CN207936716U - Automatic drier for solar cell module production - Google Patents

Abstract

The utility model discloses the automatic driers produced for solar cell module, including casing, the transmission net band I for transmitting solar cell module is equipped in casing, the both sides of casing are respectively equipped with transmission net with I the transmission net band II coordinated and transmission net band III, the top of casing is equipped with case, the center of top of case is equipped with blast pipe, it is equipped with an at least discharge heat pipe between case and transmission net band I, the bottom interval of casing is equipped with multiple discharge pipes, it is connected by siphunculus between the bottom of discharge pipe, the side of siphunculus is equipped with air blower, the bottom of siphunculus is equipped with outlet tube.The dryer of the utility model is by being designed to that independent drying room carries out efficient, uniform drying operation to the solar cell module of feeding, it is simple in structure, it is small, be conducive to shorten the stand-by period after producing line length and battery component pickling, and be rapidly achieved drying requirement.

Description

Automatic drier for solar cell module production

Technical field

The utility model is related to a kind of dryers, more particularly, to a kind of automatic baking for solar cell module production Dry machine.

Background technology

Solar cell module be it is a kind of being converted into the optoelectronic semiconductor thin slice that electric energy generates electricity using solar energy, It needs to carry out drying and processing to battery component in process of production, functional injury is caused to it to avoid moisture.But due to electricity The particularity of pond assembly material, must reach when drying that water content is low and uniform requirement.The dryer used at present with The mode operating dried in charging, in order to reach drying requirement, the long enough that the length of producing line need to design, which results in lifes Produce the waste of the increase and the energy of cost.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of automatic bakings for solar cell module production Dry machine to shorten producing line length, and reaches drying requirement.

In order to solve the above technical problems, the technical solution adopted in the utility model is：

For the automatic drier of solar cell module production, including casing, it is equipped in casing for transmitting solar energy The transmission net band I of battery component, the both sides of casing are respectively equipped with the transmission net band II and the transmission net band that coordinate with I with transmission net The top of III, casing are equipped with case, and the center of top of case is equipped with blast pipe, at least one is equipped between case and transmission net band I Discharge heat pipe, heat-generating pipe are fixed on the inner wall of casing by pipe support, and the bottom interval of casing is equipped with multiple discharge pipes, discharge pipe It is connected by siphunculus between bottom, the side of siphunculus is equipped with air blower, and the bottom of siphunculus is equipped with outlet tube.

It is equipped between the transmission net band II and casing, between transmission net band III and casing corresponding with casing inlet and outlet Baffle, baffle is flexibly connected by shaft with casing, and shaft is driven by micromotor.

It is equipped with support plate I close to the lower section of baffle of the transmission net with III, the lower section of another baffle is equipped with support plate II, branch Plate I and support plate II are both secured on casing, and are equipped with elastomer block at the top of two support plates.

The support plate II is V-type support plate.

Air velocity transducer is equipped in the blast pipe.

The transmission net reduces successively with the height of II, transmission net with the upper surface of I and transmission net with III.

The utility model has the advantages that：The dryer of the utility model is by being designed to independent drying room to feeding too Positive energy battery component carries out efficient, uniform drying operation, simple in structure, small, is conducive to shorten producing line length and battery Stand-by period after component pickling, and it is rapidly achieved drying requirement, to improve the production efficiency of battery component.

Description of the drawings

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the enlarged structure schematic diagram of a-quadrant in the utility model.

Wherein, 1, casing, 2, transmission net band I, 21, transmission net band II, 22, transmission net band III, 3, case, 31, air inlet Pipe, 32, air velocity transducer, 4, heat-generating pipe, 41, pipe support, 5, discharge pipe, 6, siphunculus, 61, outlet tube, 7, air blower, 8, baffle, 81, shaft, 82, micromotor, 9, support plate I, 91, support plate II, 10, solar cell module, 11, elastomer block.

Specific implementation mode：

As shown in Figure 1, the automatic drier for solar cell module production, including casing 1, interior be equipped with of casing 1 are used In the transmission net band I2 of transmission solar cell module 10, the both sides of casing 1 are respectively equipped with the transmission coordinated with I2 with transmission net Guipure II21 and transmission net band III22, the top of casing 1 are equipped with case 3, and cross-sectional width successively increases from top to bottom, case 3 Center of top be equipped with blast pipe 31, equipped with an at least discharge heat pipe 4, heat-generating pipe 4 pass through pipe between case 3 and transmission net band I2 Frame 41 is fixed on the inner wall of casing 1, and the bottom interval of casing 1 is equipped with multiple discharge pipes 5, by logical between the bottom of discharge pipe 5 Pipe 6 connects, and the side of siphunculus 6 is equipped with air blower 7, and the bottom of siphunculus 6 is equipped with outlet tube 61, by the discharge drying in time of outlet tube 61 The droplet of 10 surface of solar cell module drippage in the process, to reduce drying time.

In conjunction with shown in Fig. 2, transmission net band II21 and casing 1 between, transmission net band III22 and casing 1 between be equipped with Casing 1 imports and exports corresponding baffle 8, and baffle 8 is flexibly connected by shaft 81 with casing 1, and shaft 81 is driven by micromotor 82 It is dynamic, after one group of solar cell module 10 is sent by transmission net band II21 on transmission net band I2, two are kept off by micromotor 82 Plate 8 closes in the inlet and outlet of casing 1, starts air blower 7 and extraneous wind is introduced blast pipe 31, being equipped with wind speed in blast pipe 31 passes Sensor 32 is convenient for the adjusting of 7 operating rate of air blower, wind is heated to certain temperature through heat-generating pipe 4, right to measure wind speed in real time Battery component inside casing 1 carries out efficient, uniform drying operation, and drying is completed rear baffle 8 and resetted, and battery component is by transmitting Guipure III22 outputs carry out subsequent handling.

When heat-generating pipe 4 is multiple rows of, the pipe interlaced arrangement of adjacent two rows improves and adds to extend residence time of the wind between pipe The thermal efficiency and drying efficiency.

Transmission net reduces successively with the height of II21, transmission net with the upper surface of I2 and transmission net with III22, in baffle 8 With the material conveying for realizing transmission net interband smoothness under the action of solar cell module its own gravity.Close to transmission net band The lower section of the baffle 8 of III22 is equipped with support plate I9, and the lower section of another baffle 8 is solid equipped with support plate II91, support plate I9 and support plate II91 Due on casing 1, and elastomer block 11 is equipped at the top of two support plates, it is ensured that baffle 8 has preferable when battery component input and output material Bearing value, support plate II91 are V-type support plate, and baffle 8 is opened to when being fed with cooperation.

Claims (6)

1. for the automatic drier of solar cell module production, including casing, it is characterised in that：It is equipped with and uses in the casing In the transmission net band I of transmission solar cell module, the both sides of the casing are respectively equipped with the transmission net coordinated with I with transmission net The top of band II and transmission net band III, the casing are equipped with case, and the center of top of the case is equipped with blast pipe, the cover It is equipped with an at least discharge heat pipe between shell and transmission net band I, the heat-generating pipe is fixed on the inner wall of casing, the machine by pipe support The bottom interval of shell is equipped with multiple discharge pipes, is connected by siphunculus between the bottom of the discharge pipe, the side of the siphunculus is set There are air blower, the bottom of the siphunculus to be equipped with outlet tube.

2. the automatic drier according to claim 1 for solar cell module production, it is characterised in that：The biography It send between guipure II and casing, be equipped with baffle corresponding with casing inlet and outlet, the baffle between transmission net band III and casing It is flexibly connected with casing by shaft, the shaft is driven by micromotor.

3. the automatic drier according to claim 2 for solar cell module production, it is characterised in that：Close to institute The lower section for stating baffle of the transmission net with III is equipped with support plate I, and the lower section of another baffle is equipped with support plate II, the support plate I and branch Plate II is both secured on casing, and is equipped with elastomer block at the top of two support plates.

4. the automatic drier according to claim 3 for solar cell module production, it is characterised in that：The branch Plate II is V-type support plate.

5. the automatic drier according to claim 1 for solar cell module production, it is characterised in that：It is described into Air velocity transducer is equipped in air hose.

6. the automatic drier according to claim 1 for solar cell module production, it is characterised in that：The biography The height of guipure II, transmission net with the upper surface of I and transmission net with III is sent to reduce successively.