CN204211128U

CN204211128U - substrate turnover device

Info

Publication number: CN204211128U
Application number: CN201420406459.7U
Authority: CN
Inventors: 王士敏; 吕成凤; 陈雄达; 李新华; 李绍宗
Original assignee: Chongqing Lai Bao Science And Technology Ltd; Shenzhen Laibao Hi Tech Co Ltd
Current assignee: Chongqing Lai Bao Science And Technology Ltd; Shenzhen Laibao Hi Tech Co Ltd
Priority date: 2014-07-22
Filing date: 2014-07-22
Publication date: 2015-03-18
Anticipated expiration: 2024-07-22

Abstract

The utility model relates to technical field of flat panel display, particularly relates to a kind of substrate turnover device.It at least comprises a body and an overturn structure, described body at least has first surface, second surface and the first edge, described first surface, second surface intersect at described first edge, at least there is one first receiving space in described body, described first receiving space penetrates described first surface and second surface respectively, has the first fulcrum in described first receiving space; Described overturn structure has a loading surface and is arranged at the first connector of described loading surface side, and described overturn structure is rotaryed connection with described body at described first fulcrum place by described first connector, and described loading surface is used for mounting substrate.

Description

Substrate turnover device

Technical field

The utility model relates to technical field of flat panel display, particularly relates to a kind of substrate turnover device.

Background technology

Mobile phone is applied the main trend that capacitive touch screen has become society, capacitive touch screen is as a kind of novel human-computer interaction interface, progressively be widely used on various digital information system, from small sized product as mobile phone, PDA, digital product, e-Book, to medium-sized product as automatic navigator, game machine, household electrical appliance, industry control instrument, then to large product as touch PDP conventional in POS system, common query and self-aid system, portable computer, Medical Instruments and TV news red-letter day can see capacitance touch screen products.Therefore, capacitive touch screen has market outlook widely.

At present, capacitive touch screen to lightening development, its touch control electrode generally including glass substrate (thickness is about 0.6mm) and be formed thereon.Before electrode touch-control is formed, need first large-size glass substrate to be carried out tempering, touch control electrode is formed thereon by coating process again after tempering, described glass substrate is from entering tempering frame to withdrawing tempering frame, from entering plated film space to the process of withdrawing plated film space, because glass substrate is very thin, dead-soft, be difficult to rapid, orderly carry out upper slice and bottom sheet, and in the process its easily collided with, broken or scratch.Therefore, high to the requirement of human and material resources, be unfavorable for the yields of glass substrate and the raising of production efficiency.

Utility model content

In view of this, the utility model provides a kind of substrate turnover device being conducive to improving substrate yields and production efficiency.

A kind of substrate turnover device, it at least comprises a body and an overturn structure, described body at least has first surface, second surface and the first edge, described first surface, second surface intersect at described first edge, at least there is one first receiving space in described body, described first receiving space penetrates described first surface and second surface respectively, has the first fulcrum in described first receiving space; Described overturn structure has a loading surface and is arranged at the first connector of described loading surface side, and described overturn structure is rotaryed connection with described body at described first fulcrum place by described first connector, and described loading surface is for loading described substrate.

In the substrate turnover device that the utility model provides, described first surface is perpendicular to described second surface, and described first receiving space is caved in described body interior along the direction perpendicular to described first surface by the described first surface of part, the described second surface of part is recessed to form along the direction perpendicular to described second surface to described body interior.

In the substrate turnover device that the utility model provides, also there is in described body one second receiving space, described second receiving space is caved in described body interior along the direction perpendicular to described first surface by the described first surface of part, the described second surface of part is recessed to form along the direction perpendicular to described second surface to described body interior, has the second fulcrum in described second receiving space; Described overturn structure also has the second connector being positioned at described loading surface the same side with described first connector, described second connector is rotaryed connection with described body by described second fulcrum, and the line of described first fulcrum and the second fulcrum is parallel to described first edge.

In the substrate turnover device that the utility model provides, described body also has the second edge and the 4th edge, described second edge, 4th edge is positioned on described second surface, described second sides aligned parallel is relative to described 4th edge, described second edge and the 4th edge-perpendicular are in described first edge, described first fulcrum closes on described second edge, described second fulcrum closes on described 4th edge, the plane orthogonal at described first connector and the second connector place is in described loading surface, described first connector and the second connector are of similar shape, described loading surface is overturn to described first surface along described second surface or overturns to described second surface along described first surface at described first fulcrum and the second fulcrum place by described first connector and the second connector respectively.

In the substrate turnover device that the utility model provides, in described first rotation receiving space, the second receiving space, there is a supporting body respectively, when described loading surface rotates to time parallel with described first surface, described supporting body contacts with described first connector, the second connector, and described loading surface stops the rotation.

In the substrate turnover device that the utility model provides, described first connector and the second connector are along having one first span perpendicular on described loading surface direction, described first span is to be defined as on described first connector or the second connector any point apart from the ultimate range between described loading surface, described first fulcrum or the second fulcrum equal with described first span to the distance of described first surface.

In the substrate turnover device that the utility model provides, described supporting body has the end face being parallel to described first surface, described first connector has the first straight-bar, described and the second connector has the second straight-bar, described first straight-bar and the second straight-bar and the first long limit forming described first connector and the second connector respectively, described first connector and the second connector also have the first minor face respectively, described first minor face is parallel to described first long limit, when described loading surface rotates to time parallel with described first surface, described first minor face contacts with the end face of described supporting body, and described loading surface stops the rotation.

In the substrate turnover device that the utility model provides, described first, in described body between second receiving space, also have the 3rd, 4th receiving space, described 3rd receiving space by the described first surface of part along the direction perpendicular to described first surface to the inner recess of described body, the described second surface of part is formed along the direction perpendicular to described second surface to the inner recess of described body, described 4th receiving space by the described first surface of part along the direction perpendicular to described first surface to the inner recess of described body, the described second surface of part is formed along the direction perpendicular to described second surface to the inner recess of described body, described 3rd, also there is in 4th receiving space the 3rd fulcrum and the 4th fulcrum respectively, described first fulcrum, second fulcrum, 3rd fulcrum and the 4th fulcrum lay respectively on same straight line.

In the substrate turnover device that the utility model provides, accordingly, described overturn structure also has the 3rd connector and the 4th connector that are positioned at described loading surface the same side with described first connector and the second connector, described 3rd connector and the 4th connector are rotaryed connection with described body respectively by described 3rd fulcrum and the 4th fulcrum, described 3rd connector and the 4th connector lay respectively in the second receiving space described in two, , the plane at described 3rd connector and the 4th connector place and the plane at described first connector and the second connector place are parallel to each other, and be of similar shape, described 3rd connector and the 4th connector also have the 3rd straight-bar and the 4th straight-bar respectively, described first straight-bar, second straight-bar, 3rd straight-bar and the 4th straight-bar are parallel to each other, described first straight-bar, second straight-bar, 3rd straight-bar is fixedly connected with the 4th straight-bar, and the plane at its one side place of described body dorsad forms described loading surface jointly, described overturn structure also comprises a bearing surface, described bearing surface is perpendicular to described loading surface and extend to the plane away from described loading surface place, described bearing surface is positioned at one end of contiguous described second surface on described loading surface, for stoping described substrate from landing loading surface.

In the substrate turnover device that the utility model provides, described overturn structure also has at least one adsorption plant, described adsorption plant is positioned in the one side of the first straight-bar of described overturn structure, the second straight-bar, the 3rd straight-bar and the 4th straight-bar described body dorsad, described adsorption plant is used for described substrate to be fixed on described loading surface, described first surface is divided into multiple first sub-surface by described first receiving space and the second receiving space, described first sub-surface is provided with roller and/or belt conveyor, and it is for the transmission of described substrate; Described body also has barrier structure, the first surface of described body has the 3rd edge and the 5th edge, described 3rd edge and the 5th edge are respectively perpendicular to described first edge, described barrier structure is positioned on described 3rd edge and the 5th edge, and it moves along the direction at described 3rd edge for maintaining described substrate; Described substrate turnover device also comprises a control mechanism, and described control mechanism controls the upset of described switching mechanism.

In the described substrate turnover device that the utility model provides, rotary connection because described overturn structure is formed with described body, the first surface of substrate along described body can rotate to second surface by it, or rotate to first surface from second surface, or the position rotated to first surface or second surface, therefore can realize substrate upper slice or bottom sheet, without the need to a dead lift, the colliding with of the substrate brought by a dead lift, broken or scratch can be avoided, be conducive to the yields and the production efficiency that improve substrate.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

One main schematic diagram of the substrate turnover device 100 of the better embodiment that Fig. 1 provides for the utility model;

Fig. 2 is a structural representation of body 110 described in substrate turnover device 100 shown in Fig. 1;

Fig. 3 is a structural representation of overturn structure 120 described in substrate turnover device 100 shown in Fig. 1;

Fig. 4 is the structural representation of the first connector 122 described in substrate turnover device 100 shown in Fig. 3;

Fig. 5 is for the structure of substrate overturn shown in Fig. 3 120 is along the schematic cross-section at A-A place.

Detailed description of the invention

For substrate turnover device that the utility model provides and preparation method thereof is described, be described in detail below in conjunction with Figure of description and explanatory note.

Please refer to Fig. 1, a main schematic diagram of the substrate turnover device 100 of its better embodiment provided for the utility model.Described substrate turnover device 100 at least comprises body 110 and an overturn structure 120.

As shown in Figure 2, its structural representation being body 110 described in present embodiment.Described body 110 at least has adjacent first surface 111, second surface 112 and the first edge 112a, the second edge 112b and the 4th edge 112c, in present embodiment, described first surface 111, second surface 112 are plane, and described first surface 111 is perpendicular to second surface 112.Described first surface 111, second surface 112 intersect at described first edge 112a, described first edge 112a, the second edge 112b and the 4th edge 112c are positioned on described second surface 112, described second edge 112b and the 4th edge 112c is oppositely arranged, concrete, described second edge 112b and the 4th edge 112c is parallel to each other and perpendicular to described first edge 112a, and described body 110 is in rectangular-shaped.In other embodiments, the first surface of described body can not also be mutually vertical with second surface, and namely described body also can in other shape.

Also there is in described body 110 first receiving space K1, the second receiving space K2, the 3rd receiving space K3 and the 4th receiving space K4, described first receiving space K1 penetrates described first surface 111 and second surface 112 respectively, described second receiving space K2 penetrates described first surface 111 and second surface 112 respectively, described 3rd receiving space K3 penetrates described first surface 111 and second surface 112 respectively, and described 4th receiving space K4 penetrates described first surface 111 and second surface 112 respectively.Concrete, in the present embodiment, described first receiving space K1 by the described first surface of part along perpendicular to the direction of described first surface to described body 110 inner recess, the described second surface of part 112 is formed along the direction perpendicular to described second surface 112 to described body 110 inner recess, described 3rd receiving space K3 by the described first surface of part along the direction perpendicular to described first surface to the inner recess of described body 110, the described second surface of part 112 is formed along the direction perpendicular to described second surface 112 to the inner recess of described body 110, described 4th receiving space K4 by the described first surface of part along the direction perpendicular to described first surface to the inner recess of described body 110, the described second surface of part 112 is formed along the direction perpendicular to described second surface 112 to the inner recess of described body 110.Described first receiving space K1, the second receiving space K2, have identical spacing between the 3rd receiving space K3 and the 4th receiving space K4, described 3rd receiving space K3 and the 4th receiving space K4 is between described first receiving space K1 and the second receiving space K2.

In other embodiments, described body can also only have the first receiving space, also only can have the first receiving space and the second receiving space, also only can also have the first receiving space, the second receiving space and the 4th receiving space, more receiving space can also be had.Described body can also be hollow structure, and the first surface of described body and second surface have opening respectively.

In present embodiment, described first receiving space K1, the second receiving space K2, the 3rd receiving space K3 and the 4th receiving space K4 have one first fulcrum Z1, one second fulcrum Z2, one the 3rd fulcrum Z3 and the 4th fulcrum Z4 respectively, described first fulcrum Z1 closes on described second edge 112b, described second fulcrum Z2 closes on described 4th edge 112c, the line of described first fulcrum Z1 and the second fulcrum Z2 is parallel to described first edge, and described 3rd fulcrum Z3 and the 4th fulcrum Z4 is all positioned on the straight line at the line place of described first fulcrum and the second fulcrum.

As shown in Figure 3, its structural representation being overturn structure 120 described in present embodiment.Described overturn structure 120 has a loading surface 121 and is arranged at described loading surface the same side and the first connector 122, second connector 123, the 3rd connector 124 and the 4th connector 125 that are oppositely arranged, the plane at described first connector 122, second connector 123, the 3rd connector 124 and the 4th connector 125 place is all perpendicular to described loading surface 121, and described first connector 122, second connector 123, the 3rd connector 124 and the 4th connector 125 are of similar shape.Described loading surface 121 is rotaryed connection with described body 110 at one first fulcrum Z1, one second fulcrum Z2, the 3rd fulcrum Z3 and the 4th fulcrum Z4 respectively by described first connector 122, second connector 123, the 3rd connector 124 and the 4th connector 125, and described loading surface 121 is for mounting substrate (not shown).In other implementation methods, the number of described connector and the number of described receiving space are consistent, or the number of described connector is less than the number of described receiving space.

In present embodiment, as shown in Figure 4, its be described first connector 122, structural representation.Described first connector 122 has one first span W along perpendicular on described loading surface 121 direction, described first span W is defined as on described first connector 122 that any point is apart from the ultimate range between described loading surface 121, and described first fulcrum Z1 is equal with described first span W to the distance of described first edge 112a.When this structure makes loading surface 121 move to parallel with first surface 111, itself and first surface 111 are positioned at same plane.Described second connector 123, the 3rd connector 124 or the 4th connector 125 are same or similar with the structure of shown first connector 122.

Also there is in described body 110 supporting body 134, described first receiving space K1, the second receiving space K2, the 3rd receiving space K3 and the 4th receiving space K4 expose described supporting body 134, when described loading surface 121 rotates to time parallel with described first surface 111, described supporting body 134 contacts with described first connector 122, second connector 123, the 3rd connector 124 or the 4th connector 125 respectively, and described loading surface 121 stops the rotation.In present embodiment, described body 110 also has three surface 133 relative with described first surface 111, and described supporting body 134 protrudes along the 3rd surface to the direction of described first surface 111.

Concrete, described supporting body 134 has the end face (not shown) being parallel to described first surface 111, described first connector 122 has the first straight-bar 122a, described second connector has the second straight-bar 123a, described 3rd connector has the 3rd straight-bar 124a, described 4th connector has the 4th straight-bar 125a, described first straight-bar 122a, second straight-bar 123a, 3rd straight-bar 124a and the 4th straight-bar 125a with form described first connector 122 respectively, second connector 123, first long limit of the 3rd connector 124 and the 4th connector 125, described first connector 122, second connector 123, 3rd connector 124 and the 4th connector 125 also have the first minor face respectively, described first minor face is parallel to described first long limit, when described loading surface 121 rotates to time parallel with described first surface 111, described first minor face contacts with the end face of described supporting body 134, and described loading surface 121 stops the rotation.Described first straight-bar 122a, the second straight-bar 123a, the 3rd straight-bar 124a and the 4th straight-bar 125a are respectively and are parallel to each other and cuboid of the same size or cylindrical straight-bar, in other embodiments, described first straight-bar, the second straight-bar, the 3rd straight-bar and the 4th straight-bar can also be fitfull shaft.

In present embodiment, described first straight-bar 122a, the second straight-bar 123a, the 3rd straight-bar 124a and the 4th straight-bar 125a are parallel to each other, described first straight-bar 122a, the second straight-bar 123a, the 3rd straight-bar 124a are fixedly connected with the 4th straight-bar 125a, and the plane at its one side place of described body 110 dorsad forms described loading surface 121 jointly; Described overturn structure 120 also comprises a bearing surface 126, as shown in Figure 5, it is for the structure of substrate overturn shown in Fig. 3 120 is along the schematic cross-section at A-A place, described bearing surface 126 is perpendicular to described loading surface 121 and extend to the plane away from described loading surface 121 place, described bearing surface is positioned at one end of contiguous described second surface 112 on described loading surface 121, for stoping described substrate from landing loading surface 121.Preferably, described overturn structure 120 also comprises a supplemental support body 130, and described supplemental support body 130 is positioned at one end of the contiguous described second surface of described loading surface, and described bearing surface 126 is a part for described supplemental support body 130,

Described overturn structure 120 also has at least one adsorption plant (not shown), described adsorption plant is positioned in the one side of the first straight-bar 122a, the second straight-bar 123a of described overturn structure 120, the 3rd straight-bar 124a and the 4th straight-bar 125a described body 110 dorsad, described adsorption plant is used for described substrate to be fixed on described loading surface 121, described first surface 111 is divided into multiple first sub-surface by described first receiving space K1 and the second receiving space K2, described first sub-surface is provided with roller and/or belt conveyor, and it is for the transmission of described substrate.

Described body 110 also has barrier structure 135, the first surface 111 of described body 110 has the 3rd edge 111a and the 5th edge 111b, described 3rd edge 111a and the 5th edge 111b is respectively perpendicular to described first edge 112a, described barrier structure 135 is positioned on described 3rd edge 111a and the 5th edge 111b, and it moves along the direction of described 3rd edge 111a for maintaining described substrate.

In present embodiment, described substrate turnover device 100 also comprises a control mechanism (not shown), and described control mechanism controls the upset of described switching mechanism.After on the upset face 121 that described substrate is positioned over described turning device 120, described upset face 121 is turn to second surface 112 from first surface 111 by described control mechanism, or described upset face 121 is turn to second surface 112 from first surface 111, or the position described upset face 121 turn in the middle of first surface 111 and second surface 112, thus realize described substrate upper slice or bottom sheet.

In the basic turning device 100 of present embodiment, rotary connection because described overturn structure 120 is formed with described body 110, substrate can rotate to second surface 112 along the first surface 111 of described body 110 by it, or rotate to first surface 111 from second surface 112, or the position rotated to first surface 111 or second surface 112, therefore can realize substrate upper slice or bottom sheet, without the need to a dead lift, the colliding with of the substrate brought by a dead lift, broken or scratch can be avoided, be conducive to the yields and the production efficiency that improve substrate.

The better embodiment of the substrate turnover device provided for the utility model above; the restriction to the utility model rights protection scope can not be interpreted as; those skilled in the art should know; without departing from the concept of the premise utility; also can do multiple improvement or replacement; these all improvement or replacement all should within the scope of rights protections of the present utility model, and namely rights protection scope of the present utility model should be as the criterion with claim.

Claims

1. a substrate turnover device, it at least comprises a body and an overturn structure, described body at least has first surface, second surface and the first edge, described first surface, second surface intersect at described first edge, at least there is one first receiving space in described body, described first receiving space penetrates described first surface and second surface respectively, has the first fulcrum in described first receiving space; Described overturn structure has a loading surface and is arranged at the first connector of described loading surface side, and described overturn structure is rotaryed connection with described body at described first fulcrum place by described first connector, and described loading surface is used for mounting substrate.

2. substrate turnover device as claimed in claim 1, it is characterized in that: described first surface is perpendicular to described second surface, and described first receiving space is caved in described body interior along the direction perpendicular to described first surface by the described first surface of part, the described second surface of part is recessed to form along the direction perpendicular to described second surface to described body interior.

3. substrate turnover device as claimed in claim 2, it is characterized in that: also there is in described body one second receiving space, described second receiving space penetrates described first surface and second surface respectively, described second receiving space is caved in described body interior along the direction perpendicular to described first surface by the described first surface of part, the described second surface of part is recessed to form along the direction perpendicular to described second surface to described body interior, has the second fulcrum in described second receiving space; Described overturn structure also has the second connector being positioned at described loading surface the same side with described first connector, described second connector is rotaryed connection with described body by described second fulcrum, and the line of described first fulcrum and the second fulcrum is parallel to described first edge.

4. substrate turnover device as claimed in claim 3, it is characterized in that: described body also has the second edge and the 4th edge, described second edge, 4th edge is positioned on described second surface, described second sides aligned parallel is relative to described 4th edge, described second edge and the 4th edge-perpendicular are in described first edge, described first fulcrum closes on described second edge, described second fulcrum closes on described 4th edge, the plane orthogonal at described first connector and the second connector place is in described loading surface, described first connector and the second connector are of similar shape, described loading surface is overturn to described first surface along described second surface or overturns to described second surface along described first surface at described first fulcrum and the second fulcrum place by described first connector and the second connector respectively.

5. substrate turnover device as claimed in claim 3, it is characterized in that: in described body, also there is a supporting body, described first receiving space, the second receiving space expose described supporting body, when described loading surface rotates to time parallel with described first surface, described supporting body contacts with described first connector, the second connector, and described loading surface stops the rotation.

6. substrate turnover device as claimed in claim 3, it is characterized in that: described first connector and the second connector are along having one first span perpendicular on described loading surface direction, described first span to be defined as on described first connector or the second connector any point apart from the ultimate range between described loading surface, described first fulcrum or the second fulcrum equal with described first span to the distance of described first surface.

7. substrate turnover device as claimed in claim 5, it is characterized in that: described supporting body has the end face being parallel to described first surface, described first connector has the first straight-bar, described second connector has the second straight-bar, described first straight-bar and the second straight-bar form the first long limit of described first connector and the second connector respectively, described first connector and the second connector also have the first minor face respectively, described first minor face is parallel to described first long limit, when described loading surface rotates to time parallel with described first surface, described first minor face contacts with the end face of described supporting body, and described loading surface stops the rotation.

8. substrate turnover device as claimed in claim 7, it is characterized in that: described first, in described body between second receiving space, also have the 3rd, 4th receiving space, described 3rd receiving space by the described first surface of part along the direction perpendicular to described first surface to the inner recess of described body, the described second surface of part is formed along the direction perpendicular to described second surface to the inner recess of described body, described 4th receiving space by the described first surface of part along the direction perpendicular to described first surface to the inner recess of described body, the described second surface of part is formed along the direction perpendicular to described second surface to the inner recess of described body, described 3rd, also there is in 4th receiving space the 3rd fulcrum and the 4th fulcrum respectively, described 3rd fulcrum and one the 4th fulcrum are all positioned on the straight line at the line place of described first fulcrum and the second fulcrum.

9. substrate turnover device as claimed in claim 8, it is characterized in that: described overturn structure also has the 3rd connector and the 4th connector that are positioned at described loading surface the same side with described first connector and the second connector, described 3rd connector and the 4th connector are rotaryed connection with described body respectively by described 3rd fulcrum and the 4th fulcrum, the plane at described 3rd connector and the 4th connector place and the plane at described first connector and the second connector place are parallel to each other, and be of similar shape, described 3rd connector and the 4th connector also have the 3rd straight-bar and the 4th straight-bar respectively, described first straight-bar, second straight-bar, 3rd straight-bar and the 4th straight-bar are parallel to each other, described first straight-bar, second straight-bar, 3rd straight-bar is fixedly connected with the 4th straight-bar, and the plane at its one side place of described body dorsad forms described loading surface jointly, described overturn structure also comprises a bearing surface, described bearing surface is perpendicular to described loading surface and extend to the plane away from described loading surface place, described bearing surface is positioned at one end of contiguous described second surface on described loading surface, for stoping described substrate from landing loading surface.

10. substrate turnover device as claimed in claim 9, it is characterized in that: described overturn structure also has at least one adsorption plant, described adsorption plant is positioned in the one side of the first straight-bar of described overturn structure, the second straight-bar, the 3rd straight-bar and the 4th straight-bar described body dorsad, described adsorption plant is used for described substrate to be fixed on described loading surface, described first surface is divided into multiple first sub-surface by described first receiving space and the second receiving space, described first sub-surface is provided with roller and/or belt conveyor, and it is for the transmission of described substrate; Described body also has barrier structure, the first surface of described body has the 3rd edge and the 5th edge, described 3rd edge and the 5th edge are respectively perpendicular to described first edge, described barrier structure is positioned on described 3rd edge and the 5th edge, and it moves along the direction at described 3rd edge for maintaining described substrate; Described substrate turnover device also comprises a control mechanism, and described control mechanism controls the upset of described switching mechanism.