CN213197736U - Gasket processingequipment - Google Patents

Abstract

The utility model discloses a gasket processingequipment belongs to the machine tooling technology field. This gasket processingequipment through two at least location nails on the fixed plate for the fixed plate is relatively by the cutting board can not rotate, just also can not squint, thereby makes locating component can not squint on being cut the cutting board, and the setting up of bearing spare makes the locating lever can the rotation in addition, and the fixed plate can remain stationary, thereby both realize cutting function, has also improved cutting accuracy. In addition, because the bearing is arranged between the positioning rod and the fixing plate, the center of gravity of the gasket processing device moves downwards, the stability of the gasket processing device is improved, and the processing precision of the gasket is further improved.

Description

Gasket processingequipment

Technical Field

The utility model relates to a machine tooling technical field especially relates to a gasket processingequipment.

Background

Gaskets have a wide range of applications, for example, non-metallic gaskets are low cost and can satisfy sealing functions, and have wide applications in various fields.

The non-metal gasket is formed by shearing a non-metal plate according to a round line by using scissors, but the shearing by the scissors is not only low in efficiency, but also easy to scratch the gasket. For this reason, machining tools for rapid shim production have been developed. The technical staff discovers, in the machining tool of preparation gasket fast, in order to fix a position and make the locating lever rotate around self axis on the non-metal plate, can set up a location fulcrum usually in one of locating lever, and the locating lever of rotation drives the cutter and rotates around this location fulcrum in order to cut preparation gasket.

However, when there is only one positioning fulcrum, the positioning rod is easily deviated due to rotation of the non-metal plate, so that the manufactured gasket is difficult to meet the high precision requirement.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a gasket processingequipment.

The utility model provides a pair of gasket processingequipment, include: the positioning assembly, the cutter assembly and the connecting rod;

the positioning assembly comprises a positioning rod, a bearing piece and a fixing plate which are sequentially arranged along a first direction, the positioning rod comprises a first end, the bearing piece is arranged on the first end, the positioning rod can rotate around the axis of the positioning rod under the support of the bearing piece, the fixing plate is arranged on one side of the bearing piece, which is far away from the positioning rod, and at least two positioning nails are arranged on one side of the fixing plate, which is far away from the bearing piece;

the connecting rod is connected with the cutter assembly and the positioning rod so as to drive the cutter assembly to rotate around the axis of the positioning rod under the rotation of the positioning rod.

In the gasket processing device, the positioning rod further comprises a second end, and the second end is opposite to the first end; the gasket processing device further comprises a driving piece, wherein the driving piece is connected to the second end and used for outputting energy for driving the positioning rod to rotate around the axis of the positioning rod.

In the gasket processing device, the bearing piece comprises a bearing box, a bearing main body and a bearing gland, the bearing box is provided with an opening, the bearing main body is integrally connected with the positioning rod and is positioned in the bearing box, and the bearing gland covers the opening and surrounds the positioning rod.

In the gasket processing device, the bearing box is provided with a bottom wall, the bottom wall is opposite to the opening, and the fixing plate is fixedly connected to the bottom wall.

In the gasket processing device, an orthographic projection of the bearing piece on the fixing plate is overlapped with the fixing plate along the extending direction of the positioning rod.

In the gasket processing device, the positioning nails are uniformly arranged on the fixing plate.

In the gasket processing device, the extending direction of the connecting rod is perpendicular to the extending direction of the positioning rod, and the extending direction of the cutter assembly is parallel to and in the same direction as the extending direction from the positioning rod to the fixing plate.

In the gasket processing device, the connecting rod is fixedly connected with the positioning rod, and the cutter assembly is connected with the connecting rod and arranged in a sliding manner along the extending direction of the connecting rod.

Foretell gasket processingequipment, the cutter subassembly includes cutter and montant, the montant extremely the extending direction of cutter with the locating lever extremely the extending direction of fixed plate is parallel and syntropy, the one end of montant is connected the connecting rod, and the other end is connected the cutter.

In the gasket processing device, the connecting rod is provided with scale marks for length measurement.

The utility model provides a pair of gasket processingequipment, including locating component, cutter unit spare and connecting rod, locating component includes locating lever, bearing spare and the fixed plate that sets gradually along the first direction. The first end of locating lever sets up on the bearing spare, and the locating lever rotates the setting around the axis of self at the support inferior valve of bearing spare, and the fixed plate sets up in one side that the bearing spare deviates from the locating lever, and is provided with two at least location nails on the fixed plate. Through two at least location nails on the fixed plate for the fixed plate is relatively by cutting board can not rotate, just also can not squint, thereby makes locating component can not squint on being cut the board, and the setting up of bearing spare makes the locating lever can the rotation in addition, and the fixed plate can remain stationary, thereby both realized the cutting function, also improved cutting accuracy. In addition, because the bearing is arranged between the positioning rod and the fixing plate, the center of gravity of the gasket processing device moves downwards, the stability of the gasket processing device is improved, and the processing precision of the gasket is further improved.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic structural view of a gasket processing apparatus according to an embodiment of the present invention;

FIG. 2 is a bottom view of FIG. 1 including the positioning assembly, the cutter assembly and the connecting rod;

fig. 3 is a schematic structural view of the cutter in fig. 1.

Reference numerals:

100-a gasket processing device;

10-a positioning assembly; 11-a positioning rod; 111-a first end; 112-a second end; 12-a bearing member; 121-bearing housing; 122-a bearing body; 123-bearing gland; 13-fixing the plate; 131-positioning nails;

20-a cutter assembly; 21-a vertical rod; 211-a containment chamber; 22-a cutter; 221-tail; 222-a tip;

30-a connecting rod;

40-a driver;

50-a first fastener; 60-second fastener.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model provides a gasket processingequipment 100, include: a positioning assembly 10, a cutter assembly 20 and a connecting rod 30. The positioning assembly 10 comprises a positioning rod 11, a bearing piece 12 and a fixing plate 13 which are sequentially arranged along a first direction, the positioning rod 11 comprises a first end 111, the bearing piece 12 is arranged on the first end 111, the positioning rod 11 can rotate around the axis of the positioning rod under the support of the bearing piece 12, the fixing plate 13 is arranged on one side of the bearing piece 12, which is far away from the positioning rod 11, and at least two positioning nails 131 are arranged on one side of the fixing plate 13, which is far away from the bearing piece 12; the connecting rod 30 connects the cutter assembly 20 and the positioning rod 11 to drive the cutter assembly 20 to rotate around the axis of the positioning rod 11 under the rotation of the positioning rod 11.

In this embodiment, through two at least location nails 131 on fixed plate 13 for fixed plate 13 is relatively by the cutting board can not rotate, just also can not squint, thereby makes locating component 10 can not squint on being cut the board, and the setting up of bearing spare 12 makes locating lever 11 can the rotation in addition, and fixed plate 13 can remain stationary, thereby both realize the cutting function, has also improved cutting accuracy. In addition, since the bearing is disposed between the positioning rod 11 and the fixing plate 13, the center of gravity of the gasket processing apparatus 100 is moved downward, so that the stability of the gasket processing apparatus 100 is improved, and the processing precision of the gasket is further improved.

The positioning rod 11 further includes a second end 112, and the second end 112 is opposite to the first end 111 and is far away from the bearing 12. In order to drive the positioning rod 11 to rotate around its axis, the gasket processing apparatus 100 further includes a driving member 40, and the driving member 40 is connected to the second end 112 for outputting the energy for driving the positioning rod 11 to rotate around its axis. The driver 40 may be a motor, or may be an electric tool that can be fitted to the second end 112 of the positioning rod 11, such as a body of an electric gong cutter or a body of an electric drill. In some embodiments, the gasket processing apparatus 100 may not be provided with the driving member 40, and the positioning rod 11 may be driven by human power.

The bearing 12 includes a bearing housing 121, a bearing body 122 and a bearing gland 123, the bearing housing 121 has an opening (not numbered), the opening is disposed toward the positioning rod 11, the bearing body 122 and the positioning rod 11 are integrally connected and then accommodated in the bearing housing 121, during the installation process, the positioning rod 11 is connected with the bearing body 122 and enters the bearing housing 121 from the opening, the bearing gland 123 covers the opening and surrounds the positioning rod 11, and foreign matters are prevented from entering the bearing housing 121 to affect the rotation of the positioning rod 11 on the bearing body 122. Wherein, bearing main part 122 is tight fit with locating lever 11, has the sealed equipment that prevents lubricating grease loss between bearing gland 123 and the bearing main part 122.

The bearing housing 121 has a bottom wall (not numbered) disposed opposite the opening, i.e., disposed away from the locating lever 11. The fixing plate 13 is fixedly connected to the bottom wall. Specifically, the fixing plate 13 may be connected to the bottom wall by a fastening member such as a screw, or may be connected to the bottom wall by gluing, so as to connect the fixing plate 13 to the bearing housing 121, and prevent the fixing plate 13 from falling off from the lower side of the bearing housing 121 during the process of manufacturing the gasket.

In order to connect the fixing plate 13 to the bearing housing 121 well, the orthographic projection of the bearing piece 12 on the fixing plate 13 overlaps the fixing plate 13 in the extending direction of the positioning rod 11. Of course, the orthographic projection of the bearing member 12 on the fixed plate 13 may not overlap with the fixed plate 13. Specifically, for example, if the bearing housing 121 is cylindrical and the corresponding bearing member 12 is also cylindrical, the fixing plate 13 may be circular or annular; the bearing housing 121 and the bearing member 12 may be rectangular, and the fixing plate 13 may be rectangular.

As mentioned above, at least two positioning nails 131 are provided on the fixing plate 13, and in order to stably fix the fixing plate 13 on the board to be cut, the positioning nails 131 may be uniformly provided on the fixing plate 13. For example, the number of the positioning pins 131 is three, and the three positioning pins 131 are distributed in a triangular shape on the circular fixing plate 13. Of course, in a special case, the positioning nails 131 may not be uniformly disposed on the fixing plate 13.

The number of the positioning pins 131 may also be two, four, five, etc. Of course, the tip of the positioning pin 131 should face away from the bearing member 12 so that the positioning pin 131 can be easily inserted into the board to be cut.

In order to enable the energy output by the driving component 40 to more effectively act on and cut the plate to be cut, the extending direction of the connecting rod 30 is perpendicular to the extending direction of the positioning rod 11, specifically, the connecting rod 30 can be welded on the positioning rod 11, and can also be connected with the positioning rod 11 through a fastener such as a screw; the extending direction of the cutter assembly 20 is parallel and the same direction as the extending direction of the positioning rod 11 to the fixing plate 13, that is, the extending direction of the cutter assembly 20 is also perpendicular to the connecting rod 30. In this embodiment, the vertical may be an absolute vertical, or may be a vertical that allows a certain deviation; similarly, the parallelism may be absolute or may be a deviation from the absolute parallelism. In some embodiments, the extending direction of the connecting rod 30 and the extending direction of the positioning rod 11 may not be perpendicular, but may be at an acute angle, for example, the connecting rod 30 extends toward a direction biased toward the fixing plate 13; the cutter assembly 20 may extend at an obtuse angle, perpendicular to the connecting rod 30. Specifically, the angles and directions between the positioning rod 11, the connecting rod 30 and the cutter assembly 20 can be adjusted according to actual needs, as long as the cutting purpose can be achieved.

The connecting rod 30 is fastened and connected with the positioning rod 11, specifically, the connecting rod 30 can be connected with the positioning rod 11 in a welding mode, and can also be connected with the positioning rod 11 through fasteners such as screws. The cutter assembly 20 is connected to the connecting rod 30 and slidably arranged along the extending direction of the connecting rod 30, so that the distance between the cutter assembly 20 and the positioning rod 11 can be changed by sliding the cutter assembly 20 along the connecting rod 30, and the radius size of the machined gasket can be changed.

In order to enable the cutter member 20 to slide along the connecting rod 30 and avoid any tendency to displace in other directions on the connecting rod 30, the connecting rod 30 may be rectangular in cross-section.

The cutter assembly 20 comprises a cutter 22 and a vertical rod 21, the extending direction from the vertical rod 21 to the cutter 22 is parallel and same to the extending direction from the positioning rod 11 to the fixing plate 13, one end of the vertical rod 21 is connected with a connecting rod 30, and the other end of the vertical rod is connected with the cutter 22. The vertical rod 21 is connected to the connecting rod 30 by a fastener such as a screw, and is slidably provided along the extending direction of the connecting rod 30. Furthermore, the connecting rod 30 is provided with scale marks for length measurement, and if necessary, the vertical rod 21 may be provided with scale marks for length measurement at a position aligned with the connecting rod 30.

Wherein, the vertical rod 21 is connected with the connecting rod 30 by a first fastener 50, and the first fastener 50 can be a screw or other fasteners, etc. The cutting blade 22 is connected to the receiving cavity 211 of the vertical rod 21 by a second fastener 60, and the second fastener 60 may be a screw or other fastener.

In this embodiment, the vertical distance from the connecting rod 30 to the positioning nail 131 is substantially equal to the vertical distance from the connecting rod 30 to the knife tip 222 of the cutting knife 22.

The vertical rod 21 is provided with a receiving chamber 211 at an end thereof adjacent to the cutter 22 for receiving a tail 221 of the cutter 22. The tail part 221 of the cutting knife 22 is smooth, the peripheral surface of the accommodating cavity 211 is smooth, and no gap or a small gap exists between the tail part 221 of the cutting knife 22 and the accommodating cavity 211. Specifically, in order to ensure the accuracy of the gasket dimension, the receiving chamber 211 does not move relative to the cutter 22 after receiving the tail 221 of the cutter 22. The tip 222 of the cutter 22 has good rigidity and hardness.

The embodiment of the utility model provides an in, by the cutting board can be non-metal sheet, also can be the metal sheet that hardness is less than cutter 22, as long as cutter 22 can cut this metal sheet can. The nonmetal plate can be a plate made of polytetrafluoroethylene, asbestos and the like, and correspondingly, the gasket can also be a gasket made of polytetrafluoroethylene, asbestos and the like. When the plate to be cut is metal, correspondingly, the gasket can also be a metal gasket.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A gasket processing apparatus, comprising: the positioning assembly, the cutter assembly and the connecting rod;

the positioning assembly comprises a positioning rod, a bearing piece and a fixing plate which are sequentially arranged along a first direction, the positioning rod comprises a first end, the bearing piece is arranged on the first end, the positioning rod can rotate around the axis of the positioning rod under the support of the bearing piece, the fixing plate is arranged on one side of the bearing piece, which is far away from the positioning rod, and at least two positioning nails are arranged on one side of the fixing plate, which is far away from the bearing piece;

the connecting rod is connected with the cutter assembly and the positioning rod so as to drive the cutter assembly to rotate around the axis of the positioning rod under the rotation of the positioning rod.

2. The gasket processing apparatus of claim 1 wherein said locating bar further comprises a second end, said second end disposed opposite said first end; the gasket processing device further comprises a driving piece, wherein the driving piece is connected to the second end and used for outputting energy for driving the positioning rod to rotate around the axis of the positioning rod.

3. The apparatus for processing a gasket of claim 1, wherein the bearing member includes a bearing housing, a bearing body and a bearing cover, the bearing housing having an opening, the bearing body being integrally connected to the positioning rod and located in the bearing housing, the bearing cover covering the opening and surrounding the positioning rod.

4. The gasket processing apparatus of claim 3 wherein said bearing housing has a bottom wall disposed opposite said opening, said retaining plate being fixedly attached to said bottom wall.

5. The gasket processing apparatus according to claim 1, wherein an orthographic projection of said bearing member on said fixing plate overlaps with said fixing plate in an extending direction of said positioning rod.

6. The gasket processing apparatus of claim 1 or 5, wherein the positioning pins are uniformly arranged on the fixing plate.

7. The apparatus for processing a gasket of claim 1, wherein the extension direction of the connecting rod is perpendicular to the extension direction of the positioning rod, and the extension direction of the cutter assembly is parallel and in the same direction as the extension direction of the positioning rod to the fixing plate.

8. The apparatus for machining a gasket of claim 1, wherein the connecting rod is fastened to the positioning rod, and the cutter assembly is connected to the connecting rod and slidably disposed along an extending direction of the connecting rod.

9. The gasket processing device of claim 8, wherein the cutter assembly comprises a cutter and a vertical rod, the extending direction from the vertical rod to the cutter is parallel and same to the extending direction from the positioning rod to the fixing plate, one end of the vertical rod is connected with the connecting rod, and the other end of the vertical rod is connected with the cutter.

10. The gasket processing apparatus of claim 1 wherein said connecting rod is provided with graduations for length measurement.

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