CN220041886U - Banding equipment and photovoltaic module system of processing - Google Patents

Abstract

The utility model belongs to the technical field of photovoltaic module processing, and discloses edge sealing equipment and a photovoltaic module processing system. This banding equipment includes frame and two banding mechanisms, and two banding mechanisms set up relatively, and banding mechanism includes base and banding subassembly, and base mounting is in the frame, and the banding subassembly is used for banding photovoltaic module, and at least one banding mechanism still includes the fine setting structure, and the fine setting structure sets up in the base, and the fine setting structure is connected with banding subassembly transmission, and the fine setting structure is used for driving the banding subassembly and slides along the base to adjust the position that the banding subassembly is located the base. This kind of setting makes fine setting structure can drive the banding subassembly and slide along the base, can make banding subassembly and photovoltaic module closely laminate for the banding subassembly has sufficient extrusion force when photovoltaic module banding, increases sticky tape and photovoltaic module and laminating intensity, avoids the sticky tape to drop, ensures product quality.

Description

Banding equipment and photovoltaic module system of processing

Technical Field

The utility model relates to the technical field of photovoltaic module processing, in particular to edge sealing equipment and a photovoltaic module processing system.

Background

With the rapid development of photovoltaic power generation, the double-glass assembly is gradually favored due to the excellent characteristics of good PID attenuation resistance, snail line generation resistance, corrosion resistance, weather resistance and the like. The double-glass assembly sequentially comprises a back plate, an EVA film, a battery piece, an adhesive film and front glass from bottom to top. The dual-glass assembly sequentially stacks all the components through lamination, all the components form a whole through lamination process, and the EVA adhesive film can overflow at the peripheral edges of the glass after being extruded in the lamination process of the assembly. For this reason, the industry has begun to use edge sealing devices to attach tape around the components to wrap the edges of the components so that the adhesive film does not overflow during lamination of the components.

The banding equipment on the market now keeps off the back of fixing a position with waiting to laminate the subassembly, and the rethread can be along the rubberizing tape module that removes all around of waiting to laminate the subassembly and paste all around of waiting to laminate the subassembly, although rubberizing tape module can remove all around of waiting to laminate the subassembly, but because the rubberizing tape module can not adjust with waiting to laminate the distance between the subassembly, when waiting to laminate the width dimension of subassembly slightly less, can lead to banding equipment can not provide sufficient force to pasting in waiting to laminate the subassembly sticky tape for sticky tape pasting fastness is relatively poor, and then influences production efficiency.

Accordingly, there is a need for an edge sealing apparatus and a photovoltaic module processing system that address the above issues.

Disclosure of Invention

The utility model aims to provide edge sealing equipment and a photovoltaic module processing system, wherein the edge sealing equipment can move an edge sealing module, so that the bonding strength of an adhesive tape and the photovoltaic module is improved, and the product quality is ensured.

To achieve the purpose, the utility model adopts the following technical scheme:

banding equipment, banding equipment includes:

a frame;

the two edge sealing mechanisms are oppositely arranged on the frame and are used for sealing two opposite side edges of the photovoltaic module; the edge sealing mechanism comprises a base and an edge sealing assembly, the base is mounted on the frame, the edge sealing assembly is mounted on the base, and the edge sealing assembly is used for sealing edges of the photovoltaic assembly; the at least one edge sealing mechanism further comprises a fine adjustment structure, the fine adjustment structure is arranged on the base, the edge sealing assembly of the edge sealing mechanism provided with the fine adjustment structure is arranged on the corresponding base in a sliding mode, the fine adjustment structure is in transmission connection with the edge sealing assembly, the fine adjustment structure is used for driving the edge sealing assembly to slide along the base, and the edge sealing assembly is made to be close to or far away from the other edge sealing assembly which is oppositely arranged.

As an optional technical scheme, the banding subassembly includes the sliding plate, applies subassembly and blank holder subassembly, the sliding plate slip set up in the base, just the sliding plate with fine setting structure transmission is connected, apply the subassembly with the blank holder subassembly is all fixed set up in the sliding plate, just the blank holder subassembly is followed photovoltaic module's direction of delivery is located apply the subassembly's low reaches, apply the subassembly be used for with the sticky tape paste in photovoltaic module's side, the blank holder subassembly is used for with the sticky tape surpass photovoltaic module thickness's part turns over and makes the sticky tape surpass photovoltaic module thickness's part paste to photovoltaic module's two surfaces.

As an optional technical scheme, apply the subassembly and include a plurality of roll axle that rotate the setting, a plurality of the roll axle is followed photovoltaic module direction of delivery is arranged in proper order, a plurality of the gyro wheel that has the recess is all worn to be equipped with in the periphery of roll axle, and a plurality of the gyro wheel the width of recess is followed photovoltaic module's direction of delivery reduces gradually.

As an optional technical scheme, the blank holder subassembly includes support frame and pinch roller, the support frame fixed set up in the sliding plate, it is provided with two rows of pinch rollers to rotate on the support frame, two rows the pinch roller sets up relatively respectively, in order to centre gripping photovoltaic module's two surfaces that are opposite.

As an optional technical scheme, the edge sealing mechanism further comprises an adhesive tape turntable, the adhesive tape turntable is rotatably arranged on the base, and the adhesive tape turntable is used for bearing an adhesive tape disc and providing adhesive tape for the edge sealing assembly.

As an optional technical scheme, banding mechanism still includes cutting structure, cutting structure fixed set up in the base, cutting structure includes driving piece and scissors, the driving piece is used for driving the scissors will the sticky tape cuts.

As an optional technical scheme, the fine adjustment structure is a linear cylinder, and the output end of the linear cylinder is connected with the edge sealing assembly.

As an optional technical scheme, banding equipment still includes adjustment structure, adjustment structure's one end connect in the frame, adjustment structure's the other end connect in banding mechanism, adjustment structure can drive the base is followed the frame slides, so as to adjust banding mechanism is located the position of frame, and then adjusts two of relative setting banding mechanism between the distance.

As an optional technical scheme, the adjusting structure comprises a driving motor, a screw and a fixed block, wherein the driving motor is fixedly arranged on the frame, the fixed block is fixedly arranged on the base, the fixed block is provided with a threaded hole, the screw is in threaded connection with the threaded hole, the driving motor is in transmission connection with the screw, the driving motor drives the screw to rotate, and then the fixed block is close to or far away from the driving motor, and then the base is adjusted to be located at the position of the frame.

The utility model also adopts the following technical scheme:

photovoltaic module processing system, photovoltaic module processing system includes banding equipment as described above.

The utility model has the beneficial effects that:

the utility model discloses edge sealing equipment which comprises a frame and two edge sealing mechanisms, wherein the two edge sealing mechanisms are oppositely arranged, the edge sealing mechanisms comprise a base and an edge sealing assembly, the base is arranged on the frame, the edge sealing assembly is used for sealing a photovoltaic assembly, at least one edge sealing mechanism further comprises a fine adjustment structure, the fine adjustment structure is arranged on the base and is in transmission connection with the edge sealing assembly, and the fine adjustment structure is used for driving the edge sealing assembly to slide along the base so as to adjust the position of the edge sealing assembly on the base. This kind of setting makes fine setting structure can drive the banding subassembly and slide along the base, can make banding subassembly and photovoltaic module closely laminate for the banding subassembly has sufficient extrusion force when photovoltaic module banding, increases sticky tape and photovoltaic module and laminating intensity, avoids the sticky tape to drop, ensures product quality.

The utility model also discloses a photovoltaic module processing system which comprises the edge sealing equipment, so that the adhesive tape and the photovoltaic module can not loose during production, and the production quality of the photovoltaic module can be ensured.

Drawings

FIG. 1 is a schematic view of a banding apparatus according to an embodiment of the utility model;

FIG. 2 is a schematic view of a banding apparatus transporting photovoltaic modules according to an embodiment of the utility model;

FIG. 3 is a schematic diagram of a banding mechanism according to an embodiment of the utility model;

FIG. 4 is a top view of an edge banding mechanism according to an embodiment of the utility model;

fig. 5 is a schematic structural diagram of a banding mechanism according to an embodiment of the utility model.

In the figure:

1. edge banding equipment; 101. a first conveying mechanism; 102. a second conveying mechanism; 2. a photovoltaic module;

10. a frame;

20. the edge sealing mechanism; 21. a base; 22. edge banding assembly; 221. a sliding plate; 222. an application component; 2221. a bracket; 2222. a rolling shaft; 2223. a roller; 2224. a groove; 223. a blank pressing assembly; 2231. a support frame; 2232. a pinch roller; 23. fine tuning the structure; 241. a tape reel; 25. cutting the structure; 251. a driving member; 252. a pair of scissors;

30. an adjustment structure; 31. a driving motor; 32. a screw rod; 33. and a fixed block.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present utility model are shown in the drawings.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. 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.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

As shown in fig. 1 to 5, the present embodiment provides a banding apparatus 1, the banding apparatus 1 includes a frame 10 and two banding mechanisms 20, the two banding mechanisms 20 are relatively disposed on the frame 10, and are used for banding two opposite sides of a photovoltaic module 2, the banding mechanism 20 includes a base 21 and a banding assembly 22, the base 21 is mounted on the frame 10, the banding assembly 22 is mounted on the base 21, the banding assembly 22 is used for banding the photovoltaic module 2, at least one banding mechanism 20 further includes a trimming structure 23, the trimming structure 23 is disposed on the base 21, the banding assembly 22 of the banding mechanism 20 provided with the trimming structure 23 is slidably disposed on the base 21, and the trimming structure 23 is in transmission connection with the banding assembly 22, and the trimming structure 23 is used for driving the banding assembly 22 to slide along the base 21 so as to be close to or far away from the other banding assembly 22 disposed relatively. Specifically, in this embodiment, two banding mechanism 20 all include base 21, banding subassembly 22 and fine setting structure 23, two banding subassemblies 22 slide respectively and set up in two bases 21, two fine setting structures 23 install respectively in two bases 21, two fine setting structures 23 are connected with two banding subassembly 22 one-to-one transmission, two fine setting structures 23 can adjust two banding subassemblies 22 respectively and slide along the base 21, so that two banding subassemblies 22 are close to or keep away from each other, and then adjust the distance between banding subassembly 22 and the photovoltaic module 2, ensure that banding subassembly 22 can all have sufficient extrusion force when banding photovoltaic module 2, ensure banding quality of banding subassembly 22, be convenient for follow-up other processing steps of banding subassembly 22.

Further, as shown in fig. 3 to 5, the edge sealing assembly 22 includes a sliding plate 221, an applying assembly 222 and a pressing assembly 223, the pressing assembly 223 is disposed downstream of the applying assembly 222 along the conveying direction of the photovoltaic assembly 2, the applying assembly 222 is used for adhering the adhesive tape to the side edge of the photovoltaic assembly 2, and the pressing assembly 223 is used for folding the portion of the adhesive tape exceeding the thickness of the photovoltaic assembly 2 and adhering the portion of the adhesive tape exceeding the thickness of the photovoltaic assembly 2 to the surface of the photovoltaic assembly 2. Specifically, in this embodiment, the application component 222 is used for adhering the adhesive tape to the side edge of the photovoltaic component 2, the edge pressing component 223 is used for folding the part of the adhesive tape exceeding the thickness of the photovoltaic component 2 and adhering the part of the adhesive tape exceeding the thickness of the photovoltaic component 2 to two surfaces of the photovoltaic component 2, the adhesive tape is pressed on the surface of the photovoltaic component 23 from the adhesive tape, the adhesive tape is changed from 'I' to 'J', the edge sealing adhesive tape of the photovoltaic component 2 is pressed evenly and flatly in the conveying process, so that the adhesive film of the photovoltaic component 23 is not overflowed wantonly in the laminating process, and the adhesive tape adhesion has stronger firmness and stability. The pasting component 222 and the blank holder component 223 are fixedly arranged on the sliding plate 221, the sliding plate 221 is arranged on the base 21 in a sliding manner and is in transmission connection with the fine adjustment structure 23, when the pasting component 222 and the blank holder component 223 are far away from the photovoltaic component 2, the fine adjustment structure 23 drives the sliding plate 221 to move along the direction close to the photovoltaic component 2, so that the pasting component 222 and the blank holder component 223 are close to the photovoltaic component 2, the pasting component 222 is ensured to have enough extrusion force on an adhesive tape pasted on the side edge of the photovoltaic component 2, the pasting firmness of the adhesive tape is ensured, and the blank holder effect of the blank holder component 223 is also improved; when the pasting component 222 and the edge pressing component 223 are too close to the photovoltaic component 2, the fine adjustment structure 23 drives the sliding plate 221 to move along the direction away from the photovoltaic component 2, so that the pasting component 222 and the edge pressing component 223 cannot provide excessive extrusion force for the photovoltaic component 2, damage to the photovoltaic component 2 is avoided in the edge sealing process, defective products are avoided, and safety of the edge sealing process is improved.

Further, the applying component 222 includes a plurality of rolling shafts 2222 rotatably disposed on the sliding plate 221, the plurality of rolling shafts 2222 are sequentially arranged along the conveying direction of the photovoltaic component 2, the outer circumferences of the plurality of rolling shafts 2222 are respectively provided with a roller 2223 having a groove 2224, and the widths of the grooves 2224 of the plurality of rollers 2223 are gradually reduced along the conveying direction of the photovoltaic component 2. Specifically, in this embodiment, the application component 222 includes a support 2221 and four rolling shafts 2222, the support 2221 is mounted on the sliding plate 221, the four rolling shafts 2222 rotate and set up in the support 2221, and the grooves 2224 of the four rolling wheels 2223 gradually decrease along the conveying direction of the photovoltaic component 2, the rolling wheels 2223 on the rolling shafts 2222 can apply extrusion force to the side edges of the photovoltaic component 2, and the rolling wheels 2223 can rotate relative to the side edges of the photovoltaic component 2, the rolling wheels 2223 are prevented from taking away the adhesive tape stuck on the photovoltaic component 2, the edge sealing effect is improved, the grooves 2224 on the rolling wheels 2223 have a certain guiding effect, and the width of the grooves 2224 of the plurality of rolling wheels 2223 gradually decrease along the conveying direction of the photovoltaic component 2, so that the width uniformity in the adhesive tape sticking process can be improved, and the occurrence of the situation such as the occurrence of the wrong edges of adhesive tape sticking is avoided. Alternatively, in other embodiments, the number of the rollers 2223 may be increased or decreased according to actual use, which will not be described herein.

Further, the edge pressing assembly 223 includes a support frame 2231 and pressing wheels 2232, the support frame 2231 is fixedly arranged on the sliding plate 221, two rows of pressing wheels 2232 are rotatably arranged on the support frame 2231, and the two rows of pressing wheels 2232 are respectively and oppositely arranged to clamp two opposite surfaces of the photovoltaic assembly 2. Specifically, in this embodiment, two sides of the photovoltaic module 2 of the support frame 2231 are respectively provided with a pressing wheel 2232, the pressing wheels 2232 are rotatably arranged on the support frame 2231 through a rotation shaft, the pressing wheels 2232 located at two sides of the photovoltaic module 2 can fold the portion of the adhesive tape exceeding the thickness of the photovoltaic module 2 and enable the portion of the adhesive tape exceeding the thickness of the photovoltaic module 2 to be adhered to the surface of the photovoltaic module 2, and stability and firmness of adhesive tape adhesion are improved. In other embodiments, each row of puck 2232 may include a plurality of puck 2232, which is not described in detail herein.

Further, the edge sealing mechanism 20 further includes a tape turntable rotatably mounted to the base 21, the tape turntable being configured to carry a tape reel 241 and to provide tape to the edge sealing assembly 22. Specifically, in this embodiment, the adhesive tape disc 241 is fixedly disposed on the adhesive tape turntable, the adhesive tape turntable rotates to provide the adhesive tape for the application component 222, and the adhesive tape turntable rotates to be disposed on the base 21 instead of the sliding plate 221, and when the sliding plate 221 is driven by the fine tuning structure 23 to slide, the position of the adhesive tape turntable is kept motionless, so that the unstable problem of the adhesive tape turntable can be avoided, and the structure is simplified, the cost is saved, the load of the fine tuning structure 23 is reduced, and the service life of the fine tuning structure 23 is prolonged.

Further, the edge banding mechanism 20 further includes a cutting structure 25, the cutting structure 25 is fixedly disposed on the base 21, the cutting structure 25 includes a driving member 251 and a scissors 252, and the driving member 251 is used for driving the scissors 252 to cut off the adhesive tape. Specifically, in this embodiment, the cutting structure 25 is located between the tape turntable and the applying component 222, the driving motor is connected with the scissors 252, the scissors 252 shear off the tape under the control of the control component and the driving of the driving motor, and this arrangement can ensure that the break point is located out of the range of completing edge sealing, avoid glue leakage, and ensure the quality of the product.

Further, the fine adjustment structure 23 is a linear cylinder, and an output end of the linear cylinder is connected to the edge sealing assembly 22. Specifically, in this embodiment, the linear cylinder is mounted on the base 21, and the output end of the linear cylinder is connected to the sliding plate 221 of the edge sealing assembly 22, so as to drive the sliding plate 221 to reciprocate, so as to ensure that the application assembly 222 and the edge pressing assembly 223 on the sliding plate 221 can approach or depart from the photovoltaic assembly 2. In other embodiments, the fine adjustment structure 23 may be other structures capable of reciprocating rectilinear motion, such as a rail-slider structure, etc., which will not be described herein.

Further, the edge sealing apparatus 1 further includes an adjusting structure 30, one end of the adjusting structure 30 is connected to the frame 10, the other end of the adjusting structure 30 is connected to the edge sealing mechanism 20, and the adjusting structure 30 can drive the base 21 to slide along the frame 10, so as to adjust the position of the edge sealing mechanism 20 on the frame 10, and further adjust the distance between two edge sealing mechanisms 20 oppositely arranged. Specifically, in this embodiment, two banding mechanisms 20 that set up relatively all are provided with adjustment structure 30, and adjustment structure 30 connects between frame 10 and banding mechanism 20, and adjustment structure 30 can drive base 21 and slide along frame 10 to adjust banding mechanism 20 and be located the position of frame 10, and then adjust the distance between two banding mechanisms 20 that set up relatively, make banding equipment 1 can satisfy the banding requirement of not unidimensional photovoltaic module 2, promote banding equipment 1's application scope. This kind of setting can all adjust the position of two banding mechanisms 20 of relative setting, is convenient for promote the adjustment efficiency of the distance of two banding mechanisms 20. In other embodiments, only one side of the edge sealing mechanism 20 is provided with the adjusting structure 30 between the frame 10 and the frame, so that cost can be saved, and the side of the edge sealing mechanism refers to any one of two edge sealing mechanisms which are oppositely arranged, which is not described herein.

Further, the adjusting structure 30 comprises a driving motor, a screw rod 32 and a fixed block 33, the driving motor is fixedly arranged on the frame 10, the fixed block 33 is fixedly arranged on the base 21, the fixed block 33 is provided with a threaded hole, the screw rod 32 is in threaded connection with the threaded hole, the driving motor is in transmission connection with the screw rod 32, the driving motor drives the screw rod 32 to rotate, and then the fixed block 33 is close to or far away from the driving motor, so that the position of the base 21 on the frame 10 is adjusted. Specifically, in this embodiment, driving motor is driving motor 31, driving motor 31 is fixed to be set up in frame 10, fixed block 33 is fixed to be set up in base 21, threaded hole has been seted up to fixed block 33, driving motor 31's output shaft transmission is connected with lead screw 32, when driving motor 31 drive lead screw 32 rotated, because the threaded hole threaded connection of lead screw 32 and fixed block 33, fixed block 33 fixed connection is in base 21, make fixed block 33 can follow the axis of lead screw 32 and remove, and then make base 21 remove along frame 10, and in this embodiment, two banding mechanism 20 that set up relatively all are connected with adjustment structure 30, this kind of setting can adjust the distance between two banding mechanism 20 that set up relatively, increase banding equipment 1 can banding photovoltaic module 2's size range, promote banding equipment 1's flexibility.

Optionally, the edge sealing apparatus 1 in this embodiment further includes two additional edge sealing mechanisms 20, a first conveying mechanism 101 and a second conveying mechanism 102, the first conveying mechanism 101 is used for conveying the photovoltaic module 2 along the first direction, two edge sealing mechanisms 20 are relatively disposed on two sides of a starting end of the first conveying mechanism 101 and are used for edge sealing two sides of the photovoltaic module 2 extending along the first direction, the second conveying mechanism 102 is used for conveying the photovoltaic module 2 along the second direction, two additional edge sealing mechanisms 20 are relatively disposed on two sides of a tail end of the second conveying mechanism 102, the two additional edge sealing mechanisms 20 are used for edge sealing the two additional side edges of the photovoltaic module 2 extending along the second direction, the edge sealing apparatus 1 not only can be used for edge sealing the periphery of the photovoltaic module 2 while conveying the photovoltaic module 2, but also can improve edge sealing effects by setting the fine adjusting structure 23, and increase the application range of the edge sealing apparatus 1 by setting the adjusting structure 30 and improve flexibility of the edge sealing apparatus 1. Optionally, in the present embodiment, the first conveying mechanism 101 and the second conveying mechanism 102 are common structures in the prior art, for example: belt transmission structures, etc., are not described in detail herein.

The embodiment also provides a photovoltaic module processing system, and this photovoltaic module processing system includes foretell banding equipment, not only has better banding effect, and can have great application scope, promotes production efficiency.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Various obvious changes, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the utility model. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. Banding apparatus, characterized in that the banding apparatus (1) comprises:

a frame (10);

the two edge sealing mechanisms (20) are oppositely arranged on the frame (10) and are used for sealing two opposite side edges of the photovoltaic module (2); the edge sealing mechanism (20) comprises a base (21) and an edge sealing assembly (22), the base (21) is mounted on the frame (10), the edge sealing assembly (22) is mounted on the base (21), and the edge sealing assembly (22) is used for sealing the edge of the photovoltaic assembly (2); at least one banding mechanism (20) still includes fine setting structure (23), fine setting structure (23) set up in base (21), be provided with fine setting structure (23) banding mechanism (20) banding subassembly (22) slip set up in correspondence base (21), just fine setting structure (23) with banding subassembly (22) transmission is connected, fine setting structure (23) are used for the drive banding subassembly (22) are followed base (21) slip, make banding subassembly (22) are close to or keep away from another of relative setting banding subassembly (22).

2. The edge sealing device according to claim 1, wherein the edge sealing assembly (22) comprises a sliding plate (221), an applying assembly (222) and an edge pressing assembly (223), the sliding plate (221) is slidably arranged on the base (21), the sliding plate (221) is in transmission connection with the fine adjustment structure (23), the applying assembly (222) and the edge pressing assembly (223) are fixedly arranged on the sliding plate (221), the edge pressing assembly (223) is located at the downstream of the applying assembly (222) along the conveying direction of the photovoltaic assembly (2), the applying assembly (222) is used for adhering adhesive tapes to the side edges of the photovoltaic assembly (2), and the edge pressing assembly (223) is used for overturning parts of the adhesive tapes exceeding the thickness of the photovoltaic assembly (2) and enabling the parts of the adhesive tapes exceeding the thickness of the photovoltaic assembly (2) to be adhered to two surfaces of the photovoltaic assembly (2).

3. The edge sealing apparatus according to claim 2, wherein the applying assembly (222) includes a plurality of rolling shafts (2222) rotatably disposed, the plurality of rolling shafts (2222) are sequentially arranged along the conveying direction of the photovoltaic module (2), rollers (2223) having grooves (2224) are provided on outer circumferences of the plurality of rolling shafts (2222) in a penetrating manner, and widths of the grooves (2224) of the plurality of rollers (2223) are gradually reduced along the conveying direction of the photovoltaic module (2).

4. The edge sealing device according to claim 2, wherein the edge pressing assembly (223) comprises a support frame (2231) and pressing wheels (2232), the support frame (2231) is fixedly arranged on the sliding plate (221), two rows of pressing wheels (2232) are rotatably arranged on the support frame (2231), and the two rows of pressing wheels (2232) are respectively arranged oppositely so as to clamp two opposite surfaces of the photovoltaic assembly (2).

5. The edge sealing apparatus of claim 2, wherein the edge sealing mechanism (20) further comprises a tape turntable rotatably disposed to the base (21), the tape turntable for carrying a tape reel (241) and providing tape to the edge sealing assembly (22).

6. The edge sealing apparatus of claim 5, wherein the edge sealing mechanism (20) further comprises a cutting structure (25), the cutting structure (25) being fixedly arranged on the base (21), the cutting structure (25) comprising a driving member (251) and a scissor (252), the driving member (251) being configured to drive the scissor (252) to shear the adhesive tape.

7. Edge sealing apparatus according to claim 1, characterized in that the fine adjustment structure (23) is a linear cylinder, the output end of which is connected to the edge sealing assembly (22).

8. The edge sealing apparatus according to any one of claims 1-7, wherein the edge sealing apparatus (1) further comprises an adjusting structure (30), one end of the adjusting structure (30) is connected to the frame (10), the other end of the adjusting structure is connected to the edge sealing mechanism (20), and the adjusting structure (30) can drive the base (21) to slide along the frame (10) so as to adjust the position of the edge sealing mechanism (20) on the frame (10), and further adjust the distance between the two oppositely arranged edge sealing mechanisms (20).

9. The edge sealing device according to claim 8, wherein the adjusting structure (30) comprises a driving motor, a screw (32) and a fixed block (33), the driving motor is fixedly arranged on the frame (10), the fixed block (33) is fixedly arranged on the base (21), the fixed block (33) is provided with a threaded hole, the screw (32) is in threaded connection with the threaded hole, the driving motor is in transmission connection with the screw (32), the driving motor drives the screw (32) to rotate, and then the fixed block (33) is close to or far away from the driving motor, so that the base (21) is adjusted to be located at the position of the frame (10).

10. Photovoltaic module processing system, characterized in that it comprises a banding device (1) according to any one of claims 1 to 9.