CN115502682A - Automatic frame installation device for photovoltaic cell panel production - Google Patents

Abstract

The invention discloses an automatic frame mounting device for photovoltaic cell panel production, and relates to the technical field of photovoltaic cell panel mounting. After the frames are installed, the top plate is jacked up through the telescopic cylinder, then the corner frames are placed on the corner frame limiting seats through a mechanical arm or a manual work, the corner frame limiting seats are synchronously pushed to move through the synchronous driving mechanism, the frames are fixed through the corner frames, and every two frames are inserted into the jacks in one corner frame; the spring is compressed in the moving process of the corner frame limiting seat, and after the push block is reset, the corner frame limiting seat is driven to reset under the action of the spring; through synchronous motion, can guarantee that the position of angle frame motion is the same, fixed effect is better to can carry out the angle frame to the panel of different sizes and fix.

Description

Automatic frame installation device for photovoltaic cell panel production

Technical Field

The invention relates to the technical field of photovoltaic cell panel installation, in particular to an automatic frame installation device for photovoltaic cell panel production.

Background

Solar photovoltaic cells, referred to as photovoltaic cells for short, are used to convert solar energy directly into electrical energy. Compared with the conventional energy, the photovoltaic cell is a renewable clean energy, is beneficial to environmental protection, and can save the power transmission line with high cost, so the photovoltaic cell has wide application prospect.

Under the prior art, the manufacturing process of the photovoltaic cell panel comprises the following process flows: front welding → back side serial connection → layer by layer laying → assembly lamination → trimming → framing → mounting junction box → high pressure test. Specifically, after a photovoltaic cell sheet with silicon as a main component is produced, a bus bar is welded to a main grid line on the front side of the cell in a front side welding procedure, and then a plurality of photovoltaic cell sheets are connected in series to form a cell string in a back side welding procedure. After the back side is connected in series and is qualified through inspection, the battery string, the glass, the EVA and the back plate are laid according to a certain level to form a battery assembly, then the battery assembly is placed in a laminating machine, air in the battery assembly is pumped out through vacuumizing, the EVA is melted after heating to bond the battery string, the glass and the back plate together, and finally the assembly is cooled and taken out. When laminating, EVA is melted and extends outwards due to pressure to be solidified to form rough edges, so that trimming treatment is needed; after trimming, respectively installing aluminum frames on four edges of the photovoltaic cell assembly in a framing procedure, and then fixedly connecting four corners of the aluminum frames together; and after the framing procedure, mounting a junction box at the back lead of the photovoltaic cell assembly, and carrying out high-voltage resistance test to obtain a finished photovoltaic cell.

After the burrs of the laminated photovoltaic cell assembly are removed, firstly, a rubber pad is padded on the ground, the photovoltaic cell assembly is padded on the rubber pad manually, then aluminum frames are assembled on four edges of the photovoltaic cell assembly respectively, and after the aluminum frames are assembled, the photovoltaic cell assembly is manually conveyed to a frame assembling and corner assembling machine to complete a frame assembling and corner assembling process of the photovoltaic cell assembly. Because there is the inconsistent condition of step in frame assembly process and the photovoltaic cell delivery step of frame assembly process complex, can not carry out the motion adjustment in step, cause cracked of photovoltaic cell piece easily to only install the photovoltaic board of same type, be not convenient for install the frame of different grade type.

Disclosure of Invention

The invention aims to provide an automatic frame mounting device for producing a photovoltaic cell panel, which solves the following technical problems: frame assembly process and with frame assembly process complex photovoltaic cell pass step have the inconsistent condition of step, can not carry out the motion in step and adjust, cause cracked of photovoltaic cell piece easily to only install the photovoltaic board of same type, be not convenient for install the frame of different grade type.

The purpose of the invention can be realized by the following technical scheme:

the automatic frame mounting device for the production of the photovoltaic cell panel comprises an operation table, wherein two sides of the top of the operation table are connected with a top plate through telescopic cylinders, the top plate is of a cross structure, a corner frame fixing mechanism is mounted on the top plate and comprises a driving box body, a synchronous driving mechanism is arranged inside the driving box body and used for synchronously driving a pushing rod to move, the pushing rod is arranged at four corners of the driving box body, the end part of the pushing rod is movably connected with a movable arc-shaped strip, the movable arc-shaped strip is positioned at the diagonal of the top plate, the end part of the movable arc-shaped strip is movably connected with a pushing block, and the movable arc-shaped strip is connected with the driving box body through a first movable block;

the spout has all been seted up to the top four corners department of operation panel, the inner wall one end fixed mounting of spout has the spring, the tip fixed mounting of spring has the set-square, set-square and spout sliding connection, the top fixed mounting of set-square has the spacing seat of horn frame, the spacing seat of horn frame and horn frame adaptation.

As a further scheme of the invention: synchronous driving mechanism includes cylinder three, three fixed mounting in the top center department of drive box of cylinder, the piston rod of drive box runs through the drive box and is connected with the activity dish, the top inner wall center department fixed mounting of drive box has the bracing piece, the activity dish has been cup jointed on the bracing piece, four fixed strips are installed to the tip equidistance of bracing piece, swing joint has movable block two on the outer peripheral face of activity dish, the one end swing joint of movable block two has the push pedal that the level set up, the bottom of push pedal and the top sliding connection of fixed strip, the tip swing joint of push pedal has the ejector pad.

As a further scheme of the invention: the bottom of the fixing strip is connected with the driving box body through a fixing bolt.

As a further scheme of the invention: and a second sucking disc is arranged at the top of the triangular plate.

As a further scheme of the invention: a second air cylinder is fixedly installed inside the operating platform, a lifting plate is fixedly installed at the top of a piston rod of the second air cylinder, a rotating motor is fixedly installed at the top of the lifting plate, a supporting frame is fixedly installed at the top of the rotating motor, and a first sucker is arranged at the center of the top of the supporting frame;

the top symmetry of operation panel is provided with two panel conveyer belts, the panel conveyer belt is the S-shaped structure, panel conveyer belt and carriage adaptation, set up on the operation panel with carriage complex spacing groove.

As a further scheme of the invention: two frame conveyor belts are arranged on the outer sides of the two battery panel conveyor belts, a frame placing plate is arranged between every two frame conveyor belts, and a plurality of guide holes are uniformly formed in the frame placing plate;

the equal fixed mounting in both sides of operation panel has cylinder one, the piston rod tip of cylinder one runs through the operation panel side and is connected with the mounting panel, the bilateral symmetry of mounting panel is provided with two limit push rods, the center department fixed mounting of mounting panel has central push rod, limit push rod all with the guiding hole adaptation.

As a further scheme of the invention: still include frame and angle frame, set up the recess on the frame, the elastic component is installed in the inside embedding of recess, the top fixed mounting of elastic component has the toper piece, set up the through-hole with toper piece adaptation on the angle frame.

The invention has the beneficial effects that:

according to the solar cell panel lifting device, the solar cell panels are conveyed through the two solar cell panel conveying belts, when the solar cell panels reach the top of the supporting frame, the second driving air cylinder is driven to jack the supporting frame, so that the solar cell panels are jacked, the first sucking disc sucks the solar cell panels, then the frames are conveyed through the frame conveying belts and reach the frame placing plates, and the reset wedge blocks limit the solar cell panels and avoid the solar cell panels from shifting; at the moment, the first air cylinder is driven to push the limiting push rod and the central push rod to move, the limiting push rod and the central push rod penetrate through the guide hole, the limiting push rod is firstly contacted with the reset wedge block to compress the reset wedge block, then the central push rod pushes the frame to move, the limiting push rods on the two sides are used for limiting the frame, the moving stability and the positioning accuracy of the frame are ensured, and the frame is clamped with the battery panel; after the two sides of the battery panel are installed, the rotating motor is driven to drive the supporting frame to rotate, and the other two sides are installed;

after the frames are installed, the top plate is jacked up through the telescopic cylinder, then the corner frames are placed on the corner frame limiting seats through a mechanical arm or a manual work, the corner frame limiting seats are synchronously pushed to move through the synchronous driving mechanism, the frames are fixed through the corner frames, and every two frames are inserted into the jacks in one corner frame; the spring is compressed in the moving process of the corner frame limiting seat, and after the push block is reset, the corner frame limiting seat is driven to reset under the action of the spring; through synchronous movement, the movement positions of the corner frames can be ensured to be the same, the fixing effect is better, and the corner frames of battery plates with different sizes can be fixed;

in-process that removes at the corner frame can be through toper piece compression elastic component, and the elastic component is the spring, then under the reaction force of elastic component, promotes the toper piece and enters into the through-hole middle part, and then with corner frame and frame further fixed to it is fixed not need follow-up rethread screw, and is more convenient.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the console of the present invention;

fig. 3 is a schematic view of the overall structure of the panel conveyor of the present invention;

FIG. 4 is a cross-sectional structural schematic view of the operator station of the present invention;

FIG. 5 is a schematic structural view of the putter of the present invention;

FIG. 6 is an enlarged view of the area A in FIG. 2;

FIG. 7 is a top view of the top panel of the present invention;

FIG. 8 is a schematic front view of the top plate of the present invention;

FIG. 9 is a schematic view of the overall construction of the synchronous drive mechanism of the present invention;

FIG. 10 is a schematic view of the overall structure of the bezel of the present invention;

fig. 11 is a schematic view of the overall structure of the corner frame of the present invention.

In the figure: 1. an operation table; 2. a top plate; 11. a first cylinder; 12. a battery panel conveyor belt; 13. a support frame; 14. a first sucker; 15. a frame conveyor belt; 16. a frame placing plate; 17. a guide hole; 18. a corner frame limiting seat; 19. a second air cylinder; 110. a rotating electric machine; 111. a lifting plate; 112. mounting a plate; 113. a limit push rod; 114. a center push rod; 115. a set square; 116. a second sucking disc; 117. a chute; 118. a spring; 119. resetting the wedge block; 21. a driving box body; 22. a push rod; 23. a first movable block; 24. a movable arc-shaped strip; 25. a push block; 211. a third air cylinder; 212. a support bar; 213. a movable tray; 214. a second movable block; 215. pushing a plate; 216. fixing the bolt; 217. a fixing strip; 3. a frame; 31. a groove; 32. an elastic member; 33. a conical block; 4. a corner frame; 41. and a through hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 11, the automatic frame mounting device for photovoltaic cell panel production comprises an operation table 1, wherein two sides of the top of the operation table 1 are connected with top plates 2 through telescopic cylinders, each top plate 2 is of a cross structure and is set to be of a cross structure so as to fix a corner frame 4 from four corners for a corner frame fixing mechanism, the top plates 2 are provided with corner frame fixing mechanisms, each corner frame fixing mechanism comprises a driving box body 21, a synchronous driving mechanism is arranged inside the driving box body 21 and used for synchronously driving push rods 22 to move, the push rods 22 are arranged at the four corners of the driving box body 21, the end parts of the push rods 22 are movably connected with movable arc-shaped strips 24, the movable arc-shaped strips 24 are located at diagonal lines of the top plates 2, the end parts of the movable arc-shaped strips 24 are movably connected with push blocks 25, the movable arc-shaped strips 24 are connected with the driving box body 21 through movable blocks one 23, and the movable blocks one 23 are used for ensuring the rotary motion of the movable arc-shaped strips 24;

spout 117 has all been seted up to the top four corners department of operation panel 1, the inner wall one end fixed mounting of spout 117 has spring 118, the tip fixed mounting of spring 118 has set-square 115, set-square 115 and spout 117 sliding connection, the top fixed mounting of set-square 115 has the spacing seat of corner frame 18, the spacing seat of corner frame 18 and the adaptation of corner frame 4. The frame 3 is provided with a groove 31, an elastic piece 32 is embedded in the groove 31, the top of the elastic piece 32 is fixedly provided with a conical block 33, and the angle frame 4 is provided with a through hole 41 matched with the conical block 33; both ends of the frame 3 are provided with inclined parts, the frames 3 can be spliced with each other, and can be inserted into the jacks in the corner frames 4, so that the fixing is convenient. And a second suction cup 116 is arranged at the top of the triangular plate 115.

The top plate 2 is jacked up through a telescopic cylinder, then the corner frame 4 is placed on the corner frame limiting seat 18 through a mechanical arm or a manual work, the corner frame 4 is sucked through the second sucker 116, the synchronous driving mechanism is driven to drive the four pushing rods 22 to synchronously move, further the movable arc-shaped strip 24 is driven to move, the pushing block 25 is driven to push the corner frame limiting seat 18 to move, further the side frames 3 are fixed through the corner frame 4, every two side frames 3 are inserted into the jack in one corner frame 4, through synchronous movement, the moving positions of the corner frames 4 can be guaranteed to be the same, the fixing effect is better, and the corner frames 4 can be fixed on battery plates of different sizes;

in the moving process of the corner frame 4, the elastic piece 32 is compressed by the tapered block 33, the elastic piece 32 is a spring, and then under the reaction force of the elastic piece 32, the tapered block 33 is pushed to enter the middle part of the through hole 41, so that the corner frame 4 and the frame 3 are further fixed without subsequent screw fixation.

Synchronous drive mechanism includes three 211 of cylinders, three 211 fixed mounting of cylinders are in the top center department of drive box 21, the piston rod of drive box 21 runs through drive box 21 and is connected with movable disc 213, the top inner wall center department fixed mounting of drive box 21 has bracing piece 212, movable disc 213 has been cup jointed on the bracing piece 212, four fixed strips 217 are installed to the tip equidistance of bracing piece 212, swing joint has two 214 of movable block on the outer peripheral face of movable disc 213, the one end swing joint of two 214 of movable block has the push pedal 215 that the level set up, the bottom of push pedal 215 and the top sliding connection of fixed strip 217, the tip swing joint of push pedal 215 has ejector pad 25. The bottom of the fixing strip 217 is connected with the driving box body 21 through a fixing bolt 216.

The third cylinder 211 is driven, the piston rod pushes the movable disc 213 to move, and further the second movable block 214 synchronously pushes the plurality of push plates 215 to move horizontally, and the push plates 215 push the push rods 22 to move horizontally, so that synchronous pushing is facilitated. Through the distance that promotes activity dish 213, and then adjust the distance that catch bar 22 removed, conveniently install the frame of equidimension not.

A second air cylinder 19 is fixedly installed inside the operating platform 1, a lifting plate 111 is fixedly installed at the top of a piston rod of the second air cylinder 19, a rotating motor 110 is fixedly installed at the top of the lifting plate 111, a supporting frame 13 is fixedly installed at the top of the rotating motor 110, and a first sucker 14 is arranged at the center of the top of the supporting frame 13; two battery plate conveying belts 12 are symmetrically arranged at the top of the operating platform 1, the battery plate conveying belts 12 are of S-shaped structures, the battery plate conveying belts 12 are matched with the supporting frame 13, and limiting grooves matched with the supporting frame 13 are formed in the operating platform 1;

two frame conveyor belts 15 are arranged on the outer sides of the two battery panel conveyor belts 12, a frame placing plate 16 is arranged between every two frame conveyor belts 15, the frame placing plate 16 is of an L-shaped structure, a plurality of guide holes 17 are uniformly formed in the frame placing plate 16, a plurality of telescopic springs are fixedly arranged on the frame placing plate 16, and reset wedge blocks 119 are fixedly arranged at the tops of the telescopic springs;

the equal fixed mounting in both sides of operation panel 1 has a cylinder 11, the piston rod tip of a cylinder 11 runs through operation panel 1 side and is connected with mounting panel 112, mounting panel 112's bilateral symmetry is provided with two limit push rod 113, mounting panel 112's center department fixed mounting has central push rod 114, limit push rod 113's length is greater than central push rod 114's length, central push rod 114, limit push rod 113 all with the guiding hole 17 adaptation, limit push rod 113's terminal surface still with reset voussoir 119 cooperation.

The two battery plate conveying belts 12 convey the battery plates, when the battery plates reach the top of the supporting frame 13, the second driving air cylinder 19 is driven to jack the supporting frame 13, the battery plates are further jacked, the battery plates are sucked by the first sucking discs 14, then the frame conveying belts 15 convey the frame 3 to reach the frame placing plate 16, the reset wedge blocks 119 limit the battery plates, the deviation of the battery plates is avoided, and the subsequent positioning is more accurate; at the moment, the first air cylinder 11 is driven to push the limiting push rod 113 and the central push rod 114 to move, the limiting push rod 113 and the central push rod 114 penetrate through the guide hole 17, the limiting push rod 113 is firstly contacted with the reset wedge block 119 to compress the reset wedge block 119, then the central push rod 114 pushes the frame 3 to move, the limiting push rods 113 on the two sides are used for limiting the frame 3, the moving stability and the positioning accuracy of the frame 3 are ensured, and the frame 3 is clamped with the battery panel; after the two sides of the battery panel are installed, the rotating motor 110 is driven to drive the supporting frame 13 to rotate, and the other two sides are installed.

The working principle of the invention is as follows: the two battery plate conveying belts 12 convey the battery plates, when the battery plates reach the top of the supporting frame 13, the second driving air cylinder 19 is driven to jack up the supporting frame 13, the battery plates are further jacked up, the battery plates are sucked by the first sucking discs 14, then the frames 3 are conveyed by the frame conveying belts 15 and reach the frame placing plate 16, and the reset wedge blocks 119 limit the battery plates and avoid the battery plates from deviating; at the moment, the first air cylinder 11 is driven to push the limiting push rod 113 and the central push rod 114 to move, the limiting push rod 113 and the central push rod 114 penetrate through the guide hole 17, the limiting push rod 113 is firstly contacted with the reset wedge block 119 to compress the reset wedge block 119, then the central push rod 114 pushes the frame 3 to move, the limiting push rods 113 on the two sides are used for limiting the frame 3, the moving stability and the positioning accuracy of the frame 3 are ensured, and the frame 3 is clamped with the battery panel; after the two sides of the battery panel are installed, the rotating motor 110 is driven to drive the supporting frame 13 to rotate, and the other two sides are installed;

after the frame 3 is installed, the top plate 2 is jacked up through the telescopic cylinder, then the corner frame 4 is placed on the corner frame limiting seat 18 through a mechanical arm or a manual work, the corner frame 4 is sucked through the suction cup II 116, the cylinder III 211 is driven, the movable disc 213 is pushed through the piston rod to move, then the movable blocks II 214 synchronously push the plurality of push plates 215 to move horizontally, the push plates 215 push the push rods 22 to move horizontally, the four push rods 22 are driven to move synchronously, the movable arc-shaped strips 24 are driven to move, the push blocks 25 are driven to push the corner frame limiting seat 18 to move, then the frame 3 is fixed through the corner frame 4, and every two frame 3 are inserted into the jack in one corner frame 4; in the moving process of the corner frame limiting seat 18, the spring 118 is compressed, and after the push block 25 is reset, the corner frame limiting seat 18 is driven to reset under the action of the spring 118; through synchronous movement, the movement positions of the corner frames 4 can be ensured to be the same, the fixing effect is better, and the corner frames 4 can be fixed on battery boards with different sizes;

in the moving process of the corner frame 4, the elastic piece 32 is compressed by the tapered block 33, the elastic piece 32 is a spring, and then under the reaction force of the elastic piece 32, the tapered block 33 is pushed to enter the middle part of the through hole 41, so that the corner frame 4 and the frame 3 are further fixed without subsequent screw fixation.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (7)

1. The automatic frame mounting device for the production of the photovoltaic cell panel is characterized by comprising an operation table, wherein two sides of the top of the operation table are connected with a top plate through telescopic cylinders, the top plate is of a cross structure, a corner frame fixing mechanism is mounted on the top plate and comprises a driving box body, a synchronous driving mechanism is arranged inside the driving box body and used for synchronously driving pushing rods to move, the pushing rods are arranged at four corners of the driving box body, the end parts of the pushing rods are movably connected with movable arc-shaped strips, the movable arc-shaped strips are located on diagonal lines of the top plate, the end parts of the movable arc-shaped strips are movably connected with pushing blocks, and the movable arc-shaped strips are connected with the driving box body through first movable blocks;

the spout has all been seted up to the top four corners department of operation panel, the inner wall one end fixed mounting of spout has the spring, the tip fixed mounting of spring has the set-square, set-square and spout sliding connection, the top fixed mounting of set-square has the spacing seat of horn frame, the spacing seat of horn frame and horn frame adaptation.

2. The automatic frame mounting device for producing the photovoltaic cell panels as claimed in claim 1, wherein the synchronous driving mechanism comprises a third air cylinder, the third air cylinder is fixedly mounted at the center of the top of the driving box body, a piston rod of the driving box body penetrates through the driving box body to be connected with the movable disc, a supporting rod is fixedly mounted at the center of the inner wall of the top of the driving box body, the movable disc is sleeved on the supporting rod, four fixing strips are mounted at equal intervals on the end portion of the supporting rod, a second movable block is movably connected to the outer peripheral surface of the movable disc, a horizontally arranged push plate is movably connected to one end of the second movable block, the bottom of the push plate is connected with the top of the fixing strips in a sliding mode, and a push block is movably connected to the end of the push plate.

3. The automatic border mounting device for photovoltaic cell panel production according to claim 2, wherein the bottom of the fixing strip is connected to the driving box body through a fixing bolt.

4. The automatic frame mounting device for photovoltaic cell panel production as claimed in claim 1, wherein a second suction cup is arranged on the top of the triangular plate.

5. The automatic frame mounting device for the production of the photovoltaic cell panel as recited in claim 1, wherein a second air cylinder is fixedly mounted inside the operating platform, a lifting plate is fixedly mounted on the top of a piston rod of the second air cylinder, a rotating motor is fixedly mounted on the top of the lifting plate, a supporting frame is fixedly mounted on the top of the rotating motor, and a first suction cup is arranged in the center of the top of the supporting frame;

the top symmetry of operation panel is provided with two panel conveyer belts, the panel conveyer belt is the S-shaped structure, panel conveyer belt and carriage adaptation, set up on the operation panel with carriage complex spacing groove.

6. The automatic frame mounting device for the production of the photovoltaic cell panel according to claim 5, wherein two frame conveyor belts are arranged on the outer sides of the two cell panel conveyor belts, a frame placing plate is arranged between every two frame conveyor belts, and a plurality of guide holes are uniformly formed in the frame placing plate;

the equal fixed mounting in both sides of operation panel has cylinder one, the piston rod tip of cylinder one runs through the operation panel side and is connected with the mounting panel, the bilateral symmetry of mounting panel is provided with two limit push rods, the center department fixed mounting of mounting panel has central push rod, limit push rod all with the guiding hole adaptation.

7. The automatic frame mounting device for producing the photovoltaic cell panel as recited in claim 1, further comprising a frame and a corner frame, wherein the frame is provided with a groove, an elastic member is embedded in the groove, a conical block is fixedly mounted at the top of the elastic member, and the corner frame is provided with a through hole matched with the conical block.

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