CN212967664U - Solar cell support plate classified storage mechanism - Google Patents

Abstract

The utility model discloses a solar wafer support plate classified storage mechanism, including synchronous hoisting unit and a plurality of buffer memory transmission unit that sets up above that along vertical direction array, every all set up at least one support plate that is used for holding the battery piece on the buffer memory transmission unit, buffer memory transmission unit is provided with the transition that can the bearing support plate in the business turn over position department of transmission and leads positive gyro wheel. The battery cell butt joint device can be used for storing the carrier plates and the battery cells in a classified mode, seamless butt joint with other processes and equipment is achieved, butt joint is accurate and smooth, the buffer storage amount is large, the occupied space is small, and production efficiency is improved.

Description

Solar cell support plate classified storage mechanism

Technical Field

The utility model relates to a battery piece storage technology field, concretely relates to solar wafer support plate classified storage mechanism.

Background

During the production of the battery plate, the battery plate is generally transported between each process section and each device. The production modes of different process sections or devices may be completely different and the production yield may be different, for example, some processes or devices require continuous processing of a single battery piece, and some process or devices require one-time processing of a plurality of battery pieces. This can lead to vacuum periods during docking of different process segments or equipment, increasing latency and reducing production efficiency.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a solar wafer support plate classified storage mechanism, through reasonable structural design can classified storage support plate and battery piece, realize the seamless butt joint with other technology, equipment, the butt joint is accurate, smooth and easy, and the buffer memory is big, and occupation space is little, has improved production efficiency.

In order to solve the technical problem, the utility model provides a solar wafer support plate classified storage mechanism, including synchronous hoisting unit and a plurality of buffer memory transmission unit, every that set up above that along vertical direction array all set up at least one support plate that is used for holding the battery piece on the buffer memory transmission unit, buffer memory transmission unit is provided with the transition that can the bearing support plate in the business turn over position department of transmission and leads the positive gyro wheel.

The utility model discloses a preferred embodiment, further include synchronous lifting unit includes two grudging posts, the grudging post top is provided with the crossbeam, be provided with driving source one on the crossbeam, the grudging post is provided with the lead screw along vertical direction, be provided with the lifter plate on the lead screw, the free end of driving source one is connected with two lead screw synchronization respectively, buffer memory transmission unit fixes between two lifter plates.

The utility model discloses a preferred embodiment, further include be provided with speed reducer and two promotion transmission shafts on the crossbeam, the speed reducer is connected, two with driving source one the promotion transmission shaft is located the both sides of speed reducer, and all is connected with the speed reducer, the promotion transmission shaft is connected with the lead screw.

The utility model discloses a preferred embodiment, further include be provided with the commutator on the crossbeam, the commutator is connected with promotion transmission shaft and lead screw respectively.

The utility model discloses a preferred embodiment, further include all be provided with the shaft coupling between commutator and promotion transmission shaft and the lead screw.

The utility model discloses a preferred embodiment, further include the stand is provided with the slide rail in the vertical direction in the both sides of lead screw, the lifter plate slides and sets up on the slide rail.

The utility model discloses a preferred embodiment, further include buffer memory transmission unit includes the buffer memory support, the both sides of buffer memory support are fixed respectively on two lifter plates, be provided with driving source two, transmission shaft and transmission belt on the buffer memory support, transmission shaft spanes on the buffer memory support, driving source two is connected with the transmission shaft, at least two transmission belt is located the both sides of buffer memory support respectively, and with transmission shaft synchronous connection, transmission belt bearing is in the below of support plate.

The utility model discloses a preferred embodiment further includes be provided with the drive wheel on the driving source two, be provided with on the transmission shaft from driving wheel and transmission wheel, the cover is equipped with drive belt between drive wheel and the driven wheel, the transmission belt cover is established on transmission wheel.

The utility model discloses a preferred embodiment, further include the buffer memory support all is provided with the sensor in exit position and buffer memory position department.

The utility model discloses a preferred embodiment, further include transition is led positive gyro wheel and is set up in the both sides of buffer memory support exit position, and is located the below of support plate.

The utility model has the advantages that:

the utility model discloses the categorised storage mechanism of solar wafer support plate of optimal design promotes all buffer memory transmission unit in step, makes the buffer memory transmission unit that the support plate that needs spread into or spread into correspond reachs corresponding highly, realizes the butt joint with other process equipment, and the transition is led the position of support plate when positive wheel can lead the support plate business turn over, makes the butt joint more accurate and smooth and easy. In addition, the buffer transmission unit arranged in a stacked mode can store a large number of battery pieces and carrier plates of different specifications in a classified mode, can realize positioning quickly and accurately, improves production efficiency, and occupies a small space.

Drawings

Fig. 1 is a schematic diagram of a sorting and storing mechanism for solar cell carrier plates according to a preferred embodiment of the present invention;

FIG. 2 is a schematic diagram of a buffer transmission unit;

fig. 3 is a schematic top view of a buffer transfer unit.

The reference numbers in the figures illustrate:

1-synchronous lifting unit, 10-vertical frame, 11-cross beam, 12-driving source I, 13-speed reducer, 14-lifting transmission shaft, 15-commutator, 16-coupler, 17-screw rod, 18-slide rail and 19-lifting plate;

2-buffer transmission unit, 20-buffer support, 21-driving source II, 22-driving wheel, 23-transmission shaft, 24-driven wheel, 25-driving belt, 26-transmission wheel, 27-transmission belt, 28-sensor and 29-transition guide roller;

3-a carrier plate.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Examples

The utility model discloses a solar wafer support plate classified storage mechanism, it is shown with reference to fig. 1 ~ 3, including synchronous hoisting unit 1 and a plurality of buffer memory transmission unit 2 of setting on it along vertical direction array. Each buffer transmission unit 2 is provided with at least one carrier plate 3 for containing the battery pieces. The buffer transmission unit 2 is provided with a transition guiding roller 29 capable of supporting the carrier plate 3 at the in-out position of transmission. With the optimized design, the synchronous lifting unit 1 can synchronously lift all the buffer transmission units 2, so that the buffer transmission units 2 corresponding to the carrier plates 3 to be transferred in or out reach corresponding heights, and the butt joint with other process equipment is realized, and the transition correcting wheel 29 can correct the positions of the carrier plates 3 when the carrier plates 3 are in and out, so that the butt joint is more accurate and smooth. In addition, the buffer transmission unit 2 arranged in a stacked manner can not only store a large number of battery pieces and carrier plates 3 with different specifications in a classified manner, but also realize positioning quickly and accurately, so that the production efficiency is improved, and the occupied space is small.

Specifically, the synchronous lifting unit 1 includes two stands 10. The top end of the stand 10 is provided with a cross beam 11. The beam 11 is provided with a first driving source 12. The stand 10 is provided with a screw 17 in the vertical direction. The screw rod 17 is provided with a lifting plate 19. The free end of the first driving source 12 is synchronously connected with the two screw rods 17 respectively. The buffer transfer unit 2 is fixed between two lifting plates 19. The first driving source 12 can simultaneously drive the two screw rods 17 to rotate, so that the two lifting plates 19 are driven to lift synchronously, the lifting precision is high, the load bearing capacity is strong, and the phenomenon that the buffer transmission unit 2 inclines during lifting cannot occur.

In order to reduce the rotating speed of the screw rod 17 and improve the lifting stability, the cross beam 11 is provided with a speed reducer 13 and two lifting transmission shafts 14. The speed reducer 13 is connected with the first driving source 12. The two lifting transmission shafts 14 are located on two sides of the speed reducer 13 and are connected with the speed reducer 13. The lifting transmission shaft 14 is connected with a screw rod 17. In addition, the reducer 13 can increase the load of the first drive source 12.

As a further improvement of the present invention, a commutator 15 is provided on the beam 11. The commutator 15 is connected with the lifting transmission shaft 14 and the screw rod 17 respectively. The commutator 15 is able to change the direction of the drive.

As a further improvement of the present invention, a shaft coupling 16 is disposed between the commutator 15 and the lifting transmission shaft 14 and the lead screw 17. The coupling 16 can avoid damage to components caused by over-blockage during transmission.

The stand 10 is provided with slide rails 18 on both sides of the screw 17 in the vertical direction. The lifting plate 19 is slidably disposed on the slide rail 18. The slide rail 18 can improve the linearity of the lifting plate 19.

The buffer transfer unit 2 includes a buffer holder 20. Two sides of the buffer support 20 are respectively fixed on the two lifting plates 19. The buffer bracket 20 is provided with a second driving source 21, a transmission shaft 23 and a transmission belt 27. The transmission drive shaft 23 spans the buffer bracket 20. The second driving source 21 is connected with the transmission shaft 23. At least two transmission belts 27 are respectively positioned at two sides of the buffer bracket 20 and synchronously connected with the transmission shaft 23. A conveyor belt 27 is supported below the carrier plate 3. The second driving source 21 can drive the transmission shaft 23 to rotate, and the transmission shaft 23 drives all the transmission belts 27 to synchronously transmit, so that the synchronism of the carrier plate 3 at any time is ensured, and the transmission accuracy is improved.

Specifically, the driving wheel 22 is provided on the second driving source 21. The transmission shaft 23 is provided with a driven wheel 24 and a transmission wheel 26. A drive belt 25 is provided between the drive pulley 22 and the driven pulley 24. The transmission belt 27 is fitted over the transmission wheel 26.

In some preferred embodiments of the present invention, the buffer bracket 20 is provided with a sensor 28 at both the entrance and exit position and the buffer position. The sensor 28 can detect the entrance and exit and the presence of the carrier plate 3.

The transition guiding rollers 29 are disposed at two sides of the inlet/outlet position of the buffer support 20 and below the carrier plate 3. The transition guide roller 29 can keep the advantages of long distance, simplicity, high speed and the like of belt conveying, and meanwhile, the height of the transition guide roller in the process of entering and exiting can be guaranteed not to be changed due to the use of a soft belt, so that the butting accuracy is greatly improved, and the production accuracy and smoothness are improved.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. The utility model provides a solar wafer support plate classified storage mechanism which characterized in that: including synchronous hoisting unit and a plurality of buffer memory transmission unit that sets up above that along vertical direction array, every all set up at least one support plate that is used for holding the battery piece on the buffer memory transmission unit, buffer memory transmission unit is provided with the transition that can bear the support plate and leads positive gyro wheel in the business turn over position department of transmission.

2. The solar cell carrier plate sorting and storing mechanism of claim 1, wherein: the synchronous lifting unit comprises two vertical frames, a cross beam is arranged at the top end of each vertical frame, a first driving source is arranged on the cross beam, a screw rod is arranged in the vertical direction of each vertical frame, lifting plates are arranged on the screw rods, the free ends of the first driving sources are respectively synchronously connected with the two screw rods, and the cache transmission unit is fixed between the two lifting plates.

3. The solar cell carrier plate sorting and storing mechanism of claim 2, wherein: be provided with speed reducer and two promotion transmission shafts on the crossbeam, the speed reducer is connected with driving source one, two it is located the both sides of speed reducer to promote the transmission shaft, and all is connected with the speed reducer, it is connected with the lead screw to promote the transmission shaft.

4. The solar cell carrier plate sorting and storing mechanism of claim 3, wherein: the beam is provided with a commutator which is respectively connected with the lifting transmission shaft and the screw rod.

5. The solar cell carrier plate sorting and storing mechanism of claim 4, wherein: and couplings are arranged among the commutator, the lifting transmission shaft and the screw rod.

6. The solar cell carrier plate sorting and storing mechanism of claim 2, wherein: the vertical frame is provided with slide rails on two sides of the screw rod along the vertical direction, and the lifting plate is arranged on the slide rails in a sliding mode.

7. The solar cell carrier plate sorting and storing mechanism of claim 2, wherein: buffer memory transmission unit is including buffer memory support, the both sides of buffer memory support are fixed respectively on two lifter plates, be provided with driving source two, transmission shaft and transmission belt on the buffer memory support, the transmission shaft spans on buffer memory support, driving source two is connected with the transmission shaft, at least two transmission belt is located the both sides of buffer memory support respectively, and with transmission shaft synchronous connection, the transmission belt bearing is in the below of support plate.

8. The solar cell carrier plate sorting and storing mechanism of claim 7, wherein: the driving source II is provided with a driving wheel, the transmission shaft is provided with a driven wheel and a transmission wheel, a driving belt is sleeved between the driving wheel and the driven wheel, and the transmission belt is sleeved on the transmission wheel.

9. The solar cell carrier plate sorting and storing mechanism of claim 7, wherein: the cache support is provided with sensors at the inlet and outlet positions and the cache position.

10. The solar cell carrier plate sorting and storing mechanism of claim 7, wherein: the transition guide rollers are arranged on two sides of the inlet and outlet positions of the buffer support and are positioned below the carrier plate.

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