CN113071740B

CN113071740B - Solar photovoltaic board seals membrane equipment

Info

Publication number: CN113071740B
Application number: CN202110343484.XA
Authority: CN
Inventors: 邵勇奋
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2021-09-14
Anticipated expiration: 2041-03-30
Also published as: CN113071740A

Abstract

The invention provides solar photovoltaic panel film sealing equipment, and belongs to the technical field of new energy equipment. The solar photovoltaic panel film sealing device solves the problems that an existing solar photovoltaic panel is low in film sealing efficiency and poor in film sealing quality. This solar photovoltaic board seals membrane equipment, including base and registration arm, the base top is equipped with the crane, sliding connection has the removal frame on the crane, it is connected with the film pressing roller to rotate on the removal frame, it is connected with the roll-over stand still to rotate on the removal frame, be connected with two pairs of film clamping roller on the roll-over stand, still be equipped with on the crane and make the release mechanism that film clamping roller released the plastic film when the film pressing roller compresses tightly on solar photovoltaic board glass face, still be equipped with on the base and cut membrane mechanism, the roll-over stand can overturn when the plastic film is cut off and the crane rises and make two film clamping roller that press from both sides tight plastic film remove to the opposite side of film pressing roller from film pressing roller below. The solar photovoltaic panel film sealing equipment can seal the film on the glass surface of the solar photovoltaic panel, and the film sealing quality is improved.

Description

Solar photovoltaic board seals membrane equipment

Technical Field

The invention belongs to the technical field of new energy equipment, and relates to solar photovoltaic panel film sealing equipment.

Background

The solar photovoltaic system is also called photovoltaic, and refers to a facility for converting solar energy into direct current electric energy by utilizing the photovoltaic effect of a photovoltaic semiconductor material, the core of the photovoltaic facility is a solar photovoltaic panel, the solar photovoltaic panel is a device for directly or indirectly converting solar radiation energy into electric energy through the photoelectric effect or the photochemical effect by absorbing sunlight, and the surface of the solar photovoltaic panel is a toughened glass layer. The solar photovoltaic board need seal the membrane to the glass face before dispatching from the factory, is about to paste the plastic film and seals the lid on the glass face of solar photovoltaic board, avoids the glass face to be scraped the flower in the transportation storage process, seals the membrane at present usually manually, and efficiency is lower, seals the membrane quality also relatively poor.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a solar photovoltaic panel film sealing device which can seal a film on the glass surface of a solar photovoltaic panel, so that the film sealing quality is improved.

The purpose of the invention can be realized by the following technical scheme: a solar photovoltaic panel film sealing device comprises a base for horizontally positioning a solar photovoltaic panel and a positioning roller for positioning a plastic film reel, and is characterized in that the positioning roller is positioned above the base, a lifting frame capable of lifting is arranged above the base, a moving frame is connected to the lifting frame along the transverse sliding direction, a film pressing roller is rotatably connected to the moving frame and is longitudinally arranged, a turnover frame is further rotatably connected to the moving frame, two pairs of film clamping rollers capable of clamping plastic films are connected to the turnover frame and symmetrically arranged on two sides of the film pressing roller, the film clamping rollers and the film pressing roller are arranged in parallel, the plastic films can pass through the lower parts of the film clamping rollers and the film pressing roller on one side and are clamped between the two film clamping rollers on the other side from bottom to top, and when the moving frame is positioned above one transverse side of the base and the lifting frame descends, the film pressing roller can compress the plastic films on the glass surface of the solar photovoltaic panel, still be equipped with on the crane and make the release mechanism that presss from both sides the membrane roller and release the plastic film when the film pressing roller compresses tightly on the solar photovoltaic board glass face, still be equipped with on the base and cut off the plastic film and make the plastic film tip on the plastic film reel press from both sides the membrane mechanism of cutting between two film pressing rollers when the removal frame removes to the horizontal opposite side of base, work as the plastic film is cut off and the crane rises when the roll-over stand can overturn and make two film pressing rollers that press from both sides tight plastic film remove to the opposite side of film pressing roller from film pressing roller below.

The plastic film is wound on a positioning roller which is in a reel shape and positioned before use, the end part of the plastic film is pulled out and bypasses from the lower part of a film clamping roller on the left side of a film pressing roller, then the plastic film is clamped between two film clamping rollers on the right side of the film pressing roller, the film clamping roller and the film pressing roller on the left side are both positioned above the plastic film, a solar photovoltaic panel is horizontally positioned on a base and enables the glass surface to be upward, a movable frame moves to the right side of the positioning seat, namely the film pressing roller is opposite to the right side edge of the glass surface of the solar photovoltaic panel, then a lifting frame descends to enable the film pressing roller to tightly press the plastic film on the glass surface of the solar photovoltaic panel, at the moment, a release structure enables the film clamping roller on the right side to release the plastic film, then the movable frame moves leftwards, the film clamping roller on the left side can push the plastic film, the film pressing roller, the adhesion between the plastic film and the glass surface of the solar photovoltaic panel is ensured, wherein the film clamping roller on the left side can push and pull the plastic film in advance before the film pressing roller rolls, so that the plastic film reel rotates in advance and releases the plastic film, the plastic film part between the film clamping roller on the left side and the film pressing roller is in an inclined state close to the glass surface of the solar photovoltaic panel, the posture of the plastic film between the rolling of the film pressing roller is more natural, the transition tightening caused by pulling is avoided, the film sealing quality is improved, when the moving frame moves to the left side edge of the solar photovoltaic panel, the plastic film covers the whole solar photovoltaic panel, the film cutting mechanism can cut the plastic film covered on the solar photovoltaic panel at the moment, the end part of the plastic film on the plastic film reel is pressed between the two film clamping rollers, namely, the end part edge of the plastic film on the plastic film reel is clamped by the two film clamping rollers on the left side of the film pressing roller, then the crane rises, and the roll-over stand upset 180 degrees for two film clamping roller that plastic film was cliied to film pressing roller left side remove to the right side of film pressing roller from the below of film pressing roller, can make left film clamping roller and film pressing roller be located the top of plastic film again this moment, so that seal the membrane to next solar photovoltaic board, need not manually to carry out the centre gripping to the plastic film, in order to raise the efficiency.

In foretell solar photovoltaic board seals membrane equipment, the crane is including the carriage and the buffering frame that all are the rectangle frame form, vertically on the buffering frame have linked firmly a plurality of guide posts, a plurality of guiding holes have been seted up on the carriage, and are a plurality of the guide post slides respectively and pegs graft in a plurality of guiding holes, all the cover is equipped with buffer spring on the guide post, buffer spring's upper end is connected on the carriage downside, and the lower extreme is connected on the last side of buffering frame, it puts up sliding connection on the buffering frame to remove. When the lifting frame and the buffer frame synchronously descend, the film pressing roller can be pressed on the glass surface of the solar photovoltaic panel, then the lifting frame continuously descends, the film pressing roller generates preset pressing force on the glass surface of the solar photovoltaic panel, the film sealing quality is guaranteed, and the guide columns are in sliding fit with the guide sleeves, so that the buffer frame is kept stable.

In the solar photovoltaic panel film sealing device, the moving frame comprises a moving plate which is in a long strip shape and is longitudinally arranged, two ends of the moving plate are downwards bent to form side plate parts, the lower ends of the side plate parts are fixedly connected with a moving seat, the moving seat is respectively connected onto two longitudinal frames of the buffer frame in a sliding manner, one lateral side edge of the moving plate is rotatably connected with two guide rollers, the two guide rollers are longitudinally arranged, the two guide rollers are abutted against and leaned against each other, the transverse middle part of the moving seat is provided with a relatively convex connecting part, the two opposite end surfaces of the connecting parts are vertically provided with mounting grooves, mounting blocks are vertically slidably connected in the mounting grooves, two ends of the film pressing rollers are respectively rotatably connected onto the two mounting blocks, pre-tightening springs are further arranged in the mounting grooves, and the upper ends of the pre-tightening springs are abutted against the top surfaces of the mounting grooves, the lower end is propped against the upper side surface of the mounting block. The plastic film passes through between two guide rolls earlier when pulling out from the reel, wind the back from a pair of film clamping roller below again, make the plastic film between guide roll and the film clamping roller be in the tensioning state, and when going down to make the press mold roller compress tightly on solar photovoltaic board glass face with buffering frame, the power is applyed to the buffering frame through buffer spring to the lift frame, the buffering frame applys the power through pretension spring to the press mold roller, thereby avoid the direct rigid pressure mold roller of applying of weight of buffering frame and lead to the solar photovoltaic board to receive the damage.

In foretell solar photovoltaic board seals membrane equipment, all along transversely having linked firmly the back shaft, two in the fore-and-aft two frames of buffering frame all linked firmly the support cover on the removal seat, and two support cover on removing the seat slip the cover respectively and establish on two support shafts, it is connected with two gyro wheels still to rotate on the removal seat, all linked firmly the guide rail along length direction in the fore-and-aft two frames of buffering frame, the gyro wheel is located the below of guide rail and upwards supports and lean on the guide rail, rotates on one of them removal seat and is connected with the gear, it has linked firmly the rack along length direction in the fore-and-aft frame of buffering frame, the gear is located the below of rack, and wheel and rack mesh mutually, still linked firmly driving motor on the curb plate portion of movable plate, this driving motor passes through belt pulley component drive with the gear and is connected. The back shaft with support the cover cooperation, realize removing being connected between seat and the buffering frame and provide the support to removing the seat, because remove the seat and can produce reverse effort to the buffering frame when sealing the membrane, lead to the back shaft to appear deforming, set up the gyro wheel for this reason, this gyro wheel can support on the guide rail above to support removing the seat, remove the seat and then drive the gear through driving motor and rotate, the gear acts on the rack and realizes removing.

In the solar photovoltaic panel film sealing device, the roll-over stand is rectangular frame-shaped, connecting sleeves are fixed at the two longitudinal ends of the roll-over stand, the connecting parts are cylindrical, the two connecting sleeves of the roll-over stand are respectively rotatably sleeved on the two connecting parts, the film pressing roller is positioned at the inner side of the roll-over stand, a roll-over motor is fixedly connected on the side plate part, the roll-over motor is connected with one of the connecting sleeves through a belt pulley assembly in a transmission way, the two ends of the edges at the two sides of the roll-over stand are respectively provided with a connecting arm which transversely extends, the opposite side surfaces of the two connecting arms at the same side are respectively provided with a connecting groove in the transverse direction, the connecting blocks are respectively connected in the connecting grooves in a transverse sliding way, the two pairs of film clamping rollers are respectively arranged between the two pairs of connecting arms, the two ends of one film clamping roller are respectively connected between the end parts of the two connecting arms, the two ends of the other film clamping roller are respectively connected on the two connecting blocks, and a film clamping spring acting on the connecting block is also arranged in the connecting groove, and the two film clamping rollers are abutted under the action of the film clamping spring. One film clamping roller is tightly pressed on the other film clamping roller under the action of the film clamping spring to clamp a plastic film, then the overturning motor drives the overturning frame to overturn through the belt pulley assembly II, the belt pulley assembly II is an existing transmission part and consists of a driving belt pulley, a driven belt pulley and a belt, and then the film clamping rollers on the two sides are made to be mutually replaced.

In foretell solar photovoltaic board membrane equipment of sealing, release mechanism includes that vertical the driving plate of fixing on the vertical both sides frame of lift frame, two the side of driving plate sets up relatively, all has convex top on the opposite flank of two driving plates and pushes away convex part one, and this top pushes away convex part one and is right trapezoid, and pushes away top inclined plane one that the lower terminal surface of convex part one set up for the slope, has vertical setting and the continuous holding surface in top of pushing away inclined plane one at the lateral part of top push convex part one, the bar breach has been seted up along length direction on the linking arm lateral surface, and this bar breach is linked together with the spread groove, all link firmly along the connecting pin one of vertical setting on the connecting block, the bar breach is stretched out to the tip of this connecting pin one, and rotate at the end that stretches out of connecting pin one and be connected with guide pulley one, work as the pressure membrane roller supports and leans on and pushes away guide pulley one when the lift frame continues to descend by the guide pulley one and push away guide pulley one and make two film rollers mutually And (5) separating. When the lifting frame and the buffer frame descend to enable the film pressing roller to be tightly pressed on the glass surface of the solar photovoltaic panel, the lifting frame continues to descend, the first pushing inclined plane of the first pushing convex part on the transmission plate can be in contact with the first guide wheel and pushes the first guide wheel to move, the first guide wheel can abut against the supporting surface when being separated from the first pushing inclined plane, the two film clamping rollers are enabled to be in a separation state, sufficient time is provided for releasing the plastic film, and the first guide wheel is separated from the first pushing convex part when the plastic film is separated from the film clamping rollers.

In the solar photovoltaic panel film sealing device, the connecting groove is internally provided with sliding blocks in sliding connection, a push rod which is arranged along the longitudinal direction is fixedly connected between two opposite sliding blocks, the push rods on two sides of the film pressing roller are arranged in a central symmetry manner, the lower side surface of the push rod is a straight pressing plane, when the pressing plane of one push rod is horizontally downward, the pressing plane of the other push rod is horizontally upward, the side surface of one side of the push rod, which is close to the film pressing roller, is an arc surface which is concave inwards in an arc shape, the side surface of the arc concave inwards concave in the push rod is close to the film pressing roller and has the same central line with the film pressing roller, the side surface of one side of the push rod, which is far away from the film pressing roller, is a film pressing inclined surface, when the film pressing roller is pressed on the glass surface of the solar photovoltaic panel, the pressing plane of the push rod can also be pressed on the glass surface of the solar photovoltaic panel, one end of the film clamping spring is abutted against the connecting block, and the other end is abutted against the sliding blocks, when the driving plate descends and separates the two film clamping rollers, the driving plate can drive the push rod to move towards the direction far away from the film pressing roller. When the plastic film is pressed on the glass surface of the solar photovoltaic panel by the film pressing roller, the film clamping roller on the right side still clamps the end part of the plastic film, namely the plastic film on the right side of the film pressing roller is in a tilting state, at the moment, even if the plastic film is released by the film clamping roller, the plastic film can be adhered to the film clamping roller and is difficult to separate, or the plastic film falls down through self gravity and is difficult to be well attached to the glass surface of the solar photovoltaic panel, a push rod is arranged, when the lifting frame and the buffer frame descend, the film pressing roller firstly abuts against the glass surface of the solar photovoltaic panel, then the buffer frame compresses the pre-tightening spring and continues to descend, so that a pressing plane of the push rod is tightly pressed on the glass surface of the solar photovoltaic panel, the push rod is close to the film pressing roller, the driving plate can drive the push rod to move towards the right side along with the lifting frame continuing to descend, the push rod generates pressure on the plastic film on the right side of the film pressing roller, and the plastic film is separated from the film clamping roller, and the push rod can push the plastic film to be flat, so that the plastic film is attached to the glass surface of the solar photovoltaic panel, and the film sealing quality is improved.

In the solar photovoltaic panel film sealing equipment, the opposite side surfaces of the two transmission plates are respectively provided with a second convex pushing convex part, the second pushing convex part is triangular, the lower end surface of the second pushing convex part is a second pushing inclined surface which is obliquely arranged, the inclination direction of the second pushing inclined surface is opposite to that of the first pushing inclined surface, the higher end of the pushing inclined plane II is close to the higher end of the pushing inclined plane I, the lower end of the pushing inclined plane I is lower than the lower end of the pushing inclined plane II, the slide blocks are fixedly connected with connecting pins II which are arranged along the longitudinal direction, the end part of the second connecting pin extends out of the strip-shaped gap, the extending end of the second connecting pin is rotatably connected with a second guide wheel, when the film pressing roller abuts against the glass surface of the solar photovoltaic panel and the lifting frame continues to descend, the second pushing inclined surface can abut against the second guide wheel and pushes the second guide wheel, so that the push rod moves towards the direction far away from the film pressing roller. The lower end of the first pushing inclined plane is lower than the lower end of the second pushing inclined plane, so that when the transmission plate descends, the first pushing inclined plane is firstly contacted with the first guide wheel and pushes, the film clamping rod is separated and releases the end part of the plastic film before the plastic film is pushed by the push rod, and then the second pushing inclined plane is contacted with the second guide wheel and pushes, so that the plastic film is pushed by the push rod to be flat.

In the solar photovoltaic panel film sealing device, the film cutting mechanism comprises a film cutting knife and a film pushing plate which are both in a long strip shape, the cross sections of the film cutting knife and the film pushing plate are both in an arc shape, the width of the film cutting knife is larger than that of the film pushing plate, the film cutting knife is longitudinally arranged, one side edge of the film cutting knife is a cutting edge, one side of each of two ends of the film cutting knife, which is far away from the cutting edge, is provided with a connecting pin, the two connecting pins are hinged on the base through a pin shaft, the film pushing plate is internally provided with a guide groove, the guide grooves respectively penetrate through two side edges of the film pushing plate, the film cutting knife is slidably inserted in the guide grooves of the film pushing plate, the groove walls of the two longitudinal ends of the guide grooves are respectively provided with an arc-shaped groove along the length direction, the edges of the two ends of the film cutting knife are respectively provided with an abutting part, the abutting parts of the two ends respectively slide in the two arc-shaped grooves, and a film cutting spring is further arranged in the arc-shaped grooves, should cut the one end of membrane spring and lean on to leaning on the portion of leaning on, the other end supports and leans on the arc wall terminal surface, and the cutting edge retraction of the membrane cutter pushes away in the guide way of lamina membranacea under the effect of cutting the membrane spring, still linked firmly the membrane cutting motor on the base, should cut the membrane motor and pass through belt pulley assembly three transmissions with the round pin axle and be connected, and push away the lamina membranacea and can impress the plastic film between two clamp membrane rollers when cutting the membrane motor and driving the membrane cutter and rotate to press mold roller place one side. The solar photovoltaic board is kept away from to the film cutter when not cutting the membrane, when removing the frame and removing solar photovoltaic board left side border department, it rotates to cut the membrane motor drive film cutter, push away the lamina membranacea earlier with the contact of plastic film and roof pressure plastic film this moment, when pushing away the lamina membranacea from last to inserting two between the clamp membrane roller the plastic film also imbeds between two clamp membrane rollers down, and two clamp membrane rollers also will push away the plastic film of lamina membranacea both sides and compress tightly on pushing away the lamina membranacea side, the plastic film covers the guide way notch and is in the state of straining, along with the continuation rotation of cutting the membrane cutter, the cutting edge of cutting the membrane cutter can stretch out and cut off the plastic film from the guide way.

In the solar photovoltaic panel film sealing device, the film clamping roller close to the film pressing roller is fixedly connected with the connecting block, the film clamping roller far away from the film pressing roller is rotatably connected with the connecting arm through the rotating shaft, the outer peripheral surface of the film clamping roller is fixedly coated with the rubber layer, the end part of the connecting arm is provided with the mounting notch, the end part of the rotating shaft longitudinally extends into the mounting notch, the end part of the rotating shaft is fixedly provided with the driving wheel, the two end edges of the film pushing plate are fixedly provided with the arc-shaped driving strips, when the film pushing plate is embedded between the two film clamping rollers, the driving strips can be inserted into the mounting notch to enable the concave surfaces of the driving strips to be contacted with the wheel surfaces of the driving wheels and tightly pressed, the driving strips can drive the driving wheels to rotate, the side surfaces of the driving strips are also provided with the limiting convex parts, when the film pushing plate is embedded into the two film clamping rollers, so that the cutting edge of the film cutting knife extends out of the notch of the guide groove and cuts off the plastic film. When the limiting convex part is abutted against the upper side surface of the connecting arm, the film pushing plate is difficult to move continuously, the film cutting knife can move relative to the film pushing plate and extend into the guide groove, when the plastic film is cut off, the end part of the plastic film covered on the solar photovoltaic plate is contacted with the film clamping roller capable of rotating, so that the transmission strip drives the transmission wheel to rotate reversely when the film pushing plate moves reversely and is drawn out from between the two film clamping rollers, the film clamping roller is driven to rotate reversely, the film clamping roller can generate friction force on the end part of the plastic film, the end part of the plastic film covered on the solar photovoltaic plate is taken out from between the two film clamping rollers, different fixed film clamping rollers are contacted with the end part of the plastic film on the plastic film winding drum and generate friction resistance on the plastic film, the end part of the plastic film is prevented from being taken out by the film pushing plate, and the plastic film covered on the solar photovoltaic plate is separated from the two film clamping rollers after the plastic film is cut off, the plastic film on the plastic film roll is still clamped by the two film clamping rollers.

In foretell solar photovoltaic board membrane sealing equipment, a plurality of vertical axes have vertically been linked firmly on the base, the lift frame is along vertical sliding connection on a plurality of vertical axes, still vertically on the base has linked firmly and drives actuating cylinder, and the piston rod that should drive actuating cylinder links firmly with the lift frame mutually, the equipartition has a plurality of installation convex parts on the side on the base, all rotate in the installation convex part and be connected with the ball, and a plurality of balls all bulge installation convex part on the side, still link firmly the backer that is the U-shaped on the side on the base, and the side of going up that leans on the backer is higher than the ball. The solar photovoltaic panel is pushed in from one side of the opening of the backer, and the backer can circumferentially position the solar photovoltaic panel.

Compared with the prior art, the solar photovoltaic panel film sealing equipment has the following advantages:

1. because when the removal frame removes the left side border department to the solar photovoltaic board, the plastic film covers whole solar photovoltaic board, cut membrane mechanism this moment and can cut the plastic film of closing cap on the solar photovoltaic board, simultaneously impress the plastic film tip on the plastic film reel between two film clamping roller, the plastic film tip border on the plastic film reel is cliied by two left film clamping roller of film pressing roller promptly, then the crane rises, the roll-over stand upset 180 degrees, make two film clamping roller that film pressing roller left side cliied the plastic film remove to the right side of film pressing roller from the below of film pressing roller, can make left film clamping roller and film pressing roller be located the top of plastic film again this moment, so that seal the membrane to next solar photovoltaic board, need not manually to carry out the centre gripping to the plastic film, in order to raise the efficiency.

2. Owing to set up the push rod, the press mold roller leans on with the glass face counterbalance of solar photovoltaic board earlier when lift frame and buffering frame descend, then buffering frame compression pretension spring and continue to descend, make the pressing plane of push rod compress tightly on the solar photovoltaic board glass face, this push rod is close to the press mold roller, follow the frame that goes up and down and take the driving plate to continue to descend, the driving plate can drive the push rod and remove to the right side, the push rod produces pressure to the plastic film on press mold roller right side, make the plastic film break away from the press mold roller, and the push rod can the plastic film push flat, make the plastic film laminating on the solar photovoltaic board glass face, improve and seal membrane quality.

Drawings

Fig. 1 is a schematic perspective view of a solar photovoltaic panel film sealing device.

Fig. 2 is a structural plan view of the solar photovoltaic panel film sealing device.

Fig. 3 is a sectional view of the structure at a-a in fig. 2.

Fig. 4 is a sectional view of the structure at B-B in fig. 2.

Fig. 5 is an enlarged view of the structure at C in fig. 1.

Fig. 6 is a schematic perspective view of the movable frame.

Fig. 7 is a perspective view of another view of the mobile frame.

Fig. 8 is an enlarged view of the structure at D in fig. 3.

Fig. 9 is an enlarged view of the structure at E in fig. 4.

Fig. 10 is an enlarged view of the structure at F in fig. 4.

Fig. 11 is a partial structural sectional view of the movable frame at the movable base.

Fig. 12 is an enlarged view of the structure at G in fig. 3.

Fig. 13 is an enlarged view of the structure at H in fig. 1.

Fig. 14 is an enlarged view of the structure at I in fig. 3.

Fig. 15 is a partial structural cross-sectional view taken at J-J in fig. 2.

Fig. 16 is a flow chart of the operation of the lamination roller pressing on the solar photovoltaic panel.

Fig. 17 is a flowchart of the operation when the two nip rollers release the plastic film.

Fig. 18 is a flowchart of the operation when the moving frame moves to the left side of the base.

Fig. 19 is a flowchart of the operation when the film cutter cuts the plastic film.

Fig. 20 is a flowchart of the operation when the two film nipping rollers nip the end portion of the plastic film.

Figure 21 is a flow chart of the operation when the crane is raised and the roll-over stand is turned over.

In the figure, 1, a base; 11. a positioning roller; 12. a film cutting motor; 121. a third belt pulley component; 13. a vertical axis; 14. a driving cylinder; 15. a mounting boss; 151. a ball bearing; 16. backing a mountain; 2. a lifting frame; 21. a lifting frame; 22. a buffer frame; 221. a guide post; 222. a support shaft; 223. a guide rail; 224. a rack; 23. a buffer spring; 3. a movable frame; 31. moving the plate; 311. a side plate portion; 32. a movable seat; 321. a support sleeve; 322. a roller; 323. a gear; 33. a guide roller; 34. a connecting portion; 341. mounting grooves; 342. pre-tightening the spring; 35. a film pressing roller; 351. mounting blocks; 36. a drive motor; 361. a first belt pulley component; 37. turning over a motor; 371. a second belt pulley component; 4. a roll-over stand; 41. connecting sleeves; 42. a connecting arm; 421. connecting grooves; 422. a film clamping spring; 423. a strip-shaped notch; 424. installing a notch; 43. a film clamping roller; 431. connecting blocks; 432. a first connecting pin; 433. a first guide wheel; 434. a rotating shaft; 435. a driving wheel; 5. a drive plate; 51. pushing the convex part I; 511. pushing the inclined plane I; 512. a support surface; 52. pushing the convex part II; 521. pushing the inclined plane II; 6. a push rod; 61. pressing a plane; 62. pushing a film inclined plane; 63. a slider; 631. a second connecting pin; 632. a second guide wheel; 7. a film cutter; 71. a connecting pin; 72. an abutting portion; 8. pushing a membrane plate; 81. a guide groove; 82. an arc-shaped slot; 83. cutting the film spring; 84. a drive bar; 841. a limiting convex part; 9. a plastic film; 10. a solar photovoltaic panel.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 5, a solar photovoltaic panel film sealing device comprises a base 1 for horizontally positioning a solar photovoltaic panel 10 and a positioning roller 11 for positioning a plastic film reel, wherein a plurality of mounting convex parts 15 are uniformly distributed on the upper side surface of the base 1, a ball 151 is rotatably connected in each mounting convex part 15, the plurality of balls 151 are protruded out of the upper side surface of each mounting convex part 15, a U-shaped backrest 16 is fixedly connected to the upper side surface of the base 1, and the upper side surface of the backrest 16 is higher than the ball 151. The positioning roller 11 is positioned above the base 1, the lifting frame 2 capable of lifting is arranged above the base 1, the lifting frame 2 is connected with the moving frame 3 along the transverse sliding direction, the moving frame 3 is connected with the film pressing roller 35 in a rotating manner, the film pressing roller 35 is arranged along the longitudinal direction, the moving frame 3 is also connected with the overturning frame 4 in a rotating manner, the overturning frame 4 is connected with two pairs of film clamping rollers 43 capable of clamping the plastic film 9, the two pairs of film clamping rollers 43 are symmetrically arranged at two sides of the film pressing roller 35, the film clamping rollers 43 and the film pressing roller 35 are arranged in parallel, the plastic film 9 can bypass from the lower part of the film clamping roller 43 and the lower part of the film pressing roller 35 at one side and is clamped between the two film clamping rollers 43 at the other side from bottom to top, the film pressing roller 35 can press the plastic film 9 on the glass surface of the solar photovoltaic panel 10 when the moving frame 3 is positioned above one transverse side of the base 1 and the lifting frame 2 is lowered, the lifting frame 2 is also provided with a releasing mechanism capable of enabling the film clamping roller 43 to release the plastic film 9 when the film pressing roller 35 is pressed on the glass surface of the solar photovoltaic panel 10, the base 1 is also provided with a film cutting mechanism which can cut the plastic film 9 and clamp the end part of the plastic film 9 on the plastic film reel between the two film clamping rollers 43 when the moving frame 3 moves to the other side of the transverse direction of the base 1, and the overturning frame 4 can overturn when the plastic film 9 is cut and the lifting frame 2 ascends so that the two film clamping rollers 43 clamping the plastic film 9 move to the other side of the film clamping roller 35 from the lower part of the film clamping roller 35.

Combine 6 to 10 shown, crane 2 is including the lift frame 21 and the buffering frame 22 that all are the rectangle frame form, vertically on the base 1 having linked firmly a plurality of vertical axes 13, lift frame 21 is along vertical sliding connection on a plurality of vertical axes 13, still vertically on the base 1 having linked firmly drive actuating cylinder 14, the piston rod that should drive actuating cylinder 14 links firmly with lift frame 21 mutually, vertically on the buffering frame 22 having linked firmly a plurality of guide posts 221, a plurality of guiding holes have been seted up on lift frame 21, a plurality of guide posts 221 slide respectively and peg graft in a plurality of guiding holes, it is equipped with buffer spring 23 all to overlap on the guide post 221, buffer spring 23's upper end is connected on lift frame 21 downside, the lower extreme is connected on buffering frame 22's the last side, 3 sliding connection of removal frame is on buffering frame 22. The moving frame 3 comprises a moving plate 31 which is long and is arranged along the longitudinal direction, two ends of the moving plate 31 are bent downwards to form side plate parts 311, the lower ends of the two side plate parts 311 are fixedly connected with moving seats 32, the two moving seats 32 are respectively connected on two longitudinal frames of the buffer frame 22 in a sliding way, one lateral side edge of the moving plate 31 is rotatably connected with two guide rollers 33, the two guide rollers 33 are both arranged along the longitudinal direction, the two guide rollers 33 are abutted against each other, the transverse middle parts of the two movable seats 32 are respectively provided with a connecting part 34 which protrudes relatively, the opposite end surfaces of the two connecting parts 34 are respectively provided with a mounting groove 341 along the vertical direction, a mounting block 351 is connected in the mounting groove 341 along the vertical direction in a sliding manner, two ends of the film pressing roller 35 are respectively connected on the two mounting blocks 351 in a rotating manner, a pre-tightening spring 342 is also arranged in the mounting groove 341, the upper end of the pre-tightening spring 342 abuts against the top surface of the mounting groove 341, and the lower end abuts against the upper side surface of the mounting block 351. Support shafts 222 are fixedly connected to two longitudinal frames of the buffer frame 22 along the transverse direction, support sleeves 321 are fixedly connected to the two movable seats 32, the support sleeves 321 on the two movable seats 32 are respectively sleeved on the two support shafts 222 in a sliding mode, two rollers 322 are rotatably connected to the movable seats 32, guide rails 223 are fixedly connected to the two longitudinal frames of the buffer frame 22 along the length direction, the rollers 322 are located below the guide rails 223 and abut against the guide rails 223 upwards, a gear 323 is rotatably connected to one of the movable seats 32, a rack 224 is fixedly connected to one longitudinal frame of the buffer frame 22 along the length direction, the gear 323 is located below the rack 224, the gear 323 is meshed with the rack 224, a driving motor 36 is further fixedly connected to the side plate portion 311 of the buffer frame 31, and the driving motor 36 is in transmission connection with the gear 323 through a belt pulley assembly 361. The roll-over stand 4 is rectangular frame-shaped, the connecting sleeves 41 are fixed at both longitudinal ends of the roll-over stand 4, the connecting parts 34 are cylindrical, the two connecting sleeves 41 of the roll-over stand 4 are respectively sleeved on the two connecting parts 34 in a rotating way, the film pressing rollers 35 are positioned at the inner side of the roll-over stand 4, the side plate part 311 is also fixedly connected with a roll-over motor 37, the roll-over motor 37 is in transmission connection with one connecting sleeve 41 through a belt pulley assembly II 371, both ends of both side edges of the roll-over stand 4 are respectively provided with a transversely extending connecting arm 42, the opposite side surfaces of the two connecting arms 42 at the same side are respectively provided with a connecting groove 421 along the transverse direction, the connecting blocks 431 are respectively connected in the connecting grooves 421 in a transverse sliding way, the two pairs of film clamping rollers 43 are respectively arranged between the two pairs of connecting arms 42, both ends of one film clamping roller 43 are respectively connected between the end parts of the two connecting arms 42, both ends of the other film clamping roller 43 are respectively connected on the two connecting blocks 431, a film clamping spring 422 acting on the connecting blocks 431 is also arranged in the connecting grooves 421, the two film clamping rollers 43 are abutted under the action of the film clamping spring 422.

Referring to fig. 11 and 12, the release mechanism includes transmission plates 5 vertically fixed on two longitudinal frames of the lifting frame 21, side surfaces of the two transmission plates 5 are oppositely arranged, two opposite side surfaces of the two transmission plates 5 are respectively provided with a convex pushing convex part one 51, the pushing convex part one 51 is in a right trapezoid shape, a lower end surface of the pushing convex part one 51 is a pushing inclined surface one 511 obliquely arranged, a lateral part of the pushing convex part one 51 is provided with a supporting surface 512 vertically arranged and connected with an upper end of the pushing inclined surface one 511, a strip-shaped gap 423 is formed in a length direction on an outer side surface of the connecting arm 42, the strip-shaped gap 423 is communicated with the connecting groove 421, the connecting blocks 431 are respectively and fixedly connected with a connecting pin one 432 longitudinally arranged, an end part of the connecting pin one 432 extends out of the strip-shaped gap 423, an extending end of the connecting pin one 432 is rotatably connected with a guide wheel one 433, when the film pressing roller 35 abuts against a glass surface of the solar photovoltaic panel 10 and the lifting frame 21 continues to descend, the pushing inclined surface one 511 can abut against the guide wheel 433 and push the guide wheel 433 to push the guide wheel The guide roller one 433 separates the two nip rollers 43. The connecting groove 421 is further connected with a sliding block 63 in a sliding manner, push rods 6 arranged along the longitudinal direction are fixedly connected between two opposite sliding blocks 63, the push rods 6 on two sides of the squeeze film roller 35 are arranged in a central symmetry manner, the lower side surface of each push rod 6 is a straight pressing plane 61, when the pressing plane 61 of one push rod 6 is horizontally downward, the pressing plane 61 of the other push rod 6 is horizontally upward, the side surface of one side of the push rod 6 close to the squeeze film roller 35 is an arc-shaped concave cambered surface, the arc-shaped concave side surface of the push rod 6 is close to the squeeze film roller 35 and has the same central line with the squeeze film roller 35, the side surface of one side of the push rod 6 far away from the squeeze film roller 35 is a film pushing inclined surface 62, when the squeeze film roller 35 is pressed on the glass surface of the solar photovoltaic panel 10, the pressing plane 61 of the push rod 6 can be pressed on the glass surface of the solar photovoltaic panel 10, one end of the film clamping spring 422 is pressed against the connecting block 431, and the other end is pressed against the sliding block 63, when the driving plate 5 descends and separates the two film clamping rollers 43, the driving plate can drive the push rod 6 to move towards the direction away from the film pressing roller 35. Two convex pushing convex parts 52 are arranged on the opposite side surfaces of the two transmission plates 5, the two pushing convex parts 52 are triangular, the lower end surface of the second pushing convex part 52 is a second pushing inclined surface 521 which is obliquely arranged, the inclination directions of the second pushing inclined surface 521 and the first pushing inclined surface 511 are opposite, the higher end of the pushing inclined plane II 521 is close to the higher end of the pushing inclined plane I511, the lower end of the pushing inclined plane I511 is lower than the lower end of the pushing inclined plane II 521, the slide block 63 is fixedly connected with a connecting pin II 631 arranged along the longitudinal direction, the end of the second connecting pin 631 extends out of the strip-shaped notch 423, the extending end of the second connecting pin 631 is rotatably connected with a second guide wheel 632, when the film pressing roller 35 abuts against the glass surface of the solar photovoltaic panel 10 and the lifting frame 21 continues to descend, the second pushing inclined surface 521 can abut against the second guide wheel 632 and push the second guide wheel 632 so that the push rod 6 moves in the direction away from the film pressing roller 35.

Referring to fig. 13, 14 and 15, the film cutting mechanism includes a film cutting knife 7 and a film pushing plate 8 both in a long strip shape, the cross sections of the film cutting knife 7 and the film pushing plate 8 are both in an arc shape, the width of the film cutting knife 7 is greater than that of the film pushing plate 8, the film cutting knife 7 is arranged along the longitudinal direction, one side edge of the film cutting knife 7 is a knife edge, one side of each of the two ends of the film cutting knife 7, which is far away from the knife edge, is provided with a connecting foot 71, the two connecting feet 71 are hinged on the base 1 through a pin shaft, a guide groove 81 is formed in the film pushing plate 8, the guide groove 81 respectively penetrates through the two edges of the film pushing plate 8, the film cutting knife 7 is slidably inserted into the guide groove 81 of the film pushing plate 8, arc grooves 82 are formed in the groove walls of the two longitudinal ends of the guide groove 81 along the length direction, the two end edges of the film cutting knife 7 are provided with abutting parts 72, the abutting parts 72 are respectively slidably inserted into the two arc grooves 82, a film cutting spring 83 is further arranged in the arc grooves 82, should cut the one end of membrane spring 83 and lean on supporting portion 72, the other end supports and leans on arc wall 82 terminal surface, under the effect of cutting membrane spring 83 in the cutting edge retraction of film cutter 7 pushes away the guide way 81 of lamina membranacea 8, still linked firmly on the base 1 and cut membrane motor 12, should cut membrane motor 12 and round pin axle and pass through three 121 transmissions of belt pulley assembly and be connected, and push away the lamina membranacea 8 and can impress plastic film 9 between two film clamping roller 43 when cutting membrane motor 12 and drive film cutter 7 and rotate to film clamping roller 35 place one side. The film clamping roller 43 close to the film pressing roller 35 is fixedly connected with the connecting block 431, the film clamping roller 43 far away from the film pressing roller 35 is rotatably connected with the connecting arm 42 through a rotating shaft 434, the outer peripheral surface of the film clamping roller 43 is fixedly coated with a rubber layer, the end part of the connecting arm 42 is provided with an installation notch 424, the end part of the rotating shaft 434 longitudinally extends into the installation notch 424, the end part of the rotating shaft 434 is fixedly provided with a driving wheel 435, the two end edges of the film pushing plate 8 are respectively and fixedly provided with an arc-shaped driving strip 84, when the film pushing plate 8 is embedded between the two film clamping rollers 43, the driving strip 84 can be inserted into the installation notch 424 to enable the concave surface of the driving strip 84 to be contacted and pressed with the wheel surface of the driving wheel 435, the driving strip 84 can drive the driving wheel 435 to rotate, the side surface of the driving strip 84 is also provided with a limiting convex part 841, when the film pushing plate 8 is embedded between the two film clamping rollers 43 for a set distance, the limiting convex part 841 can be abutted against the upper side surface of the connecting arm 42, so that the blade of the film cutting knife 7 protrudes from the notch of the guide groove 81 and cuts the plastic film 9.

Referring to fig. 16 to 21, before use, the plastic film 9 is wound around the positioning roller 11 in a roll shape and positioned, the end of the plastic film 9 is pulled out and passes under the film clamping roller 43 on the left side of the film pressing roller 35, and then is clamped between the two film clamping rollers 43 on the right side of the film pressing roller 35, at this time, the film clamping roller 43 on the left side and the film pressing roller 35 are both located above the plastic film 9, the solar photovoltaic panel 10 is horizontally positioned on the base 1 with the glass surface facing upward, the movable frame 3 is moved to the right side of the base 1, that is, the film pressing roller 35 is opposite to the right edge of the glass surface of the solar photovoltaic panel 10, then the crane 2 is lowered to enable the film pressing roller 35 to press the plastic film 9 against the glass surface of the solar photovoltaic panel 10, at this time, the releasing structure enables the film clamping rollers 43 on the right side to release the plastic film 9, then the movable frame 3 is moved to the left, the film clamping roller 43 on the left side can push the plastic film 9, the film pressing roller 35 rolls over the plastic film 9, thereby extruding the air between the glass surfaces of the plastic film 9 and the solar photovoltaic panel 10 and applying a certain pressure to the plastic film 9 to ensure the adhesion degree between the plastic film 9 and the glass surface of the solar photovoltaic panel 10, wherein the left film clamping roller 43 can push and pull the plastic film 9 in advance before the film pressing roller 35 rolls, so that the plastic film reel rotates in advance and releases the plastic film 9, thereby the plastic film 9 between the left film clamping roller 43 and the film pressing roller 35 is in an inclined state close to the glass surface of the solar photovoltaic panel 10, the posture of the plastic film 9 between the rolling of the film pressing roller 35 is more natural, the transition tightening caused by pulling is avoided, the film sealing quality is improved, when the moving frame 3 moves to the left edge of the solar photovoltaic panel 10, the plastic film 9 covers the whole solar photovoltaic panel 10, and at the moment, the film cutting mechanism can cut the plastic film 9 covered on the solar photovoltaic panel 10, simultaneously with the plastic film 9 tip on the plastic film reel impress between two film clamping roller 43, 9 tip edges of plastic film on the plastic film reel are cliied by two film clamping roller 43 on the left of film pressing roller 35 promptly, then crane 2 rises, 4 upset 180 degrees of roll-over stand, make film pressing roller 35 left side clip two film clamping roller 43 of plastic film 9 remove to the right side of film pressing roller 35 from the below of film pressing roller 35, can make left film clamping roller 43 and film pressing roller 35 be located the top of plastic film 9 again this moment, so that seal the membrane to next solar photovoltaic panel 10, need not manually to carry out the centre gripping to plastic film 9, in order to raise the efficiency.

Claims

1. The utility model provides a solar photovoltaic board seals membrane equipment, includes base (1) that is used for horizontal location solar photovoltaic board (10) and positioning roller (11) that are used for fixing a position the plastic film reel, its characterized in that, positioning roller (11) are located base (1) top, base (1) top is equipped with crane (2) that can go up and down, there is removal frame (3) along horizontal sliding connection on crane (2), it is connected with film pressing roller (35) to rotate on removal frame (3), and film pressing roller (35) along vertical setting, it is connected with roll-over stand (4) still to rotate on removal frame (3), be connected with two pairs of film clamping roller (43) that can press from both sides tight plastic film (9) on roll-over stand (4), two pairs of film clamping roller (43) symmetry sets up in the both sides of film pressing roller (35), and film clamping roller (43) and film pressing roller (35) parallel arrangement, the plastic film (9) can bypass from the lower part of the film clamping roller (43) and the film pressing roller (35) on one side and is clamped between the two film clamping rollers (43) on the other side from bottom to top, the film pressing roller (35) can press the plastic film (9) on the glass surface of the solar photovoltaic panel (10) when the moving frame (3) is positioned above one transverse side of the base (1) and the lifting frame (2) descends, a release mechanism capable of enabling the two film clamping rollers (43) on the other side to release the plastic film (9) when the film pressing roller (35) is pressed on the glass surface of the solar photovoltaic panel (10) is further arranged on the lifting frame (2), a film cutting mechanism capable of cutting off the plastic film (9) and enabling the end part of the plastic film (9) on the plastic film winding drum to be clamped between the two film clamping rollers (43) when the moving frame (3) moves to the other transverse side of the base (1) is further arranged on the base (1), and the plastic film (9) can be turned over when the lifting frame (2) rises and the lifting Two film clamping rollers (43) for clamping the plastic film (9) move from the lower part of the film pressing roller (35) to the other side of the film pressing roller (35).

2. The solar photovoltaic panel film sealing device according to claim 1, wherein the lifting frame (2) comprises a lifting frame (21) and a buffering frame (22) which are both rectangular frame-shaped, a plurality of guide columns (221) are vertically fixedly connected to the buffering frame (22), a plurality of guide holes are formed in the lifting frame (21), the guide columns (221) are respectively inserted into the guide holes in a sliding manner, buffer springs (23) are sleeved on the guide columns (221), the upper ends of the buffer springs (23) are connected to the lower side face of the lifting frame (21), the lower ends of the buffer springs are connected to the upper side face of the buffering frame (22), and the moving frame (3) is connected to the buffering frame (22) in a sliding manner.

3. The solar photovoltaic panel film sealing device according to claim 2, wherein the movable frame (3) comprises a movable plate (31) which is long and is arranged along a longitudinal direction, both ends of the movable plate (31) are bent downwards to form side plate portions (311), the lower ends of the side plate portions (311) are fixedly connected with movable seats (32), the movable seats (32) are respectively connected to two longitudinal frames of the buffer frame (22) in a sliding manner, one lateral side edge of the movable plate (31) is rotatably connected with two guide rollers (33), the two guide rollers (33) are arranged along the longitudinal direction, the two guide rollers (33) abut against each other, the two movable seats (32) are respectively provided with a connecting portion (34) which protrudes in a transverse direction, the two connecting portions (34) are respectively provided with a vertical mounting groove (341) on opposite end surfaces, and a mounting block (351) is connected in the mounting groove (341) in a sliding manner along the vertical direction, the both ends of press mold roller (35) are rotated respectively and are connected on two installation piece (351), still be equipped with pretension spring (342) in mounting groove (341), the upper end of this pretension spring (342) supports and leans on mounting groove (341) top surface, and the lower extreme supports and leans on side on installation piece (351).

4. The solar photovoltaic panel film sealing device according to claim 3, wherein the two longitudinal frames of the buffer frame (22) are respectively and transversely fixedly connected with a support shaft (222), the two movable bases (32) are respectively and fixedly connected with a support sleeve (321), the support sleeves (321) of the two movable bases (32) are respectively and slidably sleeved on the two support shafts (222), the movable bases (32) are further rotatably connected with two rollers (322), the two longitudinal frames of the buffer frame (22) are respectively and fixedly connected with a guide rail (223) along the length direction, the rollers (322) are located below the guide rails (223) and upwards abut against the guide rails (223), one of the movable bases (32) is rotatably connected with a gear (323), the longitudinal frame of the buffer frame (22) is fixedly connected with a rack (224) along the length direction, and the gear (323) is located below the rack (224), and the gear (323) is meshed with the rack (224), the side plate part (311) of the moving plate (31) is fixedly connected with a driving motor (36), and the driving motor (36) is in transmission connection with the gear (323) through a first belt pulley component (361).

5. The solar photovoltaic panel film sealing device according to claim 3 or 4, wherein the roll-over stand (4) is rectangular, connecting sleeves (41) are fixed at both longitudinal ends of the roll-over stand (4), the connecting portion (34) is cylindrical, the two connecting sleeves (41) of the roll-over stand (4) are respectively rotatably sleeved on the two connecting portions (34), the film pressing roller (35) is located at the inner side of the roll-over stand (4), the side plate portion (311) is further fixedly connected with a roll-over motor (37), the roll-over motor (37) is in transmission connection with one connecting sleeve (41) through a second belt pulley assembly (371), both ends of both side edges of the roll-over stand (4) are respectively provided with a transversely extending connecting arm (42), the opposite side surfaces of the two connecting arms (42) are respectively provided with a connecting groove (421) along the transverse direction, the connecting blocks (431) are respectively connected in the connecting grooves (421) along the transverse direction in a sliding manner, the two pairs of film clamping rollers (43) are respectively arranged between the two pairs of connecting arms (42), two ends of one film clamping roller (43) are respectively connected between the end parts of the two connecting arms (42), two ends of the other film clamping roller (43) are respectively connected onto the two connecting blocks (431), a film clamping spring (422) acting on the connecting blocks (431) is further arranged in each connecting groove (421), and the two film clamping rollers (43) are abutted under the action of the film clamping spring (422).

6. The solar photovoltaic panel film sealing device according to claim 5, wherein the releasing mechanism comprises transmission plates (5) vertically fixed on two longitudinal frames of the lifting frame (21), the two transmission plates (5) are oppositely arranged on the side surfaces, a first protruded pushing convex part (51) is arranged on each of the two opposite side surfaces of the two transmission plates (5), the first pushing convex part (51) is in a right trapezoid shape, the lower end surface of the first pushing convex part (51) is a first obliquely arranged pushing inclined surface (511), a supporting surface (512) vertically arranged and connected with the upper end of the first pushing inclined surface (511) is arranged on the side part of the first pushing convex part (51), a strip-shaped notch (423) is formed in the outer side surface of the connecting arm (42) along the length direction, the strip-shaped notch (423) is communicated with the connecting groove (421), and a first connecting pin (432) longitudinally arranged is fixedly connected on each connecting block (431), the end part of the connecting pin I (432) extends out of the strip-shaped notch (423), the extending end of the connecting pin I (432) is rotatably connected with a guide wheel I (433), and when the film pressing roller (35) abuts against the glass surface of the solar photovoltaic panel (10) and the lifting frame (21) continues to descend, the pushing inclined plane I (511) can abut against the guide wheel I (433) and pushes the guide wheel I (433) to enable the two film clamping rollers (43) to be separated.

7. The solar photovoltaic panel film sealing device according to claim 6, wherein the connecting groove (421) is further connected with a sliding block (63) in a sliding manner, a push rod (6) longitudinally arranged is fixedly connected between two opposite sliding blocks (63), the push rods (6) at two sides of the film pressing roller (35) are arranged in a central symmetry manner, the lower side surfaces of the push rods (6) are straight pressing planes (61), when the pressing plane (61) of one push rod (6) faces downwards horizontally, the pressing plane (61) of the other push rod (6) faces upwards horizontally, the side surface of the push rod (6) close to the film pressing roller (35) is an arc surface concave inwards in an arc shape, the side surface of the push rod (6) close to the film pressing roller (35) and has the same central line with the film pressing roller (35), and the side surface of the push rod (6) far away from the film pressing roller (35) is a film pressing inclined surface (62), work as press pressing plane (61) of push rod (6) also can compress tightly on solar photovoltaic board (10) glass face when pressing squeeze film roller (35) and compressing tightly on solar photovoltaic board (10) glass face, press from both sides the one end of membrane spring (422) and lean on connecting block (431), the other end supports and leans on slider (63), works as driving plate (5) descend and can drive push rod (6) and remove to keeping away from squeeze film roller (35) direction when making two press from both sides membrane roller (43) separation.

8. The solar photovoltaic panel film sealing equipment according to claim 7, wherein the opposite side surfaces of the two transmission plates (5) are respectively provided with a convex pushing convex part II (52), the pushing convex part II (52) is triangular, the lower end surface of the pushing convex part II (52) is a pushing inclined surface II (521) which is obliquely arranged, the inclination directions of the pushing inclined surface II (521) and the pushing inclined surface I (511) are opposite, the higher end of the pushing inclined surface II (521) is close to the higher end of the pushing inclined surface I (511), the lower end of the pushing inclined surface I (511) is lower than the lower end of the pushing inclined surface II (521), the sliding blocks (63) are respectively fixedly connected with a connecting pin II (631) which is longitudinally arranged, the end of the connecting pin II (631) extends out of a strip-shaped gap (423), and the extending end of the connecting pin II (631) is rotatably connected with a guide wheel II (632), when the film pressing roller (35) abuts against the glass surface of the solar photovoltaic panel (10) and the lifting frame (21) continues to descend, the second pushing inclined surface (521) can abut against the second guide wheel (632) and push the second guide wheel (632) so that the push rod (6) moves towards the direction far away from the film pressing roller (35).

9. The solar photovoltaic panel film sealing device according to claim 5, wherein the film cutting mechanism comprises a film cutting knife (7) and a film pushing plate (8) which are both in a strip shape, the cross sections of the film cutting knife (7) and the film pushing plate (8) are both in an arc shape, the width of the film cutting knife (7) is larger than that of the film pushing plate (8), the film cutting knife (7) is arranged along the longitudinal direction, one side edge of the film cutting knife (7) is a knife edge, one side of each of two ends of the film cutting knife (7) far away from the knife edge is provided with a connecting foot (71), the two connecting feet (71) are hinged on the base (1) through pin shafts, a guide groove (81) is formed in the film pushing plate (8), the guide grooves (81) respectively penetrate through two edges of the film pushing plate (8), the film cutting knife (7) is slidably inserted into the guide groove (81) of the film pushing plate (8), and arc-shaped grooves (82) are formed in the groove walls of the two ends of the guide groove (81) along the longitudinal direction, the utility model discloses a film cutting machine, including base (1), film cutting knife (7), film pressing roller (35), film cutting knife (7), film cutting motor (12), film cutting motor (7), film pressing roller (35), film cutting motor (8), film clamping roller (43), film cutting knife (9), film cutting spring (83), film clamping roller (35), film clamping roller (43), film cutting spring (83), film clamping roller (6), film clamping roller (9), film cutting spring (7), film cutting spring (83), film cutting spring (8), film clamping roller (43), film clamping roller (35), film clamping roller, film clamping roller, film clamping roller, film clamping roller, film clamping.

10. The solar photovoltaic panel film sealing device according to claim 9, wherein the film clamping roller (43) close to the film pressing roller (35) is fixedly connected with the connecting block (431), the film clamping roller (43) far away from the film pressing roller (35) is rotatably connected with the connecting arm (42) through a rotating shaft (434), the outer peripheral surface of the film clamping roller (43) is fixedly coated with a rubber layer, the end of the connecting arm (42) is provided with an installation notch (424), the end of the rotating shaft (434) longitudinally extends into the installation notch (424), the end of the rotating shaft (434) is fixedly provided with a driving wheel (435), the edges of two ends of the film pushing plate (8) are fixedly provided with arc-shaped driving strips (84), when the film pushing plate (8) is embedded between the two film clamping rollers (43), the driving strips (84) can be inserted into the installation notch (424) so that the concave surfaces of the driving strips (84) are in contact with the wheel surfaces of the driving wheels (435) and are pressed tightly, and the transmission strip (84) can drive the transmission wheel (435) to rotate, the side surface of the transmission strip (84) is also provided with a limiting convex part (841), and when the film pushing plate (8) is embedded into the two film clamping rollers (43) for a set distance, the limiting convex part (841) can be abutted against the upper side surface of the connecting arm (42), so that the blade of the film cutting knife (7) extends out of the notch of the guide groove (81) and cuts off the plastic film (9).