CN221115486U - Transmission system and cell processing production line - Google Patents

Abstract

The utility model belongs to the technical field of transmission and discloses a transmission system and a battery cell processing production line. The transmission system comprises a main transmission mechanism, a transfer transmission mechanism, a conversion mechanism and a buffer mechanism, wherein the main transmission mechanism is used for transmitting products, the conversion mechanism can transfer the products transmitted by the main transmission mechanism onto the transfer transmission mechanism, so that the transfer transmission mechanism transfers the products, and the buffer mechanism can be automatically abutted with the tail end of the transfer transmission mechanism to temporarily store the products transmitted by the transfer transmission mechanism. The transmission system can automatically butt-joint and buffer the products after being split, does not need to carry and buffer the products manually, and has high automation degree and low cost. The battery cell processing production line transmits products by using the transmission system, and when the products are jammed or piled up on the transmission system, the products can be automatically butted and cached after being split, manual carrying and caching are not needed, the automation degree is high, and the cost is low.

Description

Transmission system and cell processing production line

Technical Field

The utility model relates to the technical field of transmission, in particular to a transmission system and a battery cell processing production line.

Background

The battery cell is the minimum unit of a battery system, a plurality of battery cells form a module, and a plurality of modules form a battery system. The production process of the cell product can be roughly divided into three stages: pole piece preparation, battery core assembly and formation detection. In the stage of assembling the battery cells, a battery cell processing production line is generally used for processing battery cell products, the battery cell processing production line comprises a transmission system and processing equipment, the battery cell products are generally driven by the transmission system to be conveyed to equipment in procedures of lamination, welding, packaging and the like, and the time for the battery cell products to pass through the equipment is different due to different working contents of the equipment. In addition, sometimes the device fails, resulting in a failure of the cell product to pass through the device. In conclusion, the battery cell products are easy to be jammed or even stacked on a transmission system in the battery cell assembly stage, and the production efficiency of the products is affected.

In the prior art, some conveying systems can solve the problems of blockage and accumulation of products at a certain position, but the conveying systems can only split the products, and the products are cached by equipment or manpower in the follow-up process, so that the automation degree is low. In addition, these transport systems tend to be longer and the cost of the transport system is higher in order to accommodate more product.

Therefore, a new transmission system and a cell processing line are needed to solve the problems that the product cannot be automatically buffered, manual transportation and buffering are needed, the automation degree is low, and the cost is high.

Disclosure of utility model

An object of the present utility model is to provide a transmission system, which can automatically dock and buffer products after being split, does not need to manually carry and buffer, has high automation degree and low cost.

To achieve the purpose, the utility model adopts the following technical scheme:

A transmission system, comprising:

The main transmission mechanism is used for transmitting products;

The transfer conveying mechanism and the conversion mechanism can transfer the products conveyed by the main conveying mechanism to the transfer conveying mechanism so that the transfer conveying mechanism can transfer and convey the products; and

The buffer mechanism can be automatically in butt joint with the tail end of the transfer transmission mechanism so as to temporarily store the products transmitted by the transfer transmission mechanism.

As the preferred scheme of transmission system, buffer gear includes the support frame, be provided with a plurality of buffer memory positions of arranging along upper and lower direction on the support frame, every buffer memory position homoenergetic is automatic temporarily transport the product of transmission mechanism.

As a preferred embodiment of the transmission system, the transmission system further includes:

The output end of the first lifting mechanism is connected with the transferring and conveying mechanism, and the first lifting mechanism is used for driving the transferring and conveying mechanism to lift so that the tail end of the transferring and conveying mechanism is in butt joint with any buffer position.

As a preferred embodiment of the transmission system, the buffer mechanism further includes:

A rotating electric machine;

The driving shaft is rotationally connected with the supporting frame, and the output end of the rotating motor is connected with the driving shaft; and

The driven shaft is rotationally connected with the support frame, and each buffer memory position department all is provided with the driving shaft with the driven shaft, the driving shaft with the driven shaft is followed transport transmission mechanism carries the direction interval arrangement of product, the driving shaft with the driven shaft can be in the correspondence buffer memory position department bears jointly the product.

As a preferred embodiment of the transmission system, the switching mechanism includes:

A transfer assembly for transferring the product; and

The steering assembly is connected with the transmission assembly, the main transmission mechanism and the transferring transmission mechanism are positioned on the same horizontal plane, and the steering assembly is used for driving the transmission assembly to switch between a first position in butt joint with the main transmission mechanism and a second position in butt joint with the transferring transmission mechanism.

As a preferred embodiment of the transmission system, the switching mechanism includes:

A transfer assembly for transferring the product; and

The output end of the second lifting mechanism is connected with the transmission assembly, the main transmission mechanism and the transferring transmission mechanism are arranged in a vertically opposite mode, and the second lifting mechanism is used for driving the transmission assembly to switch between a third position in butt joint with the main transmission mechanism and a fourth position in butt joint with the transferring transmission mechanism.

As a preferred embodiment of the conveying system, the switching mechanism is a manipulator for carrying the product between the main conveying mechanism and the transfer conveying mechanism.

As a preferred embodiment of the transmission system, the main transmission mechanism includes:

A first bracket;

the first rollers are arranged at intervals along the transmission direction of the main transmission mechanism, and are all rotatably arranged on the first bracket; and

The first driving motor is used for synchronously driving a plurality of first rollers to rotate relative to the first bracket.

As a preferred version of the transfer system, the transfer mechanism includes a transfer assembly for transferring the product, and the transfer assembly is selectively engageable with one of the main transfer mechanism and the transfer mechanism, the transfer assembly including:

a third bracket;

The third rollers are arranged at intervals along the transmission direction of the main transmission mechanism, and are all rotatably arranged on the third bracket; and

And the third driving motor is used for synchronously driving a plurality of third rollers to rotate relative to the third bracket, and the diameter of the third rollers is larger than that of the first rollers.

Another object of the present utility model is to provide a battery cell processing production line, which can automatically dock and buffer products after diverting the products, does not need to manually carry and buffer the products, and has high automation degree and low cost.

To achieve the purpose, the utility model adopts the following technical scheme:

The battery cell processing production line comprises lamination equipment, welding equipment and packaging equipment, and further comprises the conveying system, wherein the lamination equipment is used for stacking a plurality of products, the welding equipment is used for welding the products with the lugs, the packaging equipment is used for sealing the products in an aluminum plastic film, and the main conveying mechanism sequentially conveys the products to the lamination equipment, the welding equipment and the packaging equipment.

The beneficial effects are that:

The utility model provides a conveying system which can transfer products on a main conveying mechanism to a transferring conveying mechanism through a switching mechanism, so that the products are prevented from being jammed or accumulated on the main conveying mechanism. In addition, the transmission system can automatically transmit the products to the buffer memory mechanism from the tail end of the transfer transmission mechanism, so that automatic butt joint buffer memory of the products is realized, manual carrying buffer memory is not needed, and the automation degree is high. In addition, through setting up buffer gear, can reduce the length of transporting transport mechanism, reduce transmission system's cost. In conclusion, the transmission system can automatically butt-joint and buffer products after product distribution, does not need manual carrying and buffering, and has high automation degree and low cost.

The utility model also provides a battery cell processing production line, which uses the transmission system to transmit products, when the products are jammed or piled on the transmission system, the products can be automatically butted and buffered after being split, manual carrying and buffering are not needed, the automation degree is high, and the cost is low.

Drawings

Fig. 1 is a schematic structural diagram of a transmission system according to an embodiment of the present utility model;

fig. 2 is another schematic structural diagram of a transmission system according to an embodiment of the present utility model;

Fig. 3 is a schematic diagram of a buffer mechanism and a first lifting mechanism according to an embodiment of the present utility model.

In the figure:

1. a main transmission mechanism; 11. A first bracket; 12. A first roller;

2. a transfer transmission mechanism; 21. A second bracket; 22. A second drum;

3. A conversion mechanism; 31. a steering assembly; 311. a support table; 312. a steering member; 32. a transmission assembly; 321. a third bracket; 322. a third drum;

4. a buffer mechanism; 41. a support frame; 42. a driving shaft; 43. a driven shaft; 44. caching bits;

5. A first lifting mechanism; 51. a driving member; 52. a transmission member;

100. a product; 110. a carrier; 120. a product body.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present utility model are shown in the drawings.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", and the like are orientation or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

Example 1

The production process of the cell product can be roughly divided into three stages: pole piece preparation, battery core assembly and formation detection. In the stage of battery cell assembly, the pole pieces of the battery cells are required to be subjected to lamination, welding, packaging and other working procedures, an automatic battery cell processing production line is generally used for processing battery cell products, and an automatic conveying system is used for conveying the battery cell products to each station for processing, so that the degree of automation is higher.

Wire the embodiment of the disclosure provides a battery cell processing production line, and this battery cell processing production line includes lamination equipment, welding equipment, equipment for packing and transmission system, and lamination equipment is used for stacking the pole piece of a plurality of battery cells, and welding equipment is used for welding the pole piece and the utmost point ear of battery cell, and equipment for packing is used for sealing the battery cell in the plastic-aluminum membrane, and transmission system is used for transmitting the battery cell to lamination equipment, welding equipment and equipment for packing department in proper order. However, during the processing, the time for the product 100 to pass through each device may be different due to different working contents of each device, or the product 100 may not pass through the device due to failure of the device, and may be jammed or accumulated on the transmission system, thereby affecting the production efficiency of the product 100.

To solve the above-mentioned problem, as shown in fig. 1 to 3, the transmission system provided in the embodiments of the present disclosure includes a main transmission mechanism 1, a transferring transmission mechanism 2, a switching mechanism 3, and a buffer mechanism 4, where the main transmission mechanism 1 is used for transmitting a product 100, the switching mechanism 3 can transfer the product 100 transmitted by the main transmission mechanism 1 onto the transferring transmission mechanism 2, so that the transferring transmission mechanism 2 transfers the product 100, and the buffer mechanism 4 can automatically dock with the end of the transferring transmission mechanism 2 to temporarily store the product 100 transmitted by the transferring transmission mechanism 2. When the product 100 is jammed on the main conveying mechanism 1, the conversion mechanism 3 can transfer the product 100 to the transfer conveying mechanism 2, so that the main conveying mechanism 1 is dredged, the product 100 is prevented from being accumulated on the main conveying mechanism 1, and the production efficiency is improved. In addition, the buffer mechanism 4 can be automatically in butt joint with the tail end of the transfer transmission mechanism 2, so that the transmission system can realize automatic butt joint buffer of the product 100, manual carrying buffer is not needed, the automation degree is high, and the cost is low.

The product 100 is referred to as a battery cell, and the conveyor system can be used in other production lines to transport other articles.

In addition, as shown in fig. 1, the product 100 includes a carrier 110 and a product main body 120, where the carrier 110 is used to support the product main body 120 for transmission on a transmission system, and by setting the carrier 110, damage caused by collision between the product main body 120 and the main transmission mechanism 1, the transfer transmission mechanism 2 or the conversion mechanism 3 in the transmission process can be avoided. The carrier 110 is a tray, and the tray has a simple structure and low cost, and all other carriers 110 capable of realizing the bearing function are within the scope of the embodiments of the present disclosure.

In addition, the product 100 further includes a clamping mechanism for fixing the product body 120 to the carrier 110, so as to avoid damage caused by the product body 120 falling from the carrier 110 during the conveying process. The fixture is the clamping jaw, and the centre gripping of clamping jaw is more stable, and other all can realize the fixture of centre gripping fixed function all be within the protection scope of this disclosure embodiment.

In addition, the transmission system further comprises a detection mechanism and a control mechanism, the detection mechanism and the conversion mechanism 3 are in signal connection with the control mechanism, the detection mechanism can detect the congestion condition of the product 100 on the main transmission mechanism 1, when the congestion of the main transmission mechanism 1 is found, the detection mechanism transmits a detection signal to the control mechanism, and the control mechanism controls the conversion mechanism 3 to work, so that the product 100 is transferred from the main transmission mechanism 1 to the transfer transmission mechanism 2. In the embodiment of the disclosure, the detection mechanism is an industrial camera, the application range of the industrial camera is wide, the cost is low, and all other detection mechanisms capable of realizing the detection function are within the protection scope of the embodiment of the disclosure.

As shown in fig. 3, the buffer mechanism 4 includes a support 41, and a plurality of buffer positions 44 arranged along an up-down direction are disposed on the support 41, where each buffer position 44 can automatically temporarily store the product 100 transferred by the transfer and transfer mechanism 2. The plurality of buffer locations 44 are arranged along the up-down direction, so that the space can be effectively utilized, and the transverse occupied area of the buffer mechanism 4 is reduced.

As shown in fig. 3, the conveying system further includes a first lifting mechanism 5, an output end of the first lifting mechanism 5 is connected with the transferring and conveying mechanism 2, and the first lifting mechanism 5 is used for driving the transferring and conveying mechanism 2 to lift, so that the tail end of the transferring and conveying mechanism 2 is in butt joint with any buffer position 44. The first lifting mechanism 5 can ensure that the transfer transmission mechanism 2 realizes automatic butt joint with any buffer storage position 44.

Specifically, as shown in fig. 3, the first lifting mechanism 5 is disposed on one side of the transfer transmission mechanism 2, the first lifting mechanism 5 includes a driving member 51 and a driving member 52, wherein the driving member 51 is a motor, the driving member 52 is a screw, an output shaft of the motor is connected with the screw in a driving manner, the screw extends in an up-down direction, the screw is in threaded connection with the transfer transmission mechanism 2, and the motor drives the screw to rotate, so that the transfer transmission mechanism 2 moves up and down along the screw, and the transfer transmission mechanism 2 can be stably abutted with each buffer position 44, thereby ensuring the working stability of the transmission system. In other embodiments, the first lifting mechanism 5 may be a linear motor or a linear cylinder, and all other first lifting mechanisms 5 that can implement the lifting function are within the scope of the embodiments of the present disclosure.

In addition, the number of the first lifting mechanisms 5 can be at least two, the at least two first lifting mechanisms 5 are arranged at intervals along the transmission direction of the transferring and conveying mechanism 2, and the at least two first lifting mechanisms 5 can ensure that the lifting of the longer transferring and conveying mechanism 2 is stable and safe.

In other embodiments, the first lifting mechanism 5 may be configured to drive the buffer mechanism 4 to lift, so that the buffer position 44 is automatically docked with the transfer and conveying mechanism 2, and the transfer and conveying mechanism 2 does not need to lift at this time, so that the transfer and conveying mechanism 2 can be ensured to stably convey the product 100, and the product 100 is prevented from falling or colliding in the lifting process.

In addition, as shown in fig. 3, the buffer mechanism 4 further includes a rotating motor, a driving shaft 42 and a driven shaft 43, the driving shaft 42 is rotationally connected with the supporting frame 41, an output end of the rotating motor is connected with the driving shaft 42, the driven shaft 43 is rotationally connected with the supporting frame 41, and each buffer position 44 is provided with the driving shaft 42 and the driven shaft 43, the driving shaft 42 and the driven shaft 43 are arranged at intervals along the direction of conveying the product 100 by the transfer transmission mechanism 2, and the driving shaft 42 and the driven shaft 43 can jointly bear the product 100 at the corresponding buffer position 44.

When the transfer and transmission mechanism 2 needs to transmit the conveyed product 100 to the butted buffer position 44, the transfer and transmission mechanism 2 pushes the product 100 to the buffer mechanism 4, the rotating motor can drive the driving shaft 42 to rotate, the driving shaft 42 and the driven shaft 43 send the product 100 into the buffer position 44 through rotation, and the driving shaft 42 and the driven shaft 43 support the product 100. When the main transmission mechanism 1 is no longer jammed, the product 100 borne by the buffer memory position 44 needs to be transferred to the transfer transmission mechanism 2, so that when the transfer transmission mechanism 2 transfers the product 100 to the main transmission mechanism 1, the rotating motor can drive the driving shaft 42 to rotate reversely, so that the product 100 is automatically transmitted from the buffer memory position 44 back to the transfer transmission mechanism 2 and then is transmitted from the transfer transmission mechanism 2 back to the main transmission mechanism 1 for continuous processing, and homing and conveying of the product 100 are automatically realized, and the automatic level of the transmission system is higher, the labor is saved, and the use is convenient.

In addition, each buffer position 44 is provided with a position detection device, the position detection device is in signal connection with the control mechanism, the position detection device can detect whether a product 100 exists on the buffer position 44 or not, then a detection signal is transmitted to the control mechanism, the control mechanism determines the lifting height of the transfer transmission mechanism 2, and then the first lifting mechanism 5 is controlled to lift the transfer transmission mechanism 2 to the empty buffer position 44. In the embodiment of the disclosure, the position detection device is a sensor, the application range of the sensor is wide, the detection precision is high, and all other position detection devices capable of realizing the position detection function are within the protection range of the embodiment of the disclosure.

As shown in fig. 1 and 2, the switching mechanism 3 includes a transmission assembly 32 and a steering assembly 31, the transmission assembly 32 is used for transmitting the product 100, the steering assembly 31 is connected with the transmission assembly 32, the main transmission mechanism 1 and the transferring transmission mechanism 2 are located at the same horizontal plane, and the steering assembly 31 is used for driving the transmission assembly 32 to switch between a first position in which the main transmission mechanism 1 is in butt joint and a second position in which the transferring transmission mechanism 2 is in butt joint. Specifically, the transfer assembly 32 is first in a first position to interface with the main transfer mechanism 1 so that the product 100 is transferred onto the transfer assembly 32, and after the product 100 is transferred onto the transfer assembly 32, the steering assembly 31 drives the transfer assembly 32 to steer so that the transfer assembly 32 is in a second position to interface with the transfer mechanism 2, and then transfers the product 100 onto the transfer mechanism 2, thereby realizing transfer of the product 100. The structure of the switching mechanism 3 is simpler, the switching mechanism 3 can realize the position switching of the transmission assembly 32 by driving the steering assembly 31, and the operation is more convenient.

In addition, the steering assembly 31 includes a steering member 312 and a rotation driving member, wherein an output end of the rotation driving member is fixedly connected with the steering member 312, an upper end of the steering member 312 is connected with the transmission assembly 32, and the rotation driving member can drive the steering member 312 to rotate in a horizontal plane so as to realize position switching of the transmission assembly 32, so that the transmission assembly 32 can be in butt joint with the main transmission mechanism 1 or in butt joint with the transfer transmission mechanism 2, and transfer transmission of the product 100 is completed. In the embodiment of the disclosure, the rotary driving member is a rotary motor, and the rotary motor has a simple structure and low cost, and all other rotary driving members capable of realizing the rotary driving function are within the protection scope of the embodiment of the disclosure. The turning member 312 is a turntable, and the turntable rotates smoothly, and all other turning members 312 capable of achieving a rotation function are within the scope of the embodiments of the present disclosure.

The steering assembly 31 further comprises a supporting table 311, the lower end of the steering member 312 is rotatably connected with the supporting table 311, and the supporting table 311 can play a role in stably supporting the steering member 312 and the transmission assembly 32.

Alternatively, in the presently disclosed embodiment, the transfer conveyor 2 is disposed at 90 ° to the main conveyor 1, such that the transfer assembly 32 interfaces with the transfer conveyor 2 more stably and with greater efficiency. In other embodiments, the transfer transmission mechanism 2 and the main transmission mechanism 1 may be arranged at other angles, so that the flexibility of the transmission system arrangement is higher, and the transmission system can be suitable for different ground conditions. In other embodiments, the transshipment conveyor 2 may be positioned adjacent and parallel to the main conveyor 1, which is more space efficient.

As shown in fig. 1 and 2, the main transmission mechanism 1 includes a first bracket 11, a plurality of first rollers 12, and a first driving motor, the plurality of first rollers 12 are arranged at intervals along the transmission direction of the main transmission mechanism 1, the plurality of first rollers 12 are all rotatably disposed on the first bracket 11, and the first driving motor is used for synchronously driving the plurality of first rollers 12 to rotate relative to the first bracket 11. Specifically, the output end of the first driving motor is connected to the plurality of first rollers 12, and the first driving motor rotates to drive the plurality of first rollers 12 to rotate on the first bracket 11, thereby conveying the product 100 using the plurality of first rollers 12. The main conveying mechanism 1 uses a plurality of first rollers 12 to convey the product 100, so that the direction of conveying is more convenient to change, and the conveying is more stable.

In addition, the transfer transmission mechanism 2 includes a second bracket 21, a plurality of second rollers 22, and a second driving motor, and the transmission process of the transfer transmission mechanism 2 is the same as that of the main transmission mechanism 1, which is not described herein. The transmission assembly 32 includes a third bracket 321, a plurality of third rollers 322, and a third driving motor, and a transmission process of the transmission assembly 32 is the same as that of the main transmission mechanism 1, which is not described herein.

In addition, the diameter of the third roller 322 is greater than the diameters of the first roller 12 and the second roller 22. The contact area between the third roller 322 with larger diameter and the product 100 is larger, so that the friction force during conveying is also larger, the conveying speed of the conveying assembly 32 to the product 100 is higher, the conveying efficiency is higher, and the main conveying mechanism 1 can be dredged faster.

In other embodiments, the main conveying mechanism 1, the transfer conveying mechanism 2 and the conveying assembly 32 may be belt conveying structures, and the belt conveying structures have the advantage of stable conveying. Since the belt conveying structure belongs to the prior art, the description thereof will not be repeated here.

In addition, when the transmission assembly 32 is in butt joint with the main transmission mechanism 1, the gap between the transmission assembly 32 and the main transmission mechanism 1 is smaller than the width of the product 100 in the transmission direction, so that the product 100 can be ensured to be smoothly transmitted to the transmission assembly 32, and damage caused by falling of the product 100 is avoided. When the transmission assembly 32 is in butt joint with the transferring and conveying mechanism 2, the gap between the transmission assembly 32 and the transferring and conveying mechanism 2 is smaller than the width of the product 100 in the conveying direction, so that the support 200 can be smoothly transferred in the transferring and conveying process, the support product 100 cannot fall from the gap, and the product 100 is prevented from being damaged.

The operation of the transmission system will be described with reference to fig. 1 to 3:

As shown in fig. 1, in a normal conveyance situation, the main conveyance mechanism 1 conveys the product 100 while the conveyance assembly 32 is docked with the main conveyance mechanism 1;

As shown in fig. 2, when the detection mechanism detects that the product 100 on the main conveying mechanism 1 is jammed, the conveying assembly 32 is controlled to turn, and the conveying assembly 32 is utilized to convey the product 100 on the main conveying mechanism 1 to the transfer conveying mechanism 2;

Next, as shown in fig. 3, the transfer and transmission mechanism 2 transmits the product 100 to the buffer mechanism 4, and the first lifting mechanism 5 drives the transfer and transmission mechanism 2 to be in butt joint with the empty buffer position 44, so that the product 100 is temporarily stored in the buffer mechanism 4;

When the main conveying mechanism 1 is not jammed any more, the first lifting mechanism 5 drives the transfer conveying mechanism 2 to be in butt joint with the buffer storage position 44 in which the product 100 exists, and the rotating motor drives the driving shaft 42 to rotate, so that the product 100 is conveyed back to the transfer conveying mechanism 2;

Finally, the products 100 are transported back onto the main transport mechanism 1 by the transport assembly 32.

Example two

The embodiment of the present disclosure provides a transmission system, which has substantially the same structure as that of the first embodiment, and the same points are not repeated, except that: the conversion mechanism 3 comprises a transmission assembly 32 and a second lifting mechanism, the transmission assembly 32 is used for transmitting the product 100, the output end of the second lifting mechanism is connected with the transmission assembly 32, the main transmission mechanism 1 and the transferring transmission mechanism 2 are arranged in a vertically opposite mode, and the second lifting mechanism is used for driving the transmission assembly 32 to switch between a third position in butt joint with the main transmission mechanism 1 and a fourth position in butt joint with the transferring transmission mechanism 2. Specifically, the conveying component 32 is located at the third position where the conveying component 32 is in butt joint with the main conveying mechanism 1, when the product 100 is conveyed onto the conveying component 32, the second lifting mechanism drives the conveying component 32 to ascend or descend, so that the conveying component 32 is located at the fourth position where the conveying component 32 is in butt joint with the transferring conveying mechanism 2, and then the conveying component 32 conveys the product 100 onto the transferring conveying mechanism 2, so that dredging of the main conveying mechanism 1 is achieved. The main transmission mechanism 1 and the transfer transmission mechanism 2 are arranged in a vertically opposite mode, so that the ground space is saved, and the space utilization rate of the whole transmission system is higher. In the embodiment of the present disclosure, the working process of the second lifting mechanism is the same as that of the first driving mechanism, which is not described herein, and all other second lifting mechanisms capable of realizing the lifting function are within the protection scope of the embodiment of the present disclosure.

Example III

The embodiment of the present disclosure provides a transmission system, which has substantially the same structure as that of the first embodiment, and the same points are not repeated, except that: the transfer mechanism 3 is a robot for transporting the product 100 between the main transport mechanism 1 and the transfer transport mechanism 2. The robot is more flexible to move and can handle the product 100 more conveniently.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Various obvious changes, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the utility model. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. A transmission system, comprising:

A main transport mechanism (1) for transporting the product (100);

A transfer and transmission mechanism (2) and a switching mechanism (3), wherein the switching mechanism (3) can transfer the product (100) transmitted by the main transmission mechanism (1) onto the transfer and transmission mechanism (2) so that the transfer and transmission mechanism (2) can transfer and transmit the product (100); and

The buffer storage mechanism (4), buffer storage mechanism (4) can be automatic with the terminal butt joint of transporting transport mechanism (2) is in order to temporarily store transport mechanism (2) transmission product (100).

2. The conveying system according to claim 1, wherein the buffer mechanism (4) comprises a supporting frame (41), a plurality of buffer positions (44) which are arranged along the up-down direction are arranged on the supporting frame (41), and each buffer position (44) can automatically temporarily store the products (100) conveyed by the transferring and conveying mechanism (2).

3. The transmission system of claim 2, further comprising:

The first lifting mechanism (5), the output of first lifting mechanism (5) with transport mechanism (2) is connected, first lifting mechanism (5) are used for driving transport mechanism (2) goes up and down, so that transport the end of transport mechanism (2) with arbitrary buffer memory position (44) butt joint.

4. The transmission system according to claim 2, wherein the buffer mechanism (4) further comprises:

A rotating electric machine;

The driving shaft (42) is rotationally connected with the supporting frame (41), and the output end of the rotating motor is connected with the driving shaft (42); and

The driven shaft (43) is rotationally connected with the support frame (41), and each buffer storage position (44) is provided with the driving shaft (42) and the driven shaft (43), the driving shaft (42) and the driven shaft (43) are arranged at intervals along the direction of conveying the product (100) by the transfer transmission mechanism (2), and the driving shaft (42) and the driven shaft (43) can bear the product (100) together at the corresponding buffer storage position (44).

5. The transmission system according to any one of claims 1 to 4, wherein the switching mechanism (3) comprises:

-a transport assembly (32) for transporting the product (100); and

The steering assembly (31) is connected with the transmission assembly (32), the main transmission mechanism (1) and the transferring transmission mechanism (2) are located on the same horizontal plane, and the steering assembly (31) is used for driving the transmission assembly (32) to switch between a first position in butt joint with the main transmission mechanism (1) and a second position in butt joint with the transferring transmission mechanism (2).

6. The transmission system according to any one of claims 1 to 4, wherein the switching mechanism (3) comprises:

-a transport assembly (32) for transporting the product (100); and

The output end of the second lifting mechanism is connected with the transmission assembly (32), the main transmission mechanism (1) and the transferring transmission mechanism (2) are arranged in a vertically opposite mode, and the second lifting mechanism is used for driving the transmission assembly (32) to switch between a third position in butt joint with the main transmission mechanism (1) and a fourth position in butt joint with the transferring transmission mechanism (2).

7. The transfer system according to any one of claims 1 to 4, wherein the changeover mechanism (3) is a manipulator for handling the products (100) between the main transfer mechanism (1) and the transfer mechanism (2).

8. The transmission system according to any one of claims 1 to 4, wherein the main transmission mechanism (1) comprises:

A first bracket (11);

the first rollers (12) are arranged at intervals along the transmission direction of the main transmission mechanism (1), and the first rollers (12) are rotatably arranged on the first bracket (11); and

And the first driving motor is used for synchronously driving a plurality of first rollers (12) to rotate relative to the first bracket (11).

9. The transfer system of claim 8, wherein the transfer mechanism (3) comprises a transfer assembly (32), the transfer assembly (32) being for transferring the product (100), and the transfer assembly (32) being selectively connectable with one of the main transfer mechanism (1) and the transfer mechanism (2), the transfer assembly (32) comprising:

a third bracket (321);

The third rollers (322) are arranged at intervals along the transmission direction of the main transmission mechanism (1), and the third rollers (322) are rotatably arranged on the third bracket (321); and

And the third driving motor is used for synchronously driving a plurality of third rollers (322) to rotate relative to the third bracket (321), and the diameter of the third rollers (322) is larger than that of the first rollers (12).

10. Cell processing production line, comprising lamination equipment, welding equipment and packaging equipment, characterized in that, still include the transmission system of any one of claims 1-9, lamination equipment is used for stacking a plurality of product (100), welding equipment is used for with product (100) and utmost point ear welding, packaging equipment is used for with product (100) seal in the plastic-aluminum membrane, main transmission mechanism (1) will product (100) are transmitted to lamination equipment, welding equipment and packaging equipment department in proper order.