CN218927949U - Cutting device for electrode slice processing - Google Patents

Abstract

The application discloses cutting device that electrode slice processing was used, it belongs to the cutting equipment field. A cutting device for electrode sheet processing, comprising: a frame; the first slide bar is vertically and slidably connected with the frame; a pressing block fixedly connected with one end of the first sliding rod; the pushing plate is fixedly connected with the lower end of the first sliding rod; the screw is in threaded connection with the push plate, and the upper end of the screw is in circumferential rotary connection with the frame; a driving part for driving the rotation of the screw; the fixed block is fixedly connected with the frame and provided with two fixed blocks; the two ends of the guide post are respectively inserted into the fixed block and are fixedly connected with the fixed block; the second sliding block is horizontally and slidably connected with the guide post; the first rotating shaft is rotationally connected with the second sliding block; the cutting piece is detachably and fixedly connected with the first rotating shaft; the driving assembly is used for driving the first rotating shaft to rotate so as to enable the cutting sheet to rotate; and the push rod is fixedly connected with the second sliding block. The beneficial effects of this application lie in providing a cutting device that quick fixed electrode slice processing was used.

Description

Cutting device for electrode slice processing

Technical Field

The application relates to the field of cutting equipment, and specifically relates to a cutting device for electrode slice machining.

Background

When the lithium battery electrode slice is produced, the metal foil of the action electrode is dried after being coated with slurry by the electronic coating machine and is led into the splitting machine to be split and rolled for standby, wherein the metal foil which is led out by the conduction band is required to be cut between the working procedures.

However, during cutting, the periphery of the metal foil is required to be fixed independently, the operation is complicated, and the operation pressing block is more complicated.

The application provides a cutting device for electrode slice processing of quick fixed electrode slice.

Disclosure of Invention

The content of the present application is intended to introduce concepts in a simplified form that are further described below in the detailed description. The section of this application is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

To solve the technical problems mentioned in the background section above, some embodiments of the present application provide a cutting device for electrode sheet processing, including: a frame; the first slide bar is vertically and slidably connected with the frame; a pressing block fixedly connected with one end of the first sliding rod; the pushing plate is fixedly connected with the lower end of the first sliding rod; the screw is in threaded connection with the push plate, and the upper end of the screw is in circumferential rotary connection with the frame; a driving part for driving the rotation of the screw; the fixed block is fixedly connected with the frame and provided with two fixed blocks; the two ends of the guide post are respectively inserted into the fixed block and are fixedly connected with the fixed block; the second sliding block is horizontally and slidably connected with the guide post; the first rotating shaft is rotationally connected with the second sliding block; the cutting piece is detachably and fixedly connected with the first rotating shaft; the driving assembly is used for driving the first rotating shaft to rotate so as to enable the cutting sheet to rotate; and the push rod is fixedly connected with the second sliding block.

The driving part drives the screw to rotate, the screw rotates to drive the push plate to move downwards, and the push plate moves downwards to drive the pressing block to move downwards, so that the electrode plate is fixed, and the periphery of the electrode plate is quickly fixed.

Further, the upper end of the frame is provided with a clearance groove, so that the cutting piece can be conveniently moved.

Further, the frame is provided with a first chute extending along the height direction; the first sliding rod moves along the first sliding groove.

Further, the second sliding block is provided with a second sliding groove extending along the length direction, so that the second sliding block horizontally moves along the guide post.

Further, the drive assembly includes: the device comprises a motor, a first belt pulley, a second belt pulley and a belt; the motor is fixedly connected with the second sliding block; the first belt pulley is fixedly sleeved on the first rotating shaft; the second belt pulley is fixedly sleeved on a driving shaft of the motor; and the two ends of the belt are respectively sleeved on the first belt pulley and the second belt pulley.

Further, the frame is provided with a third rotary groove with a T-shaped longitudinal section; the upper end of the screw is provided with a rotating block with a T-shaped longitudinal section; the T-shaped block circumferentially rotates along the third sliding groove.

Further, the pressing block is arranged above the first sliding rod; the push plate is arranged at the lower end of the first sliding rod.

Further, the drive assembly includes: the device comprises a first bevel gear, a second bevel gear, a transmission shaft, a handle and a mounting block; the first bevel gear is arranged at the lower end of the screw rod and is fixedly connected with the screw rod; the mounting block is fixedly connected with the frame; the transmission shaft is rotationally connected with the mounting block; the second bevel gear is fixedly connected with the transmission shaft and meshed with the first bevel gear; and the handle is fixedly connected with one end of the transmission shaft.

The beneficial effects of this application lie in: a cutting device for electrode slice processing is provided.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the application and to provide a further understanding of the application with regard to the other features, objects and advantages of the application. The drawings of the illustrative embodiments of the present application and their descriptions are for the purpose of illustrating the present application and are not to be construed as unduly limiting the present application.

In addition, the same or similar reference numerals denote the same or similar elements throughout the drawings. It should be understood that the figures are schematic and that elements and components are not necessarily drawn to scale.

In the drawings:

FIG. 1 is an overall schematic diagram according to an embodiment of the present application;

FIG. 2 is an enlarged view of portion A of FIG. 1, mainly showing the configuration of the first runner and the first slide bar;

FIG. 3 is a schematic view of a portion of an embodiment, showing mainly the configuration of the screw and the pusher plate;

fig. 4 is an enlarged view of a portion B of fig. 3, mainly illustrating the structures of the rotation block and the third rotation groove.

Reference numerals:

100. a cutting device for processing the electrode plate; 101. a frame; 101a, an empty-avoiding groove; 101b, a first chute; 101c, a third rotary groove; 102. a first slide bar; 103. briquetting; 104. a push plate; 105. a screw; 105a, a rotating block; 106. a fixed block; 107. a guide post; 108. a second slider; 108a, a second chute; 109. a first rotating shaft; 110. cutting the sheet; 112. a push rod; 113. a motor; 114. a first pulley; 115. a second pulley; 116. a belt; 117. a first bevel gear; 118. a mounting block; 119. a transmission shaft; 120. a second bevel gear; 121. a handle.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete. It should be understood that the drawings and embodiments of the present disclosure are for illustration purposes only and are not intended to limit the scope of the present disclosure.

It should be noted that, for convenience of description, only the portions related to the present utility model are shown in the drawings. Embodiments of the present disclosure and features of embodiments may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in this disclosure are merely used to distinguish between different devices, modules, or units and are not used to define an order or interdependence of functions performed by the devices, modules, or units.

It should be noted that references to "one", "a plurality" and "a plurality" in this disclosure are intended to be illustrative rather than limiting, and those of ordinary skill in the art will appreciate that "one or more" is intended to be understood as "one or more" unless the context clearly indicates otherwise.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Referring to fig. 1 to 4, a cutting device 100 for electrode sheet processing includes: the electrode plate cutting machine comprises a frame 101, a fixing component used for fixing the electrode plate, a cutting component used for cutting the electrode plate, a driving component used for driving the cutting component to cut, and a driving part used for driving the fixing component to fix the electrode plate. The upper end of the frame 101 is provided with a clearance groove 101a for facilitating the movement of the cutting blade 110.

The fixed subassembly is used for fixing the electrode slice, includes: the first slide bar 102, the pressing block 103, the pushing plate 104 and the screw 105. The first slide bar 102 is vertically slidably connected to the frame 101. The pressing block 103 is fixedly connected with one end of the first sliding rod 102. The push plate 104 is fixedly connected with the lower end of the first slide bar 102. The screw 105 is in threaded connection with the push plate 104, and the upper end of the screw is in circumferential rotation connection with the frame 101. The frame 101 is provided with a first slide groove 101b extending in the height direction, and the first slide bar 102 moves along the first slide groove 101 b. The pressing block 103 is arranged above the first sliding rod 102, and the pushing plate 104 is arranged at the lower end of the first sliding rod 102. The frame 101 is provided with a third rotary groove 101c with a T-shaped longitudinal section; the upper end of the screw 105 is provided with a rotary block 105 aT-shaped in longitudinal section and rotates along the circumferential direction of the third chute. The driving part drives the screw rod 105 to rotate, the screw rod 105 rotates to drive the push plate 104 to move, the push plate 104 moves to drive the first slide rod 102 to move, and accordingly the pressing block 103 is driven to move downwards, and the electrode plate to be processed is fixed.

A cutting assembly for cutting an electrode sheet, comprising: the device comprises a fixed block 106, a guide pillar 107, a second sliding block 108, a first rotating shaft 109, a cutting blade 110 and a push rod 112. The fixed block 106 is fixedly connected with the frame 101 and is provided with two. The two ends of the guide post 107 are respectively inserted into the fixed block 106 and are fixedly connected with the fixed block 106. The second slider 108 is horizontally slidably connected to the guide post 107. The first shaft 109 is rotatably connected to the second slider 108. The cutting blade 110 is detachably and fixedly connected with the first rotating shaft 109. The push rod 112 is fixedly connected with the second slider 108. The second slider 108 is provided with a second slide groove 108a extending in the longitudinal direction so that the second slider 108 moves horizontally along the guide post 107. Pushing the push rod 112, simultaneously moving the second slide block 108 drives the cutting piece 110 to move, and simultaneously moving the push rod 112 drives the second slide block 108 to move along the guide post 107, so that the cutting flatness is ensured, and the electrode piece is processed.

The driving assembly is used for driving the first rotating shaft 109 to rotate so as to enable the cutting blade 110 to rotate, and comprises: a motor 113, a first pulley 114, a second pulley 115, and a belt 116. The motor 113 is fixedly connected with the second slider 108. The first pulley 114 is fixedly sleeved on the first rotating shaft 109. The second belt pulley 115 is fixedly sleeved on the driving shaft of the motor 113. The belt 116 is respectively sleeved on the first belt pulley 114 and the second belt pulley 115. The motor 113 drives the first belt pulley 114 to rotate, the first belt pulley 114 drives the second belt pulley 115 to rotate through the belt 116, and the second belt pulley 115 actively drives the cutting blade 110 for cutting the electrode blade to rotate.

A driving section for driving rotation of the screw 105, comprising: a first bevel gear 117, a second bevel gear 120, a drive shaft 119, a handle 121, and a mounting block 118; the first bevel gear 117 is arranged at the lower end of the screw 105 and is fixedly connected with the screw 105; the mounting block 118 is fixedly connected with the frame 101; a drive shaft 119 rotatably coupled to the mounting block 118; the second bevel gear 120 is fixedly connected with the transmission shaft 119 and is meshed with the first bevel gear 117; the handle 121 is fixedly connected with one end of the transmission shaft 119. The handle 121 is rotated, the handle 121 rotates to drive the transmission shaft 119 to rotate, the transmission shaft 119 rotates to drive the second bevel gear 120 to rotate, the second bevel gear 120 rotates to drive the first bevel gear 117 to rotate, and the screw 105 is driven to rotate, so that the fixing of the electrode plate by the fixing assembly is controlled.

The electrode plates to be cut are placed on the machine frame 101, then the handle 121 is rotated, the handle 121 rotates to drive the transmission shaft 119 to rotate, the transmission shaft 119 rotates to drive the second bevel gear 120 to rotate, the second bevel gear 120 rotates to drive the first bevel gear 117 to rotate, thereby driving the screw 105 to rotate, the screw 105 rotates to drive the push plate 104 to move, the push plate 104 moves to drive the first slide bar 102 to move, thereby driving the press block 103 to move downwards, the periphery of the electrode plates to be processed is quickly fixed, the electrode plates do not need to be fixed one by one, so that the fixation is quick and convenient, the motor 113 is driven, the motor 113 drives the first belt pulley 114 to rotate, the first belt pulley 114 drives the second belt pulley 115 to rotate through the belt 116, the second belt pulley 115 rotates to drive the first rotation shaft 109 to rotate, the first rotation shaft 109 rotates to drive the cutting plate 110 to push rod 112, meanwhile, the second slide block 108 moves to drive the cutting plate 110 to move, and meanwhile the push rod 112 moves to drive the second slide block 108 to move along the guide post 107, so that the flatness of cutting the electrode plates is guaranteed, and cutting of the electrode plates is completed.

The foregoing description is only of the preferred embodiments of the present disclosure and description of the principles of the technology being employed. It will be appreciated by those skilled in the art that the scope of the utility model in the embodiments of the present disclosure is not limited to the specific combination of the above technical features, but encompasses other technical features formed by any combination of the above technical features or their equivalents without departing from the spirit of the utility model. Such as the above-described features, are mutually substituted with (but not limited to) the features having similar functions disclosed in the embodiments of the present disclosure.

Claims (8)

1. A cutting device for electrode sheet processing, comprising:

a frame;

the method is characterized in that:

the cutting device for processing the electrode slice further comprises:

the first slide bar is vertically and slidably connected with the frame;

a pressing block fixedly connected with one end of the first sliding rod;

the pushing plate is fixedly connected with the lower end of the first sliding rod;

the screw is in threaded connection with the push plate, and the upper end of the screw is in circumferential rotary connection with the frame;

a driving part for driving the rotation of the screw;

the fixed block is fixedly connected with the frame and provided with two fixed blocks;

the two ends of the guide post are respectively inserted into the fixed block and are fixedly connected with the fixed block;

the second sliding block is horizontally and slidably connected with the guide post;

the first rotating shaft is rotationally connected with the second sliding block;

the cutting piece is detachably and fixedly connected with the first rotating shaft;

the driving assembly is used for driving the first rotating shaft to rotate so as to enable the cutting sheet to rotate;

and the push rod is fixedly connected with the second sliding block.

2. The cutting device for electrode sheet processing according to claim 1, wherein:

the upper end of the frame is provided with a clearance groove which is convenient for the movement of the cutting piece.

3. The cutting device for electrode sheet processing according to claim 1, wherein:

the frame is provided with a first chute extending along the height direction;

the first sliding rod moves along the first sliding groove.

4. The cutting device for electrode sheet processing according to claim 1, wherein:

the second sliding block is provided with a second sliding groove extending along the length direction so as to enable the second sliding block to horizontally move along the guide post.

5. The cutting device for electrode sheet processing according to claim 1, wherein:

the drive assembly includes: the device comprises a motor, a first belt pulley, a second belt pulley and a belt;

the motor is fixedly connected with the second sliding block;

the first belt pulley is fixedly sleeved on the first rotating shaft;

the second belt pulley is fixedly sleeved on a driving shaft of the motor;

and the two ends of the belt are respectively sleeved on the first belt pulley and the second belt pulley.

6. The cutting device for electrode sheet processing according to claim 1, wherein:

the frame is provided with a third rotary groove with a T-shaped longitudinal section;

the upper end of the screw is provided with a rotating block with a T-shaped longitudinal section;

the T-shaped rotating block circumferentially rotates along the third sliding groove.

7. The cutting device for electrode sheet processing according to claim 1, wherein:

the pressing block is arranged above the first sliding rod;

the push plate is arranged at the lower end of the first sliding rod.

8. The cutting device for electrode sheet processing according to claim 1, wherein:

the driving section includes: the device comprises a first bevel gear, a second bevel gear, a transmission shaft, a handle and a mounting block;

the first bevel gear is arranged at the lower end of the screw rod and is fixedly connected with the screw rod;

the mounting block is fixedly connected with the frame;

the transmission shaft is rotationally connected with the mounting block;

the second bevel gear is fixedly connected with the transmission shaft and meshed with the first bevel gear;

and the handle is fixedly connected with one end of the transmission shaft.

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