CN211491901U - Sealing gasket processing equipment - Google Patents

Abstract

The utility model relates to a sealed processing equipment that fills up, including the platform with set up in drive assembly and cutter unit on the platform, sealed raw and other materials that fills up are placed on the platform, drive assembly and cutter unit are connected, and drive assembly drive cutter unit goes up and down in order to cut sealed raw and other materials that fills up, and cutter unit includes interior blade and outer blade, and interior blade and outer blade all are the cylinder, the coaxial setting of interior blade and outer blade. This sealed processing equipment that fills up cuts sealed raw and other materials of packing through setting up drive assembly drive cutter subassembly, convenient operation and appearance quality are good. The structure of the cutter component is matched with that of the sealing gasket, so that the cutter component can be molded once and can be repeatedly utilized during cutting, and the process flow is simplified.

Description

Sealing gasket processing equipment

Technical Field

The utility model relates to a sealed technical field that fills up especially relates to a sealed processing equipment that fills up.

Background

In the field of gasket technology, it is common to provide a gasket for the connection between two flanges to enhance the sealing performance and the connection performance between the two flanges. The size and shape of the sealing gasket are different, which is not beneficial to batch production. In the use process, manual cutting is usually carried out according to the actually required model of the sealing gasket, and the manual cutting not only has low efficiency, but also is difficult to ensure the appearance quality of the sealing gasket.

Therefore, a processing device which is easy to operate is needed, and can improve the processing efficiency of the sealing gasket and ensure the appearance quality of the sealing gasket.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a sealed processing equipment that fills up, its drive assembly drive cutter subassembly cuts sealed raw and other materials that fills up, convenient operation, efficiency is higher.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a sealed processing equipment that fills up, including the platform with set up in drive assembly and cutter unit on the platform, sealed raw and other materials that fills up place in on the platform, drive assembly with cutter unit connects, just the drive assembly drive cutter unit goes up and down with right sealed raw and other materials that fills up cut, cutter unit includes interior blade and outer blade, interior blade with outer blade all is the cylinder, interior blade with outer blade coaxial setting.

Further, the tip of inner blade is provided with first cutting edge portion, the tip of outer blade is provided with second cutting edge portion, first cutting edge portion with second cutting edge portion is located cutter unit is with one side, just first cutting edge portion with second cutting edge portion is located the coplanar, the inner blade is kept away from the one end of first cutting edge portion with outer blade is kept away from the one end of second cutting edge portion all with drive assembly connects.

Further, a fixing block is arranged between the inner blade and the outer blade and is respectively connected with the outer wall of the inner blade and the inner wall of the outer blade.

Furthermore, an auxiliary blade is arranged on the cylinder wall of the outer blade, the auxiliary blade is cylindrical, and part of the side wall of the auxiliary blade is communicated with the cylinder wall of the outer blade.

Furthermore, one end of the auxiliary blade is provided with a third blade part, and the third blade part and the second blade part are located on the same plane.

Further, the platform includes bottom plate and the roof that the interval set up, the bottom plate with be equipped with the stand between the roof, drive assembly with the roof is connected, cutter unit is located between the roof and the bottom plate, sealed raw and other materials that fill up set up in on the bottom plate, drive assembly drive cutter unit moves along vertical direction.

Furthermore, the driving assembly comprises a hydraulic cylinder and a connecting plate, the cylinder body of the hydraulic cylinder is fixed on the top plate, the telescopic end of the hydraulic cylinder is connected with one side, close to the top plate, of the connecting plate, and the cutter assembly is connected with one side, close to the bottom plate, of the connecting plate.

Furthermore, the connecting plate be equipped with stand complex guiding hole, the guiding hole with the stand is pegged graft, just the connecting plate can be followed the axial slip of stand.

Furthermore, one side of the connecting plate, which is close to the top plate, is provided with a sleeve, and the sleeve is sleeved on the upright post.

Furthermore, the top plate is provided with a through hole, the cylinder body of the hydraulic cylinder is fixed on one side of the top plate, which is far away from the bottom plate, and the telescopic end of the hydraulic cylinder penetrates through the through hole and is connected with the connecting plate.

The utility model discloses compare in prior art's beneficial effect:

the utility model discloses a sealed processing equipment that fills up cuts sealed raw and other materials through setting up drive assembly drive cutter subassembly, and convenient operation and appearance quality are good. The structure of the cutter component is matched with that of the sealing gasket, so that the cutter component can be molded once and can be repeatedly utilized during cutting, and the process flow is simplified.

Drawings

Fig. 1 is a structural diagram of a sealing gasket processing apparatus according to an embodiment of the present invention.

Fig. 2 is a top view of a cutter assembly according to an embodiment of the present invention.

Fig. 3 is a sectional view of the cutter unit according to the embodiment of the present invention in the direction of a-a.

Fig. 4 is a plan view of a gasket according to an embodiment of the present invention.

In the figure:

1. a cutter assembly; 10. an inner blade; 100. a first blade section; 11. an outer blade; 110. a second blade portion; 12. a fixed block; 13. an auxiliary blade; 2. a platform; 20. a top plate; 21. a base plate; 22. a column; 3. a hydraulic cylinder; 4. a connecting plate; 40. a sleeve; 5. a gasket; 50. a gasket handle.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the technical solution of the present invention will be further explained by combining the drawings and by means of the specific implementation manner.

As shown in fig. 1-4, the utility model provides a pair of sealed pad processing equipment, including platform 2 with set up drive assembly and cutter unit 1 on platform 2, sealed pad raw and other materials are placed on platform 2, drive assembly is connected with cutter unit 1, and drive assembly drive cutter unit 1 goes up and down in order to cut sealed pad raw and other materials, cutter unit 1 includes inner blade 10 and outer blade 11, inner blade 10 and outer blade 11 all are the cylinder, inner blade 10 and the coaxial setting of outer blade 11. It can be understood that the sealing gasket 5 is mainly applied to the installation process of the engineering machinery and is assembled between two flanges, so that the sealing performance of the flange connection is improved. The sealing gasket 5 is mainly made of rubber material, is in a circular ring structure and is arranged on the abutting surface between the two flanges. In this embodiment, the driving assembly drives the cutter assembly 1 to move, the cutter assembly 1 comprises a cylindrical inner cutter blade 10 and an outer cutter blade 11, the cross section size of the inner cutter blade 10 is matched with the inner circle size of the sealing gasket 5, and the cross section size of the outer cutter blade 11 is matched with the outer circle size of the sealing gasket 5. The direction of movement of the cutter member 1 is perpendicular to the surface of the gasket raw material. During cutting, the driving assembly drives the cutter assembly 1 to move towards the direction of the raw material of the sealing gasket, and the cutter assembly 1 is lifted under the acting force of the driving assembly to cut the raw material of the sealing gasket to form the sealing gasket 5. This embodiment is through setting up drive assembly drive cutter subassembly 1 to sealed raw and other materials of filling up cutting, convenient operation and appearance quality are neat pleasing to the eye. The cutter assembly 1 can be used for multiple times, so that multiple scribing on raw materials is avoided during batch cutting, and the process flow is simplified. Meanwhile, the inner blade 10 and the outer blade 11 are cylindrical, so that multiple layers of raw materials can be cut simultaneously, and the production efficiency is improved.

Specifically, the end of the inner blade 10 is provided with a first blade portion 100, the end of the outer blade 11 is provided with a second blade portion 110, the first blade portion 100 and the second blade portion 110 are located on the same side of the cutter assembly 1, the first blade portion 100 and the second blade portion 110 are located on the same plane, and both the end of the inner blade 10 away from the first blade portion 100 and the end of the outer blade 11 away from the second blade portion 110 are connected with a driving assembly. It can be understood that the first blade portion 100 and the second blade portion 110 are used for cutting the gasket raw material, and the first blade portion 100 of the inner blade 10 and the second blade portion 110 of the outer blade 11 are disposed on the same plane, so that the two blade portions simultaneously cut the inner circle and the outer circle of the gasket 5, and are formed in one step, thereby preventing the gasket 5 from being subjected to pressure and the surface from tilting to cause dimensional inaccuracy. Since the inner blade 10 and the outer blade 11 are cylindrical, and a cavity is formed between both ends of the inner blade 10 and the outer blade 11, when the cutting operation is performed, the first blade part 100 and the second blade part 110 are subjected to the force of the driving assembly to cut the gasket raw material, and after the raw material is cut, the cut gasket 5 slides along the outer wall of the inner blade 10 and the inner wall of the outer blade 11 and enters the cavity, respectively. The cutter assembly 1 can cut multiple layers of raw materials at the same time, and the cut sealing gaskets 5 enter the cavity part in sequence and are taken out of the cavity part after the cutting is finished.

Specifically, a fixing block 12 is arranged between the inner blade 10 and the outer blade 11, and the fixing block 12 is connected to the outer wall of the inner blade 10 and the inner wall of the outer blade 11 respectively. It will be appreciated that the fixing block 12 is provided to fix the inner blade 10 and the outer blade 11 and to improve the strength of the inner blade 10 and the outer blade 11 so as to prevent deformation when subjected to pressure. In this embodiment, the two ends of the fixing block 12 are respectively welded to the middle positions of the outer wall of the inner blade 10 and the inner wall of the outer blade 11, so that the stability of the cutter assembly 1 under stress is improved.

In particular, the inner wall of the inner blade 10 is also provided with a fixed block 12, so as to further improve the stability of the cutter assembly 1 when being stressed.

Specifically, the cylindrical wall of the outer blade 11 is provided with an auxiliary blade 13, the auxiliary blade 13 is cylindrical, and a part of the side wall of the auxiliary blade 13 is communicated with the cylindrical wall of the outer blade 11. It can be understood that the outer circumference of the gasket 5 is formed when the outer blade 11 cuts the raw material, the gasket handle 50 is formed when the auxiliary blade 13 cuts the raw material, the side wall of the auxiliary blade 13 is penetrated through the cylindrical wall of the outer blade 11, and the cut outer circumference of the gasket 5 is connected with the gasket handle 50 to form a whole. Referring to fig. 4, the gasket 5 is a circular ring, and a gasket handle 50 is connected to an outer circumference of the gasket 5. During use of the gasket 5, since the annular portion of the gasket 5 is fitted on the abutting surfaces of the two flanges, the gasket handle 50 protrudes outside the flanges for the operator to hold. The gasket handle 50 is provided to facilitate the assembly and position adjustment of the gasket 5 during installation. In the embodiment, the auxiliary blade 13 is arranged on the outer blade 11, so that the sealing gasket handle 50 integrally formed with the sealing gasket 5 can be formed during cutting, and the assembly is convenient.

Specifically, one end of the auxiliary blade 13 is provided with a third blade portion, and the third blade portion and the second blade portion 110 are located on the same plane. The second blade portion 110 of the outer blade 11 is connected to the third blade portion and is an integral structure.

Specifically, platform 2 includes bottom plate 21 and the roof 20 that the interval set up, is equipped with stand 22 between bottom plate 21 and the roof 20, and drive assembly is connected with roof 20, and cutter unit 1 is located between roof 20 and the bottom plate 21, and the sealed raw and other materials that seal set up on bottom plate 21, and drive assembly drive cutter unit 1 moves along vertical direction. In this embodiment, four columns 22 are provided, four columns 22 are located at four corners of the bottom plate 21, and the driving assembly is mounted on the top plate 20. During cutting, the gasket raw material is placed on the surface of the bottom plate 21 on the side close to the top plate 20, and the driving assembly drives the cutter assembly 1 to move towards the bottom plate 21, so that the gasket raw material is cut.

Specifically, the driving assembly comprises a hydraulic cylinder 3 and a connecting plate 4, the cylinder body of the hydraulic cylinder 3 is fixed on the top plate 20, the telescopic end of the hydraulic cylinder 3 is connected with one side, close to the top plate 20, of the connecting plate 4, and the cutter assembly 1 is connected with one side, close to the bottom plate 21, of the connecting plate 4. In this embodiment, the connecting plate 4 is respectively connected to the telescopic end of the hydraulic cylinder 3 and the cutter assembly 1, which is beneficial to increase of the installation plane of the cutter assembly 1, so that one side of the cutter assembly 1, which is far away from the first blade portion 100 and the second blade portion 110, is integrally connected to the connecting plate 4, and when the hydraulic cylinder 3 applies pressure to the cutter assembly 1, the cutter assembly 1 is ensured to be uniformly stressed.

Specifically, the connecting plate 4 is provided with a guide hole matched with the upright column 22, the guide hole is inserted into the upright column 22, and the connecting plate can slide along the axial direction of the upright column 22. It can be understood that the connecting plate 4 is provided with a guide hole, and the connecting plate 4 slides along the axial direction of the upright column 22, so that the connecting plate 4 is prevented from being inclined or rotated in the movement, the problems of swinging, deviation and the like of the cutter assembly 1 during cutting are further avoided, and the cutting quality is improved.

Specifically, a sleeve 40 is disposed on one side of the connecting plate 4 close to the top plate 20, and the sleeve 40 is sleeved on the upright 22. The sleeve 40 is arranged to increase the guiding length between the upright column 22 and the connecting plate 4, so as to further improve the guiding effect.

Specifically, the top plate 20 is provided with a through hole, the cylinder body of the hydraulic cylinder 3 is fixed on one side of the top plate 20 far away from the bottom plate 21, and the telescopic end of the hydraulic cylinder 3 penetrates through the through hole and is connected with the connecting plate 4. It can be understood that the hydraulic cylinder 3 is arranged on the side of the top plate 20 away from the bottom plate 21, so that the distance between the top plate 20 and the bottom plate 21 can be reduced, and the whole structure of the sealing gasket processing equipment is more compact.

Specifically, the bottom plate 21 is further provided with an avoiding hole, and the position of the avoiding hole corresponds to the cutter assembly 1. And pressing blocks are arranged around the avoidance holes and are used for pressing the raw materials of the sealing gasket. During the cutting, cutter unit 1 moves down, and cutter unit 1 can penetrate into dodge the hole, avoids cutting edge part and bottom plate 21 contact to cause the cutting edge damage, also is favorable to cutting off sealed pad raw and other materials simultaneously.

Specifically, the sealing gasket processing apparatus further includes an oil tank and a controller, and the oil tank and the controller are connected to the hydraulic cylinder 3. The oil groove is used for storing hydraulic oil, and the controller is used for opening the start-stop control to pneumatic cylinder 3.

Specifically, the sealing gasket processing apparatus further includes a bracket. The sealing gasket processing equipment is arranged on the bracket.

The remarkable effects of the embodiment are as follows: the sealing gasket raw material is cut by arranging the driving component to drive the cutter component 1, so that the operation is convenient and the appearance quality is good. The structure of the cutter component 1 is matched with that of the sealing gasket 5, and the cutter component is formed at one time during cutting and can be repeatedly utilized, so that the process flow is simplified. Meanwhile, the inner blade 10 and the outer blade 11 are cylindrical, so that multiple layers of raw materials can be cut simultaneously, and the production efficiency is improved.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims (10)

1. The utility model provides a sealed processing equipment that fills up, its characterized in that, include platform (2) and set up in drive assembly and cutter unit (1) on platform (2), sealed pad raw and other materials place in on platform (2), drive assembly with cutter unit (1) is connected, just the drive assembly drive cutter unit (1) goes up and down in order to right sealed pad raw and other materials cut, cutter unit (1) includes interior blade (10) and outer blade (11), interior blade (10) with outer blade (11) all are the cylinder, interior blade (10) with outer blade (11) coaxial setting.

2. The apparatus according to claim 1, wherein the end of the inner blade (10) is provided with a first blade portion (100), the end of the outer blade (11) is provided with a second blade portion (110), the first blade portion (100) and the second blade portion (110) are located on the same side of the cutter assembly (1), and the first blade portion (100) and the second blade portion (110) are located on the same plane, one end of the inner blade (10) away from the first blade portion (100) and one end of the outer blade (11) away from the second blade portion (110) are both connected with the driving assembly.

3. The sealing gasket processing apparatus according to claim 2, wherein a fixing block (12) is provided between the inner blade (10) and the outer blade (11), and the fixing block (12) is connected to an outer wall of the inner blade (10) and an inner wall of the outer blade (11), respectively.

4. The sealing gasket processing device according to claim 2, wherein an auxiliary blade (13) is arranged on the cylinder wall of the outer blade (11), the auxiliary blade (13) is cylindrical, and part of the side wall of the auxiliary blade (13) is communicated with the cylinder wall of the outer blade (11).

5. The apparatus for processing a gasket according to claim 4, wherein a third cutting edge portion is provided at one end of the auxiliary blade (13), and the third cutting edge portion and the second cutting edge portion (110) are located on the same plane.

6. The apparatus for processing a gasket according to claim 1, wherein the platform (2) comprises a bottom plate (21) and a top plate (20) which are arranged at an interval, a column (22) is arranged between the bottom plate (21) and the top plate (20), the driving assembly is connected with the top plate (20), the tool assembly (1) is arranged between the top plate (20) and the bottom plate (21), the raw gasket material is arranged on the bottom plate (21), and the driving assembly drives the tool assembly (1) to move along a vertical direction.

7. The gasket processing apparatus according to claim 6, wherein the driving assembly comprises a hydraulic cylinder (3) and a connecting plate (4), a cylinder body of the hydraulic cylinder (3) is fixed on the top plate (20), a telescopic end of the hydraulic cylinder (3) is connected with one side of the connecting plate (4) close to the top plate (20), and the cutter assembly (1) is connected with one side of the connecting plate (4) close to the bottom plate (21).

8. The equipment for machining sealing gaskets as defined in claim 7, wherein the connecting plate (4) is provided with guide holes for cooperating with the uprights (22), said guide holes being inserted into the uprights (22), and the connecting plate (4) being slidable in the axial direction of the uprights (22).

9. The sealing gasket processing apparatus according to claim 7, wherein a sleeve (40) is provided on a side of the connecting plate (4) close to the top plate (20), and the sleeve (40) is sleeved on the upright (22).

10. The sealing gasket processing apparatus according to claim 7, wherein the top plate (20) is provided with a through hole, the cylinder body of the hydraulic cylinder (3) is fixed on the side of the top plate (20) far away from the bottom plate (21), and the telescopic end of the hydraulic cylinder (3) passes through the through hole and is connected with the connecting plate (4).

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