CN205045057U - Solar module equipment for packing - Google Patents

Abstract

The utility model discloses a solar module equipment for packing, this equipment for packing include material loading hoisting device, 90 turning device, cover box ground belting, packing carton hoist device, 180 turning device, unloading ground belting, packing carton conveyer. Owing to adopted above -mentioned structure, this equipment for packing has easy operation, is convenient for to maintain cost low grade characteristics, this equipment for packing's use can replace solar module people's frock box, has solved artifically when packing solar module, and work efficiency is low, intensity of labour is big and the paper angle bead easily breaks away from or impaired scheduling problem to greatly reduced workman intensity of labour, and eliminated fragmentation and the latent emergence of splitting that causes because of people's frock box, and then improve solar module dress box work efficiency.

Description

A kind of solar module packaging facilities

Technical field

The utility model relates to a kind of packaging facilities, particularly relates to a kind of solar module packaging facilities.

Background technology

Solar cell is the device directly light energy conversion being become electric energy by photoelectric effect or Photochemical effects.As long as arrived by illumination, moment is exportable voltage and electric current just.Physically be called photovoltaic (Photovoltaic, photo light, voltaics electric power, is abbreviated as PV), be called for short photovoltaic.With the thin-film type solar cell of photoelectric effect work for main flow, be then also in the budding stage with the wet type solar cell of Photochemical effects work.Single solar cell directly can not do power supply and use.Make power supply some cell series and parallels to be connected and be tightly packaged into assembly.Solar module is the core in solar power system, is also most important part in solar power system.Its effect converts solar energy into electrical energy, or be sent in storage battery and store, or promote loaded work piece.The quality of solar module and cost will directly determine quality and the cost of whole system.Usual battery component by aluminum alloy frame, the battery version that clear glass, silicon chip battery and EVA are laminated together, backboard, the compositions such as connection box.It is high that solar module has photoelectric transformation efficiency, and reliability is high; Advanced diffusion technique, ensures the homogeneity of conversion efficiency everywhere in sheet; Guarantee good electric conductivity, failure-free adhesive ability and good electrode weldability; High-precision screen printing figure and high-flatness, make battery be easy to automatic welding and laser beam cutting.Battery component is also called solar module, is part most crucial in solar power system.Its English name: solarpanel.After battery component is shaping from factory-assembled, need carry out packing so that transport, usually every packing box packaging 20 to 30 polylith battery components.After battery component is shaping from manufacturing line, through inspection, clean, the battery component level will carrying out packing is stacked together, and when stacking, is separated between every block assembly and assembly by paper angle protector, in order to avoid phase mutual friction is impaired between assembly.But during battery component packaging, consider the intensity of battery component, transportation safety etc., its placement in packing box is vertically put.At present, the size of most of silicon chip battery assembly is at about 2000*1000*40, and weight is at about 18KG.When the manufacturer of battery component packs, lifted by solar module by operator one piece a piece, careful upset is erect (noticing that paper angle protector can not depart from assembly), more slowly inserts in packing box.Such manner of packing, the labour intensity of operator is large, inefficiency, and paper angle protector easily departs from or impaired.

Utility model content

For above-mentioned prior art, the technical problems to be solved in the utility model is to provide a kind of solar module packaging facilities.It can solve manually when packing solar module, the problems such as efficiency is low, labour intensity is large and paper angle protector easily departs from or impaired, replace the artificial mounted box of solar module, greatly reduce labour intensity and the fragmentation eliminated because artificial mounted box causes and the hidden generation split, thus improve solar module mounted box work efficiency.

For solving the problems of the technologies described above, the utility model provides a kind of solar module packaging facilities, comprises material loading bont, 90 ° of turning devices, cover box ground belting, packing box hanging apparatus, 180 ° of turning devices, blanking ground belting, packing box conveyers, material loading bont comprises four cylinders, bracing frame, roller set, roller set adapter plate, material loading guide pillar, material loading guide pin bushing, piston rod nut, cylinder is all fixedly located on bracing frame, be connected with roller set adapter plate respectively by respective piston rod and piston rod nut, and roller set is equipped with material loading guide pin bushing, material loading guide pin bushing is enclosed within outside material loading guide pillar, and material loading guide pillar is vertically fixedly located on bracing frame, cover box ground belting comprises belt conveyor support, belt conveyor roller and operating pedal, and operating pedal is provided with belt conveyor support, and belt conveyor support is provided with some belt conveyor rollers, blanking ground belting comprises framework and roller, and framework is provided with some rollers, packing box belting comprises belt conveyor framework, roller shaft, motor, belt, and belt conveyor framework is provided with roller shaft and motor, and belt sleeve is on roller shaft, and motor is connected with roller shaft, 90 ° of turning devices comprise base, hydraulic actuating cylinder, rotating shaft, carry out material roller, turning rack, guiding wheels, slide rail pair, cylinder C, cylinder D, supporting plate, discharge roller wheel carrier, guide pillar, guide pin bushing, discharging roller, turning rack is provided with material roller, guiding wheels, discharge roller wheel carrier, slide rail pair, cylinder C, cylinder D, the piston rod of cylinder D is connected with supporting plate, turning rack is arranged on base by rotating shaft, hydraulic actuating cylinder is fixed on base, and the piston rod end of hydraulic actuating cylinder is connected with turning rack, packing box hanging apparatus comprises hoisting bracket, suspension hook, up and down guide piece, cylinder, parallel motion frame, horizontal guide rail, Timing Belt, motor, hoisting bracket is provided with horizontal guide rail, motor, horizontal guide rail sets up parallel motion frame, parallel motion frame is provided with cylinder, be provided with suspension hook in guide piece lower end, suspension hook and cylinders connect, 180 ° of slewing arrangements comprise chain fixed block, rotating circular disk, chain, drive sprocket, drive motor, rotate support roller, guide pillar guide pin bushing A, clamping plate A, cylinder A, roller, cylinder B, clamping plate B, guide pillar guide pin bushing B, rotating circular disk is arranged on and rotates on support roller, chain fixed block is established on a rotary disc, drive motor is crossed chain fixed block by chain and is connected with rotating circular disk, drive motor is provided with drive sprocket, chain is located on drive sprocket, in rotating circular disk, upper and lower both sides are equipped with roller, and be respectively provided with two stack clamping devices on upper and lower both sides, every stack clamping device comprises two clamping plate A, 4 guide pillar guide pin bushing A, two cylinder A, clamping plate A is equipped with guide pillar guide pin bushing A, guide pillar guide pin bushing A is all located on rotating circular disk inwall by fixed mount, cylinder A is located on rotating circular disk inwall, and be connected with clamping plate A, in rotating circular disk, the right and left is respectively provided with two stack clamping devices, every stack clamping device comprises two clamping plate B, 4 guide pillar guide pin bushing B, two cylinder B, clamping plate B is equipped with guide pillar guide pin bushing B, guide pillar guide pin bushing B is all located on rotating circular disk inwall by fixed mount, cylinder B is located on rotating circular disk inwall, and is connected with clamping plate B.

The utility model additionally provides a kind of packing method of solar module packaging facilities, comprises the steps:

First, solar module level stacked is placed to 90 ° of turning devices by material loading bont, solar module is carried out 90 ° of upsets, then, packing box is mentioned by packing box hanging apparatus by packing box, move to the top of cover box ground belting solar module to be packaged, again packing box is inserted in the solar module of setting, the solar module overlapping packing box is rotated 180 ° by 180 ° of slewing arrangements, make pallet in the below of packing box, packing box is opening up, so that the light top cover of operator, finally, complete solar module packaging.

Compared with prior art, the beneficial effect that the utility model obtains is: owing to have employed said structure, this packaging facilities have simple to operate, be convenient to safeguard, the features such as cost is low; This packaging facilities can replace the artificial mounted box of solar module, solve manually when packing solar module, large and the paper angle protector of inefficiency, labour intensity easily departs from or the problem such as impaired, thus greatly reduce labor strength, and the fragmentation eliminated because artificial mounted box causes and the hidden generation split, and then improve solar module mounted box work efficiency.

Accompanying drawing explanation

Fig. 1 is the utility model packaging facilities layout structure schematic diagram;

Fig. 2 is material loading bont structural representation of the present utility model;

Fig. 3 is 90 ° of turning device structural representations of the present utility model;

Fig. 4 is cover box ground of the present utility model belting structural representation;

Fig. 5 is packing box hanging apparatus structural representation of the present utility model;

Fig. 6 is 180 ° of turning device structural representations of the present utility model;

Fig. 7 is blanking ground of the present utility model belting structural representation.

Fig. 8 is packing box conveyer structural representation of the present utility model;

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail.

Fig. 1-Fig. 8 shows a kind of solar module packaging facilities of the utility model, comprises material loading bont 1,90 ° of turning devices 2, cover box ground belting 3, packing box hanging apparatus 4,180 ° of turning devices 5, blanking ground belting 6, packing box conveyer 7.During the work of this packaging facilities, the solar module stacked due to level will be placed on 90 ° of turning devices 2 and carry out 90 ° of upsets, and 90 ° of turning devices 2 are because of mechanism's reason, the initial water plane of the turning rack of placement solar module is liftoff certain height, can be placed on 90 ° of turning devices 2 for the ease of solar module and Component tray, material loading bont 1 is set before 90 ° of turning devices 2.As shown in Figure 2, material loading bont 1 comprises four cylinders 101, bracing frame 102, roller set 104, roller set adapter plate 105, material loading guide pillar 103, material loading guide pin bushing 106, piston rod nut 107, cylinder 101 is all fixedly located on bracing frame 102, be connected with roller set adapter plate 105 respectively by respective piston rod and piston rod nut 107, and roller set 104 is equipped with material loading guide pin bushing 106, material loading guide pin bushing 106 is enclosed within outside material loading guide pillar 103, and material loading guide pillar 103 is vertically fixedly located on bracing frame 102; Under the effect of cylinder 101, roller set 104, by material loading guide pin bushing 106, can carry out up-and-down movement along material loading guide pillar 103.When roller set 104 is in low level, roller is distance very near (about 60 millimeters) overhead, and operator can be placed in roller set 104 by the solar module 9 that pallet 8 and level stacked of light hand operated transport.After confirmation pallet 8 and solar module 9 place, control cylinder 101 commutates, cylinder 101 drives roller set 104, pallet 8 and solar module 9 upward movement, after pallet 8 and solar module 9 arrive the height of setting, pallet 8 and solar module 9 just can be pushed into subsequent work device (90 ° of turning devices 2) by operator, by 90 ° of turning devices 2, pallet 8 and solar module 9 are carried out 90 ° of upsets.

Described 90 ° of turning devices 2 accept pallet 8 that material loading bont 1 comes and solar module 9, after pallet 8 and solar module 9 are overturn 90 °, solar module 9 and pallet 8 are departed from, then solar module 9 is transported out of 90 ° of turning devices 2.As shown in Figure 3, described 90 ° of turning devices 2 comprise base 201, hydraulic actuating cylinder 203, rotating shaft 202, carry out material roller 204, turning rack 205, guiding wheels 206, slide rail pair 207, cylinder C208, cylinder D209, supporting plate 210, discharge roller wheel carrier 211, guide pillar 212, guide pin bushing 213, discharging roller 214, turning rack 205 is provided with material roller 204, guiding wheels 206, discharge roller wheel carrier 211, slide rail pair 207, cylinder C208, cylinder D209, the piston rod of cylinder D209 is connected with supporting plate 210, turning rack 205 is arranged on base 201 by rotating shaft 202, hydraulic actuating cylinder 203 is fixed on base 201, the piston rod end of hydraulic actuating cylinder 203 is connected with turning rack 205 by loose joint (not shown), base 201 fixes on the ground.During work, a backing plate 10 first inserts in the guide groove below discharge roller wheel carrier 211 by operator.When pallet 8 and solar module 9 to be risen to certain altitude (roller set 104 of material loading bont 1 and 90 ° of turning devices 2 carry out material roller 204 sustained height) by material loading bont 1, just pallet 8 and solar module 9 can be moved on 90 ° of turning devices 2.Under the effect of hydraulic actuating cylinder 203, turning rack 205 can carry out 90 degree of upsets on base 201, after upset, cylinder D209 piston rod regains (decline), drive supporting plate 210 to decline (guiding by guide pillar 212 and guide pin bushing 213), solar module 9 drops on discharging roller 214.The piston rod of cylinder C208 stretches out, promote discharge roller wheel carrier 211 to be moved to the left (by secondary 207 guiding of slide rail), thus drive backing plate 10 and solar module 9 to be moved to the left, solar module 9 departs from pallet 8, to be supported on the solar module 9 on backing plate 10, be moved to subsequent work device.Now pallet 8 is still stayed on 90 ° of turning racks 205, and after 90 ° of turning devices 2 turn round 90 °, pallet 8 can take off by operator, and the level for next group solar module 9 stacks.

At 90 ° of turning device 2 discharging sections, female connector box ground belting 3, has been reversed the solar module 9 of 90 °, is movable to cover box ground belting 3 midway location, carries out cover box packaging.As shown in Figure 4, described cover box ground belting 3 comprises belt conveyor support 301, belt conveyor roller 302 and operating pedal 303, and operating pedal 303 is provided with belt conveyor support 301, and belt conveyor support 301 is provided with some belt conveyor rollers.

Described packing box hanging apparatus 4, for being sling by packing box, packing box to the top of cover box ground belting 3 (solar module 9 to be packaged), then declines by transfer gradually, is inserted in solar module 9.As shown in Figure 5, described packing box hanging apparatus 4 comprises hoisting bracket 401, suspension hook 402, up and down guide piece 403, cylinder 404, parallel motion frame 405, horizontal guide rail 406, Timing Belt 407, motor 408, hoisting bracket 401 is provided with horizontal guide rail 406, motor 408, horizontal guide rail 406 sets up parallel motion frame 405, parallel motion frame 405 is provided with cylinder 404, suspension hook 402 is provided with in upper and lower guide piece 403 lower end, suspension hook 402 is connected with cylinder 404, cylinder 404 can control suspension hook 402 vertically guide piece 403 carry out up-and-down movement.

Solar module 9 through 90 degree of upsets, cover packing box after, because of packing box pallet upward, opening down, must carry out 180 degree of rotations, make the opening up of packing box, pallet is in the below of packing box.Described 180 ° of slewing arrangements 5 comprise chain fixed block 501, rotating circular disk 502, chain 503, drive sprocket 504, drive motor 505, rotate support roller 506, guide pillar guide pin bushing A507, clamping plate A508, cylinder A509, roller 510, cylinder B511, clamping plate B512, guide pillar guide pin bushing B513, rotating circular disk 502 is arranged on and rotates on support roller 506 (front and back establish 4 to rotate support roller altogether), chain fixed block 501 is located on rotating circular disk 502, drive motor 505 is crossed chain fixed block 501 by chain 503 and is connected with rotating circular disk 502, drive motor 505 is provided with drive sprocket 504, chain 503 is located on drive sprocket 504, drive motor 505 drives drive sprocket 504 to rotate, rotated on rotation support roller 506 by chain 503 (chain 503 two ends are fixed on rotating circular disk 502 by chain fixed block 501) driven rotary disk 502.In rotating circular disk 502, upper and lower both sides are equipped with roller 510, the backing plate 10 and assembly bag 12 that send from front (cover packing box ground belting 3) is received for being in below roller 510 on one side, and be respectively provided with two stack clamping devices on upper and lower both sides, every stack clamping device comprises two clamping plate A508,4 guide pillar guide pin bushing A507, two cylinder A509, clamping plate A508 is equipped with guide pillar guide pin bushing A507, guide pillar guide pin bushing A507 is all located on rotating circular disk 502 inwall by fixed mount, cylinder A509 is located on rotating circular disk 502 inwall, and is connected with clamping plate A508; Under the effect of cylinder A509, carry out rising and descending motion in the direction that can guide along guide pillar guide pin bushing A507; In rotating circular disk 502, the right and left is respectively provided with two stack clamping devices, every stack clamping device comprises two clamping plate B512,4 guide pillar guide pin bushing B513, two cylinder B511, clamping plate B512 is equipped with guide pillar guide pin bushing B513, guide pillar guide pin bushing B513 is all located on rotating circular disk 502 inwall by fixed mount, cylinder B511 is located on rotating circular disk 502 inwall, and is connected with clamping plate B512.Under the effect of cylinder B511, level advance and setback can be carried out along guide pillar guide pin bushing B513 channeling direction.Assembly bag 12 (having overlapped the solar module of packing box) on backing plate 10 is moved into 180 ° of turning devices 5, upper lower plate A508 and left and right clamping plate B512 stretches out under the effect of cylinder, by backing plate 10 and solar module bag 12 jack-up, location, four directions up and down, suitable clamping, then drive motor 505 chain drive-belt 503, the mechanism of driven rotary disk 502 and inside thereof, backing plate 10 and solar module bag 12 carry out (conter clockwise) and rotate, after rotating 180 °, left and right clamping plate B512 unclamps, then go up lower plate A508 to unclamp, solar module bag 12 and backing plate 10 fall below roller 510 on (now packing box 11 pallet under, opening up, backing plate 10 is above packing box and solar module).Assembly bag 12 and backing plate 10 are shifted out 180 ° of slewing arrangements 5, and proceed the upset (rotating clockwise) of next bag solar module 9 and backing plate 10, rotating circular disk 502 goes back to initial position.Export with 180 ° of slewing arrangements 5 and dock, receive the solar module bag 12 through 180 ° of upsets and backing plate 10, then can by fork truck (pitching the pallet below packing box), transported out of the utility model solar module packaging facilities, carry out packing box 11 and to add a cover and pack the work such as shipment.

As shown in Figure 7, described blanking ground belting 6 comprises framework 601 and roller 602, and framework 601 is provided with some rollers.

For the ease of the transmission of packing box 11, location and lifting, in the position that packing box 11 lifts by crane, packing box 11 belt conveyor is set.As shown in Figure 8, packing box belting 7 comprises belt conveyor framework 701, roller shaft 702, motor 703, belt 704, belt conveyor framework 701 is provided with roller shaft 702 and motor 703, belt 704 is enclosed within roller shaft 702, motor 703 is connected with roller shaft 702, under the driving of motor 703, roller shaft 702 drives belt 704 to move, and is moved by the packing box be placed on belt 704.Packing box belt conveyor can transmission distance according to actual needs, forms by several sections.

The packing method of a kind of solar module packaging facilities of the utility model, comprises the steps:

First, the solar module 9 level stacked is placed to 90 ° of turning devices 2 by material loading bont 1, solar module 9 is carried out 90 ° of upsets, then, packing box 11 is mentioned by packing box hanging apparatus 4 by packing box 11, move to the top of cover box ground belting 3 solar module to be packaged, again packing box 11 is inserted in the solar module 9 of setting, the solar module 9 having overlapped packing box 11 is rotated 180 ° by 180 ° of slewing arrangements 5, make pallet in the below of packing box, packing box is opening up, so that the light top cover of operator, finally, complete solar module packaging.

By reference to the accompanying drawings detailed description of the invention of the present utility model is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken that those of ordinary skill in the art possess, many variations can also be made to it.

Claims (5)

1. a solar module packaging facilities, comprises material loading bont (1), cover box ground belting (3), blanking ground belting (6), packing box conveyer (7), material loading bont (1) comprises four cylinders (101), bracing frame (102), roller set (104), roller set adapter plate (105), material loading guide pillar (103), material loading guide pin bushing (106), piston rod nut (107), cylinder (101) is all fixedly located on bracing frame (102), be connected with roller set adapter plate (105) respectively by respective piston rod and piston rod nut (107), and roller set (104) is equipped with material loading guide pin bushing (106), material loading guide pin bushing (106) is enclosed within material loading guide pillar (103) outward, material loading guide pillar (103) is vertically fixedly located on bracing frame (102), cover box ground belting (3) comprises belt conveyor support (301), belt conveyor roller (302) and operating pedal (303), operating pedal (303) is provided with belt conveyor support (301), and belt conveyor support (301) is provided with some belt conveyor rollers, blanking ground belting (6) comprises framework (601) and roller (602), and framework (601) is provided with some rollers, packing box belting (7) comprises belt conveyor framework (701), roller shaft (702), motor (703), belt (704), belt conveyor framework (701) is provided with roller shaft (702) and motor (703), belt (704) is enclosed within roller shaft (702), motor (703) is connected with roller shaft (702), it is characterized in that: described packaging facilities also comprises 90 ° of turning devices (2), packing box hanging apparatus (4) and 180 ° of turning devices (5).

2. solar module packaging facilities as claimed in claim 1, is characterized in that: described 90 ° of turning devices (2) comprise base (201), hydraulic actuating cylinder (203), rotating shaft (202), carry out material roller (204), turning rack (205), guiding wheels (206), slide rail pair (207), cylinder C (208), cylinder D (209), supporting plate (210), discharge roller wheel carrier (211), guide pillar (212), guide pin bushing (213), discharging roller (214), turning rack (205) is provided with material roller (204), guiding wheels (206), discharge roller wheel carrier (211), slide rail pair (207), cylinder C (208), cylinder D (209), the piston rod of cylinder D (209) is connected with supporting plate (210), turning rack (205) is arranged on base (201) by rotating shaft (202), hydraulic actuating cylinder (203) is fixed on base (201), and the piston rod end of hydraulic actuating cylinder (203) is connected with turning rack (205).

3. solar module packaging facilities as claimed in claim 1 or 2, it is characterized in that: described 180 ° of slewing arrangements (5) comprise chain fixed block (501), rotating circular disk (502), chain (503), drive sprocket (504), drive motor (505), rotate support roller (506), guide pillar guide pin bushing A (507), clamping plate A (508), cylinder A (509), roller (510), cylinder B (511), clamping plate B (512), guide pillar guide pin bushing B (513), rotating circular disk (502) is arranged on and rotates on support roller (506), chain fixed block (501) is located on rotating circular disk (502), drive motor (505) is crossed chain fixed block (501) by chain (503) and is connected with rotating circular disk (502), drive motor (505) is provided with drive sprocket (504), chain (503) is located on drive sprocket (504), in rotating circular disk (502), upper and lower both sides are equipped with roller (510), and be respectively provided with two stack clamping devices on upper and lower both sides, every stack clamping device comprises two clamping plate A (508), 4 guide pillar guide pin bushing A (507), two cylinder A (509), clamping plate A (508) is equipped with guide pillar guide pin bushing A (507), guide pillar guide pin bushing A (507) is all located on rotating circular disk (502) inwall by fixed mount, cylinder A (509) is located on rotating circular disk (502) inwall, and be connected with clamping plate A (508), in rotating circular disk (502), the right and left is respectively provided with two stack clamping devices, every stack clamping device comprises two clamping plate B (512), 4 guide pillar guide pin bushing B (513), two cylinder B (511), clamping plate B (512) is equipped with guide pillar guide pin bushing B (513), guide pillar guide pin bushing B (513) is all located on rotating circular disk (502) inwall by fixed mount, cylinder B (511) is located on rotating circular disk (502) inwall, and is connected with clamping plate B (512).

4. solar module packaging facilities as claimed in claim 1 or 2, it is characterized in that: described packing box hanging apparatus (4) comprises hoisting bracket (401), suspension hook (402), upper and lower guide piece (403), cylinder (404), parallel motion frame (405), horizontal guide rail (406), Timing Belt (407), motor (408), hoisting bracket (401) is provided with horizontal guide rail (406), motor (408), horizontal guide rail (406) upper erection parallel motion frame (405), parallel motion frame (405) is provided with cylinder (404), suspension hook (402) is provided with in upper and lower guide piece (403) lower end, suspension hook (402) is connected with cylinder (404).

5. solar module packaging facilities as claimed in claim 3, it is characterized in that: described packing box hanging apparatus (4) comprises hoisting bracket (401), suspension hook (402), upper and lower guide piece (403), cylinder (404), parallel motion frame (405), horizontal guide rail (406), Timing Belt (407), motor (408), hoisting bracket (401) is provided with horizontal guide rail (406), motor (408), horizontal guide rail (406) upper erection parallel motion frame (405), parallel motion frame (405) is provided with cylinder (404), suspension hook (402) is provided with in upper and lower guide piece (403) lower end, suspension hook (402) is connected with cylinder (404).