CN220011523U

CN220011523U - Pole piece diaphragm-free single-winding mechanism

Info

Publication number: CN220011523U
Application number: CN202321061442.8U
Authority: CN
Inventors: 陈小明; 袁忠均; 姚红波; 刘泽红
Original assignee: Dongguan Botuo Lithium Technology Co ltd
Current assignee: Dongguan Botuo Lithium Technology Co ltd
Priority date: 2023-05-05
Filing date: 2023-05-05
Publication date: 2023-11-14
Anticipated expiration: 2033-05-05

Abstract

The utility model discloses a pole piece diaphragm-free single-roll mechanism, which comprises a powder receiving box assembly, a moving mechanism, a single-roll mechanism, a needle drawing mechanism and a powder pouring mechanism, wherein the single-roll mechanism is positioned above the powder receiving box assembly, the single-roll mechanism is arranged at the output end of the moving mechanism and driven by the moving mechanism to move close to or far away from the powder receiving box assembly, the needle drawing mechanism is arranged on the single-roll mechanism, the powder pouring mechanism comprises a rotatable collecting baffle plate, the collecting baffle plate rotates to the lower side of the single-roll mechanism to receive waste generated during winding, and the collecting baffle plate rotates to the side of the single-roll mechanism to pour the generated waste into the powder receiving box assembly. The pole piece diaphragm-free single-roll mechanism can be convenient for collecting waste dust and is convenient to use, and has the advantages of saving labor cost and having a simple structure.

Description

Pole piece diaphragm-free single-winding mechanism

Technical Field

The utility model relates to the technical field of battery pole piece winding, in particular to a pole piece diaphragm-free single-winding mechanism.

Background

At present, the lithium ion battery is widely applied to the fields of mobile phones, tablet personal computers, wearable equipment, mobile power supplies, electronic cigarettes, various digital products, electric tools, power, energy storage and the like, and has wide market application and great potential. With the increasing wide application of lithium ion batteries, the battery capacity is larger and larger, and the quality requirements of people on the lithium ion batteries are also higher and higher. The battery winder in the prior art mainly does not have a waste recycling function, and can be seen in China patent CN202308201U, so that a large amount of dust is generated during winding, the internal environment of equipment is polluted, and the powder receiving box also needs to be cleaned manually and regularly, so that the existing production requirements cannot be met.

Therefore, there is a need for a pole piece no-diaphragm single-roll mechanism that can facilitate collection of waste dust and is convenient to use to solve the above-mentioned problems.

Disclosure of Invention

The utility model aims to provide a pole piece diaphragm-free single-winding mechanism which can be convenient for collecting waste dust and is convenient to use, and has the advantages of saving labor cost and having a simple structure.

In order to achieve the above purpose, the utility model provides a pole piece diaphragm-free single-roll mechanism, which comprises a powder receiving box assembly, a moving mechanism, a single-roll mechanism, a needle drawing mechanism and a powder pouring mechanism, wherein the single-roll mechanism is positioned above the powder receiving box assembly, the single-roll mechanism is arranged at the output end of the moving mechanism and driven by the moving mechanism to move to be close to or far away from the powder receiving box assembly, the needle drawing mechanism is arranged on the single-roll mechanism, the powder pouring mechanism comprises a rotatable collecting baffle plate, waste generated during winding is received by rotating the collecting baffle plate to the lower side of the single-roll mechanism, and the generated waste is poured into the powder receiving box assembly by rotating the collecting baffle plate to the side of the single-roll mechanism.

Preferably, the pole piece diaphragm-free single-winding mechanism further comprises a frame, and the powder receiving box assembly and the moving mechanism are mounted on the frame.

Preferably, the powder box receiving assembly comprises a receiving frame, an inclined guide channel and a discharge part, wherein the receiving frame is provided with a receiving port with an upward opening, the upper end of the inclined guide channel is connected with the receiving frame and communicated with the receiving frame, and the lower end of the inclined guide channel is connected with the discharge part and communicated with the discharge part.

Preferably, the powder pouring mechanism further comprises a rotary driving device and an intermediate driving frame structure, the rotary driving device is mounted on the moving mechanism, the intermediate driving frame structure is mounted at the output end of the rotary driving device, the intermediate driving frame structure is connected with the collecting baffle, and the intermediate driving frame structure rotates and drives the collecting baffle to rotate under the driving of the rotary driving device.

Preferably, the single-winding mechanism comprises a winding needle, a first winding protective shell and a second winding protective shell, the winding needle is rotatably mounted on the moving mechanism, the first winding protective shell and the second winding protective shell are movably wrapped on two sides of the winding needle, so that a winding cavity for wrapping the winding needle is formed between the first winding protective shell and the second winding protective shell, and the winding cavity at the winding needle is opened or closed by the mutual approaching or separating of the first winding protective shell and the second winding protective shell.

Specifically, the single-winding mechanism further comprises a winding driving motor, the winding driving motor is installed at the output end of the moving mechanism, the winding needle is installed at the output end of the winding driving motor, and the winding needle rotates under the driving of the winding driving motor.

Specifically, be equipped with the locking subassembly that is used for locking the relative position of two between first emergence protective housing and the second emergence protective housing.

Preferably, the single-roll mechanism is mounted at the output end of the moving mechanism through a moving plate.

Specifically, a guide assembly is arranged between the moving mechanism and the moving plate, the guide assembly comprises a guide rail and a sliding block, one of the guide rail and the sliding block is connected with the moving mechanism, and the other of the guide rail and the sliding block is connected with the moving plate.

Preferably, the moving mechanism is a linear moving device.

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

the utility model provides a pole piece diaphragm-free single-roll mechanism, which is characterized in that a powder receiving box component, a moving mechanism, a single-roll mechanism, a needle drawing mechanism and a powder pouring mechanism are arranged on the single-roll mechanism, the single-roll mechanism is arranged at the output end of the moving mechanism and is driven by the moving mechanism to move close to or far away from the powder receiving box component, so that the single-roll mechanism is switched between a working position and a powder pouring position, the switching between working and powder pouring processes is realized in a moving mode, the needle drawing mechanism is arranged on the single-roll mechanism, the needle drawing action is realized, the powder pouring mechanism comprises a rotatable collecting baffle plate, the collecting baffle plate rotates to the lower side of the single-roll mechanism to receive waste generated during winding, and the waste directly falls onto the collecting baffle plate to be collected due to the blocking effect of the collecting baffle plate when the single-roll mechanism is arranged at the powder pouring position, and the waste generated is poured into the powder receiving box component by rotating the collecting baffle plate to the side of the single-roll mechanism, so that the collection and the waste is discharged and poured out of the powder receiving box component are realized.

Drawings

FIG. 1 is a schematic perspective view of a pole piece diaphragm-free single-roll mechanism of the utility model;

FIG. 2 is a schematic view of another perspective of the pole piece no-diaphragm single-winding mechanism of the present utility model;

FIG. 3 is a schematic view of another perspective of the pole piece no-diaphragm single-winding mechanism of the present utility model;

FIG. 4 is a schematic diagram of the structure of the needle winding mechanism of the pole piece diaphragm-free single winding mechanism of the utility model;

FIG. 5 is a schematic view of a partial structure of a needle winding mechanism of the pole piece diaphragm-free single winding mechanism of the present utility model;

fig. 6 is a schematic diagram of a partial structure of a needle winding mechanism of the pole piece diaphragm-free single winding mechanism of the present utility model.

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.

Referring to fig. 1 to 6, the present utility model provides a pole piece diaphragm-free single-roll mechanism 100, which includes a powder receiving box assembly 1, a moving mechanism 2, a single-roll mechanism 3, a needle drawing mechanism 4 and a powder pouring mechanism 5, wherein the single-roll mechanism 3 is located above the powder receiving box assembly 1, the single-roll mechanism 3 is mounted at an output end of the moving mechanism 2, the single-roll mechanism 3 moves to approach or separate from the powder receiving box assembly 1 (the moving direction is indicated by arrow a in fig. 3) under the driving of the moving mechanism 2, so that the single-roll mechanism 3 is switched between a working position and a powder pouring position, the needle drawing mechanism 4 is mounted on the single-roll mechanism 3, the needle drawing action is realized, the powder pouring mechanism 5 includes a rotatable collecting baffle 53, the collecting baffle 53 is rotated below the single-roll mechanism 3 to receive waste generated during winding, when the single-roll mechanism 3 is in the working position, the collecting baffle 53 is rotated below the single-roll mechanism 3, the waste falls down directly onto the collecting box assembly 1 due to the blocking effect of the collecting baffle 53 itself, and the waste falls directly onto the receiving box assembly 1, thereby realizing the waste collection by the waste falling into the collecting assembly 1. Since the specific structure of the needle extraction mechanism 4 and the single-reel mechanism 3 are well known in the art and are not the focus of the present utility model, they will not be described in detail herein. More specifically, the following are:

referring to fig. 1 to 4, the pole piece diaphragm-free single-winding mechanism 100 of the present utility model further includes a frame (not shown), the powder receiving box assembly 1 and the moving mechanism 2 are mounted on the frame, and the single-winding mechanism 3 is mounted above the powder receiving box assembly 1 through the moving mechanism 2 by means of the frame.

Referring to fig. 1 to 4, the powder receiving box assembly 1 includes a receiving frame 11, an inclined guiding channel 12 and a discharging portion 13, the receiving frame 11 has a receiving opening 111 with an upward opening, the upper end of the inclined guiding channel 12 is connected with the receiving frame 11 and is mutually communicated with the receiving frame 11, and the lower end of the inclined guiding channel 12 is connected with the discharging portion 13 and is mutually communicated with the discharging portion 13.

Referring to fig. 5, the powder pouring mechanism 5 further includes a rotary driving device 51 and an intermediate driving frame structure 52, the rotary driving device 51 is mounted on the moving mechanism 2, the intermediate driving frame structure 52 is mounted on an output end of the rotary driving device 51, the intermediate driving frame structure 52 is connected with the collecting baffle 53, and the intermediate driving frame structure 52 rotates under the driving of the rotary driving device 51 and drives the collecting baffle 53 to rotate.

Referring to fig. 1 to 6, the single winding mechanism 3 includes a winding needle 31, a first winding protecting shell 32 and a second winding protecting shell 33, the winding needle 31 is rotatably mounted on the moving mechanism 2, the first winding protecting shell 32 and the second winding protecting shell 33 are movably wrapped on two sides of the winding needle 31, so that a winding cavity 34 for wrapping the winding needle 31 is formed between the first winding protecting shell 32 and the second winding protecting shell 33, and the winding cavity 34 at the winding needle 31 is opened or closed by approaching or separating the first winding protecting shell 32 and the second winding protecting shell 33 from each other. Specifically, the single winding mechanism 3 further includes a winding drive motor 35, the winding drive motor 35 is mounted at the output end of the moving mechanism 2, the winding needle 31 is mounted at the output end of the winding drive motor 35, and the winding needle 31 is driven to rotate by the winding drive motor 35. Preferably, a locking component 7 for locking the relative positions of the first and second protective shells 32 and 33 is arranged between the first and second protective shells 32 and 33, and when the first and second protective shells 32 and 33 are close to each other, the locking component 7 can lock the relative positions of the first and second protective shells 32 and 33, and when the locking is released, the first and second protective shells 32 and 33 are far away from each other.

Referring to fig. 1 to 6, the single-winding mechanism 3 is mounted to the output end of the moving mechanism 2 through a moving plate 9, so that the arrangement between the components is more compact. Specifically, a guide assembly (not shown) is provided between the moving mechanism 2 and the moving plate 9, the guide assembly including a guide rail and a slider, one of the guide rail and the slider being connected to the moving mechanism 2, and the other of the guide rail and the slider being connected to the moving plate 9. Preferably, the moving mechanism 2 is a linear moving device, but is not limited thereto.

In summary, referring to fig. 1 to 6, a detailed description is given of the working process of the pole piece non-diaphragm single-winding mechanism 100 according to the present utility model:

the single-roll mechanism 3 moves to be close to or far away from the powder receiving box assembly 1 under the driving of the moving mechanism 2, so that the single-roll mechanism 3 is switched between a working position and a powder pouring position, and further the switching between the working procedure and the powder pouring procedure is realized in a moving mode, when the single-roll mechanism 3 is in the working position, the collecting baffle 53 rotates to the lower side of the single-roll mechanism 3, the first generating protective shell 32 and the second generating protective shell 33 are far away from each other, and the generating cavity 34 at the position of the winding needle 31 is opened, so that feeding is convenient to carry out inwards. Due to the blocking effect of the collecting baffle plate 53, the waste material directly falls onto the collecting baffle plate 53 for collection, when the single-roll mechanism 3 is in the powder pouring position, the collecting baffle plate 53 rotates to the side of the single-roll mechanism 3 to pour the generated waste material into the powder receiving box assembly 1, so that the collection and pouring of the waste material are realized, and the first generating protective shell 32 and the second generating protective shell 33 are mutually close to close the generating cavity 34 at the position of the winding needle 31.

Through will accept powder box subassembly 1, mobile mechanism 2, single book mechanism 3, take out needle mechanism 4 and fall powder mechanism 5, single book mechanism 3 is located the top of accepting powder box subassembly 1, single book mechanism 3 installs in the output of mobile mechanism 2, single book mechanism 3 is moved in order to be close to or keep away from accepting powder box subassembly 1 under the drive of mobile mechanism 2, thereby make single book mechanism 3 switch between operating position and fall powder position, and then realize the switch between two processes of work and fall powder through the mode of removal, take out needle mechanism 4 installs in single book mechanism 3, thereby realize taking out the needle action, fall powder mechanism 5 includes rotatable collection baffle 53, with the help of collection baffle 53 rotate to the below of single book mechanism 3 in order to accept the waste material that produces when convoluteing, when single book mechanism 3 is in operating position, collection baffle 53 rotates to the below of single book mechanism 3, owing to the effect of the baffle 53 self stops, waste material drops directly on collection baffle 53, when single book mechanism 3 is in the powder position, with the side of collection baffle 53 rotates to single book mechanism 3 in order to produce waste material that falls into the waste material that accept box 1 and fall powder, thereby realize taking out and falling into the waste material of accepting the powder box subassembly.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a pole piece does not have diaphragm singly rolls up mechanism, its characterized in that, including accepting powder box subassembly, moving mechanism, singly roll up the mechanism, take out needle mechanism and fall powder mechanism, singly roll up the mechanism and be located accept the top of powder box subassembly, singly roll up the mechanism install in moving mechanism's output, singly roll up the mechanism move in order to be close to or keep away from under moving mechanism's drive accept powder box subassembly, take out needle mechanism install in singly roll up the mechanism, fall powder mechanism includes rotatable collection baffle, borrow collection baffle rotates to singly roll up the below of mechanism in order to accept the waste material that produces when convoluteing, borrow collection baffle rotates to singly roll up the side of mechanism in order to pour into the waste material that produces accept powder box subassembly.

2. The pole piece diaphragmless single roll mechanism of claim 1, further comprising a frame, wherein the take-up cartridge assembly and the movement mechanism are mounted to the frame.

3. The separator-less single-roll mechanism of claim 1, wherein the powder-receiving box assembly comprises a receiving frame, an inclined guide channel and a discharge part, the receiving frame is provided with a receiving port with an upward opening, the upper end of the inclined guide channel is connected with the receiving frame and communicated with the receiving frame, and the lower end of the inclined guide channel is connected with the discharge part and communicated with the discharge part.

4. The pole piece diaphragm-free single-roll mechanism of claim 1, wherein the powder pouring mechanism further comprises a rotary driving device and an intermediate driving frame structure, the rotary driving device is mounted on the moving mechanism, the intermediate driving frame structure is mounted at the output end of the rotary driving device, the intermediate driving frame structure is connected with the collecting baffle, and the intermediate driving frame structure rotates under the driving of the rotary driving device and drives the collecting baffle to rotate.

5. The pole piece diaphragm-free single-winding mechanism of claim 1, wherein the single-winding mechanism comprises a winding needle, a first winding protective shell and a second winding protective shell, the winding needle is rotatably mounted on the moving mechanism, the first winding protective shell and the second winding protective shell are movably wrapped on two sides of the winding needle, so that a winding cavity for wrapping the winding needle is formed between the first winding protective shell and the second winding protective shell, and the winding cavity at the winding needle is opened or closed by the mutual approaching or separating of the first winding protective shell and the second winding protective shell.

6. The separator-less single winding mechanism of claim 5, further comprising a winding drive motor mounted to the output of the movement mechanism, wherein the winding needle is mounted to the output of the winding drive motor, and wherein the winding needle is rotated by the winding drive motor.

7. The pole piece diaphragmless single roll mechanism of claim 5, wherein a locking assembly for locking the relative position of the first protective generator housing and the second protective generator housing is provided between the first protective generator housing and the second protective generator housing.

8. The separator-less single-roll mechanism of claim 1, wherein the single-roll mechanism is mounted to an output end of the moving mechanism by a moving plate.

9. The pole piece diaphragm-less single roll mechanism of claim 8, wherein a guide assembly is disposed between the moving mechanism and the moving plate, the guide assembly comprising a guide rail and a slider, one of the guide rail and the slider being connected to the moving mechanism, the other of the guide rail and the slider being connected to the moving plate.

10. The pole piece diaphragmless single roll mechanism of claim 1, wherein the movement mechanism is a linear movement device.