CN221549312U - Improved generation fritting furnace transmission device - Google Patents

Abstract

The utility model relates to the technical field of solar cell transmission, and discloses an improved sintering furnace transmission device, which comprises; the device comprises a transmission bracket, wherein a movable groove is formed in the bottom of the transmission bracket, and a first groove is formed in the inner wall of the transmission bracket; and the conveying mechanism is arranged in the conveying bracket. The utility model drives the transmission shaft to rotate by starting the motor I and providing power by the output shaft of the motor I, the transmission shaft drives the connecting column positioned right above the transmission shaft to rotate by the belt, compared with the traditional battery sintering furnace conveying device, the novel conveying mechanism provides power for the transmission shaft by the motor I and is matched with the belt I and the belt II, the round table-shaped cylinder is driven to rotate, meanwhile, the shape of the connecting column is round table-shaped, the linear contact between the sintering furnace conveying device and the battery piece is changed into point contact, the contact area is reduced, the sintering temperature is more uniform, the photoelectric conversion efficiency of the battery piece is improved, and the bad phenomenon of the battery piece is improved.

Description

Improved generation fritting furnace transmission device

Technical Field

The utility model relates to the technical field of solar cell transmission, in particular to an improved sintering furnace transmission device.

Background

Along with the demand of human beings for new energy, the use of solar energy and batteries thereof gradually merges into the daily life of people, and the screen printing of solar cells takes a central position in the production process. Cell sintering is an important link in the solar cell manufacturing process, and plays a role in the screen printing section. At present, a chain type transmission device is mostly adopted in the sintering process of the solar cell, and the contact between a sintering furnace transmission device used in the battery printing process and the cell is linear, so that the contact area between the cell and the transmission device is increased, the sintering temperature is uneven, the photoelectric conversion efficiency of the solar cell is affected, and the phenomenon of blackening of a main grid occurs, so that improvement is needed.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides an improved sintering furnace conveying device which has the advantages of improving the photoelectric conversion efficiency of a battery piece and improving the bad phenomenon of the battery piece.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an improved sintering furnace conveying device comprises;

the device comprises a transmission bracket, wherein a movable groove is formed in the bottom of the transmission bracket, and a first groove is formed in the inner wall of the transmission bracket;

The conveying mechanism is arranged in the conveying bracket;

The limiting mechanism is arranged at the bottom of the transmission bracket;

The conveying mechanism consists of a connecting column, a round table type cylinder, a rotating column, a first belt, a second belt and a transmission shaft;

The connecting column is movably arranged in the first groove, the connecting column is fixedly arranged on the side face of the connecting column, the rotating column is fixedly arranged on the side face of the connecting column, the transmission shaft is movably arranged on the inner wall of the transmission support, the first belt is movably connected with the transmission shaft and the connecting column, and the second belt is movably connected with the three groups of connecting columns.

As a preferable technical scheme of the utility model, the limiting mechanism consists of a gear, a moving plate, a mounting plate, a connecting block, a push plate and a limiting column;

The mounting panel fixed mounting is in the bottom of transmission support, gear movable mounting is in the surface of mounting panel, movable plate movable mounting is in the surface of mounting panel and swing joint movable groove, connecting block fixed mounting is in the top of movable plate, push pedal fixed mounting is in the top of connecting block, spacing post fixed mounting is in the top of movable plate.

As a preferable technical scheme of the utility model, a chute is formed on the surface of the movable plate, a limiting block is fixedly arranged on the surface of the mounting plate, and the limiting block is positioned in the chute.

As a preferable technical scheme of the utility model, a first motor is fixedly arranged on the side surface of the transmission support, the first motor is movably connected with the transmission shaft, a second motor is fixedly arranged at the bottom of the mounting plate, and the second motor is movably connected with the gear.

As a preferable technical scheme of the utility model, the shape of the round table-shaped cylinder is a round table shape, and the contact mode of the round table-shaped cylinder and the solar cell is point contact.

As a preferable technical scheme of the utility model, three connecting columns are in one group, each group of connecting columns are movably connected through a belt II, and the connecting column at the tail part of each group is the head part of the connecting column of the next group.

As a preferable technical scheme of the utility model, the first groove is internally and movably provided with the ball, and the ball is movably connected with the surface of the connecting column and the inner wall of the first groove.

As a preferable technical scheme of the utility model, a groove II is formed on the surface of the transmission support, a limiting plate is movably arranged in the groove II, one section of the limiting plate is fixedly connected with the bottom of the push plate, and the other end of the limiting plate is fixedly connected with the connecting block.

Compared with the prior art, the utility model has the following beneficial effects:

1. According to the utility model, the motor I is started, the output shaft of the motor I provides power to drive the transmission shaft to rotate, the transmission shaft drives the connecting columns positioned right above the transmission shaft to rotate through the belt II, the connecting columns drive every three groups of connecting columns to synchronously rotate through the belt II, the connecting columns drive the round table-shaped columns and the rotating columns to rotate, then the solar cells are placed at the tops of the round table-shaped columns, and each group of round table-shaped columns rotate in the same direction to transport the solar cells.

2. According to the utility model, the gear is driven to rotate by the power provided by the output shaft of the motor II, when the gear rotates, the moving plates at two sides are driven to move in a horizontal translational motion, meanwhile, the moving plates drive the connecting blocks and the pushing plates to move synchronously to limit the solar cells on the surface of the circular truncated cone-shaped cylinder, so that the solar cells are orderly arranged on the surface of the circular truncated cone-shaped cylinder, and the position of the solar cells is not deviated.

Drawings

FIG. 1 is a schematic top view of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is a schematic view of the bottom structure of the present utility model;

FIG. 4 is a schematic diagram of a transmission mechanism according to the present utility model;

fig. 5 is a schematic diagram of a limiting structure of the present utility model.

In the figure: 1. a transmission support; 2. a groove I; 3. a ball; 4. a connecting column; 5. round table cylinder; 6. rotating the column; 7. a first belt; 8. a second belt; 9. a transmission shaft; 10. a first motor; 11. a movable groove; 12. a mounting plate; 13. a second motor; 14. a gear; 15. a moving plate; 16. a chute; 17. a limiting block; 18. a limit column; 19. a connecting block; 20. a push plate; 21. a limiting plate; 22. and a groove II.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 to 5, the present utility model provides an improved sintering furnace conveying device, comprising;

The device comprises a transmission bracket 1, wherein a movable groove 11 is formed in the bottom of the transmission bracket 1, and a groove I2 is formed in the inner wall of the transmission bracket 1;

A transport mechanism provided inside the transport bracket 1;

the limiting mechanism is arranged at the bottom of the transmission bracket 1;

The conveying mechanism consists of a connecting column 4, a round table type column 5, a rotating column 6, a first belt 7, a second belt 8 and a transmission shaft 9;

The spliced pole 4 movable mounting is in the inside of recess one 2, and spliced pole 4 fixed mounting is in the side of spliced pole 4, and pivoted post 6 fixed mounting is in the side of spliced pole 4, and transmission shaft 9 movable mounting is on the inner wall of transmission support 1, and belt one 7 swing joint transmission shaft 9, spliced pole 4, belt two 8 swing joint three sets of spliced poles 4.

The staff opens motor one 10, and the output shaft of motor one 10 provides power and drives transmission shaft 9 rotation, and transmission shaft 9 passes through belt one 7 and drives the spliced pole 4 rotation that is located directly over the transmission shaft 9, and spliced pole 4 passes through belt two 8 and drives every three group spliced pole 4 synchronous rotation, and spliced pole 4 drives round platform shape cylinder 5, rotation post 6 rotation, then puts into the top of round platform shape cylinder 5 with solar cell, and every group round platform shape cylinder 5 syntropy rotation transports solar cell.

Through opening motor one 10, the output shaft of motor one 10 provides power to drive transmission shaft 9 rotation, transmission shaft 9 drives the spliced pole 4 rotation that is located transmission shaft 9 directly over through belt one 7, spliced pole 4 drives every three group spliced pole 4 synchronous rotation through belt two 8, spliced pole 4 drives round platform shape cylinder 5, rotate post 6 rotation, then put into the top of round platform shape cylinder 5 with solar cell, every round platform shape cylinder 5 syntropy rotation is transported solar cell, compare with traditional battery fritting furnace conveyer, novel transport mechanism provides power for transmission shaft 9 through motor one 10, and belt one 7 and belt two 8's cooperation, drive round platform shape cylinder 5 rotation, the shape of spliced pole 4 is the round platform shape simultaneously, fritting furnace conveyer and the linear contact of battery piece become the point contact, thereby reduce area of contact, thereby make sintering temperature more even improve the photoelectric conversion efficiency of battery piece and improve the bad phenomenon that the battery piece appears.

The limiting mechanism consists of a gear 14, a moving plate 15, a mounting plate 12, a connecting block 19, a push plate 20 and a limiting column 18;

The mounting panel 12 fixed mounting is in the bottom of transmission support 1, and gear 14 movable mounting is in the surface of mounting panel 12, and movable plate 15 movable mounting is in the surface of mounting panel 12 and swing joint movable groove 11, and connecting block 19 fixed mounting is in the top of movable plate 15, push pedal 20 fixed mounting in the top of connecting block 19, and spacing post 18 fixed mounting is in the top of movable plate 15.

When a worker carries out transportation by putting the solar battery on the surface of the round table-shaped cylinder 5, the motor II 13 is started, the output shaft of the motor II 13 provides power to drive the gear 14 to rotate, the moving plates 15 on two sides are driven to move horizontally in a progressive manner when the gear 14 rotates, and meanwhile, the moving plates 15 drive the connecting blocks 19 and the pushing plates 20 to synchronously move so as to limit the solar battery on the surface of the round table-shaped cylinder 5, so that the solar battery is orderly arranged on the surface of the round table-shaped cylinder 5 and cannot deviate from the position.

The output shaft of the motor II 13 provides power to drive the gear 14 to rotate, when the gear 14 rotates, the movable plates 15 on two sides are driven to move in horizontal movement, meanwhile, the movable plates 15 drive the connecting blocks 19 and the pushing plates 20 to synchronously move to limit the solar cells on the surface of the round table-shaped cylinder 5, so that the solar cells are orderly arranged on the surface of the round table-shaped cylinder 5, the position of the solar cells cannot deviate, compared with a traditional battery sintering furnace conveying device, the novel limiting mechanism drives the movable plates 15 to move in horizontal movement in the movable groove 11 through the rotation of the gear 14, the solar cells on the surface of the round table-shaped cylinder 5 are limited, the conveyed solar cells are orderly arranged at the bottom of the round table-shaped cylinder 5, and the next processing and conveying are convenient.

The surface of the moving plate 15 is provided with a chute 16, the surface of the mounting plate 12 is fixedly provided with a limiting block 17, and the limiting block 17 is positioned in the chute 16.

Because the spout 16 has been seted up on the surface of movable plate 15, and the fixed mounting in surface of mounting panel 12 has stopper 17, and stopper 17 is located the inside of spout 16, conveniently carries out the spacing to movable plate 15, makes movable plate 15 more stable when removing.

The side surface of the transmission support 1 is fixedly provided with a first motor 10, the first motor 10 is movably connected with a transmission shaft 9, the bottom of the mounting plate 12 is fixedly provided with a second motor 13, and the second motor 13 is movably connected with a gear 14.

Because the first motor 10 is fixedly arranged on the side face of the transmission support 1, the first motor 10 is movably connected with the transmission shaft 9, the second motor 13 is fixedly arranged at the bottom of the mounting plate 12, and the second motor 13 is movably connected with the gear 14, so that power sources respectively provided for the conveying mechanism and the limiting mechanism are power sources, and the machine can normally run.

The shape of the truncated cone-shaped cylinder 5 is a truncated cone shape, and the contact mode of the truncated cone-shaped cylinder 5 and the solar cell is point contact.

Because the shape of the truncated cone-shaped cylinder 5 adopts a truncated cone shape, the contact mode of the truncated cone-shaped cylinder 5 and the solar cell is point contact, the contact area is reduced, and the sintering temperature is more uniform, so that the photoelectric conversion efficiency of the battery piece is improved, and the bad phenomenon of the battery piece is improved.

Wherein, three spliced pole 4 are a set of, link up the two 8 swing joint of belt between the spliced pole 4 of every group, and the spliced pole 4 of every afterbody is the head of next group spliced pole 4.

Because three spliced pole 4 are a set of, link between the spliced pole 4 of every group and pass through two 8 swing joint of belt, the spliced pole 4 of every afterbody of group is the head of next group spliced pole 4, drives every spliced pole 4 operation of group through the mode of linkage, has saved the energy consumption.

Wherein, the inside movable mounting of recess one 2 has ball 3, and ball 3 swing joint spliced pole 4's surface and recess one 2's inner wall.

Because the ball 3 is movably arranged in the groove I2, the ball 3 is movably connected with the surface of the connecting column 4 and the inner wall of the groove I2, so that the friction force between the connecting column 4 and the groove I2 is reduced, and the connecting column 4 is smoother and more stable in rotation.

The surface of the transmission support 1 is provided with a second groove 22, a limiting plate 21 is movably arranged in the second groove 22, one section of the limiting plate 21 is fixedly connected with the bottom of the push plate 20, and the other end of the limiting plate is fixedly connected with the connecting block 19.

Because the surface of the transmission support 1 is provided with the groove II 22, the limiting plate 21 is movably arranged in the groove II 22, the other end of the limiting plate is fixedly connected with the connecting block 19, the connecting block 19 is limited, the connecting block 19 is enabled to be more stable in operation, and the stability of the structure is enhanced.

The working principle and the using flow of the utility model are as follows:

The staff opens motor one 10, and the output shaft of motor one 10 provides power and drives transmission shaft 9 rotation, and transmission shaft 9 passes through belt one 7 and drives the spliced pole 4 rotation that is located directly over the transmission shaft 9, and spliced pole 4 passes through belt two 8 and drives every three group spliced pole 4 synchronous rotation, and spliced pole 4 drives round platform shape cylinder 5, rotation post 6 rotation, then puts into the top of round platform shape cylinder 5 with solar cell, and every group round platform shape cylinder 5 syntropy rotation transports solar cell.

When a worker carries out transportation by putting the solar battery on the surface of the round table-shaped cylinder 5, the motor II 13 is started, the output shaft of the motor II 13 provides power to drive the gear 14 to rotate, the moving plates 15 on two sides are driven to move horizontally in a progressive manner when the gear 14 rotates, and meanwhile, the moving plates 15 drive the connecting blocks 19 and the pushing plates 20 to synchronously move so as to limit the solar battery on the surface of the round table-shaped cylinder 5, so that the solar battery is orderly arranged on the surface of the round table-shaped cylinder 5 and cannot deviate from the position.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (8)

1. An improved generation fritting furnace transmission device, its characterized in that: comprises the following steps of;

The device comprises a transmission bracket (1), wherein a movable groove (11) is formed in the bottom of the transmission bracket (1), and a groove I (2) is formed in the inner wall of the transmission bracket (1);

A transport mechanism which is arranged inside the transmission bracket (1);

The limiting mechanism is arranged at the bottom of the transmission bracket (1);

The conveying mechanism consists of a connecting column (4), a round table-shaped column (5), a rotating column (6), a first belt (7), a second belt (8) and a transmission shaft (9);

the connecting column (4) is movably mounted in the groove I (2), the connecting column (4) is fixedly mounted on the side face of the connecting column (4), the rotating column (6) is fixedly mounted on the side face of the connecting column (4), the transmission shaft (9) is movably mounted on the inner wall of the transmission support (1), the belt I (7) is movably connected with the transmission shaft (9) and the connecting column (4), and the belt II (8) is movably connected with the three groups of connecting columns (4).

2. An improved sintering furnace transport apparatus as set forth in claim 1 wherein: the limiting mechanism consists of a gear (14), a moving plate (15), a mounting plate (12), a connecting block (19), a push plate (20) and a limiting column (18);

The utility model discloses a transmission support, including mounting panel (12), gear (14), movable mounting in the bottom of transmission support (1), movable plate (15) movable mounting in the surface of mounting panel (12) and swing joint movable groove (11), connecting block (19) fixed mounting in the top of movable plate (15), push pedal (20) fixed mounting in the top of connecting block (19), spacing post (18) fixed mounting in the top of movable plate (15).

3. An improved sintering furnace transport apparatus as set forth in claim 2 wherein: the surface of the moving plate (15) is provided with a sliding groove (16), the surface of the mounting plate (12) is fixedly provided with a limiting block (17), and the limiting block (17) is positioned in the sliding groove (16).

4. An improved sintering furnace transport apparatus as set forth in claim 1 wherein: the side of the transmission support (1) is fixedly provided with a first motor (10), the first motor (10) is movably connected with a transmission shaft (9), the bottom of the mounting plate (12) is fixedly provided with a second motor (13), and the second motor (13) is movably connected with a gear (14).

5. An improved sintering furnace transport apparatus as set forth in claim 1 wherein: the shape of the round table-shaped cylinder (5) is round table-shaped, and the contact mode of the round table-shaped cylinder (5) and the solar cell is point contact.

6. An improved sintering furnace transport apparatus as set forth in claim 1 wherein: the three connecting columns (4) are in a group, each group of connecting columns (4) is movably connected through a second belt (8), and the connecting column (4) at the tail of each group is the head of the connecting column (4) of the next group.

7. An improved sintering furnace transport apparatus as set forth in claim 1 wherein: the ball (3) is movably arranged in the groove I (2), and the ball (3) is movably connected with the surface of the connecting column (4) and the inner wall of the groove I (2).

8. An improved sintering furnace transport apparatus as set forth in claim 1 wherein: the surface of the transmission support (1) is provided with a second groove (22), a limiting plate (21) is movably arranged in the second groove (22), one section of the limiting plate (21) is fixedly connected with the bottom of the push plate (20), and the other end of the limiting plate is fixedly connected with the connecting block (19).