CN211757322U - Dust removal system of electric core winder and square power electric core winder - Google Patents

Abstract

The utility model provides an electricity core winder dust pelletizing system and square power electricity core winder, electricity core winder dust pelletizing system includes the clean room, the dust absorption unit, the pipe-line unit, dust collecting unit and fan filter unit, the clean room includes dust cover and installation panel, the dust cover covers on the installation panel, form the dust removal space between dust cover and the installation panel, the dust absorption unit sets up in the dust removal space, the dust absorption unit has the suction end, pipe-line unit intercommunication dust absorption unit and dust collecting unit, the top at the clean room is installed to fan filter unit, fan filter unit's air inlet end and dust removal space intercommunication, fan filter unit's air-out end is located outside the dust removal space. The square power electric core winder is provided with the dust removal system of the electric core winder, and the dust removal system of the electric core winder and the square power electric core winder can remove particles such as scraps, dust and dust mixed in a dust removal chamber of the system in the electric core machining process.

Description

Dust removal system of electric core winder and square power electric core winder

Technical Field

The utility model belongs to the technical field of battery production facility technique and specifically relates to a electricity core winder dust pelletizing system is related to, and be provided with this electricity core winder dust pelletizing system's square power electricity core winder.

Background

The existing electric core winder is generally provided with a dust-proof chamber which is mainly used for ensuring that an electric core has a good winding environment, preventing external dust from attaching to a pole piece to cause the pole piece to be polluted and ensuring that the quality of the wound electric core meets requirements. In addition, the dust-proof chamber can also avoid the electric core winder to collide with the staff by mistake in the operation process, and the personal safety of the staff is ensured. However, the dust-proof chamber can only prevent external dust from entering the inside of the dust-proof chamber, but cannot remove the dust inside the dust-proof chamber, the internal dust mainly comes from chips generated during pole piece cutting, chips generated during pole tab cutting, dust drifting into the dust-proof chamber during opening of the dust-proof chamber, and along with the increase of the processing time of the electric core winder, the amount of the particles such as the chips and the dust can be increased, so that the pole piece is still polluted during processing, meanwhile, the particles such as the chips and the dust can also cause the roller conveying the pole piece or the diaphragm to be scratched, even the particles such as the chips and the dust can also directly cause the cutter blade breaking for cutting the pole piece or the diaphragm, and if the cutter blade breaking, the probability of burrs occurring on the cut pole piece can also be greatly improved, so that the yield of the wound electric core is further reduced.

Disclosure of Invention

In order to solve the problem, the main object of the present invention is to provide an electric core winder dust removal system for removing the dust particles in the dust chamber of the system, such as the dust, and the dust generated in the electric core machining process.

Another object of the utility model is to provide a be provided with above-mentioned electricity core winder dust pelletizing system's square power electricity core winder.

In order to realize the utility model discloses a main objective, the utility model provides an electricity core winder dust pelletizing system, wherein, including the clean room, the dust absorption unit, the pipe unit, dust collecting unit and fan filter unit, the clean room includes dust cover and installation panel, the dust cover covers on installation panel, form the dust removal space between dust cover and the installation panel, the dust absorption unit sets up in the dust removal space, the dust absorption unit has the suction end, pipe unit intercommunication dust absorption unit and dust collecting unit, fan filter unit installs the top at the clean room, fan filter unit's air inlet end and dust removal space intercommunication, fan filter unit's air-out end is located outside the dust removal space.

Therefore, the installation panel provides installation positions for all devices of the electric core winding machine, and the installation panel is matched with the dust cover to enclose a dust removal space so as to accommodate all the devices in the dust removal space. The dust collection unit, the pipeline unit and the dust collection unit are matched with each other to remove particles such as scraps, dust and the like in the dust collection space, so that the dust collection space is kept clean, the pollution and/or damage of the particles such as the scraps, the dust and the like to a pole piece, a diaphragm and each device are prevented, the quality of a battery core rolled by the battery core winding machine is ensured to meet the requirement, and the yield of the battery core winding machine is improved. During dust removal, the dust collection unit sucks away the particles such as internal fragments and dust in the dust removal space and discharges the particles to the dust collection unit through the pipeline unit for centralized recovery processing, and the fan filter unit is matched with the dust collection unit to remove the particles such as the fragments and the dust close to the top of the dust removal chamber.

The dust collection unit comprises a first dust collection disc, a first dust collection hole is formed in one face, facing the dust removal chamber top face, of the first dust collection disc, the first dust collection disc is provided with a first interface, the first dust collection hole is communicated with the first interface, the pipeline unit comprises a first pipeline, the first end of the first pipeline is communicated with the first interface, the dust collection unit comprises a dust collector, and the air inlet of the dust collector is communicated with the second end of the first pipeline.

It is the piece from top to bottom that first dust absorption dish is arranged in receiving the dust or the electric core winder course of working that waft to through first dust absorption hole and first interface with granule such as dust, piece through first pipeline row send to the dust arrester to filter, and granule such as dust, piece are collected.

According to a further scheme, the dust collection unit comprises a second dust collection disc, a second dust collection hole is formed in one surface, facing the top surface of the dust removal chamber, of the second dust collection disc, the second dust collection disc is provided with a second interface, the second dust collection hole is communicated with the second interface, the first dust collection disc and the second dust collection disc are distributed along a first direction, the first direction is parallel to the installation panel, the pipeline unit further comprises a second pipeline, the first end of the second pipeline is communicated with the second interface, and the second end of the second pipeline is communicated with the air inlet.

It can be seen from the above that the second dust absorption dish is the same with the theory of operation of first dust absorption dish, and set up the piece that the second dust absorption dish made each device processing of dust absorption unit can be better and clear away, and the position of first dust absorption dish and second dust absorption dish can carry out the setting that suits according to the overall arrangement between the different devices, further reduces the probability that pole piece, diaphragm and each device pollute and/or damage to the cleanness in the better assurance dust removal space.

In a further scheme, the pipeline unit further comprises a third pipeline, a first end of the third pipeline is communicated with the dust removing space, and a second end of the third pipeline is communicated with the air inlet.

As can be seen from the above, the arrangement of the third pipeline enables the dust removal system of the electrical core winder to be suitable for the dust removal mechanism in other devices of the electrical core winder, so that the dust removal mechanism and the dust removal system of the electrical core winder can share one vacuum generation device.

The further scheme is that winding head mounting positions are arranged on the mounting panel, the number of the first dust absorption discs is two, the two first dust absorption discs are symmetrically arranged on two sides of the winding head mounting positions along the horizontal direction, the number of the second dust absorption discs is two, the two second dust absorption discs are arranged on two sides of the winding head mounting positions along the horizontal direction, the number of the first pipelines is two, the number of the dust collectors is two, one first pipeline is communicated with one first interface and one air inlet, the number of the second pipelines is two, one second pipeline is communicated with one second interface and one air inlet, the number of the third pipelines is two, the first ends of the two third pipelines are arranged on two sides of the winding head mounting positions along the horizontal direction, and the second end of each third pipeline is communicated with one air inlet.

It is from top to bottom, because the electric core winder is positive pole piece, convolute after certain order stack of negative pole piece and diaphragm installation, the rubberizing is in order to form electric core, consequently, the quantity of most devices on the electric core winder is two, and two the same devices are the symmetry generally and set up the both sides at the coiling head, so through above-mentioned structural design, make the overall arrangement of each device on the adaptation electric core winder that the dust absorption unit can be better, and guarantee that electric core winder dust pelletizing system can clear away granules such as piece, dust in the dust removal space.

According to a further scheme, the first dust absorption plate comprises a first plate body and a first dust absorption screen plate, the first plate body is provided with a first containing cavity, a first interface is arranged on the first plate body, the first dust absorption screen plate is detachably covered on the first containing cavity, a first dust absorption hole is formed in the first dust absorption screen plate, the first containing cavity is communicated with the first interface and the first dust absorption hole, the second dust absorption plate comprises a second plate body and a second dust absorption screen plate, the second plate body is provided with a second containing cavity, a second interface is arranged on the second plate body, the second dust absorption screen plate is detachably covered on the second containing cavity, the second dust absorption hole is formed in the second dust absorption screen plate, and the second containing cavity is communicated with the second interface and the second dust absorption hole.

It is thus clear that, the structure of first dust absorption dish and second dust absorption dish makes first dust absorption dish and second dust absorption dish homoenergetic effectually collect granule such as piece, dust, can make the washing of first dust absorption dish and second dust absorption dish more convenient again.

According to a further scheme, the dust cover comprises a body, a first door body and a second door body, the body is covered on the installation panel, the first door body is hinged with the body, the first door body is arranged at the first dust collection disc, the second door body is hinged with the body, and the second door body is arranged at the second dust collection disc.

Therefore, the first dust collection disc and the second dust collection disc are more convenient to clean due to the structural design.

The first sealing piece is arranged between the first door body and the body, and the second sealing piece is arranged between the second door body and the body.

It can be seen from above that, the setting of first sealing member and second sealing member can guarantee the whole gas tightness of clean room.

According to a further scheme, the first dust collection disc and the second dust collection disc are respectively fully paved with dust collection spaces in a second direction, the second direction is perpendicular to the installation panel, the first dust collection disc and the second dust collection disc are arranged in a staggered mode in the vertical direction, a partition plate is arranged between the first dust collection disc and the second dust collection disc, and the partition plate is fully paved with the dust collection spaces in the second direction.

It is thus clear that above-mentioned structural design makes dust collection unit can collect the granule such as piece, dust in the dust removal space more reliably, improves electric core winder dust pelletizing system to the clearance efficiency and the clearance success rate of granule such as piece, dust, better assurance the cleanness in the dust removal space.

In order to realize the utility model discloses another purpose, the utility model provides a square power electricity core winder, wherein, including foretell electricity core winder dust pelletizing system.

It can be seen from above that, the square power electric core winder provided with the electric core winder dust removal system can clear away the piece, the dust that produce in the electric core course of working and the granule such as dust of sneaking into in the system dust removal chamber to the quality of the electric core of guaranteeing to convolute can meet the demands.

Drawings

Fig. 1 is a structural diagram of the dust removing system of the electric core winder of the embodiment of the invention.

Fig. 2 is a structural diagram of the dust removing system of the electric core winder according to another view of the embodiment of the present invention.

Fig. 3 is an exploded view of the dust removing system of the electric core winder according to the embodiment of the present invention, with some components omitted.

Fig. 4 is an enlarged view at a in fig. 1.

The present invention will be further explained with reference to the drawings and examples.

Detailed Description

The dust removal system of the electric core winder comprises:

the utility model provides an electricity core winder dust pelletizing system 100 can be applied to electricity core winder to realize the dustless processing of electricity core winder, this electricity core winder dust pelletizing system 100 can clear away the piece that produces in each device of electricity core winder to pole piece, utmost point ear or diaphragm course of working, still can clear away the dust that outside mixes in electricity core winder dust pelletizing system 100 clean room 1. Specifically, referring to fig. 1 and 2, the electric core winder dust removing system 100 includes a dust removing chamber 1, a dust removing unit, a duct unit 3, a dust collecting unit 4, and a fan filter unit 5.

The dust chamber 1 includes a dust cover 11 and a mounting panel 12, wherein the mounting panel 12 is provided with a plurality of device mounting locations for providing mounting spaces for various devices of the core winder. For example, the mounting panel 12 is provided with a winding head mounting position 121, and a winding head device of the core winder is provided on the winding head mounting position 121; for another example, the installation panel 12 is provided with a tension device installation position 122 and a deviation correction device installation position 123, the tension device of the electric core winder is arranged on the tension device installation position 122, and the deviation correction device of the electric core winder is arranged on the deviation correction device installation position 123; for another example, the mounting panel 12 is provided with an unwinding device mounting location 124 and a pole piece cutting and rubberizing device mounting location 125, the unwinding device of the electric core winding machine is disposed on the unwinding device mounting location 124, and the pole piece cutting and rubberizing device of the electric core is disposed on the pole piece cutting and rubberizing device mounting location 125. Furthermore, since the core winder stacks, winds and attaches the stop glue to the positive electrode plate, the negative electrode plate and the diaphragm in a certain order to form the core, most of the devices on the core winder are arranged in two, and two identical devices are generally symmetrically arranged about the winding head, so in this embodiment, the number of the tension device mounting positions 122, the deviation correcting device mounting positions 123, the unwinding device mounting positions 124 and the pole piece cutting and gluing device mounting positions 125 on the mounting panel 12 are two, and the two identical mounting positions are preferably symmetrically arranged about the winding head mounting position 121.

The dust cover 11 covers the installation panel 12, a dust removal space 10 is formed between the dust cover 11 and the installation panel 12, most devices of the electric core winding machine are arranged in the dust removal space 10, and the winding processing of the electric core is also carried out in the dust removal space 10, so that the quality of the wound electric core is ensured. The dust cover 11, in addition to forming a relatively sealed space (i.e. the dust-removing space 10) with the mounting panel 12 so that the dust-collecting unit 2 and the fan filter unit 5 can reliably remove the particles such as debris, dust and the like in the dust-removing space 10, can also play a role of blocking external dust from entering the dust-removing space 10, thereby preventing the external dust from attaching to the pole piece and/or the diaphragm and being wound around the battery core along with the pole piece or the diaphragm.

The dust collection unit 2 is arranged in the dust removal space 10, and the dust collection unit 2 is used for receiving falling dust and fragments falling in the processing process of pole pieces and diaphragms, and discharging the particles receiving the fragments and the dust to the dust collection unit 4 through the pipeline unit 3 for recycling.

The dust collecting unit 4 includes a first dust collection tray 21 and a second dust collection tray 22, the first dust collection tray 21 and the second dust collection tray 22 are distributed along a first direction X1, the first direction X1 is parallel to the mounting panel 12 and the first direction X1 is parallel to a horizontal plane. In addition, the first dust collection disk 21 and the second dust collection disk 22 respectively fully cover the dust removal space 10 in the second direction X2, so that the dust collection unit 2 can more reliably collect the particles such as the chips and the dusts falling in the dust removal space 10, the removal efficiency and the removal success rate of the electric core winder dust removal system 100 on the particles such as the chips and the dusts are improved, and the cleanness in the dust removal space 10 is ensured. Wherein the second direction X2 is perpendicular to the mounting panel 12.

The number of the first dust suction discs 21 is two, the two first dust suction discs 21 are symmetrically arranged on two sides of the winding head mounting position 121 along the horizontal direction, and one first dust suction disc 21 is located below one tension device mounting position 122 and one deviation correcting device mounting position 123. The number of the second dust suction discs 22 is two, the two second dust suction discs 22 are horizontally arranged on two sides of the winding head mounting position 121, and one second dust suction disc 22 is located below one unwinding device mounting position 124 and one pole piece cutting and rubberizing device mounting position 125. Furthermore, the first dust collecting tray 21 and the second dust collecting tray 22 are arranged offset in the vertical direction, and a partition plate 13 is arranged between the first dust collecting tray 21 and the second dust collecting tray 22, and the partition plate 13 fills the dust removing space 10 in the second direction X2. Stagger the setting with first dust absorption dish 21 and second dust absorption dish 22 and can make first dust absorption dish 21 and second dust absorption dish 22 can be more be close to its processing apparatus on every side, thereby carry out more reliable recovery to the piece that drops in the processing apparatus course of working, and set up baffle 13 between first dust absorption dish 21 and second dust absorption dish 22, then the piece that can avoid dropping, the direct drop in clean room 1 bottom in space between first dust absorption dish 21 and the second dust absorption dish 22 is passed to granule such as dust, thereby improved dust collection unit 2 to the piece, the rate of recovery of granule such as dust, with the cleanness in the better assurance dust removal space 10.

First dust absorption dish 21 includes first disk body and first dust absorption otter board, and first disk body has the first chamber that holds, is provided with first interface on the first disk body, and first interface and the first chamber intercommunication that holds. First dust absorption otter board detachably covers closes on first holding the chamber, is provided with first dust absorption hole on the first dust absorption otter board, first dust absorption hole and the first chamber intercommunication that holds, and first dust absorption otter board sets up towards the top of clean room 1. The first dust suction hole is used for receiving falling particles such as chips and dust, so that the particles such as the chips and the dust are sucked into the first accommodating cavity through the first dust suction hole and are recovered into the dust collecting unit 4 through the first connector and the pipeline unit 3, and the first dust suction disc 21 is more convenient to clean due to the structural design.

Referring to fig. 3, the second dust collecting tray 22 includes a second tray body 221 and a second dust collecting net plate 222, the second tray body 221 has a second accommodating cavity 223, a second port 2211 is disposed on the second tray body 221, and the second port 2211 is communicated with the second accommodating cavity 223. The second dust suction net plate 222 is detachably covered on the second accommodating cavity 223, a second dust suction hole 2221 is formed in the second dust suction net plate 222, the second dust suction hole 2221 is communicated with the second accommodating cavity 223, and the second dust suction net plate 222 is arranged towards the top of the dust chamber 1. The second dust suction hole 2221 is used to receive the dropped particles of debris, dust, etc. such that the particles of debris, dust, etc. are sucked into the second accommodating chamber 223 through the second dust suction hole 2221 and recovered into the dust collection unit 4 via the second port 2211 and the pipe unit 3, and the second dust collection tray 22 is structurally designed to be more convenient to clean.

The duct unit 3 includes a first duct 31, a second duct 32, and a third duct 33, and the number of the first duct 31, the second duct 32, and the third duct 33 is two, and the dust collection unit 4 includes two dust collectors 41. Wherein, a first end of a first pipeline 31 is communicated with a first interface of a first dust absorption disc 21, and a second end of the first pipeline 31 is communicated with an air inlet of a dust collector 41; a first end of a second duct 32 is connected to the second port 2211 of the second dust collecting tray 22, and a second end of a second duct 32 is connected to an air inlet of the dust collector 41; first ends of two third pipes 33 are horizontally disposed at both sides of the winding head mounting position 121, a first end of one third pipe 33 is communicated with the dust removing space 10, and a second end of one third pipe 33 is communicated with an air inlet of one dust collector 41.

The air outlets of the two dust collectors 41 are respectively connected to a vacuum generating device, so that the vacuum generating device can extract air in the dust removing space 10 through the dust collecting unit 4, the pipeline unit 3 and the dust suction unit 2, and accordingly, particles such as debris and dust mixed in the air are extracted together, and the dust removing space 10 is kept clean. And the first duct 31 is used for conveying the particles of the debris, the dust and the like received by the first dust suction plate 21 to the dust collector 41, so that the dust collector 41 filters and recovers the particles of the debris, the dust and the like received by the first dust suction plate 21. The second duct 32 is used for conveying the particles of the debris, dust, etc. received by the second suction tray 22 to the dust collector 41, so that the dust collector 41 can filter and recover the particles of the debris, dust, etc. received by the second suction tray 22. The third duct 33 is used for connecting with some devices with dust removing function of the electric core winder, so that the devices can share one set of vacuum generating device with the dust removing system 100 of the electric core winder, for example, as shown in fig. 4, the third duct 33 can be connected with the third dust suction box 61 of the air knife dust removing device 6 of the electric core winder. Wherein the duct unit 3 and the dust collecting unit 4 are arranged outside the dust collecting space 10 in order not to take up space of the dust collecting space 10.

In addition, the dust cover 11 includes a body 111, a first door 112 and a second door 113, the body 111 covers the mounting panel 12, the first door 112 is disposed at the first dust pan 21, the first door 112 is hinged to the body 111, the second door 113 is disposed at the second dust pan 22, and the second door 113 is hinged to the body 111. And the dust cover 11 is structurally designed, so that the first dust collection disc 21 and the second dust collection disc 22 are more convenient to assemble, disassemble and clean. Preferably, the first door body 112 and/or the body 111 are provided with a first sealing member, so that when the first door body 112 is closed, a sealed state can be formed between the first door body 112 and the body 111, so as to ensure the air tightness of the dust removing space 10; a second sealing member is disposed between the second door 113 and/or the body 111, so that when the second door 113 is closed, a sealed state can be formed between the second door 113 and the body 111 to ensure airtightness of the dust removing space 10.

The fan filter assembly 5 is mounted on the body 111 of the dust cover 11, and the fan filter assembly 5 is located at the top of the dust chamber 1. The air inlet end and the dust removal space 10 intercommunication of fan filter unit 5, the air-out end of fan filter unit 5 is located outside the dust removal space 10, fan filter unit 5 is used for cooperating with dust extraction unit 2 to will be close to the piece at 1 top in clean room, granule such as dust are clear away, make the piece in the dust removal space 10, granule such as dust can be better, more thorough clear away, in order to guarantee the cleanness in the dust removal space 10.

Square power electrical core winder embodiment:

the square power electric core winder comprises the electric core winder dust removal system in the electric core winder dust removal system embodiment, so that winding processing of pole pieces and diaphragms by the electric core winder can be carried out in a dust removal chamber of the electric core winder dust removal system in the whole process, particles such as scraps, dust and dust mixed in the dust removal chamber in the electric core processing process can be timely removed, and quality of wound electric cores can meet requirements.

It should be emphasized that the above-described preferred embodiment of the present invention is merely exemplary and is not intended to limit the invention, as those skilled in the art can make various changes and modifications, all of which are within the spirit and scope of the invention.

Claims (10)

1. Electricity core winder dust pelletizing system, its characterized in that includes:

the dust chamber comprises a dust cover and an installation panel, the dust cover covers the installation panel, and a dust removing space is formed between the dust cover and the installation panel;

a dust collection unit disposed in the dust removal space, the dust collection unit having a suction end;

the pipeline unit is communicated with the dust suction unit and the dust collection unit;

fan filter unit, fan filter unit installs the top of clean room, fan filter unit's air inlet end with dust removal space intercommunication, fan filter unit's air-out end is located outside the dust removal space.

2. The electrical core winder dust pelletizing system of claim 1, characterized in that:

the dust collection unit comprises a first dust collection disc, a first dust collection hole is formed in one surface, facing the top surface of the dust removal chamber, of the first dust collection disc, the first dust collection disc is provided with a first interface, and the first dust collection hole is communicated with the first interface;

the pipeline unit comprises a first pipeline, and a first end of the first pipeline is communicated with the first interface;

the dust collecting unit comprises a dust collector, and an air inlet of the dust collector is communicated with the second end of the first pipeline.

3. The electrical core winder dust pelletizing system of claim 2, characterized in that:

the dust collection unit comprises a second dust collection disc, a second dust collection hole is formed in one surface, facing the top surface of the dust removal chamber, of the second dust collection disc, the second dust collection disc is provided with a second interface, the second dust collection hole is communicated with the second interface, the first dust collection disc and the second dust collection disc are distributed along a first direction, and the first direction is parallel to the installation panel;

the pipeline unit further comprises a second pipeline, the first end of the second pipeline is communicated with the second interface, and the second end of the second pipeline is communicated with the air inlet.

4. The electrical core winder dust pelletizing system of claim 3, characterized in that:

the pipeline unit further comprises a third pipeline, the first end of the third pipeline is communicated with the dust removing space, and the second end of the third pipeline is communicated with the air inlet.

5. The electrical core winder dust pelletizing system of claim 4, characterized in that:

a winding head mounting position is arranged on the mounting panel;

the number of the first dust absorption discs is two, and the two first dust absorption discs are symmetrically arranged on two sides of the winding head mounting position along the horizontal direction;

the number of the second dust collection discs is two, and the two second dust collection discs are arranged on two sides of the winding head installation position along the horizontal direction;

the number of the first pipelines is two, the number of the dust collectors is two, and one first pipeline is communicated with one first connector and one air inlet;

the number of the second pipelines is two, and one second pipeline is communicated with one second interface and one air inlet;

the number of the third pipelines is two, the first ends of the two third pipelines are arranged on two sides of the winding head installation position along the horizontal direction, and the second end of one third pipeline is communicated with one air inlet.

6. The electrical core winder dust pelletizing system of any one of claims 3 to 5, characterized by:

the first dust absorption plate comprises a first plate body and a first dust absorption screen plate, the first plate body is provided with a first containing cavity, the first interface is arranged on the first plate body, the first dust absorption screen plate is detachably covered on the first containing cavity, the first dust absorption hole is formed in the first dust absorption screen plate, and the first containing cavity is communicated with the first interface and the first dust absorption hole;

the second dust collection tray comprises a second tray body and a second dust collection screen plate, the second tray body is provided with a second containing cavity, a second interface is arranged on the second tray body, the second dust collection screen plate is detachably covered on the second containing cavity, a second dust collection hole is formed in the second dust collection screen plate, and the second containing cavity is communicated with the second interface and the second dust collection hole.

7. The electrical core winder dust pelletizing system of claim 6, characterized in that:

the dust cover includes:

the body covers the mounting panel;

the first door body is hinged with the body and arranged at the first dust absorption disc;

and the second door body is hinged with the body and arranged at the second dust collection disc.

8. The electrical core winder dust pelletizing system of claim 7, characterized in that:

a first sealing element is arranged between the first door body and the body;

and a second sealing piece is arranged between the second door body and the body.

9. The electrical core winder dust pelletizing system of any one of claims 3 to 5, characterized by:

the first dust collection disc and the second dust collection disc are respectively paved in the dust collection space in a second direction, and the second direction is perpendicular to the installation panel;

the first dust collection disc and the second dust collection disc are arranged in a staggered mode in the vertical direction, a partition plate is arranged between the first dust collection disc and the second dust collection disc, and the dust collection space is fully paved with the partition plate in the second direction.

10. A square power electrical core winder comprising the electrical core winder dusting system of any of claims 1 to 9.

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