CN220810096U - Tear high temperature sticky tape and busbar and handle structure - Google Patents

Abstract

The utility model discloses a high-temperature adhesive tape tearing and bus bar processing structure, wherein a movable adjusting mechanism is fixedly arranged on a straightening adhesive tearing mounting plate, a clamping mechanism is arranged below the movable adjusting mechanism, an elastic pressing component is arranged at the lower end of the clamping mechanism, double-shovel-blade components are symmetrically arranged on two sides of the elastic pressing component, the side edges of the movable adjusting mechanism are fixedly connected with the upper ends of double-shovel-blade fixing blocks, adjusting screws penetrate through the lower parts of the double-shovel-blade fixing blocks, one ends of the adjusting screws are connected with the double-shovel-blade adjusting blocks, the bottoms of the double-shovel-blade adjusting blocks are fixed on the inner sides of the double-shovel-blade fixing blocks, double-shovel-blade bodies are movably connected inside two sides of the double-shovel-blade adjusting blocks through rotating shafts, double-shovel-blade springs are abutted on the double-shovel-blade bodies, and the other ends of the double-shovel-blade springs are abutted on the double-shovel-blade adjusting blocks. The utility model can automatically tear off the high-temperature adhesive tape, improves the production efficiency, saves the labor cost, can adjust the tearing angle and width according to the sizes of different high-temperature adhesive tapes, and ensures that the high-temperature adhesive tape is completely torn off without damaging the bus bar.

Description

Tear high temperature sticky tape and busbar and handle structure

Technical Field

The utility model relates to the technical field of photovoltaic cell production, in particular to a tearing high-temperature adhesive tape and bus bar processing structure.

Background

On photovoltaic module production line, photovoltaic module is before getting into the lamination, can place a high temperature sticky tape in backplate punching a hole in order to prevent that EVA from spilling over after melting, and photovoltaic module is gone out the laminator back, and high temperature sticky tape can glue on the backplate owing to contact EVA is glued, and photovoltaic module is to tear high temperature sticky tape before the installation terminal box, and at present is on the production line and tears and take up bus bar vertically upwards with force through the manual work use nipper, makes things convenient for follow-up terminal box installation.

At present, most of the use manpower to tear away the high temperature adhesive tape is extravagant manpower, inefficiency, because the manual work tears away behind the high temperature adhesive tape, busbar is disordered, and the installation terminal box is relatively more difficult, can be bigger and bigger along with the iterative upgrading of photovoltaic module size, and manual work distance is limited, can be more and more difficult to tear away.

Therefore, the high-temperature adhesive tape and the bus bar processing structure are developed, the bus bar is not shoveled when the high-temperature adhesive tape on the bus bar is accurately torn off, and the bus bar is further improved.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a tearing high-temperature adhesive tape and a bus bar processing structure.

The utility model provides the following technical scheme: a tear high temperature sticky tape and busbar processing structure, its characterized in that: including the alignment tear the gluey mounting panel, remove adjustment mechanism, fixture, elasticity and press subassembly and two shovel sword subassemblies, fixed mounting has on the alignment tear the gluey mounting panel and removes adjustment mechanism, it is equipped with fixture to remove adjustment mechanism below, the fixture lower extreme is equipped with elasticity and presses the subassembly, elasticity is pressed the subassembly bilateral symmetry and is equipped with two shovel sword subassemblies, two shovel sword subassemblies include two shovel fixed blocks, two shovel sword regulating blocks, two shovel sword pivot, two shovel sword bodies and two shovel sword springs, remove adjustment mechanism side and two shovel sword fixed block upper end fixed connection, two shovel sword fixed blocks are "L" type, two shovel sword fixed block lower part wears to be equipped with adjusting screw, adjusting screw one end is connected with two shovel sword regulating blocks, two shovel sword regulating block bottoms with two shovel sword fixed block inboard are fixed, two shovel sword pivot are worn to be equipped with to two shovel sword both sides inside, two shovel sword bodies of switching of activity, two shovel sword body are supported and are equipped with two shovel springs, the other end, two shovel sword regulating block are supported on the two shovel spring.

Preferably, the clamping mechanism comprises a first fixed block, a pneumatic finger, a guide rail plate, a first linear guide rail, a clamping slider plate, a guide mounting block and a first bearing, wherein the first fixed block is arranged right in the middle of the lower part of the straightening and tearing rubber mounting plate, the pneumatic finger is arranged right below the first fixed block, the guide rail plate is respectively connected with two sides of the pneumatic finger in a sliding mode, the first linear guide rail is vertically arranged on the inner side of the guide rail plate, the clamping slider plate is connected with the first linear guide rail in a sliding mode, the clamping slider plate is arranged on the inner side of the clamping slider plate, the guide mounting block is arranged on the clamping slider plate, and the first bearing is fixedly arranged on the guide mounting block.

Preferably, the elastic pressing component comprises a pressing connecting block, a fixing block II, a bearing II, a telescopic rod, a limiting block, a pressing positioning plate, a compression spring, a pressing positioning block, an air vent and a first air pipe joint, wherein the front end and the rear end of a pneumatic finger are respectively provided with the pressing connecting block, the fixing block II is fixedly arranged at the lower part of the pressing connecting block, the bearing II is symmetrically arranged at two sides of the fixing block II, the telescopic rod is adaptively arranged in the bearing II, the limiting block is arranged at the top end of the telescopic rod, the pressing positioning plate is arranged at the lower part of the telescopic rod, and the compression spring is clamped between the upper end of the pressing positioning plate and the lower end of the fixing block II; the air pipe joint is characterized in that a pressing positioning block is arranged right below the pressing positioning plate, an air vent is arranged at the front side of the pressing positioning block, and the air vent is connected with the first air pipe joint.

Preferably, the movable adjusting mechanism comprises an adjusting cylinder, a movable connecting block, a second linear guide rail and a movable adjusting block, wherein the adjusting cylinder is fixedly arranged on two sides of the straightening and tearing mounting plate, the output end of the adjusting cylinder is connected with the movable connecting block through a floating joint, one side of the movable connecting block is slidingly connected to the second linear guide rail, and the movable adjusting block is arranged on two sides of the second linear guide rail; the movable connecting block is connected with the upper end of the double-shovel-blade fixing block in an adjustable mode through a screw.

Preferably, the second fixing block is symmetrically provided with a guide piece, a waist hole is formed in the guide piece, and a first bearing is movably arranged in the waist hole.

Preferably, a screw fixing block is fixedly arranged on the outer side of the double-shovel-blade fixing block, and the screw fixing block is connected with the adjusting screw in an adaptive mode.

Preferably, the double-shovel blade fixing block is provided with a 0-shaped groove.

Preferably, a buffer cushion is arranged between the telescopic rod and the limiting block.

Preferably, the two sides of the straightening and tearing glue mounting plate are provided with blocking sheets.

Compared with the prior art, the utility model has the beneficial effects that:

(1) According to the utility model, a movable adjusting mechanism is fixedly arranged on a straightening and tearing glue mounting plate, a clamping mechanism is arranged below the movable adjusting mechanism, an elastic pressing component is arranged at the lower end of the clamping mechanism, double-shovel-blade components are symmetrically arranged on two sides of the elastic pressing component, each double-shovel-blade component comprises a double-shovel-blade fixing block, a double-shovel-blade adjusting block, a double-shovel-blade rotating shaft, a double-shovel-blade body and a double-shovel-blade spring, the side edge of the movable adjusting mechanism is fixedly connected with the upper end of the double-shovel-blade fixing block, the double-shovel-blade fixing block is L-shaped, an adjusting screw is arranged at the lower part of the double-shovel-blade fixing block in a penetrating way, one end of the adjusting screw is connected with the double-shovel-blade adjusting block, the bottom of the double-shovel-blade adjusting block is fixed with the inner side of the double-shovel-blade fixing block, a rotating shaft is arranged inside the two sides of the double-shovel-blade adjusting block in a penetrating way, the double-shovel-blade body is provided with the double-shovel-blade spring in a supporting way, and the other end of the double-shovel-blade spring is supported on the rotating shaft on the double-shovel-blade adjusting block. According to the utility model, the high-temperature adhesive tape is automatically torn off, so that the production efficiency is improved, the labor cost is saved, the tearing-off angle and width can be adjusted according to the sizes of different high-temperature adhesive tapes, and the high-temperature adhesive tape on the bus bar can be completely torn off without damaging the bus bar.

Drawings

FIG. 1 is a schematic diagram of the whole structure of the present utility model.

FIG. 2 is a second schematic diagram of the overall structure of the present utility model.

Fig. 3 is an exploded view of the present utility model.

Fig. 4 is a front view of the present utility model.

Fig. 5 is a cross-sectional view of the present utility model.

Fig. 6 is an enlarged view of fig. 5 a in accordance with the present utility model.

Detailed Description

As shown in fig. 1 to 6, a high temperature tearing tape and bus bar handling structure includes a straightening tearing tape mounting plate 201, a movement adjusting mechanism 202, a clamping mechanism 203, an elastic pressing assembly 204, a double-blade assembly 205, a double-blade fixing block 206, a double-blade adjusting block 207, a double-blade rotating shaft 208, a double-blade body 209, a double-blade spring 210, an adjusting screw 211, a fixing block one 212, a pneumatic finger 213, a guide rail plate 214, a linear guide one 215, a clamping slider plate 216, a guide mounting block 217, a bearing one 218, a pressing connecting block 219, a fixing block two 220, a bearing two 221, a telescopic rod 222, a limiting block 223, a pressing positioning plate 224, a compression spring 225, a pressing positioning block 226, a vent 227, a first air pipe joint 228, an adjusting cylinder 229, a movement connecting block 230, a linear guide two 231, a movement adjusting block 232, a floating joint 233, a screw 234, a screw fixing block 235, a cushion pad 236, a blocking piece 237, a guide 238, a waist hole 239 and a clamping block 240.

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1 to 6, blocking pieces 237 are arranged on two sides of the alignment and tearing mounting plate 201, a movable adjusting mechanism 202 is fixedly mounted on the alignment and tearing mounting plate 201, specifically, the movable adjusting mechanism 202 comprises an adjusting cylinder 229, a movable connecting block 230, a second linear guide rail 231 and a movable adjusting block 232, the adjusting cylinder 229 is fixedly mounted on two sides of the alignment and tearing mounting plate 201 to control the opening and clamping of the double-shovel blade assembly 205, the output end of the adjusting cylinder 229 is connected with the movable connecting block 230 through a floating joint 233, one side of the movable connecting block 230 is slidingly connected to the second linear guide rail 231, and the movable adjusting block 232 is arranged on two sides of the second linear guide rail 231; the movable connection block 230 is adjustably connected to the upper end of the dual blade fixing block 206 by a second adjusting screw 234, and in this embodiment, the second adjusting screw 234 is a hexagon socket adjusting screw for adjusting the clamping width of the dual blade assembly 205.

The clamping mechanism 203 is arranged below the movable adjusting mechanism 202, specifically, the clamping mechanism 203 comprises a first fixed block 212, a pneumatic finger 213, a guide rail plate 214, a first linear guide rail 215, a clamping slide block plate 216, a guide mounting block 217 and a first bearing 218, the first fixed block 212 is arranged right in the middle of the lower part of the straightening and tearing glue mounting plate 201, the pneumatic finger 213 is arranged right below the first fixed block 212, the two sides of the pneumatic finger 213 are respectively and slidably connected with the guide rail plate 214, the first linear guide rail 215 is vertically arranged on the inner side of the guide rail plate 214, the clamping slide block 216 is slidably connected with the first linear guide rail 215, the clamping block 240 is arranged on the inner side of the clamping slide block 216 and used for clamping a high-temperature adhesive tape, the guide mounting block 217 is arranged on the clamping slide block 216, and the first bearing 218 is fixedly arranged on the guide mounting block 217.

The lower extreme of fixture 203 is equipped with elasticity and presses subassembly 204, specifically, elasticity presses subassembly 204 to include pressing connecting block 219, fixed block two 220, bearing two 221, telescopic link 222, stopper 223, pressing locating plate 224, compression spring 225, pressing locating piece 226, air vent 227 and first air pipe joint 228, pneumatic finger 213 front and back end is equipped with respectively and presses connecting block 219, presses the fixed block two 220 of fixed block 219 lower part to set firmly, and the symmetry is equipped with guide 238 on the fixed block two 220, has seted up waist hole 239 on the guide 238, and waist hole 239 internalization is equipped with bearing one 218.

Two sides of the second fixed block 220 are symmetrically provided with a second bearing 221, a telescopic rod 222 is adaptively arranged in the second bearing 221, a limiting block 223 is arranged at the top end of the telescopic rod 222, a buffer cushion 236 is arranged between the telescopic rod 222 and the limiting block 223, a pressing positioning plate 224 is arranged at the lower part of the telescopic rod 222, and a compression spring 225 is clamped between the upper end of the pressing positioning plate 224 and the lower end of the second fixed block 220; a pressing positioning block 226 is arranged right below the pressing positioning plate 224, a vent hole 227 is arranged at the front side of the pressing positioning block 226, and the vent hole 227 is connected with a first air pipe joint 228.

The elastic pressing component 204 is symmetrically provided with a double-shovel component 205 on two sides, the double-shovel component 205 comprises a double-shovel fixed block 206, a double-shovel adjusting block 207, a double-shovel rotating shaft 208, a double-shovel body 209 and a double-shovel spring 210, the side edge of the movement adjusting mechanism 202 is fixedly connected with the upper end of the double-shovel fixed block 206, a 0-shaped groove is formed in the double-shovel fixed block 206, the dead weight of the double-shovel component 205 is reduced, and the movement of the double-shovel component 205 is facilitated. The double-shovel blade fixing block 206 is L-shaped, an adjusting screw 211 is arranged on the lower portion of the double-shovel blade fixing block 206 in a penetrating mode, a screw fixing block 235 is fixedly arranged on the outer side of the double-shovel blade fixing block 206, and the screw fixing block 235 is connected with the adjusting screw 211 in an adaptive mode.

One end of the adjusting screw 211 is connected with the double-shovel adjusting block 207, the bottom of the double-shovel adjusting block 207 is fixed with the inner side of the double-shovel fixing block 206, double-shovel rotating shafts 208 are arranged on two sides of the double-shovel adjusting block 207 in a penetrating mode, double-shovel bodies 209 are movably connected to the double-shovel rotating shafts 208 in a switching mode, double-shovel springs 210 are arranged on the double-shovel bodies 209 in a propping mode, the other ends of the double-shovel springs 210 are arranged on the double-shovel adjusting block 207 in a propping mode, the double-shovel adjusting block 207 and the double-shovel bodies 209 form an elastic mechanism, the lower ends of the double-shovel bodies 209 are inclined inwards and downwards relatively, and when high-temperature adhesive tapes are shoveled, gentle lateral force is used, and bus bars cannot be directly shoveled.

The side of the double-shovel blade adjusting block 207 is fixed with the double-shovel blade body 209 through the double-shovel blade rotating shaft 208, and a compression spring is arranged between the shovel blade adjusting block and the shovel blade to form an elastic mechanism.

The working principle of the utility model is as follows: the pressing positioning block 226 is pressed at the center position of the two bus bars through the compression spring 225, the adjusting cylinder 229 is clamped, the clamping mechanism 203 is lifted, the double-shovel blade body 209 presses the bus bars in the guide groove of the pressing positioning block 226 to position and straighten the bus bars (the straightening operation times are set according to the field working requirement), the pneumatic finger 213 is clamped and horizontally operated, the bearing I218 is guided and slid in the range of the waist hole 239 and the vertically installed linear guide rail I215 is vertically slid to complete up-and-down movement and clamping actions, and the clamping block 240 is matched to clamp the high-temperature adhesive tape pulled up by the double-shovel blade body 209;

When the high-temperature adhesive tape is recovered, the pneumatic finger 213 is clamped and horizontally operated, the first bearing 208 is guided and slid in the waist hole 239 and is vertically and slidably combined with the first vertically installed linear guide rail 215 to finish the up-and-down movement and the opening movement, and the vent hole 227 is arranged at the front side of the pressing positioning block 226 to finish the recovery of the high-temperature adhesive tape through the compressed air blowing force of the first air pipe joint 228.

The utility model has simple integral structure, can automatically tear off the high-temperature adhesive tape, improves the production efficiency, saves the labor cost, can adjust the tearing angle and width according to the sizes of different high-temperature adhesive tapes, and ensures that the high-temperature adhesive tape on the bus bar is completely torn off without damaging the bus bar.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (9)

1. A tear high temperature sticky tape and busbar processing structure, its characterized in that: including alignment tear rubber mounting panel (201), removal adjustment mechanism (202), fixture (203), elasticity press subassembly (204) and two spiller subassemblies (205), fixed mounting has removal adjustment mechanism (202) on alignment tear rubber mounting panel (201), removal adjustment mechanism (202) below is equipped with fixture (203), fixture (203) lower extreme is equipped with elasticity and presses subassembly (204), elasticity press subassembly (204) bilateral symmetry to be equipped with two spiller subassemblies (205), two spiller subassemblies (205) include two spiller fixed blocks (206), two spiller regulating blocks (207), two spiller pivot (208), two spiller body (209) and two spiller springs (210), removal adjustment mechanism (202) side and two spiller fixed blocks (206) upper end fixed connection, two spiller fixed blocks (206) are "L" type, two spiller fixed block (206) lower part wear to be equipped with one (211) regulating screw, one (211) one end is connected with two spiller regulating block (207), two spiller fixed block (208) are equipped with two spiller fixed block (208) and two spiller fixed connection, two spiller body (208) are equipped with two spiller fixed pivot (208) are worn to be equipped with in two interior side (208), the double-shovel blade body (209) is propped with a double-shovel blade spring (210), and the other end of the double-shovel blade spring (210) is propped with the double-shovel blade adjusting block (207).

2. The tear high temperature tape and busbar handling structure of claim 1, wherein: the clamping mechanism (203) comprises a first fixed block (212), pneumatic fingers (213), a guide rail plate (214), a first linear guide rail (215), a first clamping slider plate (216), a guide mounting block (217) and a first bearing (218), wherein the first fixed block (212) is arranged right in the middle of the lower part of the straightening and tearing glue mounting plate (201), the pneumatic fingers (213) are arranged right below the first fixed block (212), the guide rail plate (214) is respectively connected with two sides of the pneumatic fingers (213) in a sliding mode, the first linear guide rail (215) is vertically arranged on the inner side of the guide rail plate (214), the first clamping slider plate (216) is connected with the first linear guide rail (215) in a sliding mode, the clamping block (240) is arranged on the inner side of the clamping slider plate (216), the guide mounting block (217) is arranged on the guide mounting block (216), and the first bearing (218) is fixedly arranged on the guide mounting block (217).

3. The tear high temperature tape and busbar handling structure of claim 2, wherein: the elastic pressing assembly (204) comprises a pressing connecting block (219), a fixing block II (220), a bearing II (221), a telescopic rod (222), a limiting block (223), a pressing positioning plate (224), a compression spring (225), a pressing positioning block (226), a vent hole (227) and a first air pipe joint (228), wherein the front end and the rear end of a pneumatic finger (213) are respectively provided with the pressing connecting block (219), the fixing block II (220) is fixedly arranged at the lower part of the pressing connecting block (219), the bearing II (221) is symmetrically arranged at two sides of the fixing block II (220), the telescopic rod (222) is adaptively arranged in the bearing II (221), the limiting block (223) is arranged at the top end of the telescopic rod (222), the pressing positioning plate (224) is arranged at the lower part of the telescopic rod, and the compression spring (225) is clamped between the upper end of the pressing positioning plate (224) and the lower end of the fixing block II (220); the pressing positioning plate (224) is provided with a pressing positioning block (226) right below, the front side of the pressing positioning block (226) is provided with a vent hole (227), and the vent hole (227) is connected with a first air pipe joint (228).

4. A tear-off high temperature tape and busbar handling structure according to claim 3, wherein: the movable adjusting mechanism (202) comprises an adjusting cylinder (229), a movable connecting block (230), a second linear guide rail (231) and a movable adjusting block (232), wherein the adjusting cylinder (229) is fixedly arranged on two sides of the straightening and tearing mounting plate (201), the output end of the adjusting cylinder (229) is connected with the movable connecting block (230) through a floating joint (233), one side of the movable connecting block (230) is slidingly connected onto the second linear guide rail (231), and the movable adjusting block (232) is arranged on two sides of the second linear guide rail (231); the movable connecting block (230) is adjustably connected with the upper end of the double-shovel-blade fixing block (206) through an adjusting screw II (234).

5. A tear-off high temperature tape and busbar handling structure according to claim 3, wherein: guide pieces (238) are symmetrically arranged on the second fixed block (220), waist holes (239) are formed in the guide pieces (238), and first bearings (218) are movably arranged in the waist holes (239).

6. The high temperature tearing tape and bus bar handling structure of claim 4 or 5, wherein: the outer side of the double-shovel-blade fixing block (206) is fixedly provided with a screw fixing block (235), and the screw fixing block (235) is in adaptive connection with the first adjusting screw (211).

7. The tear high temperature tape and busbar handling structure of claim 6, wherein: the double-shovel blade fixing block (206) is provided with a 0-shaped groove.

8. The high temperature tearing tape and busbar handling structure of claim 4, wherein: a buffer pad (236) is arranged between the telescopic rod (222) and the limiting block (223).

9. The tear high temperature tape and busbar handling structure of claim 7, wherein: blocking pieces (237) are arranged on two sides of the straightening and tearing glue mounting plate (201).