CN202709590U - Cooling device for photovoltaic assembly automation line - Google Patents

Abstract

The utility model discloses a cooling device for a photovoltaic assembly automation line. The cooling device comprises a box body, wherein the box body is provided with a feeding fence, a discharge fence, a mechanical arm, an air cooling device, an assembly sensor and a controller, wherein the feeding fence comprises two support frames which are respectively arranged at two sides of a feeding conveying belt, each support frame comprises two vertical support frames, an upper horizontal support frame respectively connected with upper ends of the two vertical support frames and a lower horizontal support frame respectively connected with lower ends of the two vertical support frame, the vertical support frames, the upper horizontal support frame and the lower horizontal support frame are respectively provided with adaptive sliding chutes which are internally provided with a plurality of supporting rods for supporting a photovoltaic assembly in a sliding manner, and the supporting rods act intermittently under the drive of an endless chain; and the assembly sensor is connected with the controller which is used for controlling the air cooling device to start or stop. The cooling device can be used for cooling the photovoltaic assembly on the automation line so as to make the temperature between a back plate of the photovoltaic assembly and a battery plate balanced, so that the accuracy of test data of electrical performances is guaranteed.

Description

A kind of photovoltaic module transfer matic cooling device

Technical field

The utility model relates to a kind of cooling device, refers to especially the cooling device on a kind of photovoltaic module transfer matic.

Background technology

The photovoltaic module electric performance test is one important procedure in the module production process.The test result of component power is sold according to particularly important as assembly.

The suitability for industrialized production photovoltaic module can be divided into two kinds of manual line, transfer matics by its mode of production at present, and because of in process of production people's contact assembly production material chance minimizing of transfer matic, greatly reducing in process of production, the artificial origin causes contamination of products; The transfer matic operation can also avoid the manual operation reason to cause the poor performance opposite sex of product, transfer matic operation good repetitiveness, improved the reliability of product, assembly transfer matic operation product is favored by the big customer relatively, and transfer matic is produced assembly and welcome by each large assembly manufacturer.The assembly transfer matic is with the difference of manual line maximum, manually line cell piece list weldering, series welding are separately finished, assembly frames up and finishes by testing electrical property behind the cooling curing, because backboard temperature and cell piece temperature through assembly behind the cooling curing reach thermal balance, when carrying out electric performance test, carry out the temperature-compensating test result according to the temperature value of assembly backboard more accurate; For transfer matic, its single weldering series welding is finished together, after framing up and finish, assembly just carries out electric performance test without cooling curing, this moment, backboard temperature and the cell piece temperature of assembly did not reach thermal balance, height according to assembly backboard temperature value during test carries out temperature-compensating, tend to cause the empty low result of component power test, assembly fully retests after cold the going, test result is gear of component power rising, for the assembly of selling with gear, it is apparent hanging down the loss that company is caused for the void of test result.

The utility model content

Technical problem to be solved in the utility model is: a kind of photovoltaic module transfer matic cooling device is provided, this cooling device can cool to photovoltaic module on transfer matic, make backboard and the cell piece temperature of photovoltaic module reach thermal balance, thereby guarantee that the electric performance test data are accurate.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of photovoltaic module transfer matic cooling device, described cooling device is arranged at laminating machine and assembly frames up between the equipment, comprise casing, described casing is provided with the entrance of being convenient to feeding web input photovoltaic module and the outlet of being convenient to discharging conveyer belt output photovoltaic module; The charging hurdle, this charging hurdle comprises two carriages, described two carriages are arranged at respectively the feeding web both sides, described each carriage comprises two vertical bracing frames, connects the upper horizontal shore of two vertical bracing frames upper end and the lower horizontal shore that connects respectively two vertical bracing frame lower ends respectively, be equipped with adaptive chute on described vertical bracing frame, upper horizontal shore and the lower horizontal shore, be slidingly fitted with somely to be used for supporting the support bar of photovoltaic module in the described chute, described support bar drives intermitten by endless-chain; The discharging hurdle identical with charging hurdle structure, described discharging hurdle is arranged at the downstream position on charging hurdle, and the carriage on described discharging hurdle is separately positioned on discharging conveyer belt both sides; Be used for the photovoltaic module of upper end, charging hurdle is carried to the mechanical arm of upper end, discharging hurdle; Be arranged at the air cooling equipment that in the casing photovoltaic module on charging hurdle and the discharging hurdle is cooled off, be used for detecting respectively the assembly inductor whether photovoltaic module is arranged on charging hurdle and the discharging hurdle, this assembly inductor is connected with the controller of control air cooling equipment start and stop.

As a kind of preferred scheme, described mechanical arm comprises liftable vertical shaft, be articulated in the vertical shaft upper end articulated jib, be installed on the vacuum absorption device of articulated jib end.

As a kind of preferred scheme, described air cooling equipment comprises air exhauster and radiator fan, described air exhauster is arranged at the casing top, the number of described radiator fan is six, three radiator fans are respectively facing to the upper, middle and lower section blowing on charging hurdle, and three radiator fans are dried facing to the upper, middle and lower section on discharging hurdle respectively in addition.

As a kind of preferred scheme, also be provided with the linkage section that connects or disconnect feeding web and discharging conveyer belt between described feeding web and the discharging conveyer belt.

As a kind of preferred scheme, be provided with thermometer in the described casing.

After having adopted technique scheme, effect of the present utility model is: photovoltaic module is through behind the laminating machine laminating, from the feeding web intermittent delivery to casing, after the assembly inductor detects photovoltaic module, the endless-chain action on charging hurdle, because the width of photovoltaic module is greater than the width of conveyer belt, therefore, one group of support bar can from bottom to top support cell of photovoltaic module rising, until photovoltaic module rises to the upper end that is carried to the discharging hurdle behind the upper end on charging hurdle by mechanical arm, the discharging hurdle from top to bottom moves, and photovoltaic module is delivered on the discharging conveyer belt sends, like this, photovoltaic module persists conveying during this period of time in cooling device, air cooling equipment cools off it, thereby makes the backboard of photovoltaic module and cell piece reach thermal balance, thereby guarantees that the electric performance test data are accurate.

Again owing to also being provided with the linkage section that connects or disconnect feeding web and discharging conveyer belt between described feeding web and the discharging conveyer belt, therefore, the photovoltaic module operation that can directly down circulate behind the conveyer belt that in the time need not cooling off, closes.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is that Fig. 1 is at the structure for amplifying schematic diagram at I place;

Fig. 3 is that Fig. 1 is at the structure for amplifying schematic diagram at II place;

Fig. 4 is the partial structurtes schematic diagram of the charging hurdle of the utility model embodiment when supporting photovoltaic module;

In the accompanying drawing: 1. conveyer belt; 101. feeding web; 102. linkage section; 103. discharging conveyer belt; 2. casing; 3. air exhauster; 4. radiator fan; 5. photovoltaic module; 6. charging hurdle; 601. vertical bracing frame; 602. support bar; 603. chute; 604. slide block; 605. lower horizontal shore; 7. discharging hurdle; 8. controller; 9. assembly inductor; 10. thermometer; 11. mechanical arm.

The specific embodiment

Below by specific embodiment the utility model is described in further detail.

As shown in Figures 1 to 4, a kind of photovoltaic module transfer matic cooling device, described cooling device is arranged at laminating machine and assembly frames up between the equipment, comprise casing 2, described casing 2 is provided with the entrance of being convenient to feeding web 101 input photovoltaic modulies 5 and the outlet of being convenient to discharging conveyer belt 103 output photovoltaic modulies 5, be provided with in the casing 2 for the linkage section 102 that connects feeding web 101 and discharging conveyer belt 103, this linkage section 102 can disconnect or connect, described feeding web 101, linkage section 102 is connected with the discharging conveyer belt and is consisted of the frame up conveyer belt 1 of equipment of articulamentum press and assembly after connecting; Charging hurdle 6, this charging hurdle 6 comprises two carriages, described two carriages are arranged at respectively feeding web 101 both sides, described each carriage comprises two vertical bracing frames 601, connect respectively the upper horizontal shore of two vertical bracing frames, 601 upper ends and the lower horizontal shore 605 that connects respectively two vertical bracing frames, 601 lower ends, described vertical bracing frame 601, be equipped with adaptive chute 603 on upper horizontal shore and the lower horizontal shore 605, this chute 603 cooperates the formation closed together, be slidingly fitted with some to being used for supporting the support bar 602 of photovoltaic module 5 in the described chute 603, this support bar 602 is to be fixed on the slide block 604, slide block 604 is slidingly mounted in the chute 603, and described support bar 602 drives intermitten by endless-chain; Such as Fig. 3 and Fig. 4 as can be known, support bar 602 is when bracing frame slides, and support bar 602 is in level all the time; The discharging hurdle 7 identical with charging hurdle 6 structures, described discharging hurdle 7 is arranged at the downstream position on charging hurdle 6, the carriage on described discharging hurdle 7 is separately positioned on discharging conveyer belt 103 both sides, this discharging hurdle 7 is that with the difference on charging hurdle 6 charging hurdle 6 is from bottom to top photovoltaic module 5 to be supported to move upward, and discharging hurdle 7 is from top to bottom photovoltaic module 5 to be placed on the discharging conveyer belt 103; Be used for the photovoltaic module 5 of 6 upper ends, charging hurdle is carried to the mechanical arm 11 of 7 upper ends, discharging hurdle, described mechanical arm 11 comprises liftable vertical shaft, be articulated in the vertical shaft upper end articulated jib, be installed on the vacuum absorption device of articulated jib end, utilize the vacuum absorption device can be with tabular photovoltaic module 5 absorption, and finish transfer between charging hurdle 6 and the discharging hurdle 7 by the swing of articulated jib;

Be arranged at casing 2 interior air cooling equipments to photovoltaic module 5 coolings on charging hurdle 6 and the discharging hurdle 7, described air cooling equipment comprises air exhauster 3 and radiator fan 4, described air exhauster 3 is arranged at casing 2 tops, the number of described radiator fan 4 is six, three radiator fans 4 are respectively facing to the upper, middle and lower section blowing on charging hurdle 6, and three radiator fans 4 are dried facing to the upper, middle and lower section on discharging hurdle 7 respectively in addition.Be used for detecting respectively the assembly inductor 9 whether photovoltaic module 5 is arranged on charging hurdle 6 and the discharging hurdle 7, this assembly inductor 9 is connected with the controller 8 of control air cooling equipment start and stop.Described assembly inductor 9 is photoelectric sensor, also is provided with thermometer 10 in the described casing 2, temperature that can be in casing 2 External Observation casings 2.Certainly, also a temperature sensor can be set in casing 2, this temperature sensor is connected with controller 8, the temperature conditions of utilizing temperature sensor to detect, and controller 8 can be controlled the start and stop of each radiator fan 4 and open gear.

Operation principle of the present utility model is: at first, according to the cooling needs, linkage section 102 is disconnected or connection, during disconnection, cooling device works, photovoltaic module 5 is sent in the casing 2 from 101 intermittences of feeding web, after assembly inductor 9 detects 6 places, charging hurdle photovoltaic module 5 is arranged, endless-chain begins action, drive support bar 602 cell that from bottom to top moves, 5 supported of photovoltaic module leaves feeding web 101, and this moment, controller 8 receives the charging hurdle 6 that assembly inductor 9 transmits has photovoltaic module 5 to need the signal of cooling, controller 8 control radiator fans 4 and air exhauster 3 are opened, such piece photovoltaic module 5 support bar that is fed hurdle 6 602 intermittently supports and moves upward, when moving to the top, mechanical arm 11 is drawn the upper end that a photovoltaic module 5 is put into discharging hurdle 7, the endless-chain action on discharging hurdle 7 from top to bottom drives photovoltaic module 5 intermittens, be sent until photovoltaic module 5 is placed on the discharging conveyer belt 103, photovoltaic module 5 frames up after casing 2 interior coolings again, when carrying out electric performance test afterwards, the backboard of photovoltaic module 5 is consistent with the cell piece temperature, and therefore, accuracy of measurement is high.

Claims (5)

1. photovoltaic module transfer matic cooling device, it is characterized in that: described cooling device is arranged at laminating machine and assembly frames up between the equipment, comprise casing, described casing is provided with the entrance of being convenient to feeding web input photovoltaic module and the outlet of being convenient to discharging conveyer belt output photovoltaic module; The charging hurdle, this charging hurdle comprises two carriages, described two carriages are arranged at respectively the feeding web both sides, described each carriage comprises two vertical bracing frames, connects the upper horizontal shore of two vertical bracing frames upper end and the lower horizontal shore that connects respectively two vertical bracing frame lower ends respectively, be equipped with adaptive chute on described vertical bracing frame, upper horizontal shore and the lower horizontal shore, be slidingly fitted with somely to be used for supporting the support bar of photovoltaic module in the described chute, described support bar drives intermitten by endless-chain; The discharging hurdle identical with charging hurdle structure, described discharging hurdle is arranged at the downstream position on charging hurdle, and the carriage on described discharging hurdle is separately positioned on discharging conveyer belt both sides; Be used for the photovoltaic module of upper end, charging hurdle is carried to the mechanical arm of upper end, discharging hurdle; Be arranged at the air cooling equipment that in the casing photovoltaic module on charging hurdle and the discharging hurdle is cooled off, be used for detecting respectively the assembly inductor whether photovoltaic module is arranged on charging hurdle and the discharging hurdle, this assembly inductor is connected with the controller of control air cooling equipment start and stop.

2. a kind of photovoltaic module transfer matic cooling device as claimed in claim 1 is characterized in that: described mechanical arm comprises liftable vertical shaft, be articulated in the articulated jib of vertical shaft upper end, be installed on the vacuum absorption device of articulated jib end.

3. a kind of photovoltaic module transfer matic cooling device as claimed in claim 1 or 2, it is characterized in that: described air cooling equipment comprises air exhauster and radiator fan, described air exhauster is arranged at the casing top, the number of described radiator fan is six, three radiator fans are respectively facing to the upper, middle and lower section blowing on charging hurdle, and three radiator fans are dried facing to the upper, middle and lower section on discharging hurdle respectively in addition.

4. a kind of photovoltaic module transfer matic cooling device as claimed in claim 3 is characterized in that: also be provided with the linkage section that connects or disconnect feeding web and discharging conveyer belt between described feeding web and the discharging conveyer belt.

5. a kind of photovoltaic module transfer matic cooling device as claimed in claim 4 is characterized in that: be provided with thermometer in the described casing.

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