CN220077849U - Side-taking type feeding device - Google Patents

Abstract

The utility model discloses a side-taking type feeding device, which relates to the technical field of solar cell processing equipment and comprises a support frame and a conveyor belt arranged on the support frame, wherein a placing part for obliquely placing solar cells is fixed on the support frame, and a transfer assembly for transferring the oblique solar cells onto the conveyor belt is arranged on the support frame. The utility model has the effect of improving the transportation efficiency of the solar cell.

Description

Side-taking type feeding device

Technical Field

The utility model relates to the technical field of solar cell processing equipment, in particular to a side-taking type feeding device.

Background

The solar cell is classified into crystalline silicon type and amorphous silicon type, wherein the crystalline silicon type cell can be classified into a single crystal cell and a polycrystalline cell; monocrystalline silicon is also different in efficiency from polycrystalline silicon; the solar cell sheet is typically transported by a robot to move it in translation.

The patent with the publication number of CN113636355B discloses a solar cell loading attachment, relates to solar cell processing equipment technical field, including the battery piece, still include: the stacking assembly comprises a base and L-shaped baffles circumferentially arranged at four corners of the base, wherein the two L-shaped baffles are fixedly installed, short plates are oppositely arranged on the surface of the base along the conveying direction of the conveying assembly, long plates are oppositely arranged perpendicular to the conveying direction of the conveying assembly, and the short plates and the long plates are used for limiting battery pieces; the battery piece that the material loading subassembly will be located the top layer is taken out at first, because the gravity that the backup pad surface born weakens, and elastomeric element promotes the battery piece through elasticity effect and upwards moves a certain distance, layering part carries out the layering to top layer battery piece and next layer battery piece, makes the clearance between the two to be convenient for the material loading subassembly shifts out the battery piece of top layer and carries out the material loading, effectively avoids producing the adsorption effect and then can't take out the phenomenon of battery piece between two battery pieces.

In the process of realizing the application, the inventor finds that at least the following problems exist in the technology, the technical proposal adopts the mechanical arm to clamp the solar cell, the solar cell is transported in a translation mode, and the distance of at least one solar cell is moved each time when the solar cell is transported each time, so that the transportation time is longer.

Disclosure of Invention

In order to improve the transportation efficiency of solar cells, the utility model provides a side-taking type feeding device.

The side-taking type feeding device provided by the utility model adopts the following technical scheme that:

the utility model provides a formula loading attachment is got to side, includes the support frame, connects in the conveyer belt of support frame through the pivot, be fixed with the portion of placing that is used for making solar wafer slope place on the support frame, be provided with on the support frame and be used for transferring the transfer unit on the conveyer belt with the slope solar wafer.

Through adopting above-mentioned technical scheme, solar wafer slope is placed, when transferring solar wafer to the conveyer belt, the distance that solar wafer removed is shorter, has saved transfer time, makes the solar wafer quantity that is transferred to the conveyer belt more in the same time to the transport efficiency of solar wafer has been promoted.

Optionally, the transfer subassembly is including being connected in the transfer dish of support frame and being fixed in a plurality of transfer poles of transfer dish terminal surface, a plurality of transfer poles revolute and move a set axis evenly distributed, the lateral wall that the transfer pole deviates from the transfer dish axis rotates and is connected with the expansion board, the expansion board terminal surface is fixed with the sucking disc that is used for adsorbing solar wafer, the support frame with be provided with the control portion that is used for connecting the two between the transfer dish.

Through adopting above-mentioned technical scheme, the transfer dish rotates and drives the transfer pole and rotate to drive the sucking disc on the expansion board and rotate, the sucking disc adsorbs the solar wafer of slope in the rotation in-process, and drives it to shift to the conveyer belt, is convenient for go on of solar wafer transfer process.

Optionally, the control part comprises a first control rod which is connected with the support frame in a sliding way, the end part of the first control rod is rotationally connected with a second control rod, and the transfer disc is rotationally connected with the side wall of the second control rod; the side wall of the first control rod is fixed with a first control motor for driving the second control rod to rotate, and the side wall of the second control rod is fixed with a transfer motor for driving the transfer disc to rotate.

Through adopting above-mentioned technical scheme, first control lever slides and can drives second control lever and transfer dish and slide, is convenient for make the transfer dish keep away from the portion of placing to be convenient for place solar wafer in the portion of placing, the rotation of first control motor control second control lever is convenient for adjust the transfer dish position, makes its better adsorb solar wafer.

Optionally, the placement part is disposed at one end of the conveyor belt in the length direction and is opposite to the side wall of the conveyor belt, and an outlet is formed in the side wall.

By adopting the technical scheme, the solar cell in the placement part is transferred to the conveyor belt from the outlet, and the outlet is opposite to the conveyor belt, so that the movement distance of the solar cell is further reduced.

Optionally, the inside promotion cylinder that is convenient for promote solar wafer motion that is fixed with of portion of placing, promotion cylinder piston rod tip is fixed with the limiting plate, the limiting plate terminal surface is fixed with the promotion board.

Through adopting above-mentioned technical scheme, promote electric jar piston rod drive limiting plate and push plate motion to make the push plate promote solar cell piece and slide, the sucking disc of being convenient for adsorbs solar cell piece.

Optionally, the limiting plate is L-shaped, one side plate of the limiting plate is slidably connected to the side wall of the pushing cylinder, and the other end of the limiting plate is fixed to the end part of the piston rod of the pushing cylinder.

Through adopting above-mentioned technical scheme, after promoting the cylinder start-up, under the restriction effect of limiting plate now, promote the cylinder piston rod and can not take place to rotate, reduced because promote the cylinder piston rod and rotate the possibility that the impeller plate that leads to takes place to rotate.

Optionally, the push plate is in an inverted V shape, and a side plate of the push plate fixed on the end surface of the limit plate is parallel to the end surface of the limit plate.

Through adopting above-mentioned technical scheme, the impeller plate is fixed at limiting plate terminal surface, and the impeller plate of falling "V" shape is convenient for make solar wafer be the slope setting simultaneously.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the solar cell is obliquely placed, so that the distance from the solar cell to the conveyor belt is short, the transfer time is saved, and the transportation efficiency of the solar cell is improved;

2. the transfer assembly drives the solar cell to be transferred onto the conveyor belt in the rotation process, and when the sucker on the transfer disc drives the solar cell to be transferred onto the conveyor belt, the sucker on the transfer rod adjacent to the sucker simultaneously rotates to the placement position of the solar cell, so that the transportation efficiency of the solar cell is further improved.

Drawings

FIG. 1 is a schematic diagram of the main structure of an embodiment of the present utility model.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic diagram of the fixing mode of the pushing cylinder and the limiting plate, and the pushing plate.

Reference numerals illustrate:

1. a support frame; 2. a conveyor belt; 3. a placement unit; 4. a transfer assembly; 41. a transfer plate; 42. a transfer lever; 43. an expansion board; 431. a driving plate; 44. a suction cup; 5. a control unit; 51. a first control lever; 52. a second control lever; 53. a first control motor; 54. a transfer motor; 6. an outlet; 7. a pushing cylinder; 8. a limiting plate; 9. a pushing plate; 10. a rodless electric cylinder.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-3.

The embodiment of the utility model discloses a side-taking type feeding device. Referring to fig. 1, a side-taking type feeding device comprises a supporting frame 1, wherein the supporting frame 1 is placed on the ground, two rotating rods are rotatably connected to the supporting frame 1 through rotating shafts, a conveyor belt 2 is wrapped outside the two rotating rods, a transmission motor is fixed on the side wall of the supporting frame 1 through bolts, and the transmission motor is used for driving the rotating rods to rotate, so that the conveyor belt 2 is driven to rotate; the support frame 1 is provided with a placing part 3, and the placing part 3 is used for placing solar cell slices and enabling the solar cell slices to be obliquely arranged.

Referring to fig. 1 and 2, a transfer assembly 4 is provided on a support frame 1, and the transfer assembly 4 is used for transferring solar cells inclined in a placement part 3 onto a conveyor belt 2, and is transported by the conveyor belt 2; the transfer assembly 4 comprises a transfer disc 41, the transfer disc 41 is connected to the top of the support frame 1 through a control part 5, the transfer disc 41 is vertically arranged, the axial direction of the transfer disc 41 is perpendicular to the conveying direction of the conveyor belt 2, a plurality of transfer rods 42 are fixed on the end face of the transfer disc 41, the fixing modes can be bonding, welding, bolt fixing, integral forming and the like, the integral forming fixing modes are adopted in the embodiment, the plurality of transfer rods 42 are uniformly distributed around the axial line of the transfer disc 41, the side wall of the transfer rod 42, which is away from the axial line of the transfer disc 41, is rotationally connected with an expansion plate 43 through a rotating shaft, the expansion plate 43 is composed of a plurality of driving plates 431 which are uniformly distributed around the rotating shaft, the side wall of the expansion plate 43, which is away from the axial line of the transfer disc 41, is fixedly provided with a plurality of suckers 44, the fixing modes can be bonding, bolt fixing, clamping and the like, the clamping fixing modes are adopted in the embodiment, and the suckers 44 are in one-to-one correspondence with the driving plates 431; meanwhile, when the sucker 44 on the transfer plate 41 is required to drive the solar cell to the conveyor belt 2, the sucker 33 on the adjacent transfer plate 42 is simultaneously rotated to the placement position of the solar cell, so that the solar cell is convenient to adsorb, the transfer plate 41 drives the angle of transferring the solar cell each time to adapt to the inclination angle between the solar cell and the conveyor belt 2, and meanwhile, the distance between the two adjacent transfer plates 42 and the number of the transfer plates 42 meet the requirement that the sucker on the transfer plate 42 adsorbs the solar cell when the transfer plate 41 rotates.

Referring to fig. 1 and 2, a control part 5 is arranged between a support frame 1 and a transfer assembly 4, the control part 5 is used for connecting the support frame 1 with the transfer assembly 4, the control part 5 comprises a first control rod 51 which is slidably connected to the top of the support frame 1, a rodless electric cylinder 10 is fixed to the top of the support frame 1 through bolts, the first control rod 51 is vertically arranged and is fixed to the end part of the rodless electric cylinder 10 through bolts, a second control rod 52 is rotatably connected to the end part of the first control rod 51, which is away from the rodless electric cylinder 10, through a rotating shaft, and a transfer disc 41 is rotatably connected to the side wall of the second control rod 52 through the rotating shaft; the side wall of the first control rod 51 is fixed with a first control motor 53 through a bolt, the first control motor 53 is used for driving the second control rod 52 to rotate, the side wall of the second control rod 52 is fixed with a transfer motor 54 through a bolt, and the transfer motor 54 is used for driving the transfer disc 41 to rotate; the first control motor 53 may be a self-locking motor or a servo motor, and the transfer motor 54 is a servo motor; when the transfer assembly 4 drives the solar cell to move, the transfer assembly 4 is driven to slide along the direction perpendicular to the length of the conveyor belt 2 by the rodless cylinder, meanwhile, the first control motor 53 drives the second control rod 52 to rotate, and the transfer motor 54 drives the transfer disc 41 to rotate, so that the position of the transfer assembly 4 is conveniently adjusted and rotated, and the solar cell transfer process is conveniently carried out.

Referring to fig. 1 and 3, a placement part 3 is fixed on a support frame 1 through bolts, the placement part 3 is placed at one end of a conveyor belt 2 in the length direction, outlets 6 are formed in the side wall of the placement part 3 opposite to the conveyor belt 2 and the top of the placement part 3, and solar cells in the placement part 3 are transferred to the conveyor belt 2 through the outlets 6; a pushing cylinder 7 is fixed inside the placement part 3 through a bolt, the pushing cylinder 7 is used for pushing the solar cell to move, and the axial direction of a piston rod of the pushing cylinder 7 is parallel to the length direction of the conveyor belt 2; the end part of the piston rod of the pushing cylinder 7 is fixed with a limiting plate 8, wherein the fixing modes can be bonding, welding, bolt fixing and the like, the fixing mode of bolt fixing is adopted in the embodiment, the limiting plate 8 is L-shaped, one side plate of the limiting plate 8 is slidably connected to the top or the side wall of the pushing cylinder 7, the other side plate is fixed to the end part of the piston rod of the pushing cylinder 7 through a bolt, and the limiting plate 8 is used for limiting the rotation of the piston rod of the pushing cylinder 7; limiting plate 8 terminal surface is fixed with pushing plate 9, and the fixed mode of here can be bonding, welding, bolt fastening etc., adopts bolt fastening's fixed mode in this embodiment, and pushing plate 9 is the setting of falling "V" shape, and pushing plate 9 is fixed in the curb plate of pushing plate 9 terminal surface and is on a parallel with pushing plate 9 terminal surface, and the pushing plate 9 of so setting can not rotate because of pushing cylinder 7 piston rod's rotation, and its laminating is the slope setting in the terminal surface of solar cell piece simultaneously for solar cell piece is the slope setting, thereby is convenient for solar cell piece transfer process's going on.

The implementation principle of the side-taking type feeding device provided by the embodiment of the utility model is as follows: the solar cell is placed in the placing part 3, the solar cell is obliquely placed under the action of the pushing plate 9, the transfer plate 41 rotates to drive the plurality of transfer rods 42 and the expansion plate 43 to rotate, so that the sucker 44 adsorbs the solar cell and transfers the solar cell to the conveyor belt 2; the transfer plate 41 continues to rotate because the surface of the conveyor belt 2 simultaneously plays a role in limiting the solar cell, the sucker 44 is separated from the solar cell, and the transfer process is completed.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (7)

1. The utility model provides a side is got loading attachment, includes support frame (1), sets up in conveyer belt (2) of support frame (1), its characterized in that: the solar cell oblique placement device is characterized in that a placement part (3) used for obliquely placing the solar cell is fixed on the support frame (1), and a transfer assembly (4) used for transferring the oblique solar cell onto the conveyor belt (2) is arranged on the support frame (1).

2. The side-draw type feeding device according to claim 1, wherein: the solar cell transfer device is characterized in that the transfer assembly (4) comprises a transfer plate (41) connected to the support frame (1) and a plurality of transfer rods (42) fixed on the end faces of the transfer plate (41), the transfer rods (42) are evenly distributed around the axis of the transfer plate (41), the side wall of the transfer rod (42) deviating from the axis of the transfer plate (41) is rotationally connected with an expansion plate (43), the end faces of the expansion plate (43) are fixed with suckers (44) for adsorbing solar cells, and a control part (5) for connecting the support frame (1) and the transfer plate (41) is arranged between the support frame and the transfer plate.

3. The side-draw type feeding device according to claim 2, wherein: the control part (5) comprises a first control rod (51) which is connected with the support frame (1) in a sliding way, a second control rod (52) is connected to the end part of the first control rod (51) in a rotating way, and the transfer disc (41) is connected to the side wall of the second control rod (52) in a rotating way; the side wall of the first control rod (51) is fixedly provided with a first control motor (53) for driving a second control rod (52) to rotate, and the side wall of the second control rod (52) is fixedly provided with a transfer motor (54) for driving a transfer disc (41) to rotate.

4. The side-draw type feeding device according to claim 1, wherein: the placing part (3) is arranged at one end of the conveyor belt (2) in the length direction, and an outlet (6) is formed in the side wall, opposite to the conveyor belt (2).

5. The side-draw type feeding device according to claim 1, wherein: the solar cell is characterized in that a pushing cylinder (7) which is convenient for pushing the solar cell to move is fixed in the placement part (3), a limiting plate (8) is fixed at the end part of a piston rod of the pushing cylinder (7), and a pushing plate (9) is fixed on the end face of the limiting plate (8).

6. The side-draw type feeding device according to claim 5, wherein: the limiting plate (8) is L-shaped, one side plate of the limiting plate (8) is slidably connected to the side wall of the pushing cylinder (7), and the other end of the limiting plate is fixed to the end portion of a piston rod of the pushing cylinder (7).

7. The side-draw type feeding device according to claim 6, wherein: the pushing plate (9) is in an inverted V shape, and a side plate of the pushing plate (9) fixed on the end face of the limiting plate (8) is parallel to the end face of the limiting plate (8).