CN210967808U - Annular gasket chamfer milling flutes integrated processing mechanism - Google Patents

Abstract

The utility model relates to an annular gasket chamfer milling flutes integrated into one piece mechanism, include: the bottom plate, transplant subassembly, tool bit and compress tightly the subassembly, two compress tightly the subassembly be certain contained angle set up in be used for compressing tightly annular gasket on the bottom plate, transplant the subassembly set up in just be located two on the bottom plate compress tightly between the subassembly, the tool bit sets up on transplanting the subassembly, just it is used for adjusting the position on tool bit level, the vertical side to transplant the subassembly. In this mechanism, compress tightly the subassembly and press from both sides tight annular gasket and make the gasket rotate, transplant the subassembly and drive the tool bit and remove to need the processing position after, though the gasket rotates and carries out chamfer or milling flutes processing to the gasket, realized full automated processing, need not the manual work, not only saved the manpower, improved production efficiency and yields moreover.

Description

Annular gasket chamfer milling flutes integrated processing mechanism

Technical Field

The utility model relates to a gasket manufacture equipment field especially relates to an annular gasket chamfer milling flutes integrated into one piece mechanism.

Background

The metal annular gasket is an important component in a petroleum pipeline, and the inner edge and the outer edge of the gasket need to be chamfered and the inner side of the gasket needs to be milled in the manufacturing process of the annular gasket.

And current chamfer and milling flutes processing are mostly manual processing, not only inefficiency, and the yields is low moreover.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the current manual work and carry out the problem that chamfer and milling flutes machining efficiency are low, the yields is low to the gasket, the technical scheme who adopts is: the utility model provides an annular gasket chamfer milling flutes integrated into one piece mechanism, includes: the bottom plate, transplant subassembly, tool bit and compress tightly the subassembly, two compress tightly the subassembly be certain contained angle set up in be used for compressing tightly annular gasket and drive annular gasket rotation on the bottom plate, transplant the subassembly set up in just be located two on the bottom plate compress tightly between the subassembly, the tool bit sets up on transplanting the subassembly, just it is used for adjusting the position on tool bit level, the vertical side to transplant the subassembly.

The further improvement does, the compressing assembly includes first mounting panel, a drive device, action wheel and pinch roller, first mounting panel set up in on the bottom plate, a drive device with the action wheel all set up in on the first mounting panel, the pinch roller set up in a drive device's output, a drive device is used for driving the pinch roller is close to or keeps away from the action wheel, just the action wheel is connected with second drive device.

The further improvement is that one side of the driving wheel and one side of the pressing wheel of each pressing component are respectively provided with a first riding wheel.

The further improvement is that the driving wheel and/or the pressing wheel are/is provided with a groove for accommodating the annular gasket.

The pressing assembly can rotate around the driving wheel, the first mounting plate is provided with mounting holes, and the bottom plate is provided with a plurality of positioning holes matched with the mounting holes along the movement track of the mounting holes.

In a further improvement, at least one bracket component for supporting the annular gasket is arranged on the other side of the bottom plate relative to the transplanting assembly.

The further improvement does, bracket assembly includes base, reference column and second riding wheel, the base set up in on the bottom plate, the reference column set up in on the base, the second riding wheel set up in on the reference column.

The improved structure is characterized in that a rail is arranged on the base, and the positioning column is arranged on the rail in a sliding mode.

The transplanting assembly comprises a transverse moving unit, a vertical moving unit and a tool bit seat, wherein the transverse moving unit is arranged on the bottom plate, the vertical moving unit is arranged on the transverse moving unit in a sliding mode, and the tool bit seat is arranged on the vertical moving unit.

The utility model has the advantages that:

the utility model provides an among the annular gasket chamfer milling flutes integrated processing mechanism, compress tightly the subassembly and press from both sides tight annular gasket and make the gasket rotate, transplant the subassembly and drive the tool bit and remove to need processing position after, though the gasket rotates and carries out chamfer or milling flutes processing to the gasket, realized full automated processing, need not the manual work, not only saved the manpower, improved production efficiency and yields moreover.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural view of an annular gasket chamfering and groove milling integrated processing mechanism of the present invention;

FIG. 2 is a schematic structural view of an annular gasket chamfering and groove milling integrated processing mechanism of the present invention;

fig. 3 is a schematic structural view of the compressing assembly of the present invention;

fig. 4 is a schematic structural view of the compressing assembly of the present invention;

fig. 5 is a schematic structural view of the bracket assembly of the present invention;

fig. 6 is a schematic structural view of the transplanting assembly of the present invention;

fig. 7 is a schematic structural view of the transplanting assembly of the present invention;

FIG. 8 is a schematic view of the structure of the tool bit of the present invention;

FIG. 9 is a schematic view of the structure of the tool bit of the present invention;

fig. 10 is a schematic view of the structure of the tool bit of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only 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, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, detachable connections, or integrally connected; can be mechanically or electrically 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 utility model can be understood according to specific situations by those skilled in the art.

As shown in fig. 1 and 2, the utility model provides an annular gasket chamfer milling flutes integrated into one piece mechanism, include: bottom plate 1, transplant subassembly 2, tool bit 3 and compress tightly subassembly 4, because of the gasket that processes is the annular, in order can be more firm compress tightly product (gasket or annular gasket), need two to compress tightly 4 cooperations of subassembly, two compress tightly subassembly 4 and be certain contained angle (non-parallel and perpendicular) install in be used for on bottom plate 1 fixedly compressing tightly annular gasket 100 and drive annular gasket 100 and rotate when carrying out chamfer or milling flutes processing, transplant subassembly 2 fixed mounting in just be located two on the bottom plate compress tightly between the subassembly 4, tool bit 3 sets up on transplanting subassembly 2, just transplanting subassembly 2 is used for adjusting the position of tool bit 3 level, vertical side.

In this mechanism, compress tightly the subassembly and press from both sides tight annular gasket and make the gasket rotate, transplant the subassembly and drive the tool bit and remove to need the processing position after, though the gasket rotates and carries out chamfer or milling flutes processing to the gasket, realized full automated processing, need not the manual work, not only saved the manpower, improved production efficiency and yields moreover.

As shown in fig. 3 and 4, in a further improvement, the pressing assembly 4 includes a first mounting plate 41, a first driving device 42, a driving wheel 43 and a pressing wheel 44, the first mounting plate 41 is mounted on the base plate 1, the first driving device 42 and the driving wheel 43 are both disposed on the first mounting plate 41, the driving wheel 43 is located in front of a telescopic output end of the first driving device, the pressing wheel 44 is rotatably mounted at an output end of the first driving device 42, the first driving device 42 is configured to drive the pressing wheel 44 to approach or depart from the driving wheel 43, and the driving wheel 43 is connected with a second driving device 5. The second driving device is arranged on the bottom plate 1 and opposite to the other surface of the pressing component 4, synchronizing wheels are arranged on the two driving wheels 43 on the side of the second driving device, and the second driving device is connected with the synchronizing wheels through a synchronous belt, a chain or a gear and used for driving the two driving wheels 43 to rotate synchronously and in the same direction. Specifically, the first driving device in the present embodiment is a cylinder.

In another embodiment, in order to make the position of the pinch roller 44 to clamp the capstan 43 under the driving of the first driving device more accurate, a guide rail 47 is further installed on the first installation plate 41, and the pinch roller 44 is installed at the output end of the first driving device 42 through an installation frame which is slidably installed on the guide rail 47 through a slide block.

In a further improvement, a first riding wheel 45 is arranged on one side of the driving wheel 43 and one side of the pressing wheel 44 of each pressing component 4. In particular, the first idler 45 is mounted on the outside of the pressing member 4 for supporting the product when the product is being processed. The first riding wheel 45 is provided with a plurality of deep groove ball bearings for adapting to products with different widths.

In a further improvement, the driving wheel 43 and/or the pressing wheel 44 are provided with a groove 46 for accommodating the annular gasket 100. The pinch roller 44 is close to the driving wheel 43 under the driving of the first driving device 42, and products are pressed in the groove 46 to play a good fixing role, so that the products are prevented from shifting in the machining process, the chamfer or the milling groove is prevented from being machined to cause deviation, and a defective product is produced.

In order to adapt to the processing of products with different diameters, the mechanism is further improved in that the pressing component 4 can rotate around the driving wheel 43, the first mounting plate 41 is provided with a mounting hole 411, and the bottom plate 1 is provided with a plurality of positioning holes 11 matched with the mounting hole 411 along the movement track of the mounting hole 411. By rotating the two pressing components 4, the included angle between the two components is adjusted to press and fix the products with different practical diameters. Specifically, when the radius of the product is smaller, the two pressing assemblies 4 are rotated to increase the included angle between the two pressing assemblies; but when the product radius is bigger, rotate two and compress tightly subassembly 4 and make both contained angles diminish. After the pressing assembly 4 is adjusted to the corresponding position, the first mounting plate 41 is fixed on the corresponding positioning hole 11 of the base plate 1 by passing the bolt through the mounting hole 411.

But when the great product of processing radius, the opposite side of the product relative with the processing side can receive the action of gravity downwarping, leads to the product to warp, and then when carrying out chamfer or milling flutes processing, can appear processing position deviation, forms the defective products, and this mechanism further improves to, be equipped with at least one bracket assembly 6 that is used for bearing annular gasket 100 on the bottom plate 1 for the opposite side of transplanting subassembly 2. When the carrier member 6 is one, the carrier member 6 is mounted on the opposite side of the cutter head for better support of the product. Drag bracket assembly 6 to be a plurality of, then a plurality of bracket assembly 6 are arc evenly distributed at tool bit subtend side and set up for the annular product of bearing. Three in this embodiment.

As shown in fig. 5, in a further modification, the bracket assembly 6 includes a base 61, a positioning column 62 and a second supporting roller 63, the base 61 is disposed on the bottom plate 1, the positioning column 62 is disposed on the base 61, and the second supporting roller 63 is disposed on the positioning column 62. The second riding wheel 63 is composed of a plurality of deep groove ball bearings and is used for adapting to products with different widths.

In order to adapt to the bearing of products with different radiuses, the bracket component 6 in the mechanism is further improved in that a rail 64 is arranged on the base 61, and the positioning column 62 is arranged on the rail 64 in a sliding mode. By adjusting the position of the positioning column 62 along the rail 64, the support device can be suitable for supporting products with different radiuses. The track 64 in this embodiment is a chute.

As shown in fig. 6 and 7, in a further improvement, the transplanting assembly 2 includes a transverse moving unit 21, a vertical moving unit 22 and a tool bit holder 23, the transverse moving unit 21 is disposed on the bottom plate 1, the vertical moving unit 22 is slidably disposed on the transverse moving unit 21, and the tool bit holder 23 is disposed on the vertical moving unit 22. The transverse moving unit 21 and the vertical moving unit 22 are operated by a combination of a motor and a screw. As shown in fig. 8 to 10, the cutter head 3 is mounted on the cutter head base 23, and the groove milling cutter 31 and the chamfering cutter 32 are mounted on the cutter head 3, and the cutter head 3 is provided with a plurality of bolt holes for fixing blades in order to mount different blades and to adjust the mounting positions of the blades.

The first driving device, the second driving device, the transverse moving unit and the vertical moving unit are controlled by a single chip microcomputer, a P L C or a computer.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. The utility model provides an annular gasket chamfer milling flutes integrated into one piece mechanism which characterized in that includes: the bottom plate, transplant subassembly, tool bit and compress tightly the subassembly, two compress tightly the subassembly be certain contained angle set up in be used for compressing tightly annular gasket and drive annular gasket rotation on the bottom plate, transplant the subassembly set up in just be located two on the bottom plate compress tightly between the subassembly, the tool bit sets up on transplanting the subassembly, just it is used for adjusting the position on tool bit level, the vertical side to transplant the subassembly.

2. The annular gasket chamfer milling groove integrated processing mechanism of claim 1, wherein the pressing assembly comprises a first mounting plate, a first driving device, a driving wheel and a pressing wheel, the first mounting plate is arranged on the bottom plate, the first driving device and the driving wheel are both arranged on the first mounting plate, the pressing wheel is arranged at the output end of the first driving device, the first driving device is used for driving the pressing wheel to be close to or far away from the driving wheel, and the driving wheel is connected with a second driving device.

3. The annular gasket chamfer milling groove integrated processing mechanism as claimed in claim 2, wherein a first riding wheel is arranged on one side of the driving wheel and one side of the pressing wheel of each pressing assembly.

4. The annular gasket chamfering and groove milling integrated machining mechanism according to claim 2, wherein grooves for accommodating the annular gaskets are formed in the driving wheel and/or the pressing wheel.

5. The integrated mechanism for chamfering and milling annular gaskets according to claim 2, wherein the pressing assembly is rotatable around the driving wheel, the first mounting plate is provided with a mounting hole, and the bottom plate is provided with a plurality of positioning holes matched with the mounting hole along the movement track of the mounting hole.

6. The annular gasket chamfer and groove milling integrated processing mechanism as claimed in claim 1, wherein at least one bracket assembly for supporting the annular gasket is arranged on the other side of the bottom plate relative to the transplanting assembly.

7. The integrated annular gasket chamfering and milling mechanism according to claim 6, wherein the bracket assembly comprises a base, a positioning column and a second supporting roller, the base is arranged on the bottom plate, the positioning column is arranged on the base, and the second supporting roller is arranged on the positioning column.

8. The integrated annular gasket chamfering and milling mechanism according to claim 7, wherein the base is provided with a rail, and the positioning column is slidably disposed on the rail.

9. The annular gasket chamfering and groove milling integrated machining mechanism according to claim 1, wherein the transplanting assembly comprises a transverse moving unit, a vertical moving unit and a tool bit seat, the transverse moving unit is arranged on the bottom plate, the vertical moving unit is slidably arranged on the transverse moving unit, and the tool bit seat is arranged on the vertical moving unit.

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