CN209614497U - The compatible laser-beam welding machine of height - Google Patents
The compatible laser-beam welding machine of height Download PDFInfo
- Publication number
- CN209614497U CN209614497U CN201920377632.8U CN201920377632U CN209614497U CN 209614497 U CN209614497 U CN 209614497U CN 201920377632 U CN201920377632 U CN 201920377632U CN 209614497 U CN209614497 U CN 209614497U
- Authority
- CN
- China
- Prior art keywords
- plate
- fpc plate
- platform
- fpc
- welding machine
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Laser Beam Processing (AREA)
Abstract
The utility model provides a kind of laser-beam welding machine of high compatibility, it includes rack, laser welding mould group, upper tin mould group, workbench, feeding platform, charging manipulator, outfeed platforms and discharging manipulator, and workbench includes fixing seat, fixed platform plate, overturning platform board and the adjustment mechanism for adjusting the 2nd FPC plate.The compatible laser-beam welding machine of the height of the utility model passes through setting fixed platform plate and overturning platform board, so that FPC plate and display module are fixed on different platform boards, the relative position between display module and FPC plate is adjusted by the overturning of overturning platform board simultaneously, so that adjustment mechanism can adjust position of the 2nd FPC plate with respect to the first FPC plate, make it to go on smoothly subsequent welding, its product for being capable of processing more polytypic, the range of work is bigger, and the compatibility of welding is higher.
Description
Technical field
The utility model relates to the processing equipment field of display device, in particular to a kind of laser-beam welding machine of high compatibility.
Background technique
Laser welding is a kind of high-efficiency and precision welding method using the laser beam of high-energy density as heat source, Laser Welding
Connecing is that workpiece surface is heated by laser emission, and surface heat is internally spread by heat transfer, passes through control laser pulse
The parameters such as width, energy, peak power and repetition rate, melt workpiece, form specific molten bath, since its is unique excellent
Point has been successfully applied in micro-, small parts precision welding.
Conventionally, as the model structure of display module is different, and laser welding apparatus needs pass through tune
Complete machine structure carries out various adjustment to the FPC plate on display module, and some structures on display module may exchange complete machine configuration
At interference, it is therefore desirable to adjust the relative position between display module and FPC plate, adjustment mechanism could carry out FPC plate various
Adjustment is in order to subsequent welding, so that adjustment is limited, therefore, a laser welding apparatus in the prior art is generally only capable of pair
Corresponding a display module carries out welding processing, and welding range is small, and compatibility is low.
Therefore need to provide a kind of laser-beam welding machine of high compatibility to solve above-mentioned technical problem.
Utility model content
The utility model provides a kind of laser-beam welding machine of high compatibility, passes through setting fixed platform plate and overturning platform
Plate, so that FPC plate and display module are fixed on different platform boards, while the overturning by overturning platform board is aobvious to adjust
Show the relative position between module and FPC plate, so that adjustment mechanism can adjust position of the 2nd FPC plate with respect to the first FPC plate
It sets, makes it to go on smoothly subsequent welding, be generally only capable of with solving a laser welding apparatus in the prior art to corresponding
A display module carry out welding processing, welding range is small, the low problem of compatibility.
In order to solve the above technical problems, the technical solution of the utility model are as follows: a kind of laser-beam welding machine of high compatibility is used for
Electrical welding, the first FPC plate and the 2nd FPC plate are carried out to the first FPC plate of display module one end and the 2nd FPC plate
Welding section be stacked comprising:
Rack is provided with crossbeam at the top of the rack;
Laser welding mould group, is slidably arranged on the crossbeam;
Upper tin mould group, is slidably arranged on the crossbeam, and the upper tin mould group includes melting the hot branded head of tin for heating, sending
Tin mechanism and the CCD camera adjusted for shooting bond pad locations and aided location, wherein the hot branded head removably connects
On the arc groove of adjustment disk, so that the hot branded head can adjust upper tin angle along arc groove;
Workbench is arranged in the rack and is located at the lower section of the crossbeam, and the workbench includes fixing seat, fixation
Platform board, overturning platform board and the adjustment mechanism for adjusting the 2nd FPC plate, the fixed platform plate removably connect
It connects on first substrate on the fixing seat, is provided with gasket between the fixed platform plate and the first substrate, it is described
Fixed platform plate is used to support the first FPC plate and the 2nd FPC plate, and the overturning platform board is rotatably connected on described solid
One end in reservation and positioned at the fixed platform plate, is used to support the display module, the overturning platform is for changing institute
The position of display module Yu the 2nd FPC plate is stated, so that the adjustment mechanism can provoke the 2nd FPC plate
And position adjustment operation;
One end of the rack is arranged in, for inputting processed product in feeding platform;
Manipulator is fed, for processed product to be grabbed to transport from the feeding platform to the workbench;
The other end of the rack is arranged in outfeed platforms, for exporting the product of completion of processing;And
Discharge manipulator, for the product of completion of processing to be grabbed to transport from the workbench to the outfeed platforms
On.
In the present invention, using the extending direction of the feeding platform as X-direction, perpendicular to the fixed platform plate
Plate face direction be Z-direction, using a direction perpendicular to the X-direction and the Z-direction as Y-direction;
The adjustment mechanism includes driving mould group, upper clip and lower clamping piece, and the driving mould group is described for driving
Intermediate plate and lower clamping piece movement and rotation, the upper clip are located at the lower section of the fixed platform plate, are used for from the fixation
The interstitial area incision of platform board and the overturning platform board provokes the 2nd FPC plate to the top surface of the first FPC plate,
The lower section that the lower clamping piece is located at the fixed platform plate is used to jointly form the 2nd FPC plate with the upper clip and press from both sides
It holds, and then adjusts the position of the 2nd FPC plate to align with the first FPC plate.
Further, the first sucker for sucking the first FPC plate is provided on the fixed platform plate, in institute
State the second sucker being provided on overturning platform board for sucking the display module;
The fixed platform plate includes the first supporting surface for being used to support the first FPC plate and the 2nd FPC plate, institute
Stating overturning platform board includes the second supporting surface for being used to support the display module, and the overturning platform board wraps on overturning track
Include the first flip bit and the second flip bit;
When the overturning platform board is located at first flip bit, first supporting surface is parallel to second support
Face;
When the overturning platform board is located at second flip bit, first supporting surface and second supporting surface it
Between be in 255 °~265 ° of angle, so that display module be avoided to form interference to the operation of provoking of the upper clip.
In addition, the workbench further includes the first hold-down mechanism and the second compacting machine for compressing the 2nd FPC plate
Structure;
First hold-down mechanism includes the first belt driving assembly, the first lifting unit, the first adjutage and compact heap,
First lifting unit is connect with the first drive belt of the first belt driving assembly to obtain the shifting along the X-direction
Dynamic, one end of first adjutage is connect with first lifting unit to obtain the elevating movement along the Z-direction, the other end
It is detachably connected with the compact heap;
Second hold-down mechanism includes the first feed screw nut component, the second lifting unit, the second adjutage and compresses piece,
Second lifting unit is connect to obtain moving along the X-direction with the first feed screw nut component, and described second extends
One end of arm is connect to obtain the elevating movement along the Z-direction with second lifting unit, and the other end and the compression piece can
Dismantling connection.
In the present invention, the fixing seat includes bottom plate, the first substrate and the second substrate, first base
The both ends of plate are fixed on the bottom plate by support column, and the both ends of the second substrate are fixed at by support plate
On the bottom plate, the fixed platform plate is removably attachable on the first substrate;
It is arranged in parallel with guide rail and guide groove on the second substrate, the first belt driving assembly setting is described the
On two substrates, first lifting unit is slidably connected on the guide rail by sliding block, and the first feed screw nut component includes
First motor, the first driving belt, the first lead screw and the first nut piece on first lead screw of being sequentially connected, described the
One lead screw is rotatably arranged on the top of the second substrate, and the bottom of the second substrate is arranged in the first motor, described
The both ends of first driving belt are sequentially connected the output shaft and first lead screw of the first motor respectively, first nut
Part is slidably connected in the guide groove.
Further, the both ends at the top of the first substrate are provided with extension block, and the extension block is extended described
Except one substrate, the both ends of the overturning platform board pass through extension rod and the extension block is rotatablely connected.
Further, be fixedly connected with extension board on the inside of one piece of support plate, one end of Telescopic-cylinder bar with it is described
Extension board rotation connection, the other end and an extension rod are rotatablely connected, to pass through the flexible driving institute of the Telescopic-cylinder bar
The rotation of overturning platform board is stated, limited block is fixedly installed on the extension block at one end, the limited block is for limiting institute
It states returning face plate and turns to first flip bit.
Wherein, first adjutage includes the first subsection part and is removably attachable on first subsection part
Second subsection part is provided with the strip for being fixedly connected on first subsection part or/and second subsection part
The extending direction of shape connecting hole, the strip connecting hole is consistent with the Y-direction, and then for adjusting the compact heap to institute
State the compacted position of the 2nd FPC plate.
In the present invention, the lower clamping piece includes the first main part of U-shape and is connected to first main body
The first end at portion both ends, two first ends are oppositely extending, and the first end of left end is used for described in right side
2nd FPC plate carries out clipping operation, and the first end of right end is for carrying out clamping behaviour to the 2nd FPC plate in left side
Make;
The upper clip includes the second main part and the second end for being connected to second main part both ends, two institutes
State that the second end is oppositely extending, the ipsilateral the second end is opposite with the first end, second main part with it is described
U-lag in the middle part of first main part is opposite, and the second end of left end is for provoking the 2nd FPC plate on right side
Clipping operation, the second end of right end to the 2nd FPC plate in left side for carrying out provoking clipping operation.
In the present invention, be provided with correction component on the feeding platform, the correction component include supporting beam,
Third belt driving assembly, the first locating piece, cylinder assembly and the second locating piece;
The supporting beam is located at the top of the feeding platform, and the third belt driving assembly is arranged in the supporting beam
On, first locating piece is slidably arranged in the supporting beam, first locating piece and the third belt driving assembly
The connection of third drive belt to obtain the driving force of sliding, the cylinder assembly is fixed in the rack, described the
One end of two locating pieces is slidably arranged in the rack, and second locating piece is connect with the cylinder assembly to be slided
Driving force;
The sliding of first locating piece and second locating piece each parallel to the feeding platform table top, and it is described
The glide direction of first locating piece and second locating piece is orthogonal.
The utility model compared to the prior art, it has the advantage that: the laser-beam welding machine that the height of the utility model is compatible
By setting fixed platform plate and overturning platform board, so that FPC plate and display module are fixed on different platform boards, simultaneously
The relative position between display module and FPC plate is adjusted by the overturning of overturning platform board, so that adjustment mechanism can be adjusted
Whole 2nd FPC plate makes it to go on smoothly subsequent welding, is capable of processing the production of more polytypic with respect to the position of the first FPC plate
Product, the range of work is bigger, and the compatibility of welding is higher;
Wherein, workbench includes being used to support the fixed platform plate of the first FPC plate and the 2nd FPC plate and being used to support aobvious
Show the overturning platform board of module, if display module will not will form interference to the operation of provoking of upper clip, overturning platform board can
Be maintained at the first flip bit, if display module will form interference to the operation of provoking of upper clip, overturn platform board may be reversed to
Second flip bit avoids interference with, so that the compatible laser-beam welding machine of the height is capable of processing various types of products, it should to improve
The range of work of the compatible laser-beam welding machine of height.
Detailed description of the invention
In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below in embodiment
Required attached drawing is briefly described, and the accompanying drawings in the following description is only that the section Example of the utility model is corresponding
Attached drawing.
Fig. 1 is the structural schematic diagram of the preferred embodiment of the compatible laser-beam welding machine of the height of the utility model.
Fig. 2 is the top view of the compatible laser-beam welding machine of the height of the utility model.
Fig. 3 is the structural schematic diagram of the feeding platform of the compatible laser-beam welding machine of the height of the utility model.
Fig. 4 is the structural schematic diagram of the workbench of the compatible laser-beam welding machine of the height of the utility model.
Fig. 5 is fixing seat, fixed platform plate and the overturning platform board of the compatible laser-beam welding machine of the height of the utility model
Structural schematic diagram.
Fig. 6 is the first hold-down mechanism of the compatible laser-beam welding machine of the height of the utility model and the structure of the second hold-down mechanism
Schematic diagram.
Fig. 7 is the structural schematic diagram of the first adjutage of the compatible laser-beam welding machine of the height of the utility model.
Fig. 8 is the structural schematic diagram of the adjustment mechanism of the compatible laser-beam welding machine of the height of the utility model.
Fig. 9 is the enlarged structure schematic diagram of the adjustment mechanism in Fig. 8.
Figure 10 is the structural schematic diagram of display module in the prior art.
Figure 11 is the structure that the workbench of the compatible laser-beam welding machine of the height of the utility model is supported display module
Schematic diagram.
Figure 12 is the structural schematic diagram of another money display module in the prior art.
When Figure 13 is that the workbench of the compatible laser-beam welding machine of the height of the utility model carries out turning operation to display module
Structural schematic diagram.
Figure 14 is the upper clip of the compatible laser-beam welding machine of the height of the utility model and the structural schematic diagram of lower clamping piece.
Figure 15 is the structural schematic diagram of the upper tin mould group of the compatible laser-beam welding machine of the height of the utility model.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those skilled in the art are obtained without making creative work
The every other embodiment obtained, fall within the protection scope of the utility model.
A laser welding apparatus in the prior art is generally only capable of carrying out welding processing to corresponding a display module,
It is small to weld range, compatibility is low.
It the following is a kind of the excellent of the compatible laser-beam welding machine of height that can solve the above technical problem provided by the utility model
Select embodiment.
The similar unit of structure is to be given the same reference numerals in the figure.
Words such as " first " " second " in the utility model term should not be understood as instruction or dark only as description purpose
Show opposite importance, and not as the limitation to sequencing.
A kind of preferred embodiment of high compatible laser-beam welding machine provided by the utility model are as follows: laser welding of high compatibility
Machine, for 27 one end of display module the first FPC plate 271 and the 2nd FPC plate 272 carry out electrical welding, the first FPC plate 271
It is stacked with the welding section of the 2nd FPC plate 272;
It can refer to Figure 10, wherein Figure 10 is the structural schematic diagram of display module in the prior art;
It needs to know, in the actual production process, the first FPC plate 271 and 272 laminated layer sequence of the 2nd FPC plate are not
It is completely specified, there can be two kinds of the left and right ends situation of display module in Figure 10, i.e. the 2nd FPC plate 272 is located at the first FPC plate
On 271 top surface or the 2nd FPC plate 272 is located on 271 bottom surface of the first FPC plate, is located in the present embodiment with the 2nd FPC plate 272
It is forward condition on the top surface of first FPC plate 271, i.e. forward condition Shi Caineng is subjected to, and the 2nd FPC plate 272
When on the bottom surface of the first FPC plate 271, then need to provoke the 2nd FPC plate 272 to the first FPC plate 271 by upper clip 4K
On top surface;
Wherein, one end of display module in practice is not limited to connect two groups of FPC as shown in Figure 10, only connects one mostly
Group FPC plate, i.e. one piece of the first FPC plate 271 and one piece of the 2nd FPC plate 272 are formed as one group.
It please compare referring to Fig.1 1 and 2, Figure 11 is the workbench of the compatible laser-beam welding machine of height of the utility model referring to Fig.1
To the structural schematic diagram that display module is supported, Figure 12 is the structural schematic diagram of another money display module in the prior art;
On the other hand, display module further includes two kinds of situations, and just like Figure 11, display module 27 connects the end face of FPC plate
For plane, no extension so that the compatible laser welding function of the height of the utility model directly to the 2nd FPC plate 272 into
Row provokes operation to adjust the laminated layer sequence of the first FPC plate 271 and the 2nd FPC plate 272;
Secondly the end face that display module 27 connects FPC plate has extension, so that the height of the utility model such as Figure 12
Compatible laser-beam welding machine directly can not carry out provoking operation to adjust the first FPC plate 271 and the 2nd FPC to the 2nd FPC plate 272
The laminated layer sequence of plate 272, therefore the laser-beam welding machine of the high compatibility of the utility model is provided with fixed platform plate 25 and overturning is flat
Platen 26, so that display module 27 be avoided to form interference to operation is provoked by turning over display module 27.
Referring to Fig.1 and 2, wherein Fig. 1 is the preferred embodiment of the laser-beam welding machine of the high compatibility of the utility model
Structural schematic diagram, Fig. 2 are the top view of the compatible laser-beam welding machine of the height of the utility model.
The compatible laser-beam welding machine of the height include rack 11, laser welding mould group 12, upper tin mould group 13, workbench 14, into
Expect platform 15, charging manipulator 16, outfeed platforms 17 and discharging manipulator 18.
Wherein, the top of rack 11 is provided with crossbeam 111;
Laser welding mould group 12 is slidably arranged on crossbeam 111;
Upper tin mould group 13 is slidably arranged on crossbeam 111, and upper tin mould group includes melting the hot branded head 131 of tin for heating, sending
Tin mechanism 132 and the CCD camera 134 adjusted for shooting bond pad locations and aided location, wherein hot branded head 131 is dismountable
It is connected on the arc groove on adjustment disk 133, so that tin angle on hot branded head 131 be adjusted;
The lower section in rack 11 and being located at crossbeam 111 is arranged in workbench 14;
One end of rack 11 is arranged in feeding platform 15, for inputting processed product;
Processed product for being grabbed transport to workbench 14 by charging manipulator 16 from feeding platform 15;
The other end of rack 11 is arranged in outfeed platforms 17, for exporting the product of completion of processing;
Discharge manipulator 18, for the product of completion of processing to be grabbed to transport from workbench 14 to outfeed platforms 17.
Specifically, the Slideslip on crossbeam 111 is provided with a laser welding mould group 12, laser welding mould group 12 by
The motor 121 of one end drives, and motor 121 can be driven laser welding mould group 12 through but not limited to by feed screw nut component;
Another Slideslip is provided with two upper tin mould groups 13, and two upper tin mould groups 13 are driven by the motor 131 at both ends respectively,
Motor 131 can be driven upper tin mould group 13 through but not limited to by feed screw nut component;
Extending direction in rack 11 along crossbeam 111 is set gradually there are four workbench 14, and workbench 14 is arranged in cunning
In dynamic model group 141, sliding module 141 drive workbench moved along Y-direction so that display module can with upper tin mould group 13 or
The position of laser welding mould group 12 is opposite, and then to carry out upper tin operation or welding operation, high in machining efficiency.
It is understood that the driving portion of each mould group can be connect with computer thus what realization operated overall processing
Motion control.
Referring to figure 4., Fig. 5, Fig. 8 and Fig. 9, wherein Fig. 4 is the work of the laser-beam welding machine of the high compatibility of the utility model
Make the structural schematic diagram of platform, Fig. 5 is the fixing seat of the compatible laser-beam welding machine of the height of the utility model, fixed platform plate and turns over
Turn the structural schematic diagram of platform board, Fig. 8 is the structural representation of the adjustment mechanism of the compatible laser-beam welding machine of the height of the utility model
Figure, Fig. 9 are the enlarged structure schematic diagram of the adjustment mechanism in Fig. 8, and in addition X-direction, Y-direction and Z-direction can refer to Fig. 2 and figure
The direction that label XYZ is indicated in 8.
Workbench 14 in the present embodiment includes fixing seat, fixed platform plate 25 and overturning platform board 26, fixed platform plate
25 plate face is parallel to the table top of feeding platform 15, using the extending direction of feeding platform 15 as X-direction, perpendicular to fixed platform
The direction of the plate face of plate 25 is Z-direction, using a direction perpendicular to X-direction and Z-direction as Y-direction;
Fixed platform plate 25, which is fixedly connected in fixing seat, is used to support the first FPC plate 271 and the 2nd FPC plate 272, overturning
Platform board 26 is rotatably connected on the one end in fixing seat and being located at fixed platform plate 25, is used to support display module 27;
Workbench 14 further includes the adjustment mechanism 2B for adjusting the 2nd FPC plate 272, and adjustment mechanism 2B includes driving mould
Group, upper clip 4K and lower clamping piece 4L, driving mould group is for driving upper clip 4K and lower clamping piece 4L mobile and rotation, upper clip 4K
Positioned at the lower section of fixed platform plate 25, for cutting from the interstitial area of fixed platform plate 25 and overturning platform board 26 by the 2nd FPC
Plate 272 is provoked to the top of the first FPC plate 271, and the lower section that lower clamping piece 4L is located at fixed platform plate 25 is used for total with upper clip 4K
It is clamped with being formed to the 2nd FPC plate 272, and then adjusts the position of the 2nd FPC plate 272 to align with the first FPC plate 271.
Wherein, the first sucker for sucking the first FPC plate 271 is provided on fixed platform plate 25, in overturning platform
Be provided with the second sucker for sucking display module 27 on plate 26, the first sucker and the second sucker can be connect with vacuum equipment with
Suction is generated, the first sucker and the second sucker are not indicated in figure;
Figure 11 and Figure 13 are please referred to, wherein platform board 26 is overturn in Figure 11 and is located at the first flip bit, overturn platform in Figure 13
Plate 26 is located at the second flip bit;
Fixed platform plate 25 includes the first supporting surface for being used to support the first FPC plate 271 and the 2nd FPC plate 272, and overturning is flat
Platen 26 includes the second supporting surface for being used to support display module 27, and overturning platform board 26 includes the first overturning on overturning track
Position and the second flip bit;
When overturning platform board 26 is located at the first flip bit, the first supporting surface is parallel to the second supporting surface;
It is in 255 °~265 ° between the first supporting surface and the second supporting surface when overturning platform board 26 is located at the second flip bit
Angle, thus avoid display module 27 to the upper clip 4K provoke operation formed interference.
If display module 27 is style shown in Figure 11, when overturning platform board 26 and being located at the first flip bit, upper clip 4K is
The 2nd FPC plate 272 can be carried out provoking operation, if display module 27 is style shown in Figure 12, overturning platform board 26 needs to overturn
The formation of display module is avoided to interfere to the second flip bit, then upper clip 4K could carry out provoking behaviour to the 2nd FPC plate 272
Make;
The setting for overturning platform board 26 allows for the compatible laser-beam welding machine of the height and is capable of processing various types of products, from
And improve the range of work of the compatible laser-beam welding machine of the height.
On the other hand, the fixing seat in the present embodiment includes bottom plate 21, first substrate 22 and the second substrate 23, the first base
The both ends of plate 22 are fixed on bottom plate 21 by support column 211, and the both ends of the second substrate 23 are set by the fixation of support plate 212
It sets on bottom plate 21, wherein fixed platform plate 25 is removably attachable on first substrate 22;
Wherein it is understood that the thickness of the display module 27 of different model is different, FPC plate is connected to display module 27
Height and position on end face also difference, therefore the settable gasket between fixed platform plate 25 and first substrate 22, to change
The height and position for becoming the opposite overturning platform board 26 of fixed platform plate 25, so that the display module 27 and FPC plate of different model
It preferably smooth can be placed on corresponding platform board.
First substrate 22 and the second substrate 23 can play the role of dividing installation space, first substrate 22 and the second substrate 23
Height and position can be configured according to specific piece volumes, the fixed seat structure in the present embodiment is compact, and component distribution is whole
Together, space utilization rate is high.
Please refer to Fig. 6 and Fig. 7, Fig. 6 is the first hold-down mechanism and the of the compatible laser-beam welding machine of the height of the utility model
The structural schematic diagram of two hold-down mechanisms, Fig. 7 are the structure of the first adjutage of the compatible laser-beam welding machine of the height of the utility model
Schematic diagram.
Workbench 14 in the present embodiment further includes the first hold-down mechanism 28 and for compressing the 2nd FPC plate 272
Two hold-down mechanisms 29, wherein the first hold-down mechanism 28 and the second hold-down mechanism 29 are that the 2nd FPC plate 272 is pressed on first
On FPC plate 271, so that the relative position of the first FPC plate 271 and the 2nd FPC plate 272 is fixed, the first hold-down mechanism 28 and second
The case where both ends that hold-down mechanism 29 is used to cope with 27 side of display module are provided with FPC plate, display mould as shown in Figure 10
27 side of block is provided with two groups of FPC plates;
First hold-down mechanism 28 includes the first belt driving assembly, the first lifting unit 32, the first adjutage and compact heap
The first of 3A (28 meaning of serial number may also indicate that the first adjutage in Fig. 6), the first lifting unit 32 and the first belt driving assembly drives
The dynamic connection of belt 31 is to obtain movement in X direction, and the first drive belt 31 is driven by corresponding motor 311 and operated, and first prolongs
One end of semi-girder is connect to obtain the elevating movement along Z-direction with the first lifting unit 32, and the other end detachably connects with compact heap 3A
It connects, so as to replace the compact heap 3A using different length and width according to the size of the 2nd FPC plate;
Second hold-down mechanism 29 includes the first feed screw nut component, the second lifting unit 39, the second adjutage and compresses piece
3B (29 meaning of serial number may also indicate that the second adjutage in Fig. 6), the second lifting unit 39 is connect with the first feed screw nut component to obtain
Movement in X direction is obtained, one end of the second adjutage is connect to obtain the elevating movement along Z-direction, separately with the second lifting unit 39
One end is detachably connected with piece 3B is compressed, so as to replace the compression using different length and width according to the size of the 2nd FPC plate 272
Piece 3B.
Guide rail 34 and guide groove 381 are arranged in parallel in the second substrate 23, the first belt driving assembly is arranged in the second base
On plate 23, the first lifting unit 32 is slidably connected on guide rail 34 by sliding block 33, and the first feed screw nut component includes first motor
35, the first driving belt 36, the first lead screw 37 and the first nut piece 38 on the first lead screw 37 that is sequentially connected, the first lead screw
37 are rotatably arranged on the top of the second substrate 23, and the bottom of the second substrate 23, the first driving belt 36 is arranged in first motor 35
Both ends be sequentially connected respectively the output shaft and the first lead screw 37 of first motor 35, the first nut piece 38 is slidably connected at guide groove
In 381;
Referring to figure 5., the both ends at 22 top of first substrate are provided with extension block 221, extension block 221 is extended in the first base
Except plate 22, the both ends of overturning platform board 26 pass through extension rod 261 and extension block 221 is rotatablely connected;
The inside of one piece of support plate 212 is fixedly connected with extension board 24,24 turns of one end and the extension board of Telescopic-cylinder bar 2A
Dynamic connection, the other end and an extension rod 261 are rotatablely connected, to overturn platform board 26 by the flexible driving of Telescopic-cylinder bar 2A
It rotates, limited block 222 is fixedly installed on extension block 221 at one end, limited block 222 turns to first for limiting returning face plate
Flip bit.
In addition, the first adjutage include the first subsection part 281 and be removably attachable on the first subsection part 281
Two-section portion 282 is provided with the strip for being fixedly connected on the first subsection part 281 or/and the second subsection part 282
The extending direction of connecting hole 283, strip connecting hole 283 is consistent with Y-direction, and then can be by adjusting 281 He of the first subsection part
The opposite link position of second subsection part 282, to adjust compact heap 3A to the compacted position of the 2nd FPC plate 272.
Fig. 8 and Fig. 9 are please referred to, the driving mould group in this implementation includes the first sliding part 41, the second sliding part 46, rotation
Portion, third lifting unit and the 4th lifting unit 4G, the second sliding part 46 are arranged on the first sliding part 41, and rotating part setting is the
On two sliding parts 46, third lifting unit is arranged on rotating part, and the 4th lifting unit 4G is arranged on third lifting unit, upper clip 4K
It is connect with third lifting unit, lower clamping piece 4L is connect with the 4th lifting unit 4G;
First sliding part 41 slides in X direction, and the second sliding part 46 is slided along Y-direction, and third lifting unit is along Z-direction liter
Drop, the 4th lifting unit 4G are gone up and down along Z-direction, and the pivot center of rotating part is consistent with Z-direction, so that driving mould group can drive folder
Piece 4K and lower clamping piece 4L carries out the movement of X-direction, Y-direction, Z-direction, and the rotation of the shaft around Z-direction;
First sliding part 41 is by the second feed screw nut Component driver for being arranged on the bottom plate 21 of fixing seat, the second lead screw spiral shell
Female component include the second motor 42, the second driving belt 43, the second lead screw 44 and be sequentially connected on the second lead screw 44 the
Two nut pieces 45, the second lead screw 44 are rotatably arranged on bottom plate 21, and the second motor 42 is arranged on bottom plate 21, the second driving belt
43 both ends are sequentially connected the output shaft and the second lead screw 44 of the second motor 42 respectively, and the second motor 42 is located at the second lead screw 44
The same side of second driving belt 43, to can be shortened the overall dimensions along 44 extending direction of the second lead screw;
Second sliding part 46 is by the third feed screw nut Component driver that is arranged on the first sliding part 41, third feed screw nut
Component includes third motor 47, third driving belt 48, third lead screw 49 and the third on third lead screw 49 that is sequentially connected
Nut piece, third lead screw 49 are rotatably arranged on the first sliding part 41, and third motor 47 is arranged on the first sliding part 41, third
The both ends of driving belt 48 are sequentially connected the output shaft and third lead screw 49 of third motor 47, third motor 47 and third silk respectively
Thick stick 49 is located at the same side of third driving belt 48, to can be shortened the overall dimensions along 49 extending direction of third lead screw;
Rotating part is driven by the second belt driving assembly being arranged on the second sliding part 46, the second belt driving assembly packet
The 4th motor 4B, runner 4D, rotating seat 4E and the 4th driving belt 4C are included, the 4th motor 4B and rotating seat 4E are fixedly installed
On the second sliding part 46, runner 4D is sequentially connected on rotating part, and rotating part is connect with rotating seat 4E to be supported, and the 4th
The both ends of driving belt 4C are sequentially connected the output shaft and runner 4D of the 4th motor 4B respectively, and the diameter of runner 4D is greater than the 4th electricity
The diameter of the output shaft of machine 4B reduces transmission ratio, so that rotation adjusting is finer.
Specifically, one end of the first sliding part 41 is connect with the second feed screw nut component, it is sliding that the second motor 42 is located at first
The lower section of one end that dynamic portion 41 is connected far from the second feed screw nut component, third motor 47 are located at the lower section of the second sliding part 46,
Second motor 42 and third motor 47 are whole so that the area occupied of opposed bottom 21 is smaller with the ipsilateral setting of corresponding lead screw
Body is compact-sized;
Rotating part includes the transverse plate 4A1 and vertical plate 4A2 for being connected to one end on the top surface transverse plate 4A1, rotating seat 4E
It is connected to the lower section of transverse plate 4A1, runner 4D is connected to the top of transverse plate 4A1;
Third lifting unit includes the 5th motor 4F, the 5th driving belt, third adjutage 4I, the 4th lead screw 4K and transmission
The 5th nut piece 4H being connected on the 4th lead screw 4K, the 4th lead screw 4K run through and are rotatably connected on transverse plate 4A1, the 5th spiral shell
The side parent part 4H is slidably connected with vertical plate 4A2, and the 5th motor 4F is located on the top surface of transverse plate 4A1, the 5th driving belt
Both ends are sequentially connected the output shaft and the 4th lead screw 4K of the 5th motor 4F respectively, and one end of third adjutage 4I is connected to the 5th spiral shell
The top of parent part 4H, the other end are removably connected with upper clip 4K;
The output shaft of 5th motor 4F runs through the lower section for extending in transverse plate 4A1, and the 5th driving belt is located at transverse plate 4A1
Lower section, the 5th motor 4F, the 4th lead screw 4K and runner 4D be distributed on transverse plate 4A1 in triangular shape, the 5th 4F, motor
In the side of the 4th motor 4B, the 4th lead screw 4K is located at the side of runner 4D, i.e. the 4th motor 4B, the 5th motor 4F, the 4th
Thick stick 4K and runner 4D is distributed in quadrangle, so that overall dimensions are small compact-sized.
It is emphasized that in Fig. 8, the 4th motor 4B can also put upside down according to reality to the height requirement of driving mould group
Setting, the i.e. output shaft of the 4th motor 4B are located at downward, and are fixed by the bracket and are connected on the second sliding part 46, the 4th motor
4B, the 5th motor 4F, the 4th lead screw 4K and runner 4D are respectively positioned on the top of transverse plate 4A1, while the height of rotating seat being done
It is low, to reduce whole height.
Figure 14 is please referred to, wherein Figure 14 is the upper clip and lower clamping piece of the laser-beam welding machine of the high compatibility of the utility model
Structural schematic diagram.
Lower clamping piece 4L in the present embodiment includes the first main part 51 of U-shape and is connected to 51 both ends of the first main part
First end 52, two first ends 52 are oppositely extending, and the first end 52 of left end is used for the 2nd FPC plate 272 to right side
Clipping operation is carried out, the first end 52 of right end is used to carry out clipping operation to the 2nd FPC plate 272 in left side;
Upper clip 4K includes the second main part 53 and the second end 54 for being connected to 53 both ends of the second main part, and two
Two ends 54 are oppositely extending, and ipsilateral the second end 54 and first end 52 are opposite, the second main part 53 and the first main part 51
The U-lag at middle part is opposite, and the second end 54 of left end to the 2nd FPC plate 272 on right side for carrying out provoking clipping operation, right end
The second end 54 for carrying out provoking clipping operation to the 2nd FPC plate 272 in left side.
Referring to figure 3., the structural representation of the feeding platform for the laser-beam welding machine that wherein Fig. 3 is compatible with for the height of the utility model
Figure.
In the present embodiment, be provided on feeding platform 15 correction component 19, correction component 19 include supporting beam 191,
Third belt driving assembly, the first locating piece 194, cylinder assembly 197 and the second locating piece 195;
Supporting beam 191 is located at the top of feeding platform 15, and third belt driving assembly is arranged in supporting beam 191, and first
Locating piece 194 is slidably arranged in supporting beam 191, and the sliding for limiting the first locating piece 194 is provided in supporting beam 191
The gib block 196 in direction, the first locating piece 194 are connect with the third drive belt 193 of third belt driving assembly to obtain cunning
Dynamic driving force, wherein third drive belt 193 is driven by motor 192, and cylinder assembly 197 is fixed in rack 11, the
One end of two locating pieces 195 is slidably arranged on one piece of connecting plate being fixedly connected with rack 11 198, the second locating piece 195 with
Cylinder assembly 197 is connected to obtain the driving force of sliding;
The sliding of first locating piece 194 and the second locating piece 195 each parallel to feeding platform 15 table top, and first positioning
The glide direction of block 194 and the second locating piece 195 is orthogonal, carries out positioning correcting to feed product by correction component 19,
So that charging manipulator 16 can carry out precise and stable crawl to feed product.
Working principle of the utility model is: needing first in advance to the batch type information of computer input display module 27;
Wherein, display module 27 can be inputted first from feeding platform 15, then by the barrier of the second locating piece 195 positioning with
And first locating piece 194 extruding positioning after, by charging manipulator 16 crawl be placed in fixed platform plate 25 and overturning platform
Setting position on plate 26 overturns platform 26 at this time and is located at the first flip bit;
The first sucker on fixed platform plate 25 sucks the first FPC plate 271, and the second sucker overturn on platform board 26 sucks
Display module 27, computer overturn the overturning of platform board 26 according to the control of the type information selectivity received;
If display module 27 is model shown in Figure 11, platform board 26 is overturn without overturning, upper clip 4K is moved in X direction
It moves to the lower section of the 2nd FPC plate 272, then rises to carry out provoking operation to the 2nd FPC plate 272, if the 2nd FPC plate 272
In on the bottom surface of the first FPC plate 271, then after provoking operation, the 2nd FPC plate 272 can be moved on the top surface of the first FPC plate 271;
If display module 27 is model shown in Figure 12, overturning platform board 26 will drive display module 27 by the first overturning
Bit flipping is to the second flip bit, and then upper clip 4K is moved equally and risen to carry out provoking operation to the 2nd FPC plate 272;
Wherein, lower clamping piece 4L and upper clip 4K are consistent with the movement of Y-direction in X direction, after provoking operation, under
Intermediate plate 4L rises, while upper clip 4K decline is clamped with being formed to the 2nd FPC half 272;
It provokes and while clipping operation, sliding module 141 drives movable workbench, while upper tin mould group 13 is along crossbeam
111 is mobile, so that display module 27 is located in the opereating specification of upper 13 lower section of tin mould group;
Then, it is taken pictures by CCD camera 134 to the bond pad locations on the first FPC plate 271 and the 2nd FPC plate 272, electricity
Brain is mobile according to take pictures information control adjustment mechanism 2B driving lower clamping piece 4L and upper clip 4K and rotates, so that the first FPC plate
Solder joint contraposition on 271 the 2nd FPC plates 272;
Subsequently, computer controls the first hold-down mechanism 28 and/or the second hold-down mechanism 29 according to the type information received
Mobile, the 2nd FPC plate 272 of the first FPC plate 271 to have aligned to lamination compresses;
After compression, CCD camera 134 is taken pictures again, and computer is according to the information of taking pictures after compressing FPC plate, tin in control
The mobile operation of mould group 13 carries out upper tin operation to display module 27;
After upper tin, the upper tin point position that computer is operated according to upper tin, control sliding module 141 drives movable workbench
To setting position, while laser welding mould group 12 is moved to setting position along crossbeam 111, controls 12 pairs of laser welding mould group displays
Module 27 is subjected to;
After welding, movable workbench is back to initial position, welds the display module finished by discharging manipulator 18
It is exported on crawl to outfeed platforms 17.
The welding process to display module of the laser-beam welding machine of the high compatibility of this preferred embodiment is completed in this way.
The compatible laser-beam welding machine of the height of this preferred embodiment on crossbeam by sliding setting laser welding mould group and upper
Tin mould group to carry out electrical welding, the welding precision of welding manner to the first FPC plate of display module one end and the 2nd FPC plate
Height, it is high-efficient;
Wherein, workbench includes being used to support the fixed platform plate of the first FPC plate and the 2nd FPC plate and being used to support aobvious
Show the overturning platform board of module, if display module will not will form interference to the operation of provoking of upper clip, overturning platform board can
Be maintained at the first flip bit, if display module will form interference to the operation of provoking of upper clip, overturn platform board may be reversed to
Second flip bit avoids interference with, so that the compatible laser-beam welding machine of the height is capable of processing various types of products, it should to improve
The range of work of the compatible laser-beam welding machine of height;
In addition, the Working table structure compact volume of the laser-beam welding machine of the high compatibility of the utility model is small, so that whole ruler
It is very little it is small facilitate installation, space and cost are saved, while can be shortened transport stroke, to improve processing efficiency.
Although above preferred embodiment is not used in conclusion the utility model is disclosed above with preferred embodiment
To limit the utility model, those skilled in the art can make without departing from the spirit and scope of the utility model
It is various to change and retouch, therefore the protection scope of the utility model subjects to the scope of the claims.
Claims (10)
1. a kind of laser-beam welding machine of high compatibility, for being carried out electrically to the first FPC plate of display module one end and the 2nd FPC plate
The welding section of welding, the first FPC plate and the 2nd FPC plate is stacked characterized by comprising
Rack is provided with crossbeam at the top of the rack;
Laser welding mould group, is slidably arranged on the crossbeam;
Upper tin mould group, is slidably arranged on the crossbeam, and the upper tin mould group includes melting the hot branded head of tin for heating, sending tin machine
Structure and the CCD camera adjusted for shooting bond pad locations and aided location, wherein the hot branded head is removably attachable to adjust
On the arc groove for saving disk, so that the hot branded head can adjust upper tin angle along arc groove;
Workbench is arranged in the rack and is located at the lower section of the crossbeam, and the workbench includes fixing seat, fixed platform
Plate, overturning platform board and the adjustment mechanism for adjusting the 2nd FPC plate, the fixed platform plate are removably attachable to
In the fixing seat on first substrate, gasket, the fixation are provided between the fixed platform plate and the first substrate
Platform board is used to support the first FPC plate and the 2nd FPC plate, and the overturning platform board is rotatably connected on the fixing seat
One end that is upper and being located at the fixed platform plate is used to support the display module, and the overturning platform is for changing described aobvious
Show the position of module Yu the 2nd FPC plate, so that the adjustment mechanism can be provoked to the 2nd FPC plate and position
Set adjustment operation;
One end of the rack is arranged in, for inputting processed product in feeding platform;
Manipulator is fed, for processed product to be grabbed to transport from the feeding platform to the workbench;
The other end of the rack is arranged in outfeed platforms, for exporting the product of completion of processing;And
Discharge manipulator, for the product of completion of processing to be grabbed to transport from the workbench to the outfeed platforms.
2. high compatible laser-beam welding machine according to claim 1, which is characterized in that with the extension side of the feeding platform
To for X-direction, using the direction of the plate face perpendicular to the fixed platform plate as Z-direction, perpendicular to the X-direction and the Z
One direction in direction is Y-direction;
The adjustment mechanism includes driving mould group, upper clip and lower clamping piece, and the driving mould group is for driving the upper clip
It is located at the lower section of the fixed platform plate with the lower clamping piece movement and rotation, the upper clip, is used for from the fixed platform
The interstitial area incision of plate and the overturning platform board provokes the 2nd FPC plate to the top surface of the first FPC plate, described
The lower section that lower clamping piece is located at the fixed platform plate is used to jointly form the 2nd FPC plate with the upper clip and clamp, into
And the position of the 2nd FPC plate is adjusted to align with the first FPC plate.
3. high compatible laser-beam welding machine according to claim 2, which is characterized in that be arranged on the fixed platform plate
There is the first sucker for sucking the first FPC plate, is provided on the overturning platform board for sucking the display mould
Second sucker of block;
The fixed platform plate includes the first supporting surface for being used to support the first FPC plate and the 2nd FPC plate, described to turn over
Turning platform board includes the second supporting surface for being used to support the display module, and the overturning platform board includes the on overturning track
One flip bit and the second flip bit;
When the overturning platform board is located at first flip bit, first supporting surface is parallel to second supporting surface;
When the overturning platform board is located at second flip bit, it is between first supporting surface and second supporting surface
255 °~265 ° of angle, so that display module be avoided to form interference to the operation of provoking of the upper clip.
4. high compatible laser-beam welding machine according to claim 2, which is characterized in that the workbench further includes for pressing
The first hold-down mechanism and the second hold-down mechanism of the tight 2nd FPC plate;
First hold-down mechanism includes the first belt driving assembly, the first lifting unit, the first adjutage and compact heap, described
First lifting unit is connect to obtain moving along the X-direction, institute with the first drive belt of the first belt driving assembly
The one end for stating the first adjutage is connect to obtain the elevating movement along the Z-direction, the other end and institute with first lifting unit
Compact heap is stated to be detachably connected;
Second hold-down mechanism includes the first feed screw nut component, the second lifting unit, the second adjutage and compresses piece, described
Second lifting unit is connect to obtain moving along the X-direction with the first feed screw nut component, second adjutage
One end is connect to obtain the elevating movement along the Z-direction with second lifting unit, and the other end and the compression piece are detachable
Connection.
5. high compatible laser-beam welding machine according to claim 4, which is characterized in that the fixing seat includes bottom plate, institute
First substrate and the second substrate are stated, the both ends of the first substrate are fixed on the bottom plate by support column, described
The both ends of the second substrate are fixed on the bottom plate by support plate, and the fixed platform plate is removably attachable to described
On first substrate;
It is arranged in parallel with guide rail and guide groove on the second substrate, the first belt driving assembly is arranged in second base
On plate, first lifting unit is slidably connected on the guide rail by sliding block, and the first feed screw nut component includes first
Motor, the first driving belt, the first lead screw and the first nut piece on first lead screw that is sequentially connected, described first
Thick stick is rotatably arranged on the top of the second substrate, and the first motor is arranged in the bottom of the second substrate, and described first
The both ends of driving belt are sequentially connected the output shaft and first lead screw of the first motor respectively, and first nut piece is sliding
It is dynamic to be connected in the guide groove.
6. high compatible laser-beam welding machine according to claim 5, which is characterized in that two at the top of the first substrate
End is provided with extension block, and the extension block extends except the first substrate, and the both ends of the overturning platform board, which pass through, prolongs
Boom and the extension block are rotatablely connected.
7. high compatible laser-beam welding machine according to claim 6, which is characterized in that the inside of one piece of support plate is solid
Surely it is connected with extension board, one end of Telescopic-cylinder bar and the extension board are rotatablely connected, and the other end and an extension rod rotate
Connection, with by the flexible driving of the Telescopic-cylinder bar rotation for overturning platform board, on the extension block at one end
It is fixedly installed limited block, the limited block turns to first flip bit for limiting the returning face plate.
8. high compatible laser-beam welding machine according to claim 4, which is characterized in that first adjutage includes first
Subsection part and the second subsection part being removably attachable on first subsection part, in first subsection part or/and institute
State the strip connecting hole being provided on the second subsection part for being fixedly connected, the extending direction of the strip connecting hole
It is consistent with the Y-direction, and then for adjusting the compact heap to the compacted position of the 2nd FPC plate.
9. high compatible laser-beam welding machine according to claim 2, which is characterized in that the lower clamping piece includes U-shape
First main part and the first end for being connected to first main part both ends, two first ends are oppositely extending, left
The first end at end is used to carry out clipping operation to the 2nd FPC plate on right side, and the first end of right end is used for
Clipping operation is carried out to the 2nd FPC plate in left side;
The upper clip includes the second main part and the second end for being connected to second main part both ends, and two described
Two ends are oppositely extending, and the ipsilateral the second end is opposite with the first end, second main part and described first
U-lag in the middle part of main part is opposite, and the second end of left end to the 2nd FPC plate on right side for carrying out provoking clamping
Operation, the second end of right end to the 2nd FPC plate in left side for carrying out provoking clipping operation.
10. high compatible laser-beam welding machine according to claim 1, which is characterized in that be arranged on the feeding platform
There is correction component, the correction component includes supporting beam, third belt driving assembly, the first locating piece, cylinder assembly and
Two locating pieces;
The supporting beam is located at the top of the feeding platform, and the third belt driving assembly is arranged in the supporting beam,
First locating piece is slidably arranged in the supporting beam, and the of first locating piece and the third belt driving assembly
Three drive belts are connected to obtain the driving force of sliding, and the cylinder assembly is fixed in the rack, and described second is fixed
One end of position block is slidably arranged in the rack, and second locating piece is connect to obtain the drive of sliding with the cylinder assembly
Power;
The sliding of first locating piece and second locating piece each parallel to the feeding platform table top, and described first
The glide direction of locating piece and second locating piece is orthogonal.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920377632.8U CN209614497U (en) | 2019-03-22 | 2019-03-22 | The compatible laser-beam welding machine of height |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920377632.8U CN209614497U (en) | 2019-03-22 | 2019-03-22 | The compatible laser-beam welding machine of height |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209614497U true CN209614497U (en) | 2019-11-12 |
Family
ID=68457598
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920377632.8U Active CN209614497U (en) | 2019-03-22 | 2019-03-22 | The compatible laser-beam welding machine of height |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209614497U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113369683A (en) * | 2021-06-04 | 2021-09-10 | 方超群 | Platinum crucible laser welding machine for preparing scintillation crystal |
-
2019
- 2019-03-22 CN CN201920377632.8U patent/CN209614497U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113369683A (en) * | 2021-06-04 | 2021-09-10 | 方超群 | Platinum crucible laser welding machine for preparing scintillation crystal |
CN113369683B (en) * | 2021-06-04 | 2023-02-03 | 方超群 | Platinum crucible laser welding machine for preparing scintillation crystal |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN102554438B (en) | Spot welding system for electrode plates of power battery pack | |
CN208496063U (en) | A kind of vision positioning welding double-station laser welding platform | |
CN114799652B (en) | Lithium battery series-parallel connection welding processing apparatus for producing | |
CN209614497U (en) | The compatible laser-beam welding machine of height | |
CN112743963A (en) | Diaphragm stripping off device | |
CN112045268A (en) | Full-automatic selective wave soldering device | |
CN115106646A (en) | Circulating laser welding equipment | |
CN215656090U (en) | Dispensing machine for processing circuit board | |
CN202752741U (en) | Automatic welding machine for protective plate and 7-shaped nickel piece | |
CN106912167A (en) | FPC bonding machines | |
CN209614496U (en) | Efficient laser-beam welding machine | |
CN206650933U (en) | High-precision FPC welders and FPC bonding machines | |
CN109732164A (en) | Laser-beam welding machine | |
CN114273779B (en) | Surface laser welding grain equipment and welding process thereof | |
CN218100961U (en) | Coil forming and spot welding integrated equipment | |
CN114619134B (en) | Gantry type welding device and welding method | |
CN114147356B (en) | Nuclear power is with high-power steel frame welding equipment | |
CN212577735U (en) | Full-automatic selective wave soldering device | |
CN111014992B (en) | Intelligent compact type automatic capacitor welding robot and welding method | |
CN112846008A (en) | Punching and bending equipment and method for medical suture needle | |
CN216291659U (en) | PCB welding jig | |
CN218363264U (en) | Automatic realize two kinds of tablet paster welded equipment | |
CN216096880U (en) | Automatic pressing and positioning device of point solder paste welding all-in-one machine | |
CN218274522U (en) | Full-automatic chip packaging whole-board ball mounting equipment | |
CN213053141U (en) | PCB resistance automatic weld machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |