CN116148640A (en) * | 2023-04-19 | 2023-05-23 | 深圳市华芯邦科技有限公司 | Integrated circuit test equipment |
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