CN217797453U - Solar wafer selects separately for use prevents piling up conveyor - Google Patents

Abstract

The utility model discloses a solar wafer divides to select for use prevents piling up conveyor, including processing the box, its outside is articulated to be connected with keeps apart the rubber curtain, and the outside bolt fastening of processing the box has the equipment chamber door, the bolt fastening directly over the processing box has electric telescopic handle, and the left and right sides of processing the box is provided with conveyor belt, the inside of processing the box is provided with the processing layer board, and the outside bolt fastening of processing the layer board has the material supporting panel, still includes: and the auxiliary ball is fixed outside the material supporting panel in an embedded mode, and a supporting sleeve column is fixedly welded right below the processing supporting plate. This solar wafer divides to select for use prevents piling up conveyor, is provided with and holds in the palm material panel and b face gear, and the b face gear through different tooth numbers meshes the outside of the a face gear of one side, and then adjusts supporting sleeve post and processing layer board pivoted speed, conveniently shines the processing through the light emitter to each solar wafer surface of organizing.

Description

Solar wafer selects separately for use prevents piling up conveyor

Technical Field

The utility model relates to a battery piece selects technical field, specifically is a solar wafer divides for use prevents piling up conveyor.

Background

The solar cell sorting machine is specially used for sorting and screening solar monocrystalline silicon and polycrystalline silicon cells. Through simulation solar spectrum light source, measure the relevant electrical parameter of battery piece, classify the battery piece according to the measuring result, at the in-process of sorting, mainly adjust and control the illumination through the manual work, conveniently shine the conversion to the solar wafer of different grade type.

Solar wafer is at the in-process of selecting, illumination generally is vertical structure, in the use, the device is difficult to switch the processing to the illuminator angle according to selecting of solar wafer, lead to the in-process of the sorting of solar wafer, because of illumination angle is too single, can't effectively monitor and classify to the solar energy conversion efficiency of solar wafer, conveyor is in transportation process, device itself lacks to separate the derivation structure to the wafer, lead to because of conveyer belt transmission speed difference, can cause the wafer to take place to pile up the condition at the conveyer belt, wafer itself can scrape each other, cause its emergence damage condition.

Aiming at the problems, innovative design is urgently needed on the basis of the original battery piece sorting structure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a solar wafer selects for use prevents piling up conveyor to propose the device and be difficult to switch over the processing according to the selection of solar wafer to the illuminator angle in solving above-mentioned background art, lead to the in-process of the sorting of solar wafer, because of illumination angle is too single, can't effectively monitor and classify to the solar energy conversion efficiency of solar wafer, device itself lacks to separate the derivation structure to the wafer, lead to because of conveyer belt transport speed difference, can cause the wafer to take place to pile up the problem of the condition at the conveyer belt.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a solar wafer divides to select for use prevents piling up conveyor, includes the processing box, and its outside is articulated to be connected with the isolation rubber curtain, and the outside bolt fastening of processing box has the equipment chamber door, the bolt fastening directly over the processing box has electric telescopic handle, and the left and right sides of processing box is provided with conveyor belt, the inside of processing box is provided with the processing layer board, and the outside bolt fastening of processing layer board has the material supporting panel, still includes: the auxiliary ball is fixed on the outer side of the material supporting panel in an embedded mode, the processing supporting plate is connected with the bidirectional cylinder in an embedded mode right above the processing supporting plate, and the supporting sleeve column is fixedly welded right below the processing supporting plate; the outer side of the supporting sleeve column is connected with an a plane gear in a nested mode, the outer side of the a plane gear is connected with a b plane gear in a meshed mode, and the output end of a driving motor is connected to the position right below the b plane gear; the lifting plate is fixedly provided with an electric telescopic rod through a bolt right above the lifting plate, an electric wire right above the lifting plate is connected with a buzzer, and the outer side of the buzzer is electrically connected with a light receiver.

Preferably, the electric telescopic rod and the hoisting plate are mutually perpendicular, the width of the hoisting plate is smaller than that of the processing supporting plate, the processing supporting plate is connected with the bidirectional cylinder through the rolling bearing, the hoisting plate is driven by the electric telescopic rod to carry out vertical lifting treatment, and the solar cell is irradiated through different heights.

Preferably, the processing supporting plate and the supporting sleeve column form a rotating structure through a plane gear a and a plane gear b, material supporting panels are distributed on the outer side of the processing supporting plate at equal intervals, the material supporting panels are parallel to the conveying belt, the supporting sleeve column is nested through the plane gear a, and the position of the processing supporting plate is adjusted according to detection requirements.

Preferably, the outer side of the hoisting plate comprises an auxiliary sliding block and a device panel b; the auxiliary sliding block is fixed with an equipment panel a through bolts under the auxiliary sliding block, the outer side shaft of the equipment panel a is connected with an equipment panel b, and the outer side shaft of the equipment panel a is connected with a rotating disc; and the upper surface of the equipment panel b is provided with a positioning jack in a penetrating manner, a light emitter is fixed on the outer side of the equipment panel b through a bolt, and a traction steel cable is wound and fixed on the outer side of the equipment panel b.

Preferably, the equipment panel b and the light emitter form a rotating structure through a traction steel cable and a turntable, the equipment panel b is connected with the equipment panel a through a shaft, the longitudinal section of the equipment panel a is of a U-shaped structure, the traction steel cable is driven to rotate through the turntable, the traction steel cable drives the equipment panel b to rotate, and the illumination angle is adjusted.

Preferably, the light receiver and the buzzer are symmetrically distributed about the center line of the hoisting plate, the hoisting plate and the auxiliary sliding block are connected through sliding grooves, the auxiliary sliding block is made of aluminum alloy, and received data are collected and displayed through the light receiver.

Compared with the prior art, the beneficial effects of the utility model are that:

the anti-stacking conveying device is used for sorting the solar cells, and is provided with a material supporting panel and a b plane gear, the outer side of the a plane gear on one side is meshed through the b plane gears with different tooth numbers, so that the rotating speed of a supporting sleeve column and a processing supporting plate is adjusted, the surface of each group of solar cells is conveniently irradiated through a light emitter, the irradiation and conversion power of the solar cells is further monitored, the solar cells are lifted and positioned through a plurality of groups of material supporting panels, the selected solar cells are conveniently pushed and separated, and the stacking condition is avoided in the conveying process;

this solar wafer branch is selected for use and is prevented piling up conveyor, be provided with carousel and supplementary slider, drive the haulage cable wire through the carousel and rotate and expand the processing, adjust the angle of b equipment panel according to the user demand, adjust the angle of light transmitter, conveniently carry out different angles through the light transmitter to the solar wafer and shine and detect, draw the derivation through the top of supplementary slider to a equipment panel, adjust the position of a equipment panel and light transmitter according to the user demand, the light transmitter shines and detects the solar wafer of not unidimensional.

Drawings

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

FIG. 2 is a schematic view of a processing box of the present invention;

FIG. 3 is a schematic view of the bottom structure of the processing pallet of the present invention;

FIG. 4 is a schematic view of the internal structure of the processing box of the present invention;

fig. 5 is a schematic view of a three-dimensional structure of an equipment panel according to the present invention.

In the figure: 1. processing the box body; 2. isolating the rubber curtain; 3. an equipment box door; 4. an electric telescopic rod; 5. a conveyor belt; 6. processing a supporting plate; 7. a material supporting panel; 8. auxiliary balls; 9. a bidirectional cylinder; 10. supporting a sleeve column; 11. a face gear; 12. a drive motor; 13. b a face gear; 14. hoisting the plate; 1401. an auxiliary slide block; 1402. a device panel; 1403. b, a device panel; 1404. a light emitter; 1405. a traction wire rope; 1406. a turntable; 1407. positioning the jack; 15. a buzzer; 16. an optical receiver.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an anti-stacking conveying device for sorting solar cells comprises a processing box body 1, wherein an isolation rubber curtain 2 is hinged to the outer side of the processing box body 1, an equipment box door 3 is fixed to the outer side of the processing box body 1 through bolts, an electric telescopic rod 4 is fixed to the position right above the processing box body 1 through bolts, conveying belts 5 are arranged on the left side and the right side of the processing box body 1, the electric telescopic rod 4 and a hoisting plate 14 are perpendicular to each other, the width of the hoisting plate 14 is smaller than that of a processing supporting plate 6, and the processing supporting plate 6 is connected with a bidirectional cylinder 9 through a rolling bearing; the inside of processing box 1 is provided with processing layer board 6, and the outside bolt fastening of processing layer board 6 has the material panel 7 of holding in the palm, and processing layer board 6 constitutes revolution mechanic with support sleeve post 10 through a face gear 11 and b face gear 13, and the equidistant distribution in the outside of processing layer board 6 has the material panel 7 of holding in the palm to hold in the palm material panel 7 and conveyor belt 5 and be parallel to each other, still include:

the auxiliary ball 8 is fixed on the outer side of the material supporting panel 7 in an embedded mode, the processing supporting plate 6 is connected with the bidirectional cylinder 9 in an embedded mode right above the auxiliary ball, and the supporting sleeve column 10 is fixedly welded right below the processing supporting plate 6;

the outer side of the supporting sleeve column 10 is connected with an a plane gear 11 in an embedded mode, the outer side of the a plane gear 11 is connected with a b plane gear 13 in a meshed mode, and the output end of a driving motor 12 is connected to the position right below the b plane gear 13;

the lifting plate 14 is fixed with the electric telescopic rod 4 through a bolt right above the lifting plate 14, an electric wire right above the lifting plate 14 is connected with a buzzer 15, the outer side of the buzzer 15 is electrically connected with a light receiver 16, the light receiver 16 and the buzzer 15 are symmetrically distributed about the center line of the lifting plate 14, the lifting plate 14 is connected with the auxiliary sliding block 1401 through a sliding chute, and the auxiliary sliding block 1401 is made of aluminum alloy.

The outer side of the hoisting plate 14 comprises an auxiliary slide 1401 and a b equipment panel 1403; an auxiliary slider 1401, wherein an a equipment panel 1402 is fixed on the lower part of the auxiliary slider by bolts, a b equipment panel 1403 is connected to the outer side shaft of the a equipment panel 1402, and a rotary disc 1406 is connected to the outer side shaft of the a equipment panel 1402; a positioning jack 1407 is arranged on the upper surface of the b equipment panel 1403 in a penetrating way, a light emitter 1404 is fixed on the outer side of the b equipment panel 1403 through a bolt, and a traction steel cable 1405 is wound and fixed on the outer side of the b equipment panel 1403; the b equipment panel 1403 and the light emitter 1404 form a rotating structure through a traction cable 1405 and a turntable 1406, the b equipment panel 1403 and the a equipment panel 1402 are connected through a shaft, and the longitudinal section of the a equipment panel 1402 is in a U-shaped structure.

The working principle is as follows: when the anti-stacking conveying device for sorting solar cells is used, as shown in fig. 1 to 5, the device is firstly placed at a position where work is needed, an operator firstly holds the turntable 1406 according to the panel of the solar cell panel, drives the traction steel cable 1405 to rotate through the turntable 1406, pulls the equipment panel 1403 b through the traction steel cable 1405, enables the equipment panel 1403 b to rotate on the outer side of the equipment panel 1402 a, adjusts the angle of the equipment panel 1403 b, positions the turntable 1406 and the equipment panel 1403 b through the bolt, avoids the turntable 1406 from rotating and releasing in the opposite direction, places the light emitter 1404 in the positioning jack 1407, adjusts the irradiation angle of the light emitter 1404, and then can drive the hoisting plate 14 and the light emitter 1404 to vertically descend through the electric telescopic rod 4;

subsequently, the operating personnel places the solar panel on the upper surface of the material supporting panel 7, by opening the driving motor 12, the driving motor 12 drives the b plane gear 13 to rotate, the a plane gear 11 on one side is driven by the b plane gear 13 to rotate, the a plane gear 11 drives the supporting sleeve column 10 and the processing supporting plate 6 to rotate, and then the placing position is adjusted, the operating personnel can place a plurality of groups of solar panels right above the material supporting panel 7, the surface of the solar panel is irradiated by the light emitter 1404, the sorted solar panel can be ensured to be subjected to effective solar energy conversion, after the solar panel meets the sorting requirement, the bidirectional cylinder 9 is opened, the solar panel is pushed by the bidirectional cylinder 9, the friction force in the moving process of the solar panel is reduced by the auxiliary balls 8, the solar panel is moved to the surface of the conveying belt 5, and the solar panel is moved out by the conveying belt 5.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a solar wafer divides to select separately to prevent piling up conveyor, is connected with isolation rubber curtain (2) including processing box (1) in the articulated outside thereof, and the outside bolt fastening of processing box (1) has equipment chamber door (3), the bolt fastening has electric telescopic handle (4) directly over processing box (1), and the left and right sides of processing box (1) is provided with conveyor belt (5), the inside of processing box (1) is provided with processing layer board (6), and the outside bolt fastening of processing layer board (6) has material supporting panel (7), its characterized in that: further comprising:

the auxiliary rolling balls (8) are fixed on the outer side of the material supporting panel (7) in an embedded mode, the processing supporting plate (6) is connected with the bidirectional air cylinder (9) in an embedded mode right above the auxiliary rolling balls, and the supporting sleeve column (10) is fixedly welded right below the processing supporting plate (6);

the outer side of the supporting sleeve column (10) is connected with an a plane gear (11) in a nested mode, the outer side of the a plane gear (11) is connected with a b plane gear (13) in a meshed mode, and the output end of a driving motor (12) is connected to the position right below the b plane gear (13);

the lifting plate (14) is fixed with an electric telescopic rod (4) through a bolt right above the lifting plate, an electric wire right above the lifting plate (14) is connected with a buzzer (15), and the outer side of the buzzer (15) is electrically connected with a light receiver (16).

2. The solar cell sorting and stacking-prevention conveying device according to claim 1, wherein: the electric telescopic rod (4) and the hoisting plate (14) are mutually perpendicular, the width of the hoisting plate (14) is smaller than that of the processing supporting plate (6), and the processing supporting plate (6) is connected with the bidirectional cylinder (9) in a rolling bearing mode.

3. The solar cell sorting and stacking-prevention conveying device according to claim 1, wherein: the processing supporting plate (6) and the supporting sleeve column (10) form a rotating structure through a plane gear (11) and a plane gear (13) b, material supporting panels (7) are distributed on the outer side of the processing supporting plate (6) at equal intervals, and the material supporting panels (7) are parallel to the conveying belt (5).

4. The solar cell sorting and stacking-prevention conveying device as claimed in claim 1, wherein: the outer side of the hoisting plate (14) comprises an auxiliary sliding block (1401) and a device panel (1403);

an auxiliary sliding block (1401), wherein an a equipment panel (1402) is fixed under the auxiliary sliding block through bolts, a b equipment panel (1403) is connected to the outer side of the a equipment panel (1402) through a shaft, and a rotating disc (1406) is connected to the outer side of the a equipment panel (1402) through a shaft;

b equipment panel (1403), its upper surface runs through and has seted up location jack (1407), and the outside bolt of b equipment panel (1403) is fixed with light emitter (1404), the outside winding of b equipment panel (1403) is fixed with traction cable (1405).

5. The solar cell sorting and stacking-prevention conveying device according to claim 4, wherein: the b equipment panel (1403) and the light emitter (1404) form a rotating structure through a traction cable (1405) and a turntable (1406), the b equipment panel (1403) and the a equipment panel (1402) are connected through a shaft, and the longitudinal section of the a equipment panel (1402) is in a U-shaped structure.

6. The solar cell sorting and stacking-prevention conveying device according to claim 4, wherein: the light receiver (16) and the buzzer (15) are symmetrically distributed about the central line of the hoisting plate (14), the hoisting plate (14) is connected with the auxiliary sliding block (1401) through a sliding groove, and the auxiliary sliding block (1401) is made of aluminum alloy.

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