CN219169010U - Dust collector and battery processingequipment - Google Patents

Abstract

The application discloses dust collector and battery processingequipment. The dust collector includes the box be provided with dust removal mechanism and drive arrangement in the box, dust removal mechanism includes: two groups of first dust removing components arranged at intervals along the first direction; the first direction is perpendicular to the second direction, a working space is formed between the two groups of first dust removing components and the two groups of second dust removing components, and the box body is provided with a feed inlet and a discharge outlet which are arranged opposite to the working space; the driving device is used for driving the two groups of the first dust removing components and the two groups of the second dust removing components to move.

Description

Dust collector and battery processingequipment

Technical Field

The application relates to the technical field of dust removal equipment, and more particularly relates to a dust removal device and a battery processing device.

Background

In order to ensure the quality of the blade battery, more dust is required to be cleaned on the surface of the battery core before the coating process, otherwise, the self-discharging performance of the battery is affected, and the battery is seriously short-circuited, so that the life and property safety is threatened.

However, in the prior art, the battery dust removing device can only clean two surfaces of the battery, can not clean the edges of the battery, and in the cleaning process, the coating effect of the battery can be affected due to static electricity generated by friction, so that the battery production can not meet the quality requirement, various safety problems of the battery are caused, and the working efficiency is low.

Disclosure of Invention

An object of the present application is to provide a new solution for a dust collector.

According to a first aspect of the present application, a dust removal device is provided. The dust removing device comprises a box body, wherein a dust removing mechanism and a driving device are arranged in the box body, and the dust removing mechanism comprises two groups of first dust removing components which are arranged at intervals along a first direction; the dust removing mechanism comprises two groups of second dust removing components which are arranged at intervals along a second direction, the first direction is perpendicular to the second direction, a working space is formed between the two groups of first dust removing components and the two groups of second dust removing components, and the box body is provided with a feed inlet and a discharge outlet which are arranged opposite to the working space; the driving device is used for driving the two groups of the first dust removing components and the two groups of the second dust removing components to move.

Optionally, the box includes roof and the diapire of relative setting to and relative first lateral wall and the second lateral wall of setting, first lateral wall with the second lateral wall all is connected between roof with the diapire be provided with the dust removal mouth on the roof with be provided with drive arrangement on the first lateral wall.

Optionally, a first rotating shaft and a second rotating shaft are rotatably connected to the first side wall and the second side wall, the first rotating shaft and the second rotating shaft are in transmission fit, the driving device comprises a first motor, the first motor is used for driving the first rotating shaft to rotate, and a group of first dust removing components are arranged on the first rotating shaft; the second rotating shaft is in transmission fit with the two groups of second dust removing components.

Optionally, the first rotating shaft and the second rotating shaft both pass through the second side wall, a transmission member is arranged outside the second side wall, and the first rotating shaft and the second rotating shaft are in transmission fit through the transmission member.

Optionally, the transmission member is a belt, a chain or a gear set.

Optionally, the driving device comprises a second motor, a third rotating shaft is rotatably connected to the first side wall and the second side wall, the second motor is arranged on the first side wall and is used for driving the third rotating shaft to rotate, and the third rotating shaft is provided with another group of first dust removing components.

Optionally, a support is arranged in the box body, a fourth rotating shaft is arranged on the support, the second dust removing component is arranged on the fourth rotating shaft, and the second rotating shaft is in transmission fit with the fourth rotating shaft through a bevel gear.

Optionally, a static-removing device is provided on at least one of the top wall and the bottom wall.

Optionally, the dust removing device further comprises a moving device, the moving device is connected with the box body, and the moving device is used for driving the part to be removed to reach the working space through the feeding hole and to be removed from the discharging hole.

Optionally, the moving device comprises a conveying belt and a push rod, the push rod is connected with the conveying belt, and the push rod is used for pushing the part to be dedusted.

Optionally, the dust removing mechanism comprises a feeding side for feeding and a discharging side for discharging; the moving device is located at the feeding side, the push rod comprises a support rod and a push rod, the support rod is connected with the conveying belt, the push rod is connected with the support rod, and the push rod can penetrate through the working space and reaches the discharging side.

Optionally, the dust removing device further comprises a guide wheel mechanism, wherein the guide wheel mechanism is located below the box body and is used for placing a part to be removed.

Optionally, at least two dust removing mechanisms are arranged in the box body, the first rotating shafts of the at least two dust removing mechanisms are coaxially arranged and connected, the second rotating shafts of the at least two dust removing mechanisms are coaxially arranged and connected, and the driving device drives the at least two dust removing mechanisms to work.

Optionally, a baffle is disposed on at least one of the feed inlet and the discharge outlet, and the baffle is a flexible material.

According to a first aspect of the present application, a battery processing apparatus is provided. The battery processing device comprises the dust removing device as claimed in any one of the above.

According to one embodiment of the application, the working space is formed between the two groups of first dust removing components and the two groups of second dust removing components, so that a plurality of surfaces of the components to be cleaned are cleaned at the same time. Not only the integral cleaning effect of the parts to be dedusted is improved, but also a plurality of parts to be dedusted can be synchronously cleaned, and the cleaning speed of the parts to be dedusted is effectively improved.

Other features of the present application and its advantages will become apparent from the following detailed description of exemplary embodiments of the present application, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description, serve to explain the principles of the application.

Fig. 1 is a perspective view of a dust removing device according to an embodiment of the present application.

Fig. 2 is another perspective view of a dust extraction device according to an embodiment of the present application.

Fig. 3 is a front view of a dust removing device according to an embodiment of the present application.

Fig. 4 is a rear view of a dust extraction device according to an embodiment of the present application.

Fig. 5 is a perspective view showing a connection state of a dust removing mechanism and a moving mechanism of the dust removing device according to the embodiment of the present application.

Fig. 6 is a perspective view of a connection state of a dust removing mechanism, a moving mechanism, and a guide wheel mechanism of the dust removing device according to the embodiment of the present application.

Reference numerals illustrate: 1-a box body; 11-top wall; 12-a bottom wall; 13-a first sidewall; 14-a second sidewall; 15-a dust removal port; 16-a bracket; 2-a dust removing mechanism; 201-a first dust removal component; 202-a second dust removal component; 203-a feed inlet; 204, a discharge hole; 205-a first spindle; 206-a second spindle; 207-driving piece; 208-a third spindle; 209-fourth spindle; 210-a bevel gear; 211-feed side; 212-discharge side; 213-baffles; 3-a driving device; 31-a first motor; 32-a second motor; 4-an electrostatic removing device; 5-a mobile device; 51-a conveyor belt; 52-pushing rod; 53-supporting rods; 54-supporting rods; 6-a guide wheel mechanism; 61-a guide rail; 62-a roller wheel; 7, a part to be dedusted.

Detailed Description

Various exemplary embodiments of the present application will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present application unless it is specifically stated otherwise.

The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the application, its application, or uses.

Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of exemplary embodiments may have different values.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

According to one embodiment of the present application, a dust removal device is provided. The dust removing device comprises a box body 1. A dust removing mechanism 2 and a driving device 3 are provided in the case 1. The dust removing mechanism 2 includes two sets of first dust removing members 201 arranged at intervals in the first direction. The dust removing mechanism 2 includes two sets of second dust removing members 202 arranged at intervals in the second direction. The first direction is perpendicular to the second direction. A working space is formed between two sets of the first dust removing parts 201 and two sets of the second dust removing parts 202. The box 1 is provided with a feed port 203 and a discharge port 204 which are arranged opposite to the working space. The driving device 3 is used for driving the two groups of the first dust removing parts 201 and the two groups of the second dust removing parts 202 to move.

As shown in fig. 1 to 4, the case 1 has a "mouth" shape. The dust removing mechanism 2 and the driving device 3 are arranged in the box body 1, and the driving device 3 drives the dust removing mechanism 2 to move so as to carry out dust removing operation on the part 7 to be removed in the working space. As shown in fig. 1 to 4, the first direction is a longitudinal direction, two sets of first dust removing members 201 are disposed along the longitudinal direction and at intervals, and the two sets of first dust removing members 201 are disposed correspondingly to clean the upper and lower surfaces of the member to be cleaned 7 at the same time. The second direction is a lateral direction, two sets of second dust removing members 202 are arranged in the lateral direction at intervals, and the two sets of second dust removing members 202 are arranged correspondingly to clean both side surfaces of the member to be cleaned 7 at the same time. The working space formed between the two groups of first dust removing parts 201 and the two groups of second dust removing parts 202 is used for cleaning dust and impurities on the surface of the part 7 to be cleaned. The box body 1 is provided with a feed inlet 203 and a discharge outlet 204, and the feed inlet 203 and the discharge outlet 204 on the box body 1 are communicated with a working space. The part 7 to be dedusted enters the working space from the feed port 203 of the box body 1, the surface of the part 7 to be dedusted is dedusted through the first dedusting part 201 and the second dedusting part 202, and the part 7 to be dedusted is output through the discharge port 204 of the box body 1 after dedusting is finished. The driving device 3 drives the first dust removing part 201 and the second dust removing part 202 to move so as to clean the surface of the part 7 to be cleaned.

Alternatively, at least one of the first dust removing part 201 and the second dust removing part 202 is a brush, cloth, or the like. For example, the driving device 3 drives the brush to rotate to remove dust from the member 7 to be removed.

In the embodiment of the application, by forming the working space between the two groups of the first dust removing components 201 and the two groups of the second dust removing components 202, a plurality of surfaces of the component 7 to be cleaned simultaneously, the cleaning effect of the whole component 7 to be cleaned is improved. And a plurality of parts 7 to be dedusted can be synchronously cleaned, so that the cleaning speed of the parts 7 to be dedusted is effectively improved.

In one example, the case 1 includes top and bottom walls 11, 12 disposed opposite each other, and first and second side walls 13, 14 disposed opposite each other. The first side wall 13 and the second side wall 14 are each connected between the top wall 11 and the bottom wall 12. Dust removal openings 15 are provided in the top wall 11 and the bottom wall 12. The first side wall 13 is provided with a drive means 3.

As shown in fig. 1 to 4, the top wall 11 and the bottom wall 12 of the case 1 are disposed in parallel. The first side wall 13 and the second side wall 14 of the case 1 are arranged in parallel. The tops of the first side wall 13 and the second side wall 14 are respectively connected with the top wall 11, the bottoms of the first side wall 13 and the second side wall 14 are respectively connected with the bottom wall 12, and the first side wall 13, the second side wall 14, the top wall 11 and the bottom wall 12 form a reverse-shaped structure. Dust removal openings 15 are provided in both the top wall 11 and the bottom wall 12 to remove dust and impurities cleaned out of the working space. The drive means 3 are arranged on the first side wall 13 or the second side wall 14.

Of course, the case 1 in the embodiment of the present application is not limited to the above-described structure, and a person skilled in the art may set it according to actual needs. For example, the first side wall 13, the second side wall 14 and the top wall 11 form a frame of n-shaped structure, the bottom of which is connected to the bottom wall 12 to form the cabinet 1. Alternatively, the first side wall 13, the second side wall 14 and the bottom wall 12 form a frame of U-shaped structure, which is connected to the top wall 11 to form the cabinet 1. Still alternatively, the top wall 11, the first side wall 13, and the bottom wall 12 form a frame of a C-shaped structure, and the C-shaped frame sides and the second side plate are connected to form the case 1 or the like.

In one example, a first rotation shaft 205 and a second rotation shaft 206 are rotatably connected to the first sidewall 13 and the second sidewall 14. The first rotating shaft 205 and the second rotating shaft 206 are in transmission fit. The drive means 3 comprise a first motor 31. The first motor 31 is configured to drive the first rotating shaft 205 to rotate. A set of the first dust removing members 201 is provided on the first rotation shaft 205. The second rotating shaft 206 is in transmission fit with two groups of the second dust removing components 202.

As shown in fig. 1 to 4, the first rotation shaft 205 and the second rotation shaft 206 are rotatably connected between the first sidewall 13 and the second sidewall 14, and the second rotation shaft 206 is located below the first rotation shaft 205. The first shaft 205 is in driving engagement with the second shaft 206, so that the second shaft 206 is driven to act by the first shaft 205. The drive means 3 comprise a first motor 31. One end of the first shaft 205 is connected to the driving end of the first motor 31 to drive the first shaft 205 to move by the first motor 31. The first rotating shaft 205 is in transmission fit with the second rotating shaft 206, and the first rotating shaft 205 is driven by the first motor 31, so that the second rotating shaft 206 is driven to move by the first rotating shaft 205. One group of first dust removing parts 201 is disposed on the first rotating shaft 205 to clean the lower surface of the dust removing part 7. Both sets of second dust removing members 202 are driven by a second shaft 206. The second dust removing part 202 is driven to rotate by the second rotating shaft 206. The second dust removing part 202 is positioned near the first rotating shaft 205 to synchronously clean opposite sides of the part 7 to be cleaned. The first rotating shaft 205 is in transmission connection with the second rotating shaft 206, so that the upper surface or the lower surface of the part 7 to be dedusted can be synchronously cleaned with the two opposite side surfaces of the part 7 to be dedusted, and the cleaning effect and the cleaning efficiency of the part 7 to be dedusted are improved.

Of course, the positions of the first rotating shaft 205 and the second rotating shaft 206 in the embodiment of the present application are not limited to the above-mentioned structure, and may be set by those skilled in the art according to actual needs. For example, when the second rotating shaft 206 is located above the first rotating shaft 205, the second rotating shaft 206 is driven to act by the first rotating shaft 205 through the driving cooperation of the first rotating shaft 205 and the second rotating shaft 206. Alternatively, the second shaft 206 drives the first shaft 205 to operate. One group of first dust removing parts 201 is disposed on the first rotating shaft 205 to clean the upper surface of the dust removing part 7.

In one example, the first shaft 205 and the second shaft 206 each pass through the second sidewall 14. A transmission member 207 is provided outside the second side wall 14. The first rotating shaft 205 and the second rotating shaft 206 are in transmission fit through the transmission member 207.

As shown in fig. 1 to 4, the first rotation shaft 205 and the second rotation shaft 206 are disposed between the first sidewall 13 and the second sidewall 14. The driving device 3 is provided on the first sidewall 13, and the driving device 3 is connected to one end of the first rotation shaft 205. The other ends of the first and second shafts 205 and 206 pass through the second side wall 14. The first shaft 205 and the second shaft 206 are in driving connection with a portion of the second side wall 14. The first rotating shaft 205 is driven to move by the driving device 3, so that the second rotating shaft 206 is driven to act by the first rotating shaft 205.

Of course, the connection manner of the driving device 3 in the embodiment of the present application is not limited to the above-described structure, and those skilled in the art may set the connection manner according to actual needs. For example, the drive device 3 may be connected to a second shaft 206, the second shaft 206 being in driving connection with the first shaft 205. The second rotating shaft 206 is driven by the driving device 3, so that the second rotating shaft 206 drives the first rotating shaft 205 to act.

In one example, the transmission 207 is a belt, chain, or gear set.

As shown in fig. 1, the first rotating shaft 205 is connected with the portion of the second rotating shaft 206 passing through the second side wall 14 by a belt transmission.

Of course, the transmission member 207 in the embodiment of the present application is not limited to the above-described structure, and those skilled in the art can set the transmission member according to actual needs. For example, the portions of the first and second shafts 205, 206 passing through the second side plate may also be in driving connection by a chain or a gear set or the like.

In one example, the drive means 3 comprises a second motor 32. A third rotation shaft 208 is rotatably connected to the first and second side walls 13 and 14. The second motor 32 is disposed on the first side wall 13. The second motor 32 is configured to drive the third rotating shaft 208 to rotate. Another set of the first dust removing members 201 is provided on the third rotation shaft 208.

As shown in fig. 1 to 4, the first side wall 13 is provided with a second motor 32. The second motor 32 is located above the first motor 31. The third rotating shaft 208 is disposed between the first sidewall 13 and the second sidewall 14, and the third rotating shaft 208 is disposed parallel to the first rotating shaft 205. One end of the third rotating shaft 208 is connected with the driving end of the second motor 32, so that the third rotating shaft 208 is driven to move through the second motor 32. The other group of the first dust removing parts 201 is disposed on the third rotating shaft 208. The position of the first dust removing part 201 on the third rotation shaft 208 corresponds to the position of the first dust removing part 201 on the first rotation shaft 205.

Of course, the third rotating shaft 208 in the embodiment of the present application is not limited to the above structure, and those skilled in the art can set the third rotating shaft according to actual needs. For example, when the second rotating shaft 206 is located above the first rotating shaft 205, the third rotating shaft 208 is disposed below the second rotating shaft 206. That is, the first rotation shaft 205 is located between the second rotation shaft 206 and the third rotation shaft 208. That is, the third rotation shaft 208 is disposed at a side of the first rotation shaft 205 away from the second rotation shaft 206.

In one example, a bracket 16 is disposed in the case 1, a fourth rotating shaft 209 is disposed on the bracket 16, the second dust removing component 202 is disposed on the fourth rotating shaft 209, and the second rotating shaft 206 is in driving fit with the fourth rotating shaft 209 through a bevel gear 210.

As shown in fig. 1 and 4, a bracket 16 is provided in the case 1. The bracket 16 is located between the first side plate and the second side plate. The bracket 16 is disposed in parallel with the third rotation shaft 208. The bracket 16 is disposed above the third rotating shaft 208 and near the first rotating shaft 205. The fourth rotation shaft 209 penetrates the support 16, one end of the support 16 is close to the first rotation shaft 205, and the other end of the support 16 is close to the fourth rotation shaft 209. The second dust removing part 202 is disposed on the fourth rotating shaft 209, and the second dust removing part 202 is close to the first rotating shaft 205. The second rotating shaft 206 is sleeved with a bevel gear 210 which is transversely arranged. A bevel gear 210 is sleeved on the fourth rotating shaft 209 at a position close to the second rotating shaft 206. The bevel gear 210 arranged transversely is in transmission fit with the bevel gear 210 arranged longitudinally to drive the fourth rotating shaft 209 to rotate through the movement of the second rotating shaft 206, so that the second dust removing component 202 arranged on the fourth rotating shaft 209 acts to clean the side surface of the component 7 to be cleaned.

In one example, the static-removing device 4 is provided on at least one of the top wall 11 and the bottom wall 12.

As shown in fig. 1 to 4, the static electricity removing device 4 is provided on both the top wall 11 and the bottom wall 12, and the static electricity removing device 4 is near the discharge port 204 of the case 1. Static electricity generated by friction of the part 7 to be dedusted in the cleaning process is removed through the static electricity removing device 4, and the coating effect of the cleaned part 7 to be dedusted is improved.

In one example, the dust removing device further comprises a moving device 5, the moving device 5 is connected with the box 1, and the moving device 5 is used for driving the part 7 to be removed to reach the working space through the feeding hole 203 and be removed from the discharging hole 204.

As shown in fig. 1 to 4, the dust removing device further includes a moving device 5, the moving device 5 is located at the feed port 203 of the case 1, and the moving device 5 is connected with the case 1. The moving device 5 is used for pushing the part 7 to be dedusted into the working space of the dedusting mechanism 2 so that the part 7 to be dedusted is dedusted and cleaned in the working space. The cleaned dust removing part is pushed out of the working space by the moving device 5 and is transferred out to the next process by the discharge port 204 of the box body 1.

In one example, the moving device 5 comprises a conveyor belt 51 and a pushing rod 52, the pushing rod 52 being connected to the conveyor belt 51, the pushing rod 52 being used to push the part 7 to be dedusted.

As shown in fig. 5 and 6, the conveyor belt 51 of the moving device 5 is provided at the feed port 203 of the casing 1. The push rod 52 of the moving device 5 is provided on the conveyor belt 51. The push rod 52 is for movement by the conveyor belt 51. The push rod 52 moves to push the dust removing member 7 into the working space of the case 1 and push the cleaned dust removing member to be output from the case 1. After the pushing is finished, the conveying belt 51 drives the push rod 52 to move back to the initial position, and the part 7 to be dedusted is waited for next transferring.

In one example, the dust removal mechanism 2 includes a feed side 211 for feeding and a discharge side 212 for discharging; the moving device 5 is located at the feeding side 211, the push rod 52 includes a support rod 53 and a push rod 54, the support rod 53 is connected with the conveyor belt 51, the push rod 54 is connected with the support rod 53, and the push rod 54 can pass through the working space and reach the discharging side 212.

As shown in fig. 5, the dust removal mechanism 2 includes a feed side 211 and a discharge side 212. The feed side 211 is adjacent to the feed opening 203 of the tank 1. The discharge side 212 is adjacent to the discharge port 204 of the tank 1. I.e. the moving device 5 is arranged close to the feed side 211 of the dust removal mechanism 2. The support bar 53 of the push bar 52 has a T shape. The bottom of the T-shaped supporting rod 53 is connected with the conveyer belt 51. The two ends of the top of the T-shaped supporting rod 53 are connected with a pushing rod 54. The pushing rod 54 can pass through the working space of the dust removing mechanism 2 and reach the discharging side 212, so that the component to be cleaned is pushed into the working space by the pushing rod 54 for cleaning, and the cleaned dust removing component 7 is output to the next process.

Of course, the support bar 53 in the embodiment of the present application is not limited to the above-described structure, and a person skilled in the art may set it according to actual needs. For example, the support rod 53 has a Y-shape, I-shape, or I-shape.

In one example, the dust removing device further comprises a guide wheel mechanism 6, wherein the guide wheel mechanism 6 is positioned below the box body 1, and the guide wheel mechanism 6 is used for placing a part 7 to be removed.

As shown in fig. 6, the guide wheel mechanism 6 includes a guide rail 61 and a drum wheel 62. The guide rail 61 is located below the case 1, and the plurality of drum wheels 62 are provided on the guide rail 61.

The part to be dedusted 7 is placed on the guide rail 61. The pushing rod 54 of the supporting frame is propped against one end of the part 7 to be dedusted, which is far away from the box body 1. The supporting frame is moved toward the box body 1 by the conveyor belt 51 of the moving device 5, thereby pushing the part 7 to be dedusted to move toward the box body 1. The pushing rod 54 pushes the part 7 to be cleaned into the working space of the dust removing mechanism 2 to start cleaning.

The first motor 31 drives the first rotating shaft 205 to rotate a set of first dust removing parts 201 located on the first rotating shaft 205. The first dust removing part 201 rotates to clean the upper surface of the dust removing part 7.

The first rotating shaft 205 is in transmission fit with the second rotating shaft 206, and the first rotating shaft 205 acts to drive the second rotating shaft 206 to move. A transversely disposed bevel gear 210 on the second shaft 206 rotates. The transversely disposed bevel gear 210 is in driving engagement with the longitudinally disposed bevel gear 210 on the fourth shaft 209. The bevel gear 210 on the second shaft 206 rotates to drive the bevel gear 210 on the fourth shaft 209 to rotate. The longitudinally arranged bevel gear 210 rotates to drive the fourth rotation shaft 209 to rotate. The second dust removing part 202 provided on the fourth rotation shaft 209 rotates along with the fourth rotation shaft 209. That is, the side face of the member to be cleaned 7 is cleaned while the upper face of the mechanism to be cleaned 2 is cleaned.

Meanwhile, the second motor 32 is operated in reverse to the first motor 31. The second motor 32 drives the third rotating shaft 208 to move. The other set of first dust removing parts 201 located on the third rotation shaft 208 is rotated. The two sets of first dust removing parts 201 are rotated in opposite directions. So that the second dust removing part 202 rotates to clean the lower surface of the dust removing part 7.

At the same time of cleaning, the conveyer belt 51 drives the supporting rod 53 to move towards the box body 1, so that the pushing rod 54 pushes the part 7 to be cleaned to move towards the discharge port 204 of the box body 1, and the cleaned part is removed from the box body 1. The static removing device is started to remove static electricity from the cleaned dust removing component. The dust removing component after static electricity is removed enters the next working procedure.

After the cleaning is completed, the supporting rod 53 is moved back to the initial position by the conveyor belt 51, waits for the next part 7 to be cleaned, and repeats the above operation.

In one example, at least two dust removing mechanisms 2 are disposed in the case 1, the first shafts 205 of the at least two dust removing mechanisms 2 are coaxially disposed and connected, the second shafts 206 of the at least two dust removing mechanisms 2 are coaxially disposed and connected, and the driving device 3 drives the at least two dust removing mechanisms 2 to operate.

As shown in fig. 1 to 4, at least two dust removing mechanisms 2 are arranged in the box 1, that is, a plurality of parts 7 to be cleaned can be cleaned simultaneously, so that the cleaning speed is effectively improved.

As shown in fig. 1 to 4, the first shafts 205 of the two dust removing mechanisms 2 are coaxially arranged and connected, and the second shafts 206 of the two dust removing mechanisms 2 are coaxially arranged and connected, so that a plurality of parts 7 to be cleaned can be cleaned simultaneously. The cleaning speed and the cleaning efficiency are effectively improved.

In one example, a baffle 213 is disposed on at least one of the inlet 203 and the outlet 204, and the baffle 213 is a flexible material.

As shown in fig. 5 and 6, both surfaces of the discharge port 204 and the feed port 203 of the case 1 are provided with baffles 213. The material of the baffle 213 is a flexible material such as rubber. The baffle 213 is disposed at the discharge port 204 and the feed port 203, so as to reduce the entry of dust and impurities outside the box 1 into the dust removing mechanism 2, and delay the service lives of the first dust removing component 201 and the second dust removing component 202.

In another example, a battery processing apparatus is provided. The battery processing device comprises the dust removing device as set forth in any one of the above.

The part 7 to be dedusted is a blade battery. The dust collector of this application be applicable to the processing dust removal of blade battery.

Of course, the dust removing device in the embodiment of the present application is not limited to the above-described structure, and those skilled in the art may set the dust removing device according to actual needs. For example, in an electronic device, dust removal of a touch pad of a notebook computer, and the like.

The foregoing embodiments mainly describe differences between the embodiments, and as long as there is no contradiction between different optimization features of the embodiments, the embodiments may be combined to form a better embodiment, and in consideration of brevity of line text, no further description is given here.

Although specific embodiments of the present application have been described in detail by way of example, it will be appreciated by those skilled in the art that the above examples are for illustration only and are not intended to limit the scope of the present application. It will be appreciated by those skilled in the art that modifications may be made to the above embodiments without departing from the scope and spirit of the present application. The scope of the application is defined by the appended claims.

Claims (15)

1. A dust removing apparatus, comprising: the box (1) be provided with dust removal mechanism (2) and drive arrangement (3) in box (1), dust removal mechanism (2) include:

two groups of first dust removing parts (201) arranged at intervals along a first direction;

two groups of second dust removing components (202) are arranged at intervals along a second direction, the first direction is perpendicular to the second direction, a working space is formed between the two groups of first dust removing components (201) and the two groups of second dust removing components (202), and the box body (1) is provided with a feed inlet (203) and a discharge outlet (204) which are arranged opposite to the working space; and

the driving device (3) is used for driving the two groups of the first dust removing components (201) and the two groups of the second dust removing components (202) to move.

2. The dust removal device according to claim 1, characterized in that the housing (1) comprises a top wall (11) and a bottom wall (12) arranged opposite each other, and a first side wall (13) and a second side wall (14) arranged opposite each other, the first side wall (13) and the second side wall (14) being connected between the top wall (11) and the bottom wall (12), dust removal openings (15) being provided in the top wall (11) and the bottom wall (12), and the first side wall (13) being provided with the driving device (3).

3. The dust removal device according to claim 2, characterized in that a first rotating shaft (205) and a second rotating shaft (206) are rotatably connected to the first side wall (13) and the second side wall (14), the first rotating shaft (205) and the second rotating shaft (206) are in transmission fit, the driving device (3) comprises a first motor (31), the first motor (31) is used for driving the first rotating shaft (205) to rotate, and a group of first dust removal components (201) are arranged on the first rotating shaft (205); the second rotating shaft (206) is in transmission fit with two groups of the second dust removing components (202).

4. A dust collector according to claim 3, wherein the first shaft (205) and the second shaft (206) both pass through the second side wall (14), a transmission member (207) is arranged outside the second side wall (14), and the first shaft (205) and the second shaft (206) are in transmission fit through the transmission member (207).

5. The dust extraction device according to claim 4, characterized in that the transmission member (207) is a belt, a chain or a gear set.

6. The dust removal device according to claim 2, wherein the driving device (3) comprises a second motor (32), a third rotating shaft (208) is rotatably connected to the first side wall (13) and the second side wall (14), the second motor (32) is arranged on the first side wall (13), the second motor (32) is used for driving the third rotating shaft (208) to rotate, and another group of first dust removal components (201) is arranged on the third rotating shaft (208).

7. A dust collector according to claim 3, characterized in that a bracket (16) is arranged in the box (1), a fourth rotating shaft (209) is arranged on the bracket (16), the second dust collector (202) is arranged on the fourth rotating shaft (209), and the second rotating shaft (206) is in transmission fit with the fourth rotating shaft (209) through a bevel gear (210).

8. A dust removing device according to claim 2, characterized in that a static removing device (4) is provided on at least one of the top wall (11) and the bottom wall (12).

9. The dust removal device according to any one of claims 1-8, further comprising a moving device (5), the moving device (5) being connected to the housing (1), the moving device (5) being adapted to drive a part (7) to be dust removed via the feed opening (203) to the working space and to be removed from the discharge opening (204).

10. The dust removal device according to claim 9, characterized in that the moving device (5) comprises a conveyor belt (51) and a push rod (52), the push rod (52) being connected to the conveyor belt (51), the push rod (52) being adapted to push the component (7) to be removed.

11. The dust removal device according to claim 10, characterized in that the dust removal mechanism (2) comprises a feed side (211) for feeding and a discharge side (212) for discharging;

the moving device (5) is located at the feeding side (211), the push rod (52) comprises a support rod (53) and a push rod (54), the support rod (53) is connected with the conveying belt (51), the push rod (54) is connected with the support rod (53), and the push rod (54) can penetrate through the working space and reach the discharging side (212).

12. The dust removal device according to any one of claims 1-8, further comprising a guide wheel mechanism (6), the guide wheel mechanism (6) being located below the housing (1), the guide wheel mechanism (6) being for placing a component (7) to be removed.

13. The dust removal device according to any one of claims 1-8, characterized in that at least two dust removal mechanisms (2) are arranged in the box body (1), first rotating shafts (205) of the at least two dust removal mechanisms (2) are coaxially arranged and connected, second rotating shafts (206) of the at least two dust removal mechanisms (2) are coaxially arranged and connected, and the driving device (3) drives the at least two dust removal mechanisms (2) to work.

14. The dust removal device according to any one of claims 1-8, characterized in that a baffle (213) is provided on at least one of the inlet opening (203) and the outlet opening (204), the baffle (213) being of a flexible material.

15. A battery processing apparatus comprising a dust removing apparatus according to any one of claims 1 to 14.

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