CN219053052U - Cutting device with deviation correcting function - Google Patents

Abstract

The utility model provides a cutting device with a correction function, which comprises a frame main body, a cutting assembly and a correction assembly, wherein the cutting assembly and the correction assembly are arranged on the frame main body; the cutting assembly comprises a placing plate, a plurality of placing grooves are formed in the placing plate, a material stirring through groove penetrating through the placing plate is formed in the placing groove, and a piece to be cut is placed in the placing groove; the deviation correcting assembly comprises an adjusting plate and an adjusting through groove arranged on the adjusting plate, the adjusting plate is positioned below the placing plate, a first material shifting piece corresponding to the position of the material shifting through groove is arranged on the adjusting plate, and the first material shifting piece penetrates through the material shifting through groove and is arranged on one side of a piece to be cut; when the piece to be cut in the cutting device needs to be rectified, the adjusting piece drives the first stirring piece to move to rectify the position of the piece to be cut in the placing groove, so that the piece to be cut is positioned at the correct cutting position, the rejection rate of the pole piece after the cutting device cuts is reduced, and further the production cost is reduced.

Description

Cutting device with deviation correcting function

[ field of technology ]

The utility model relates to the technical field of battery manufacturing, in particular to a cutting device with a correction function.

[ background Art ]

The lithium ion battery is a high-capacity long-life environment-friendly battery, has the advantages of high voltage, large specific energy, long cycle life, good safety performance and the like, and is widely applied to the fields of energy storage, electric automobiles, portable electronic products and the like; the pole piece is an important part of the battery, is the core of the battery, and is divided into a positive pole piece and a negative pole piece.

In the prior art, the pole piece is required to be cut on a cutting machine after production, so that the pole piece is cut into the required width, however, the pole piece is easy to deviate in the existing cutting device, and the problems of high rejection rate and high production cost of the pole piece after cutting exist.

[ utility model ]

The utility model aims to solve the problems of high rejection rate and high production cost of pole pieces after cutting in the existing cutting device that the pole pieces are easy to deviate, and adopts the following technical scheme:

a cutting device with a correction function comprises a frame main body, a cutting component and a correction component, wherein the cutting component and the correction component are arranged on the frame main body;

the cutting assembly comprises a placing plate, a plurality of placing grooves are formed in the placing plate, a poking through groove penetrating through the placing plate is formed in the placing groove, a piece to be cut is placed in the placing groove, and the piece to be cut can move along the length direction of the placing groove;

the deviation correcting assembly comprises an adjusting plate and an adjusting through groove arranged on the adjusting plate, the adjusting plate is located below the placing plate, a first stirring piece corresponding to the stirring through groove is arranged on the adjusting plate, the first stirring piece penetrates through the stirring through groove and is arranged on one side of the piece to be cut, and the adjusting plate can enable the first stirring piece to move in the stirring through groove towards a direction close to or far away from the piece to be cut.

Further, the frame main body comprises a fixed bottom plate and a fixed top plate, and a fixed vertical rod is arranged between the fixed bottom plate and the fixed top plate.

Further, the cutting assembly comprises a cutter bottom plate and a movable guide rod, wherein the cutter bottom plate is arranged on the fixed bottom plate, the movable guide rod penetrates through the cutter bottom plate and is perpendicular to the fixed bottom plate, and the movable guide rod is positioned between the fixed bottom plate and the fixed top plate.

Further, the cutting assembly further comprises a movable die holder, and the movable die holder is arranged on the movable guide rod; an upper cutter clamp is arranged on one side, close to the cutter bottom plate, of the movable die holder, the upper cutter clamp is connected with a movable upper cutter and a movable baffle, the movable upper cutter and the movable baffle are arranged adjacently, and the bottom ends of the movable upper cutter and the movable baffle are aligned.

Furthermore, at least two movable guide rods are arranged, and at least two movable guide rods are arranged to ensure the stability of the movement of the movable die holder on the movable guide rods.

Further, a lower cutter holder and a fixed lower cutter are arranged on the cutter bottom plate, a cutter holder protrusion penetrating through the adjusting through groove and connected with the placing plate is arranged on the lower cutter holder, and the fixed lower cutter is arranged on one side of the placing plate; the fixed lower knife is arranged right below the movable upper knife, and the movable baffle is arranged above the placing plate.

Further, a plurality of stirring through grooves are formed in the placing groove, and the stirring through grooves are uniformly formed in the placing groove.

Further, the deviation rectifying assembly further comprises an adjusting bracket and a connecting bracket, wherein the adjusting bracket is positioned on one side of the placing plate, and the connecting bracket is connected with the adjusting bracket and the adjusting plate.

Further, one side of the adjusting support is provided with connecting blocks with the same quantity as the placing grooves, one end, far away from the adjusting support, of each connecting block is provided with a second stirring piece, the second stirring pieces are arranged on the same side of the piece to be cut, and the second stirring pieces are arranged and move in the same direction as the first stirring pieces.

In the scheme, the cutting device with the correction function comprises a frame main body, and a cutting component and a correction component which are arranged on the frame main body; the cutting assembly comprises a placing plate, a plurality of placing grooves are formed in the placing plate, a stirring through groove penetrating through the placing plate is formed in the placing groove, a piece to be cut is placed in the placing groove, and the piece to be cut can move along the length direction of the placing groove; the deviation correcting assembly comprises an adjusting plate and an adjusting through groove arranged on the adjusting plate, the adjusting plate is positioned below the placing plate, a first material shifting piece corresponding to the position of the material shifting through groove is arranged on the adjusting plate, and the first material shifting piece penetrates through the material shifting through groove and is arranged on one side of a piece to be cut; the deviation correcting assembly further comprises a second shifting piece, the first shifting piece and the second shifting piece are arranged on the same side of the piece to be cut, when the deviation of the piece to be cut in the cutting device is required to be corrected, the adjusting piece drives the first shifting piece and the second shifting piece to move to correct the position of the piece to be cut in the placing groove, the piece to be cut is located at the correct cutting position, the rejection rate of pole pieces after the cutting device cuts is reduced, and then production cost is reduced.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions described in the embodiments of the present utility model, the drawings referred to in the embodiments will be briefly described below, which are only some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art

FIG. 1 is a schematic diagram of the whole structure of a cutting device with deviation correcting function according to the present utility model;

FIG. 2 is a schematic view of the cutting device shown in FIG. 1 from another view;

FIG. 3 is a schematic view of a portion of the cutting apparatus shown in FIG. 1;

FIG. 4 is a schematic diagram of a deviation rectifying assembly in the cutting apparatus shown in FIG. 1;

the figure shows: a cutting device 100 and a piece to be cut 200;

a frame body 1, a fixed bottom plate 11, a fixed top plate 12, a fixed support column 13 and a fixed vertical rod 14;

the cutting assembly 2, the cutter bottom plate 21, the movable guide rod 22, the driving piece 23, the movable die holder 24, the upper cutter clamp 25, the movable upper cutter 26, the movable baffle 27, the limiting groove 28, the fixed lower cutter 29, the cutter holder bulge 210, the lower cutter holder 211, the placing plate 212, the positioning strip 213 and the placing groove 214;

the correction assembly 3, the adjusting piece 31, the adjusting plate 32, the adjusting through groove 33, the first stirring piece 34, the adjusting bracket 35, the connecting bracket 36, the connecting block 37, the second stirring piece 38 and the stirring through groove 39;

[ detailed description ] of the utility model

The principles and features of the present utility model are described below with examples given for the purpose of illustration only and are not intended to limit the scope of the utility model; the utility model is more particularly described in the following paragraphs by way of example with reference to the drawings; advantages and features of the utility model will become more apparent from the description of the utility model, it being understood that the drawings are in very simplified form and are not to precise scale, but are for the purpose of facilitating and clearly aiding in the description of embodiments of the utility model.

The utility model provides a cutting device 100 with a correction function, wherein the cutting device 100 is mainly used in automatic lithium battery production equipment and is used for correcting the position of a pole piece in the equipment and cutting the pole piece, so that the pole piece enters the correct position for cutting, the rejection rate of the pole piece is reduced, the production cost is reduced, and the productivity is improved; it should be noted that the cutting device 100 is not limited to the field of lithium battery production, and may be applied to other fields where materials need to be cut.

In the embodiment, the cutting device 100 comprises a frame body 1, a cutting assembly 2 and a deviation rectifying assembly 3 which are arranged on the frame body 1, wherein the frame body 1 is used for supporting the cutting assembly 2 and the deviation rectifying assembly 3; the frame main body 1 comprises a fixed bottom plate 11 and a fixed top plate 12 which is positioned above the fixed bottom plate 11 and parallel to the fixed bottom plate 11, fixed support posts 13 used as supports are arranged at four corners of the bottom end of the fixed bottom plate 11, the cutting assembly 2 and the deviation correcting assembly 3 are arranged on the fixed bottom plate 11, and under the action of the fixed support posts 13, the fixed bottom plate 11 can keep the cutting assembly 2 and the deviation correcting assembly 3 in a stable state during operation; the fixed bottom plate 11 and the fixed top plate 12 are connected through the installation fixed vertical rod 14, and the installation fixed vertical rod 14 can enable the fixed bottom plate 11 and the fixed top plate 12 to be in a relatively static state.

Specifically, the cutting assembly 2 includes a cutter base plate 21 and two movable guide rods 22, the cutter base plate 21 is mounted on the fixed base plate 11, the two movable guide rods 22 respectively penetrate through the cutter base plate 21 to be connected with the fixed base plate 11, the movable guide rods 22 are perpendicular to the fixed base plate 11, and a guide sleeve (not shown) is mounted at the other end of the movable guide rod 22 away from the fixed base plate 11; since the fixed bottom plate 11 and the fixed top plate 12 are arranged in parallel, the movable guide bar 22 is perpendicular to the fixed bottom plate 11, and it is understood that two movable guide bars 22 are located between the fixed bottom plate 11 and the fixed top plate 12, and the length of the movable guide bar 22 is smaller than the distance between the fixed bottom plate 11 and the fixed top plate 12.

Specifically, the cutting assembly 2 further includes a driving member 23 and a movable die holder 24, the driving member 23 is mounted on the fixed top plate 12, the movable die holder 24 is disposed on two movable guide rods 22, an output end of the driving member 23 passes through the fixed top plate 12 and is connected with the movable die holder 24, the driving member 23 can enable the movable die holder 24 to move on the movable guide rod 22, and the driving member 23 can be an air cylinder or a power mechanism capable of driving the movable die holder 24 to move in the embodiment; it should be noted that the number of the moving guide bars 22 is two, and in the present utility model, the moving guide bars 24 need to move on the moving guide bars 22, so that at least two moving guide bars 22 are provided to ensure stability when the moving guide bars 24 move.

As shown in fig. 2, an upper cutter clamp 25 is mounted on one side of the movable die holder 24, which is close to the cutter bottom plate 21, the upper cutter clamp 25 is connected with a movable upper cutter 26 and a movable baffle 27, the movable upper cutter 26 and the movable baffle 27 are adjacently arranged, and the bottom ends of the movable upper cutter 26 and the movable baffle 27 are aligned; the cutter bottom plate 21 is provided with a lower cutter holder 211 and a fixed lower cutter 29, two sides of the top end surface of the lower cutter holder 211 are provided with cutter holder protrusions 210 for connecting a placing plate 212, the fixed lower cutter 29 is positioned on one side of the placing plate 212, the fixed lower cutter 29 is arranged under the movable upper cutter 26, and the movable baffle 27 is positioned above the placing plate 212;

wherein, the placing plate 212 is provided with a plurality of placing grooves 214, the placing grooves 214 are perpendicular to the movable baffle 27, and the placing grooves 214 are used for placing the pieces to be cut 200; a positioning strip 213 is formed between the adjacent placing grooves 214, and the positioning strip 213 is in a long strip shape; a limiting groove 28 corresponding to the position of the positioning strip 213 is arranged on one side of the movable baffle 27 close to the placing plate 212, namely, one side for propping against the piece to be cut 200, and the size of the limiting groove 28 corresponds to the width of the positioning strip 213; it should be understood that when the movable baffle 27 abuts against the workpiece 200 to be cut, since the positioning strips 213 are perpendicular to the movable baffle 27, the positioning strips 213 are located inside the limiting grooves 28, and therefore the positioning strips 213 do not affect the movable baffle 27 abutting against the workpiece 200 to be cut, and it should be noted that, in order to ensure that the movable baffle 27 abuts against the workpiece 200 to be cut in the placement groove 214, the number of the limiting grooves 28 is the same as the positioning strips 213; in operation of the cutting apparatus 100, the workpiece 200 moves along the placement groove 214 in the directions of the movable upper blade 26 and the fixed lower blade 29, and when the workpiece 200 is located between the movable upper blade 26 and the fixed lower blade 29, the driving member presses the movable baffle 27 against the workpiece 200, and the movable upper blade 26 and the fixed lower blade 29 cut the workpiece 200.

As shown in fig. 1 to 4, the deviation rectifying assembly 3 includes an adjusting member 31 and an adjusting plate 32 connected to an output end of the adjusting member 31, the adjusting member 31 is mounted on one side of the fixed base plate 11 through a fixed bracket (not shown), the adjusting plate 32 is located between the lower tool post 211 and the placing plate 212, and the adjusting member 31 can move the adjusting plate 32 along a direction perpendicular to the placing groove 214.

Specifically, a material stirring through groove 39 penetrating through the placing plate 212 is formed in the placing groove 214, a first material stirring piece 34 corresponding to the position of the material stirring through groove 39 is arranged on the top end surface of the adjusting plate 32, the first material stirring piece 34 is perpendicular to the adjusting plate 32, the first material stirring piece 34 is positioned in the material stirring through groove 39, the first material stirring piece 34 is positioned on one side of a piece 200 to be cut in the placing groove 214, and the adjusting piece 31 can rectify the piece 200 to be cut in the placing groove 214 through the adjusting plate 32 and the second material stirring piece 38, so that the piece 200 to be cut enters a correct cutting position; in the present utility model, a plurality of material pulling through grooves 39 may be disposed in the placement groove 214, and the plurality of material pulling through grooves 39 are uniformly disposed along the placement groove 214, and of course, a plurality of first material pulling members 34 are correspondingly disposed on the adjusting plate 32.

Specifically, an adjusting through groove 33 penetrating through the adjusting plate 32 is formed on one side of the adjusting plate 32 near the adjusting member 31, the tool apron protrusion 210 penetrates through the adjusting through groove 33 to be connected with the placing plate 212, the adjusting through groove 33 is in a long strip shape, the adjusting through groove 33 is perpendicular to the direction of the placing groove 214, and it is understood that the length of the adjusting through groove 33 is the maximum distance that the adjusting member 31 can drive the adjusting plate 32 to move due to the tool apron protrusion 210 arranged in the adjusting through groove 33.

In this embodiment, the deviation rectifying assembly 3 further includes an adjusting bracket 35 and a connecting bracket 36, the adjusting bracket 35 is located at a side of the upper blade 26 away from the placement groove 214, and the connecting bracket 36 is used for connecting the adjusting bracket 35 and the adjusting plate 32; when the adjusting member 31 moves the adjusting plate 32, the adjusting bracket 35 is driven to move in the same direction as the adjusting plate 32.

Further, the side of the adjusting bracket 35, which is close to the movable upper knife 26, is provided with connecting blocks 37, the number of which is the same as that of the placing grooves 214 on the placing plate 212, one end of the connecting block 37, which is far away from the adjusting bracket 35, is provided with a second material shifting piece 38, and the second material shifting piece 38 is positioned on one side of the piece 200 to be cut; it should be noted that the first material shifting member 34 and the second material shifting member 38 should be located on the same side of the workpiece 200.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not intended to be in any way limiting, as those of ordinary skill in the art will readily implement the utility model as shown in the drawings and described above; however, all equivalent changes, modifications and variations of the utility model may be made by those skilled in the art without departing from the scope of the utility model, as defined by the following claims; meanwhile, any equivalent changes, modifications and evolution made to the above embodiments according to the essential technology of the present utility model still fall within the protection scope of the technical scheme of the present utility model.

Claims (9)

1. Cutting device with function of rectifying, its characterized in that: comprises a frame main body, a cutting component and a deviation rectifying component which are arranged on the frame main body; the cutting assembly comprises a placing plate, a plurality of placing grooves are formed in the placing plate, a stirring through groove penetrating through the placing plate is formed in the placing groove, the placing groove is used for placing a piece to be cut, and the piece to be cut can move along the length direction of the placing groove;

the deviation correcting assembly comprises an adjusting plate and an adjusting through groove arranged on the adjusting plate, the adjusting plate is located below the placing plate, a first stirring piece corresponding to the stirring through groove is arranged on the adjusting plate, the first stirring piece penetrates through the stirring through groove and is arranged on one side of a piece to be cut, and the adjusting plate can enable the first stirring piece to move in the stirring through groove towards a direction close to or far away from the piece to be cut.

2. The cutting device with deviation rectifying function according to claim 1, wherein: the frame main body comprises a fixed bottom plate and a fixed top plate, and a fixed vertical rod is arranged between the fixed bottom plate and the fixed top plate.

3. The cutting device with deviation rectifying function according to claim 2, characterized in that: the cutting assembly comprises a cutter bottom plate and a movable guide rod, wherein the cutter bottom plate is arranged on the fixed bottom plate, the movable guide rod penetrates through the cutter bottom plate to be perpendicular to the fixed bottom plate, and the movable guide rod is positioned between the fixed bottom plate and the fixed top plate.

4. A cutting device with deviation rectifying function according to claim 3, characterized in that: the cutting assembly further comprises a movable die holder, and the movable die holder is arranged on the movable guide rod; the movable die holder is characterized in that an upper tool clamp is arranged on one side, close to the tool bottom plate, of the movable die holder, the upper tool clamp is connected with a movable upper tool and a movable baffle, the movable upper tool and the movable baffle are adjacently arranged, and the bottom ends of the movable upper tool and the movable baffle are aligned.

5. A cutting device with deviation rectifying function according to claim 3, characterized in that: at least two movable guide rods are arranged.

6. The cutting device with deviation rectifying function according to claim 4, wherein: the cutter bottom plate is provided with a lower cutter holder and a fixed lower cutter, the lower cutter holder is provided with a cutter holder protrusion which penetrates through the adjusting through groove and is connected with the placing plate, and the fixed lower cutter is arranged on one side of the placing plate; the fixed lower knife is arranged right below the movable upper knife, and the movable baffle is arranged above the placing plate.

7. The cutting device with deviation rectifying function according to claim 1, wherein: a plurality of stirring through grooves are formed in the placing groove, and the stirring through grooves are uniformly formed in the placing groove.

8. The cutting device with deviation rectifying function according to claim 1, wherein: the correcting component further comprises an adjusting bracket and a connecting bracket, wherein the adjusting bracket is positioned on one side of the placing plate, and the connecting bracket is connected with the adjusting bracket and the adjusting plate.

9. The cutting device with deviation rectifying function according to claim 8, wherein: one side of the adjusting support is provided with connecting blocks with the same quantity as the placing grooves, one end, far away from the adjusting support, of each connecting block is provided with a second stirring piece, the second stirring pieces are arranged on the same side of a piece to be cut, and the second stirring pieces are arranged to move in the same direction as the first stirring pieces.

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