CN216914085U - Clean structure and cutting machine of cutting machine - Google Patents

Abstract

The application discloses a cleaning structure of a splitting machine and the splitting machine, which comprise a bracket, a cutter cleaning component and a dust removal component; the bracket is provided with a first cutter and a second cutter which are stacked; the cutter cleaning assembly comprises a cleaning driving mechanism and a cleaning piece, the cleaning driving mechanism is used for driving the cleaning piece to contact with or separate from the second cutter, and the side surface of the second cutter is positioned on the moving path of the cleaning piece; the dust removal assembly comprises a negative pressure fan, a negative pressure main pipe and a first negative pressure branch pipe, and one end of the first negative pressure branch pipe is over against the joint of the first cutter and the second cutter. This application is used for cleaning the second cutter through setting up the clean subassembly of cutter, can avoid causing the influence to the cutting operation because of remaining the foreign matter on the second cutter, and the cleaning member realizes the driven through clean actuating mechanism, can effectively avoid the cleaning member to hinder and cut the action, can adsorb through the dust removal subassembly and clear away foreign matters such as dust, avoids causing the pollution to the environment.

Description

Clean structure and cutting machine of cutting machine

Technical Field

The application relates to the technical field of splitting machines, in particular to a cleaning structure of a splitting machine and the splitting machine.

Background

The slitter is a mechanical device for slitting wide paper, mica tapes or films into a plurality of narrow materials, and is commonly used for paper making machinery, wire and cable mica tapes and printing and packaging machinery.

The slitting machine mainly comprises a cutter and a slitting driving mechanism, the slitting driving mechanism drives the cutter to slit a wide material, foreign matters such as dust, chips and broken filaments can appear on the surface of the wide material due to the influence of environmental factors, the foreign matters can influence the slitting effect, the material surface is crushed, scratched and the like, and the material can be polluted.

SUMMERY OF THE UTILITY MODEL

The present application is directed to solving at least one of the problems in the prior art. For this, this application provides a clean structure and cutting machine of cutting machine, can clean the region of cutting, and then improves the effect of cutting.

According to the cleaning structure of the cutting machine in the embodiment of the first aspect of the application, the cleaning structure comprises a support, a cutter cleaning component and a dust removal component; the support is provided with a first cutter and a second cutter, the first cutter and the second cutter are stacked, and the first cutter and the second cutter are used for forming shearing force to cut the material product; the cutter cleaning assembly is arranged on the support and comprises a cleaning driving mechanism and a cleaning piece, the driving end of the cleaning driving mechanism is connected with the cleaning piece, the cleaning driving mechanism is used for driving the cleaning piece to contact with or separate from the second cutter, the side face, close to the first cutter, of the second cutter is located in the movement path of the cleaning piece, and the cleaning piece is used for cleaning the second cutter; on the support was located to the dust removal subassembly, the dust removal subassembly included negative-pressure air blower, negative pressure person in charge and first negative pressure branch pipe, and negative-pressure air blower is responsible for with the negative pressure and is connected, and the negative pressure is responsible for and is connected with first negative pressure branch pipe, and the one end that the negative pressure was responsible for was kept away from to first negative pressure branch pipe is just to the junction of first cutter and second cutter.

According to this application embodiment's clean structure of cutting machine, have following beneficial effect at least: the cleaning assembly is used for cleaning the second cutter, the influence on the cutting operation due to the residual foreign matters on the second cutter can be avoided, the cleaning piece is driven by the cleaning driving mechanism and can be driven to move to be in contact with the second cutter to be cleaned, and the cleaning piece can also be driven to move to be away from the second cutter to avoid yielding, so that the cleaning piece is effectively prevented from hindering the cutting action of the first cutter and the second cutter, the cleaning action is reliable, the cleaning assembly is used for realizing adsorption cleaning just at the joint of the first cutter and the second cutter through the first negative pressure branch pipe of the dust removal assembly, the foreign matters on the surface of a material product can be removed before cutting to ensure the cutting effect, the foreign matters such as dust formed by cutting can be continuously adsorbed and removed in the cutting process, and the pollution to the environment is avoided.

According to the cleaning structure of the splitting machine of some embodiments of the present application, the first cutter is located above the second cutter, and both the first cutter and the second cutter are arranged perpendicular to the horizontal direction.

According to the cleaning structure of the splitting machine, the support is further provided with a splitting driving mechanism, the driving end of the splitting driving mechanism is connected with the first cutter, the splitting driving mechanism is used for driving the first cutter to move close to or far away from the second cutter, and the second cutter is fixedly connected with the support.

According to the cleaning structure of the splitting machine of some embodiments of the present application, the end of the first negative pressure branch pipe away from the negative pressure main pipe is also directed to the top surface of the second cutter.

According to the clean structure of a cutting machine of some embodiments of this application, dust removal component still includes second negative pressure branch pipe, and second negative pressure branch pipe is responsible for with the negative pressure and is connected, and the one end that negative pressure was responsible for is kept away from to second negative pressure branch pipe is just to the junction of cleaning member and second cutter.

According to the cleaning structure of the splitting machine of some embodiments of the application, the first negative pressure branch pipe and the second negative pressure branch pipe are hoses.

According to the cleaning structure of the splitting machine of some embodiments of the application, the cleaning piece is a scraper blade, and the scraper blade is used for scraping off foreign matters on the surface of the second cutter.

According to the cleaning structure of the splitting machine, the cutter cleaning assembly further comprises a wiping piece, the wiping piece is fixed on one side of the cleaning piece close to the second cutter, and the wiping piece is used for wiping foreign matters on the surface of the second cutter.

According to some embodiments of the cleaning structure of the splitting machine, the wiper is a sponge block.

According to the embodiment of the second aspect of the application, the splitting machine comprises the cleaning structure of the splitting machine in the embodiment of the first aspect.

According to the cutting machine of the embodiment of the second aspect, at least the following advantages are achieved: the cleaning assembly is used for cleaning the second cutter by arranging the cutter, the influence on the cutting operation due to the residual foreign matters on the second cutter can be avoided, the cleaning piece is driven by the cleaning driving mechanism, the cleaning piece can be driven to move to contact with the second cutter to realize cleaning, the cleaning piece can also be driven to move to be separated from the second cutter to realize abdication, the cleaning piece can be effectively prevented from obstructing the cutting action of the first cutter and the second cutter, the first negative pressure branch pipe arranged on the dust removal assembly is used for realizing adsorption cleaning at the joint of the first cutter and the second cutter, the foreign matters on the surface of a material product can be removed before cutting to ensure the cutting effect, the foreign matters such as dust formed by cutting can be continuously adsorbed and removed in the cutting process, and the pollution to the environment is avoided.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic structural view of a cleaning structure of a slitting machine according to an embodiment of the present application;

fig. 2 is a schematic structural view of a cleaning structure of a slitting machine according to another embodiment of the present application.

Description of reference numerals:

the cutting device comprises a bracket 100, a first cutter 110, a second cutter 120 and a slitting driving mechanism 130;

a cutter cleaning assembly 200, a cleaning driving mechanism 210, a cleaning member 220, a wiping member 230;

the dust removing assembly 300, the negative pressure fan 310, the negative pressure main pipe 320, the first negative pressure branch pipe 330 and the second negative pressure branch pipe 340.

Detailed Description

Reference will now be made in detail to the embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative and are only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the positional descriptions, such as the directions of up, down, left, right, front, rear, and the like, referred to as positional or positional relationships are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application.

In the description of the present application, if there are first and second described only for the purpose of distinguishing technical features, it is not understood that relative importance is indicated or implied or that the number of indicated technical features or the precedence of the indicated technical features is implicitly indicated or implied.

In the description of the present application, unless otherwise expressly limited, terms such as set, mounted, connected and the like should be construed broadly, and those skilled in the art can reasonably determine the specific meaning of the terms in the present application by combining the detailed contents of the technical solutions.

In the related art, the plastic films, papers and other material products produced by upstream material manufacturers are wide materials, and when the mid-stream and downstream manufacturers use the wide materials, the wide materials need to be cut into narrow materials with the sizes meeting the requirements. The material product is at the in-process of cutting, form the dust easily, the piece, foreign matter such as broken filament, adopt to glue glutinous structure usually or sweep the structure and clear away these foreign matters, the problem of leaking dirt appears easily in this kind of structure, still cause the damage to the material product easily, it can lead to the dust to spread to the environment with higher speed to sweep the process, thereby lead to the environment dust to exceed standard, not only can cause secondary pollution, still can form the potential safety hazard, furthermore, when cleaning the edge of a knife to the cutter, need shut down the operation, low in production efficiency.

Based on this, referring to fig. 1 to fig. 2, the embodiment of the present application provides a cleaning structure of a splitting machine and a splitting machine, which can remove the fragments generated before and after splitting to improve the reliability of the splitting action, and the cleaning action does not cause secondary pollution and does not need to stop the machine.

Referring to fig. 1, a cleaning structure of a cutting machine according to an embodiment of the first aspect of the present application includes a bracket 100, a cutter cleaning assembly 200, and a dust removing assembly 300; the support 100 is provided with a first cutter 110 and a second cutter 120, the first cutter 110 and the second cutter 120 are arranged in a stacked manner, specifically, the first cutter 110 and the second cutter 120 are stacked on two opposite sides of a shearing plane, a shearing structure can be formed when a knife edge of the first cutter 110 and a knife edge of the second cutter 120 move to be symmetrical with respect to the shearing plane, a shearing path of the shearing structure is on the shearing plane, the first cutter 110 and the second cutter 120 are used for forming a shearing force to cut a material product, and specifically, the shearing structure forms a shearing force to cut the material product; the cutter cleaning assembly 200 is arranged on the bracket 100, the cutter cleaning assembly 200 comprises a cleaning driving mechanism 210 and a cleaning piece 220, the driving end of the cleaning driving mechanism 210 is connected with the cleaning piece 220, the cleaning driving mechanism 210 is used for driving the cleaning piece 220 to move to contact with or separate from the second cutter 120, the surface of the second cutter 120 close to the first cutter 110 is in the moving path of the cleaning piece 220, namely the cleaning piece 220 can move to the surface of the second cutter 120 close to the first cutter 110, and the cleaning piece 220 is used for cleaning the second cutter 120; the dust removal assembly 300 is arranged on the support 100, the dust removal assembly 300 comprises a negative pressure fan 310, a negative pressure main pipe 320 and a first negative pressure branch pipe 330, the negative pressure fan 310 is connected with the negative pressure main pipe 320, the negative pressure main pipe 320 is connected with the first negative pressure branch pipe 330, one end, far away from the negative pressure main pipe 320, of the first negative pressure branch pipe 330 is just opposite to the joint of the first cutter 110 and the second cutter 120, namely, one end, far away from the negative pressure main pipe 320, of the first negative pressure branch pipe 330 is just opposite to a shearing structure, and the dust removal assembly is used for adsorbing foreign matters generated in the shearing process.

The cutter cleaning component 200 is arranged for cleaning the second cutter 120, so that the influence on the cutting operation caused by the residual foreign matters on the second cutter 120 can be avoided, the cleaning piece 220 is driven by the cleaning driving mechanism 210, the cleaning piece 220 can be driven to move to contact with the second cutter 120 for cleaning, and the cleaning piece 220 can also be driven to move to separate from the second cutter 120 for yielding, so that the cleaning piece 220 is effectively prevented from obstructing the cutting action of the first cutter 110 and the second cutter 120, the cleaning action is reliable, the first negative pressure branch pipe 330 of the dust removal component 300 is arranged to just face the connection part of the first cutter 110 and the second cutter 120 for realizing adsorption cleaning, so that the foreign matters on the surface of a material product can be removed before cutting to ensure the cutting effect, and the foreign matters such as dust formed by cutting can be continuously adsorbed and removed in the cutting process, thereby avoiding the pollution to the environment, the adsorbed cleaning mode can effectively avoid causing secondary pollution to the environment.

Specifically, the cleaning driving mechanism 210 is a cylinder capable of moving perpendicular to the horizontal, and the cleaning driving mechanism 210 may be further provided as a linear motor capable of driving the cleaning member 220 to move perpendicular to the horizontal.

It will be appreciated that the first negative pressure manifold 330 is positioned above the shear structure to ensure that it will adsorb foreign matter from the upper surface of the product during slitting.

It can be understood that, before slitting, the first cutter 110 is located above the second cutter 120, that is, the knife edge of the first cutter 110 is located above the knife edge of the second cutter 120 before slitting, both the first cutter 110 and the second cutter 120 are horizontally arranged in a perpendicular manner, which can reduce foreign matters from accumulating on the surfaces of the cutters, due to the action of gravity, the foreign matters generated by slitting or the foreign matters originally existing in the environment move downwards, the second cutter 120 is located below the slitting region, the foreign matters generated by slitting are easy to accumulate on the surface of the second cutter 120, and the performance of the second cutter 120 can be ensured by arranging the cutter cleaning assembly 200 for cleaning the second cutter 120, thereby effectively improving the slitting effect, and only one side of the second cutter 120 is provided with the cutter cleaning assembly 200, which has strong cleaning pertinence and can save cost.

It can be understood that, referring to fig. 2, the bracket 100 is further provided with a slitting driving mechanism 130, a driving end of the slitting driving mechanism 130 is connected to the first cutter 110, the slitting driving mechanism 130 is used for driving the first cutter 110 to move close to or away from the second cutter 120, the second cutter 120 is fixedly connected to the bracket 100, that is, the first cutter 110 is movably arranged, the second cutter 120 is fixedly arranged, the first cutter 110 is driven by the slitting driving mechanism 130 to move close to the second cutter 120 and form a cutting structure with the second cutter 120, when a material product is slit, the material product is pressed toward the second cutter 120 by the first cutter 110 to realize slitting, in this process, most of foreign matters such as chips generated by slitting of the material product reach an area where the second cutter 120 is located, and the side surface of the second cutter 120 close to the first cutter 110 can be effectively cleaned by the cutter cleaning assembly 200, thereby ensuring the slitting effect.

Specifically, the slitting drive mechanism 130 is a cylinder capable of moving vertically to the horizontal, and may be a linear motor capable of driving the first slitting knife 110 to move vertically to the horizontal.

It can be understood that, the end of the first negative pressure branch pipe 330 far from the negative pressure main pipe 320 also faces the top surface of the second cutter 120, the first negative pressure branch pipe 330 is located on the side of the first cutter 110 close to the second cutter 120, after the material product is cut and removed, due to the action of gravity, the foreign matter generated in the cutting process or the foreign matter existing in the environment can fall down to the top surface of the second cutter 120, and the negative pressure fan 310 performs the adsorption cleaning on the top surface of the second cutter 120 through the negative pressure main pipe 320 and the first negative pressure branch pipe 330, so as to provide a good condition for the subsequent cutting process that needs to be performed.

It can be understood that the dust removing assembly 300 further comprises a second negative pressure branch pipe 340, the second negative pressure branch pipe 340 is connected with the negative pressure main pipe 320, one end of the second negative pressure branch pipe 340, which is far away from the negative pressure main pipe 320, is just opposite to the connection position of the cleaning piece 220 and the second cutter 120, when the cleaning driving mechanism 210 drives the cleaning piece 220 to clean the second cutter 120, a part of foreign matters can fall off from the side surface of the second cutter 120, the negative pressure fan 310 performs adsorption cleaning on the side surface of the second cutter 120 through the negative pressure main pipe 320 and the second negative pressure branch pipe 340, the foreign matters generated by cleaning can be effectively prevented from being diffused into the environment to cause pollution, and therefore the reliability of the cleaning action is effectively improved.

It can be understood that the first negative pressure branch pipe 330 and the second negative pressure branch pipe 340 are hoses which have excellent deformation capability, and the hoses are disposed right opposite to and close to the joints of the first cutter 110 and the second cutter 120, i.e., the shear force forming positions, and the joints of the cleaning members 220 and the second cutter 120, so that the movement of the cutting members or the cleaning members 220 can be prevented from being hindered while ensuring the adsorption cleaning effect.

It is understood that the cleaning member 220 is a scraper for scraping foreign materials from the side of the second cutter 120.

It can be understood that the cutter cleaning assembly 200 further includes a wiper 230, the wiper 230 is fixed to a side of the cleaner 220 close to the second cutter 120, the wiper 230 is used for wiping foreign matters on a side of the second cutter 120, at this time, the cleaner 220 may be a straight plate structure, and the wiper 230 is fixed to a top of the cleaner 220 close to the side of the second cutter 120, so as to improve the avoiding effect and reduce the volume of the whole cleaning structure.

Specifically, the wiper 230 is a sponge block, which can effectively wipe off the foreign matters on the side of the second cutter 120 and can effectively form a certain adhesion effect on the foreign matters, thereby improving the cleaning effect. The wiper 230 may also be provided with other structures having a wiping function, such as a brush, etc.

It will be appreciated that there is also one cutter cleaning assembly 200, the cutter cleaning assembly 200 being provided on the side of the first cutter 110 adjacent the second cutter 120, for which cutter cleaning assembly 200: the surface of the first cutting knife 110 close to the second cutting knife 120 is on the moving path of the cleaning piece 220, that is, the cleaning piece 220 can move to the surface of the first cutting knife 110 close to the second cutting knife 120, and the cleaning piece 220 is used for cleaning the first cutting knife 110, so that the cleaning effect of the whole cutting knife can be further improved.

According to a second aspect embodiment of the present application, a splitting machine includes a cleaning structure of the splitting machine of the first aspect embodiment.

When the splitting machine is used for splitting, the cutter cleaning component 200 is arranged for cleaning the second cutter 120, so that the influence on the splitting operation caused by the residual foreign matters on the second cutter 120 can be avoided, the cleaning piece 220 is driven by the cleaning driving mechanism 210, the cleaning piece 220 can be driven to move to contact with the second cutter 120 for cleaning, and the cleaning piece 220 can also be driven to move to be separated from the second cutter 120 for abdicating, so that the cleaning piece 220 can be effectively prevented from obstructing the splitting action of the first cutter 110 and the second cutter 120, the first negative pressure branch pipe 330 of the dust removal component 300 is arranged right at the joint of the first cutter 110 and the second cutter 120 for realizing adsorption cleaning, so that the foreign matters on the surface of a material product can be removed before splitting to ensure the splitting effect, and the foreign matters such as dust formed by splitting can be continuously adsorbed and removed in the splitting process, the pollution to the environment is avoided, the secondary pollution to the environment can be effectively avoided by the adsorption cleaning mode, and the cleaning effect is reliable.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A cleaning structure of a slitter, comprising:

the cutting device comprises a bracket, a cutter and a cutter holder, wherein the bracket is provided with a first cutter and a second cutter, the first cutter and the second cutter are stacked and arranged, and the first cutter and the second cutter are used for forming shearing force to cut a material product;

the cutter cleaning assembly is arranged on the support and comprises a cleaning driving mechanism and a cleaning piece, the driving end of the cleaning driving mechanism is connected with the cleaning piece, the cleaning driving mechanism is used for driving the cleaning piece to contact with or separate from the second cutter, the side surface of the second cutter close to the first cutter is positioned on the movement path of the cleaning piece, and the cleaning piece is used for cleaning the second cutter;

the dust removal assembly is arranged on the support and comprises a negative pressure fan, a negative pressure main pipe and a first negative pressure branch pipe, the negative pressure fan is connected with the negative pressure main pipe, the negative pressure main pipe is connected with the first negative pressure branch pipe, and the first negative pressure branch pipe is far away from the joint of the first cutter and the second cutter, wherein one end of the negative pressure main pipe is right opposite to the joint of the first cutter and the second cutter.

2. The cleaning structure of a cutting machine as claimed in claim 1, wherein said first cutter is located above said second cutter, and said first cutter and said second cutter are both disposed vertically to the horizontal.

3. The cleaning structure of a splitting machine according to claim 2, wherein the support is further provided with a splitting driving mechanism, a driving end of the splitting driving mechanism is connected to the first cutter, the splitting driving mechanism is used for driving the first cutter to move close to or away from the second cutter, and the second cutter is fixedly connected to the support.

4. The cleaning structure of a cutting machine as claimed in claim 3, wherein the end of the first negative pressure branch pipe away from the main negative pressure pipe is also directed to the top surface of the second cutter.

5. The cleaning structure of a cutting machine according to claim 1, wherein the dust removing assembly further comprises a second negative pressure branch pipe, the second negative pressure branch pipe is connected with the negative pressure main pipe, and one end of the second negative pressure branch pipe, which is far away from the negative pressure main pipe, faces the connection between the cleaning member and the second cutter.

6. The cleaning structure of a splitting machine as claimed in claim 5, wherein said first negative pressure branch and said second negative pressure branch are hoses.

7. The cleaning structure of a cutting machine as claimed in claim 1, wherein said cleaning member is a scraper blade, said scraper blade is used for scraping the foreign matter on the surface of said second cutting blade.

8. The cleaning structure of a cutting machine according to claim 1, wherein said cutter cleaning assembly further comprises a wiper fixed to a side of said cleaning member near said second cutter, said wiper being configured to wipe foreign matter on a surface of said second cutter.

9. A cleaning structure for a slitter as claimed in claim 8 wherein the wiper is a sponge block.

10. A splitting machine, characterized in that it comprises a cleaning structure of a splitting machine according to any one of claims 1 to 9.

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