CN220663155U - Module production manufacturing device - Google Patents

Abstract

The utility model provides a module production manufacturing device, which comprises a working platform, a driving mechanism, a driven mechanism and a transmission chain, wherein the driving mechanism is arranged on the working platform; the driving mechanism can drive the driving chain to rotate to drive the driven mechanism to rotate, so that synchronous lifting of the driving mechanism and the driven mechanism is realized, and the working platform is arranged above the driving mechanism and the driven mechanism. According to the utility model, through the mutual matching of the driving mechanism, the driven mechanism and the transmission chain, the driving mechanism can drive the transmission chain to rotate so as to drive the driven mechanism to rotate, and the synchronous lifting of the driving mechanism and the driven mechanism is realized, so that the requirements of people with different heights are met.

Description

A module production and manufacturing device

Technical field

The utility model relates to the technical field of battery module manufacturing, specifically a module production and manufacturing device.

Background technique

With the development of new energy vehicle technology, market demand continues to increase. As the core part of electric vehicles, battery modules receive more attention than other components. In the production and manufacturing process of battery modules, the modules are stacked and packaged. , is an important link among them.

At present, the stacking and packaging processes of modules are mainly manual operations. Due to height differences, everyone has different requirements for the height of the working platform. The existing working platform cannot meet the needs of people of different heights.

Utility model content

The technical problem to be solved by this utility model is how to make the working platform meet the needs of people of different heights.

The utility model solves the above technical problems through the following technical means:

A module production and manufacturing device includes a working platform (1), a driving mechanism (2), a driven mechanism (3), and a transmission chain (4); the transmission chain (4) is sleeved on the driving mechanism (2) and On the driven mechanism (3), the driving mechanism (2) can drive the transmission chain (4) to rotate to drive the driven mechanism (3) to rotate, thereby achieving synchronization between the driving mechanism (2) and the driven mechanism (3). Lifting, the working platform (1) is arranged above the driving mechanism (2) and the driven mechanism (3).

Beneficial effects: Through the cooperation of the driving mechanism, the driven mechanism and the transmission chain, the driving mechanism can drive the transmission chain to rotate to drive the driven mechanism to rotate, realizing the synchronous lifting and lowering of the driving mechanism and the driven mechanism, so that the working platform can meet different needs. The needs of tall people.

Further, the driving mechanism (2) includes a sleeve (21), a gear shaft (22), a gear (23), and a screw rod (24). The gear shaft (22) is rotatably connected in the sleeve (21). , a gear (23) is rotatably connected to the gear shaft (22), and a screw rod (24) is internally threaded to the gear shaft (22).

Beneficial effects: Through the cooperation of the shaft sleeve, gear shaft, gear, and screw rod, rotation can be converted into lifting motion.

Further, the driving mechanism (2) also includes a support plate (25), and the support plate (25) is fixed on the top of the screw rod (24).

Further, the gear shaft (22) is rotatably connected in the sleeve (21) through the bearing (211), and a sealing plate (212) is fixed on the top of the sleeve (21). The sealing plate (212) is Annular shape, the diameter of the sealing plate (212) is consistent with the diameter of the gear shaft (22).

Beneficial effects: Through the setting of the sealing plate, the bearing can be longitudinally limited.

Further, a sealing plate (212) is fixed on the top end of the shaft sleeve (21) through fixing bolts.

Furthermore, the gear shaft (22) is processed with a step (221) and a circlip groove (222). The step (221) and the circlip groove (222) can limit the position of the gear (23).

Further, the gear shaft (22) is internally processed with threads matching the screw rod (24), and a circular cavity (214) with a diameter larger than the thread is provided in the sleeve (21) below the threads. A limiting plate (241) with an outer diameter larger than the thread and smaller than the circular cavity (214) is welded to the lower end of the rod (24).

Beneficial effects: Through the setting of the limit plate, the stroke of the screw rod can be limited.

Further, the shaft sleeve (21) is connected and fixed with the bottom platform.

Furthermore, the structure of the driven mechanism (3) is consistent with the structure of the driving mechanism (2).

Further, one driving mechanism (2) is provided, and at least two driven mechanisms (3) are provided. The driving mechanism (2) is located outside the transmission chain (4), and the driven mechanism (3) is located outside the transmission chain (4). 3) Located in the transmission chain (4).

The advantages of this utility model are:

Through the mutual cooperation of the driving mechanism, the driven mechanism and the transmission chain, the utility model can drive the transmission chain to rotate to drive the driven mechanism to rotate, realizing the synchronous lifting and lowering of the driving mechanism and the driven mechanism, thereby satisfying the needs of people of different heights. need.

The utility model can convert rotation into lifting motion through the mutual cooperation of the shaft sleeve, gear shaft, gear and screw rod.

The utility model can limit the bearing longitudinally through the arrangement of the sealing plate.

The utility model can limit the stroke of the screw rod through the setting of the limiting plate.

Description of the drawings

Figure 1 is a perspective view of a module production and manufacturing device according to an embodiment of the present invention;

Figure 2 is a perspective view of a module production and manufacturing device (excluding the working platform) according to an embodiment of the present invention;

Figure 3 is a perspective view of the driving mechanism in the module manufacturing device according to Embodiment 1 of the present utility model;

Figure 4 is a front cross-sectional view of the driving mechanism of the module manufacturing device according to the first embodiment of the present invention.

Detailed ways

In order to make the purpose, technical solution and advantages of the embodiments of the utility model clearer, the technical solution in the embodiments of the utility model will be clearly and completely described below in combination with the embodiments of the utility model. Obviously, the described embodiments are part of the embodiments of the utility model, not all of the embodiments. Based on the embodiments of the utility model, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

Embodiment 1

As shown in Figure 1, this embodiment provides a module manufacturing device, which includes a working platform 1, a driving mechanism 2, a driven mechanism 3, and a transmission chain 4.

As shown in Figures 1 and 2, there is one driving mechanism 2 and at least two driven mechanisms 3. In this embodiment, there are three driven mechanisms 3. The transmission chain 4 is a closed ring and there are 4 sets of transmission chains. It is located on the driving mechanism 2 and the driven mechanism 3. The driving mechanism 2 is located outside the transmission chain 4, and the driven mechanism 3 is located inside the transmission chain 4. The driving mechanism 2 can drive the transmission chain 4 to rotate and drive the driven mechanism 3 to rotate. , thereby realizing the synchronous lifting and lowering of the driving mechanism 2 and the driven mechanism 3; the transmission chain 4 can be arranged in an L shape or in a rectangular shape. In this embodiment, the transmission chain 4 is arranged in an L shape, and the driving mechanism 2 and a driven mechanism 3 is rotatably connected at the corner of the transmission chain 4; the working platform 1 is fixed above the driving mechanism 2 and the driven mechanism 3.

As shown in Figures 2, 3, and 4, the driving mechanism 2 includes a sleeve 21, a gear shaft 22, a gear 23, a screw rod 24, and a support plate 25; the gear shaft 22 is rotatably connected in the sleeve 21 through a bearing 211. The top of the sleeve 21 is fixed with a sealing plate 212 through fixed bolts. The sealing plate 212 is annular. The diameter of the sealing plate 212 is consistent with the diameter of the gear shaft 22 and is used to limit the bearing 211 longitudinally. The sleeve 21 is connected to the bottom platform. The gear shaft 22 is connected and fixed; the gear shaft 22 is processed with a step 221 and a circlip groove 222, and the steps and the circlip groove are used to limit the gear 23; the gear shaft 22 is internally processed with a thread (not shown) matching the screw rod 24, and the thread is The lower shaft sleeve 21 is provided with a circular cavity 214 with a diameter larger than the thread. The lower end of the screw rod 24 is welded with a limiting plate 241 with an outer diameter larger than the thread and smaller than the circular cavity 214 to limit the stroke of the screw rod 24. ; A support plate 25 is fixed on the top of the screw rod 24, and a working platform 1 is fixed on the support plate 25.

As shown in Figure 2, the structure of the driven mechanism 3 is consistent with the structure of the driving mechanism 2.

When in use, the gear 23 of the driving mechanism 2 is connected to external power, and its rotation drives the gear shaft 22 to rotate. The thread inside the gear shaft 22 drives the screw rod 24 to rise and fall through rotation. The gear shaft 22 of the driving mechanism 2 passes through the transmission chain 4 The gear shaft 22 of the driven device 3 is driven to rotate synchronously, and the threaded rotation inside the gear shaft 22 drives its screw rod 24 to rise and fall synchronously with the screw rod 24 of the driving device 2 to ensure that the working platform 1 operates smoothly.

The above embodiments are only used to illustrate the technical solution of the present invention, but not to limit it; although the present utility model has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that they can still implement the foregoing implementations. The technical solutions described in the examples are modified, or some of the technical features are equivalently replaced; and these modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of each embodiment of the present invention.

Claims (10)

1. A module production and manufacturing device, characterized by including a working platform (1), a driving mechanism (2), a driven mechanism (3), and a transmission chain (4); The transmission chain (4) is sleeved on the driving mechanism (2) and the driven mechanism (3). The driving mechanism (2) can drive the transmission chain (4) to rotate and drive the driven mechanism (3) to rotate. , to realize the synchronous lifting and lowering of the driving mechanism (2) and the driven mechanism (3), and the working platform (1) is arranged above the driving mechanism (2) and the driven mechanism (3). 2. A module production and manufacturing device according to claim 1, characterized in that: the driving mechanism (2) includes a sleeve (21), a gear shaft (22), a gear (23), and a screw rod (24). ), the gear shaft (22) is rotatably connected in the sleeve (21), a gear (23) is rotatably connected to the gear shaft (22), and a screw rod (24) is internally threadedly connected to the gear shaft (22). ). 3. A module production and manufacturing device according to claim 2, characterized in that: the driving mechanism (2) also includes a support plate (25), and a support plate (25) is fixed on the top of the screw rod (24). 25). 4. A module production and manufacturing device according to claim 2, characterized in that: the gear shaft (22) is rotatably connected in the shaft sleeve (21) through a bearing (211), and the shaft sleeve (21) A sealing plate (212) is fixed on the top end of the gear, the sealing plate (212) is annular, and the diameter of the sealing plate (212) is consistent with the diameter of the gear shaft (22). 5. A module production and manufacturing device according to claim 4, characterized in that: a sealing plate (212) is fixed on the top of the shaft sleeve (21) through a fixing bolt. 6. A module production and manufacturing device according to claim 2, characterized in that: the gear shaft (22) is processed with a step (221) and a circlip groove (222), and the step (221) and the circlip groove (222) are The spring groove (222) can limit the position of the gear (23). 7. A module production and manufacturing device according to claim 2, characterized in that: the gear shaft (22) is internally processed with threads matching the screw rod (24), and the shaft sleeve (21) below the threads A circular cavity (214) with a diameter larger than the thread is opened inside, and a limiting plate (241) with an outer diameter larger than the thread and smaller than the circular cavity (214) is welded to the lower end of the screw rod (24). 8. A module production and manufacturing device according to claim 2, characterized in that the shaft sleeve (21) is connected and fixed to the bottom platform. 9. A module production and manufacturing device according to any one of claims 1 to 8, characterized in that: the structure of the driven mechanism (3) is consistent with the structure of the driving mechanism (2). 10. A module production and manufacturing device according to claim 1, characterized in that: one driving mechanism (2) is provided, and at least two driven mechanisms (3) are provided, and the driving mechanism (2) is located outside the transmission chain (4), and the driven mechanism (3) is located within the transmission chain (4).