CN210282543U - Sheet cuts transport mechanism, lithium electric capacity manufacture equipment - Google Patents

Sheet cuts transport mechanism, lithium electric capacity manufacture equipment Download PDF

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Publication number
CN210282543U
CN210282543U CN201921380113.3U CN201921380113U CN210282543U CN 210282543 U CN210282543 U CN 210282543U CN 201921380113 U CN201921380113 U CN 201921380113U CN 210282543 U CN210282543 U CN 210282543U
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China
Prior art keywords
assembly
piece
cutting
sheet
sheet material
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CN201921380113.3U
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Inventor
张洪涛
梁亚军
夏广春
张鹏
衣启正
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CRRC Qingdao Sifang Rolling Stock Research Institute Co Ltd
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CRRC Qingdao Sifang Rolling Stock Research Institute Co Ltd
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Abstract

The utility model provides a sheet cuts transport mechanism, include: a support assembly; the cutting assembly is connected with the supporting assembly in a relatively vertical moving manner; a transfer assembly, the transfer assembly comprising: the horizontal displacement driving piece is connected with the supporting component; the vertical displacement driving piece is connected with the horizontal displacement driving piece; the moving piece is connected with the vertical displacement driving piece and can move to the cutting position of the cutting assembly. The utility model provides a sheet cuts transport mechanism can effectively improve the phenomenon that covers the piece and glue the sword, reduces the cleaning frequency of cutter in the production process to improve production efficiency. The utility model also provides a lithium electric capacity manufacture equipment.

Description

Sheet cuts transport mechanism, lithium electric capacity manufacture equipment
Technical Field
The utility model belongs to sheet automated processing equipment field especially relates to a sheet cuts transport mechanism.
Background
In the field of sheet processing, a forming cutter die is generally used to cut and cut a sheet by a punching operation to obtain a desired sheet or a sheet semi-finished product.
Patent document CN 209175804U discloses a full-automatic shearing machine for sheet-shaped workpieces, which comprises a workbench, and a positioning device, a shearing device and a material taking device which are arranged on the workbench. The cutting device comprises a support plate, a cutting device, a positioning device and a cutting device, wherein the support plate is provided with a cutting position; the shearing device shears the sheet to be cut, and the sheared sheet is taken away by the material taking device and conveyed to the next station.
The shearing machine is mainly applied to shearing of the light guide plate of the mobile phone, and is not suitable for shearing of the composite sheet for manufacturing the lithium capacitor monomer. Specifically, the lamination sheet for manufacturing the lithium capacitor cell contains lithium, and the lithium is easily adhered to a cutting tool during cutting of the lamination sheet, so that the cleaning frequency of the cutting tool is increased during processing, and the production efficiency is reduced.
SUMMERY OF THE UTILITY MODEL
Glue the sword easily when cutting to using the full-automatic cutter of current slice work piece to cover the laminating piece, need increase the technical problem of cutter cleaning frequency, the utility model provides a sheet cuts transport mechanism can effectively improve the phenomenon that the laminating piece glues the sword, reduces the cleaning frequency of cutter in the production process to improve production efficiency. The utility model also provides a lithium electric capacity manufacture equipment and lithium electric capacity cover piece cut the transportation method. In order to achieve the above purpose, the utility model adopts the following technical scheme:
a sheet cuts transport mechanism, includes:
a support assembly;
the cutting assembly is connected with the supporting assembly in a relatively vertical moving manner;
a transfer assembly, the transfer assembly comprising:
the horizontal displacement driving piece is connected with the supporting component;
the vertical displacement driving piece is connected with the horizontal displacement driving piece;
the moving piece is connected with the vertical displacement driving piece and can move to the cutting position of the cutting assembly.
Further, the moving member is provided with an air source connecting hole, and the moving member is also provided with a vacuum adsorption hole which enables the air source connecting hole to be communicated with the outside.
Further, the cutting assembly includes:
a lift drive, the lift drive comprising:
a body connected with the support assembly;
the connecting shaft is in relatively linear moving connection with the body;
the supporting piece is connected to one end of the connecting shaft;
the cutting piece is connected with the supporting piece;
the first guide part is connected with the support component, and the first guide part is connected with the support component in a relatively linear moving manner.
Further, still include:
a platen assembly, the platen assembly comprising:
a pressing plate body;
the second guide piece is connected with the supporting piece, and the pressing plate body is connected with the second guide piece in a relatively moving way;
the elastic piece is sleeved on the second guide piece, and two ends of the elastic piece are respectively abutted to the supporting piece and the pressing plate body.
Further, still include displacement detection subassembly, displacement detection subassembly connect in cutting subassembly with on the supporting component.
Further, the displacement detecting assembly includes:
the first detection piece is connected with the cutting assembly;
and the second detection piece is connected with the support component and detects the displacement of the first detection piece.
Further, still include the material and collect the subassembly, the material is collected the subassembly and is located cutting assembly's below.
A lithium electric capacity manufacture equipment, includes any one above-mentioned sheet and cuts transport mechanism, still includes:
the bearing piece corresponds to the position of the sheet material cutting and transferring assembly;
a robot movable above the carrier.
Compared with the prior art, the beneficial effects of the utility model reside in that:
1. the utility model provides a sheet cuts transport mechanism, be provided with the transportation subassembly, the transportation subassembly includes the horizontal displacement driving piece, vertical displacement driving piece and moving member, the position of horizontal displacement driving piece and vertical displacement driving piece adjustment moving member, make the moving member be located cutting assembly's department that cuts, the moving member can snatch the sheet after cutting, the moving member drives the sheet horizontal migration after cutting under the drive of horizontal displacement driving piece, cutting assembly is kept away from to the sheet after cutting, the area of contact and the contact time of sheet with cutting assembly have been reduced, the possibility that the sheet glues the sword has been reduced, in the production process, the abluent frequency of cutter has been reduced, and the production efficiency is improved.
2. The utility model provides a sheet cuts transport mechanism transports the subassembly and plays when reducing and glue the sword possibility, can in time transport the operation to the sheet after the cutting, has optimized the structure that cuts transport mechanism, has reduced the time of cutting the transportation, has improved production efficiency.
Drawings
Fig. 1 is a schematic overall structure diagram of a sheet material cutting and transferring mechanism provided in this embodiment;
FIG. 2 is a schematic diagram of the overall structure of the sheet material cutting and transferring mechanism in FIG. 1;
fig. 3 is a schematic view of the entire structure of the transfer unit of fig. 1.
The reference numerals are explained in detail:
1. a support assembly;
2. cutting the assembly; 21. a lifting drive member; 22. a support member; 23. a first guide member; 24. cutting the workpiece;
3. a transfer assembly; 31. a first connecting member; 32. a horizontal displacement drive member; 33. a vertical displacement drive; 34. a moving member; 341. a gas source connecting hole; 35. a second connecting member; 36. a third connecting member; 37. a fourth connecting member;
4. a platen assembly; 41. a pressing plate body; 42. a second guide member; 43. an elastic member;
5. a displacement detection assembly; 51. a first detecting member; 52. a second detecting member;
6. a material collection assembly;
100. a sheet cutting and transferring mechanism;
101. a carrier.
Detailed Description
The technical solution in the embodiments of the present invention will be described in detail and completely with reference to the accompanying drawings. It is obvious that the described embodiments are only some embodiments, not all embodiments, of the general solution of the present invention. All other embodiments, which can be derived by a person skilled in the art based on the general idea of the invention, fall within the scope of protection of the invention.
In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.
The terms "first", "second", "third" and "fourth" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or an implicit indication of the number of technical features indicated. Thus, features defined as "first", "second", "third" and "fourth" may explicitly or implicitly include one or more of the features.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Glue the sword easily when cutting to using the full-automatic cutter of current slice work piece to cover the laminating piece, need increase the technical problem of cutter cleaning frequency, the utility model provides a sheet cuts transport mechanism can effectively improve the phenomenon that the laminating piece glues the sword, reduces the cleaning frequency of cutter in the production process to improve production efficiency. The utility model also provides a lithium electric capacity manufacture equipment and lithium electric capacity cover piece cut the transportation method. The technical solution of the present invention will be specifically described with reference to the following embodiments.
The present embodiment provides a sheet cutting and transferring mechanism 100, referring to fig. 1 and fig. 2, including:
a support assembly 1;
the cutting component 2 is connected with the supporting component 1 in a relatively vertical moving manner;
a transfer module 3, the transfer module 3 comprising:
a horizontal displacement driving member 32, wherein the horizontal displacement driving member 32 is connected with the support group 1;
a vertical displacement driving member 33, the vertical displacement driving member 33 being connected with the horizontal displacement driving member 32;
and the moving member 34, the moving member 34 is connected with the vertical displacement driving member 33, and the moving member 34 can move to the cutting position of the cutting assembly 2.
The sheet cuts transport mechanism 100 that this embodiment provided, including being provided with transport assembly 3, transport assembly 3 includes horizontal displacement driving piece 32, vertical displacement driving piece 33 and moving member 34, horizontal displacement driving piece 32 and the position of vertical displacement driving piece 33 adjustment moving member 34, make moving member 34 be located the department of cutting assembly 2, moving member 34 can snatch the sheet after the cutting off, moving member 34 drives the sheet horizontal migration after the cutting off under the drive of horizontal displacement driving piece 32, make the sheet after the cutting off accomplish and cut off and keep away from cutting assembly 2 immediately after the operation, the area of contact and the contact time of sheet with cutting assembly 2 have been reduced, the possibility that the sheet glues the sword has been reduced, in process of production, the abluent frequency of cutter has been reduced, and the production efficiency is improved.
Specifically, referring to fig. 1 and fig. 2, the sheet cutting and transferring mechanism 100 provided in this embodiment includes a supporting component 1, a cutting component 2, a transferring component 3, a pressing component 4, a displacement detecting component 5 and a material collecting component 6, wherein the cutting component 2 and the transferring component 3 are connected to the supporting component 1, the positions of the cutting component 2 and the transferring component 3 are corresponding, the pressing component 4 is connected to the cutting component 2, the displacement detecting component 5 is connected to the cutting component 2 and the supporting component 1, and the material collecting component 6 is located below the cutting component 2.
More specifically, referring to fig. 1 and fig. 2, the supporting component 1 provides the stable supporting function for the sheet cutting and transferring mechanism 100, the supporting component 1 includes the supporting columns provided with the left and right sides, the supporting columns are connected with an upper supporting platform and a lower supporting platform, the upper end of the cutting component 2 is connected to the upper supporting platform, and the lower end of the cutting component 2 is connected to the lower supporting platform.
Referring to fig. 1 and 2, a cutting assembly 2 is used to cut sheets. The cutting assembly 2 comprises a lifting drive 21, a support 22, a first guide 23 and a cutting member 24. The lifting driving piece 21 is used for controlling the vertical displacement of the cutting piece 24, the lifting driving piece 21 operates the cutting piece 24 to vertically move downwards to achieve cutting operation, and the lifting driving piece 21 operates the cutting piece 24 to vertically move upwards to complete cutting operation and prepare for next cutting operation. Specifically, the lifting driving assembly 21 includes a body connected to the support assembly 1 and a connecting shaft 211 connected to the body for linear movement relative thereto. The elevation drive assembly 21 may be a combination of a rotary motor and a motion conversion mechanism that converts the rotary motion of the rotary motor into a linear motion. The lifting driving assembly 21 can be an electric cylinder, an air cylinder or a hydraulic cylinder. The particular form of the lift drive assembly 21 needs to be specifically selected according to the sheet material to be cut. The support 22 serves to support the stable cutting assembly 2, while the support 22 serves to connect the cutting member 24. The supporting member 22 is connected to one end of the connecting shaft 211, and the cutting member 24 is connected to the supporting member 22. The first guide part 23 is connected with the supporting component 1, the first guide part 23 penetrates through the supporting component 22, the first guide part 23 and the supporting component 22 are connected in a relatively linear moving mode, when the lifting driving component 21 drives the supporting component 22 to further drive the cutting component 24 to move, the supporting component 22 and the first guide part 23 move relatively, the first guide part 23 provides a movement guiding effect for the supporting component 22, namely, the cutting component 24, and the accuracy of cutting operation is improved. The cutting member 24 is preferably a tungsten steel knife. The cutting piece 24 is preferably a tungsten steel knife with a titanium-plated surface, so that contamination to lithium can be reduced, and the possibility of knife adhesion during cutting of the lithium capacitor clad sheet can be reduced.
The transfer assembly 3 is used for transferring the cut sheet away from the cutting assembly 2. Referring to fig. 1 and 3, the transferring assembly 3 includes a first connecting member 31, a horizontal displacement driving member 32, a vertical displacement driving member 33, a moving member 34, a second connecting member 35, a third connecting member 36 and a fourth connecting member 37, the horizontal displacement driving member 32 is connected to the first connecting member 31, and the horizontal displacement driving member 32 is connected to the supporting assembly 1 through the first connecting member 31. Horizontal displacement driving piece 32 has the removal end, and second connecting piece 35 is connected with the removal end, and vertical displacement driving piece 33 passes through third connecting piece 36 to be connected on second connecting piece 35, drives second connecting piece 35 horizontal migration during horizontal displacement of the removal end of horizontal displacement driving piece 32 to drive vertical displacement driving piece 33 horizontal migration. The vertical displacement driving member 33 has a moving end, the moving member 34 is connected to the moving end of the vertical displacement driving member 33 through a fourth connecting member 37, and the moving end of the vertical displacement driving member 33 drives the fourth connecting member 37 to vertically move, so that the moving member 34 is driven to vertically move. That is, the position of the moving member 34 can be adjusted by the horizontal displacement drive 32 and the vertical displacement drive 33. The horizontal displacement drive 32 and the vertical displacement drive 33 may be electric, pneumatic or hydraulic cylinders. The moving member 34 is used for grasping the cut sheet and transferring the cut sheet under the driving of the horizontal displacement driving member 32 and the vertical displacement driving member 33. The mode that moving member 34 snatchs the sheet can be vacuum adsorption, and moving member 34 has air supply connecting hole 341, and air supply connecting hole 341 is seted up in the one end of moving member 34 and is located the inside of moving member 34, has seted up vacuum adsorption hole (not shown in the drawing) on moving member 34 and the sheet relative face, and the vacuum adsorption hole is the through-hole, and the vacuum adsorption hole makes air supply connecting hole 341 be linked together with the external world. When grabbing the sheet, the moving member 34 is connected to a vacuum source through the source connecting hole 341, and performs vacuum suction on the sheet through the vacuum suction hole, thereby fixing the position of the cut sheet. When cutting assembly 2 cuts the sheet, horizontal displacement driving piece 32 and the position of vertical displacement driving piece 33 adjustment moving piece 34, make moving piece 34 be located cutting assembly 2's cutting department, moving piece 34 adsorbs the sheet, the position of fixed sheet, cutting assembly 2 cuts the operation to the sheet, accomplish and cut the back of the operation, moving piece 34 drives the sheet horizontal migration after cutting off under horizontal displacement driving piece 32's drive, make the sheet after cutting off accomplish and keep away from cutting assembly 2 immediately after cutting the operation, the area of contact and the contact time of sheet with cutting assembly 2 have been reduced, the possibility that the sheet glues the sword has been reduced, in process of production, the abluent frequency of cutter has been reduced, and the production efficiency is improved.
The platen assembly 4 is used to straighten the sheet material to be cut. Referring to fig. 2, the pressure plate assembly 4 includes a pressure plate body 41, a second guide 42, and an elastic member 43. The second guide member 42 is connected to the support member 22, the second guide member 42 penetrates the platen body 41, and the second guide member 42 is connected to the platen body 41 to be movable relative thereto. The elastic member 43 is sleeved on the second guide member 42, and two ends of the elastic member 43 are respectively abutted against the support member 22 and the pressing plate body 41. When the cutting assembly 2 performs cutting operation, the pressing plate body 41 is in contact with the sheet material, the sheet material 41 is straightened, and the pressing plate body 41 is always in contact with the sheet material in the cutting process; after finishing cutting operation, cutting assembly 2 lifts up vertically upwards, and clamp plate body 41 still keeps with the sheet contact under the effect of elastic component 43, lasts to carry out the flattening operation to the sheet, prevents that the sheet after cutting from producing rebound in the twinkling of an eye.
The sheet cutting and transferring mechanism 100 provided by the embodiment further comprises a displacement detection assembly 5, wherein the displacement detection assembly 5 is used for detecting the displacement of the cutting assembly 2, and the automatic control of the mechanism is facilitated. In particular, the displacement assembly 5 is connected to the cutting assembly 2 and the support assembly 1. More specifically, the displacement detecting assembly 5 includes a first detecting member 51 and a second detecting member 52. The first detecting member 51 is connected with the cutting assembly 2, and the first detecting member 51 is used for indicating the position of the cutting assembly 2. The second detecting member 52 is connected with the supporting assembly 1, the second detecting member 52 has a receiving end and a transmitting end, and when the first detecting member 51 passes through the receiving end and the transmitting end, the second detecting member 52 can detect the position of the first detecting member 51, so as to detect the position of the cutting assembly 2.
The sheet material cutting and transferring mechanism 100 provided by the embodiment further comprises a material collecting component 6, referring to fig. 1, the material collecting component 6 is used for collecting sheet material waste and scraps falling after cutting, and the material collecting component 6 is located below the cutting component 2.
For the understanding of the technical solution of the present embodiment, the following further describes the movement process of the sheet material cutting and transferring mechanism 100 provided in the present embodiment:
the sheet to be cut is passed through the platen 41 and placed under the cutting assembly 2, the sheet passing through the cutting assembly 2; the horizontal displacement driving part 32 and the vertical displacement driving part 34 drive the moving part 34 to move, so that the moving part 34 moves to the cutting position of the cutting assembly 2, and the moving part 34 adsorbs the sheet and fixes the position; the lifting driving piece 21 drives the cutting piece 24 of the cutting assembly 2 to vertically move downwards to cut the sheet, and at the moment, the pressing plate body 41 is in contact with the sheet to straighten the sheet; in the complete cutting operation, when the cutting piece 24 is not lifted, the horizontal displacement driving piece 32 drives the moving piece 34 to horizontally move in the direction away from the cutting piece 24, and the moving piece 34 drives the cut sheet to be away from the cutting piece 24; the cutter 24 is lifted away from the sheet.
The present embodiment further provides a lithium capacitor manufacturing apparatus, which includes the above-mentioned sheet material cutting and transferring mechanism 100, and further includes a carrier 101 and a manipulator (not shown in the drawings), where the carrier 101 corresponds to the position of the sheet material cutting and transferring mechanism 100, and the manipulator is movable to above the carrier 101. After the cutting operation of the lamination sheet is completed, the moving member 34 moves the cut lamination sheet to the bearing member 101, and the manipulator takes away the lamination sheet placed on the bearing member 101 and enters the next process.
After the lithium battery laminating piece is cut, the cut laminating piece is horizontally moved, so that the laminating piece is far away from the cutting mechanism, the contact area and the contact time of the laminating piece and a cutter of the cutting assembly 2 are reduced, the possibility of adhering the cutter by the laminating piece is reduced, the frequency of cleaning the cutter is reduced in the process of manufacturing a lithium battery, and the production efficiency is improved.

Claims (8)

1. The utility model provides a sheet cuts transport mechanism which characterized in that includes:
a support assembly;
the cutting assembly is connected with the supporting assembly in a relatively vertical moving manner;
a transfer assembly, the transfer assembly comprising:
the horizontal displacement driving piece is connected with the supporting component;
the vertical displacement driving piece is connected with the horizontal displacement driving piece;
the moving piece is connected with the vertical displacement driving piece and can move to the cutting position of the cutting assembly.
2. The sheet material cutting and transferring mechanism as claimed in claim 1, wherein the moving member has an air supply connection hole, and the moving member is further provided with a vacuum suction hole, and the vacuum suction hole communicates the air supply connection hole with the outside.
3. The sheet material cutting transfer mechanism of claim 1, wherein the cutting assembly comprises:
a lift drive, the lift drive comprising:
a body connected with the support assembly;
the connecting shaft is in relatively linear moving connection with the body;
the supporting piece is connected to one end of the connecting shaft;
the cutting piece is connected with the supporting piece;
the first guide part is connected with the support component, and the first guide part is connected with the support component in a relatively linear moving manner.
4. The sheet material cutting transfer mechanism of claim 3, further comprising:
a platen assembly, the platen assembly comprising:
a pressing plate body;
the second guide piece is connected with the supporting piece, and the pressing plate body is connected with the second guide piece in a relatively moving way;
and the elastic piece is sleeved on the second guide piece, and two ends of the elastic piece are respectively abutted against the supporting piece and the pressing plate body.
5. The sheet material cutting transfer mechanism of claim 1, further comprising a displacement detection assembly connected to the cutting assembly and the support assembly.
6. The sheet material cutting transfer mechanism of claim 5, wherein the displacement detection assembly comprises:
the first detection piece is connected with the cutting assembly;
and the second detection piece is connected with the support component and detects the displacement of the first detection piece.
7. The sheet material cutting transfer mechanism of claim 1, further comprising a material collection assembly located below the cutting assembly.
8. A lithium capacitor manufacturing equipment comprises the sheet material cutting and transferring mechanism of any one of claims 1-7, and is characterized by further comprising:
the bearing piece corresponds to the position of the sheet material cutting and transferring assembly;
a robot movable above the carrier.
CN201921380113.3U 2019-08-22 2019-08-22 Sheet cuts transport mechanism, lithium electric capacity manufacture equipment Active CN210282543U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921380113.3U CN210282543U (en) 2019-08-22 2019-08-22 Sheet cuts transport mechanism, lithium electric capacity manufacture equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921380113.3U CN210282543U (en) 2019-08-22 2019-08-22 Sheet cuts transport mechanism, lithium electric capacity manufacture equipment

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CN210282543U true CN210282543U (en) 2020-04-10

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110355813A (en) * 2019-08-22 2019-10-22 中车青岛四方车辆研究所有限公司 Sheet material cuts transshipment acitivity, lithium capacitor manufacturing equipment and lithium capacitor laminating cut conveyer method
CN115741824A (en) * 2022-12-09 2023-03-07 湖南金海塑胶管业有限公司 Shearing device for plastic product processing

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110355813A (en) * 2019-08-22 2019-10-22 中车青岛四方车辆研究所有限公司 Sheet material cuts transshipment acitivity, lithium capacitor manufacturing equipment and lithium capacitor laminating cut conveyer method
CN115741824A (en) * 2022-12-09 2023-03-07 湖南金海塑胶管业有限公司 Shearing device for plastic product processing

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