CN216369746U - Beveling device for hardware mold - Google Patents

Abstract

The utility model belongs to the field of hardware molds, and particularly relates to a beveling device for a hardware mold, which comprises an upper mold and a lower mold, wherein the lower mold is arranged below the upper mold; the upper die comprises a connecting shaft, an upper die plate, outer guide pillars, a pressure plate and a cutter, the upper die plate is arranged below the connecting shaft, four outer guide pillars are arranged at four corners below the upper die plate, the pressure plate is arranged below the upper die plate, and the cutter is arranged at the front part of the pressure plate; the lower mould includes lower part template, interior guide pillar, guide pillar spring, bottom plate, backing plate, reference column, positioning spring, puts the flitch, fixes the part through the pressure plate, and the part aversion when preventing to cut prevents to get into to cause the mould to damage between backing plate and the fly leaf through the plastics baffle to the piece separation, utilizes the location abrasive brick to carry out the cutter location and simultaneously to the cutter cooling of blowing, extension cutter life promotes work efficiency, improves product quality.

Description

Beveling device for hardware mold

Technical Field

The utility model belongs to the field of hardware molds, and particularly relates to a beveling device for a hardware mold.

Background

The hardware mould is in industrial production, various presses and special tools installed on the presses are used for manufacturing parts or products with required shapes from metal materials through pressure, the special tools are collectively called as the hardware mould, various tools and products used in daily production and life are as large as a base of a machine tool, a machine body shell and a shell of a blank head screw, a button and various household appliances, no close relation with the mould exists, a beveling mould is required to cut off when some parts are machined, the conventional hardware mould beveling device is easy to generate clamping chips, the problems of cutter damage and the like caused by continuous cutting of a cutter bit cause the mould to be not durable, and the quality of the machined parts is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a beveling device for a hardware mould.

The technical scheme adopted by the utility model is as follows:

a beveling device for a hardware mould comprises an upper mould and a lower mould, wherein the lower mould is arranged below the upper mould; the upper die comprises a connecting shaft, an upper die plate, outer guide pillars, a pressure plate and a cutter, the upper die plate is arranged below the connecting shaft, four outer guide pillars are arranged at four corners below the upper die plate, the pressure plate is arranged below the upper die plate, and the cutter is arranged at the front part of the pressure plate; the lower die comprises a lower die plate, inner guide pillars, guide pillar springs, a lower fixing plate, a backing plate, positioning pillars, positioning springs, a material placing plate, plastic baffles, positioning grinding blocks, a connecting nozzle and a movable plate, the material placing plate is arranged below the pressure plate, the movable plate is arranged below the material placing plate, four positioning pillars are arranged below the movable plate and at four corners, the positioning springs are arranged outside the positioning pillars, the plastic baffles are arranged at the front part of the movable plate, the backing plate is arranged below the positioning pillars, the lower fixing plate is arranged below the backing plate, the lower die plate is arranged below the lower fixing plate, the four inner guide pillars are arranged above the lower die plate and below the outer guide pillars, the guide pillar springs are arranged outside the inner guide pillars, and the positioning grinding blocks are arranged at the front part of the lower fixing plate, the front part of the positioning grinding block is provided with the connecting nozzle.

Preferably: and an air hole is formed in the positioning grinding block and communicated with the connecting nozzle.

So set up, be convenient for the cutter cooling.

Preferably: the connecting shaft and the outer guide pillar are both connected with the upper template in a welding mode, and the pressure plate is connected with the upper template and the cutter through bolts.

So set up, the connecting axle is connected with the main equipment, the pressure plate is fixed the part.

Preferably: the inner guide pillar is welded with the lower template, the lower fixing plate is bolted with the lower template, the backing plate is bolted with the lower fixing plate, the positioning column is welded with the backing plate, the movable plate is slidably connected with the positioning column, the plastic baffle is screwed with the movable plate, the material placing plate is bolted with the movable plate, the positioning grinding block is bolted with the lower template, and the connecting nozzle is welded with the positioning grinding block.

So set up, plastics baffle prevents to get into the backing plate with cause the mould to damage between the fly leaf, the location abrasive brick goes on the cutter location is right simultaneously the cutter cooling of blowing.

The utility model has the beneficial effects that: fix the part through the pressure plate, the part aversion when preventing to cut, through the plastics baffle to the piece separation, prevent to get into and cause the mould to damage between backing plate and the fly leaf, utilize the location abrasive brick to carry out the cutter location and blow the cooling to the cutter simultaneously, extension cutter life promotes work efficiency, improves product quality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural view of a beveling apparatus for a hardware mold according to the present invention;

FIG. 2 is a front view of a beveling apparatus for a hardware mold in accordance with the present invention;

FIG. 3 is a left side view of a beveling apparatus for a hardware mold in accordance with the present invention;

FIG. 4 is a perspective view of a beveling apparatus for a hardware mold according to the present invention.

The reference numerals are explained below:

1. an upper die; 2. a lower die; 101. a connecting shaft; 102. an upper template; 103. an outer guide post; 104. a pressure plate; 105. a cutter; 201. a lower template; 202. an inner guide post; 203. a guide post spring; 204. a lower fixing plate; 205. a base plate; 206. a positioning column; 207. a positioning spring; 208. placing a material plate; 209. a plastic baffle; 210. positioning the grinding block; 211. a connecting nozzle; 212. a movable plate.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

Examples

As shown in fig. 1-4, a beveling apparatus for a hardware mold comprises an upper mold 1 and a lower mold 2, wherein the lower mold 2 is arranged below the upper mold 1; the upper die 1 comprises a connecting shaft 101, an upper die plate 102, outer guide pillars 103, a pressure plate 104 and a cutter 105, wherein the upper die plate 102 is arranged below the connecting shaft 101, the four outer guide pillars 103 are arranged at four corners below the upper die plate 102, the pressure plate 104 is arranged below the upper die plate 102, and the cutter 105 is arranged at the front part of the pressure plate 104; the lower mold 2 comprises a lower mold plate 201, an inner guide post 202, a guide post spring 203, a lower fixing plate 204, a backing plate 205, a positioning post 206, a positioning spring 207, a material placing plate 208, a plastic baffle 209, a positioning grinding block 210, a connecting nozzle 211 and a movable plate 212, a material placing plate 208 is arranged below the pressure plate 104, a movable plate 212 is arranged below the material placing plate 208, four positioning columns 206 are arranged below the movable plate 212 and positioned at four corners, positioning springs 207 are arranged outside the positioning columns 206, a plastic baffle 209 is arranged at the front part of the movable plate 212, a backing plate 205 is arranged below the positioning columns 206, a lower fixing plate 204 is arranged below the backing plate 205, a lower template 201 is arranged below the lower fixing plate 204, four inner guide columns 202 are arranged above the lower template 201 and positioned below the outer guide columns 103, guide column springs 203 are arranged outside the inner guide columns 202, a positioning grinding block 210 is arranged at the front part of the lower fixing plate 204, and a connecting nozzle 211 is arranged at the front part of the positioning grinding block 210; the positioning grinding block 210 is provided with an air hole inside to be communicated with the connecting nozzle 211.

Preferably: the connecting shaft 101 and the outer guide post 103 are both connected with the upper template 102 in a welding way, and the pressure plate 104 is connected with the upper template 102 and the cutter 105 in a bolt way; the inner guide pillars 202 are connected with the lower template 201 in a welded mode, the lower fixing plate 204 is connected with the lower template 201 through bolts, the backing plate 205 is connected with the lower fixing plate 204 through bolts, the positioning columns 206 are connected with the backing plate 205 in a welded mode, the movable plate 212 is connected with the positioning columns 206 in a sliding mode, the plastic baffle 209 is connected with the movable plate 212 through bolts, the material placing plate 208 is connected with the movable plate 212 through bolts, the positioning grinding block 210 is connected with the lower template 201 through bolts, and the connecting nozzle 211 is connected with the positioning grinding block 210 through welding.

The working principle is as follows: firstly, the parts are placed in the material placing disc 208, the upper template 102 is started to drive the cutter 105 to cut the parts, meanwhile, the connecting nozzle 211 is connected with an air compressor in the cutting process, and the cutter 105 is cooled by blowing air through holes in the positioning grinding block 210.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (4)

1. A beveling device for hardware mould which characterized in that: the device comprises an upper die (1) and a lower die (2), wherein the lower die (2) is arranged below the upper die (1);

the upper die (1) comprises a connecting shaft (101), an upper die plate (102), outer guide pillars (103), a pressure plate (104) and a cutter (105), the upper die plate (102) is arranged below the connecting shaft (101), the four outer guide pillars (103) are arranged at four corners below the upper die plate (102), the pressure plate (104) is arranged below the upper die plate (102), and the cutter (105) is arranged at the front part of the pressure plate (104);

the lower die (2) comprises a lower die plate (201), inner guide columns (202), guide column springs (203), a lower fixing plate (204), a backing plate (205), positioning columns (206), positioning springs (207), a material placing plate (208), plastic baffles (209), positioning grinding blocks (210), a connecting nozzle (211) and a movable plate (212), wherein the material placing plate (208) is arranged below the pressure plate (104), the movable plate (212) is arranged below the material placing plate (208), four positioning columns (206) are arranged below and at four corners of the movable plate (212), the positioning springs (207) are arranged outside the positioning columns (206), the plastic baffles (209) are arranged at the front part of the movable plate (212), the backing plate (205) is arranged below the positioning columns (206), and the lower fixing plate (204) is arranged below the backing plate (205), the lower die plate (201) is arranged below the lower fixing plate (204), four inner guide posts (202) are arranged above the lower die plate (201) and below the outer guide posts (103), guide post springs (203) are arranged outside the inner guide posts (202), the positioning grinding block (210) is arranged at the front part of the lower fixing plate (204), and the connecting nozzle (211) is arranged at the front part of the positioning grinding block (210).

2. The beveling apparatus for a hardware mold according to claim 1, wherein: the positioning grinding block (210) is internally provided with an air hole communicated with the connecting nozzle (211).

3. The beveling apparatus for a hardware mold according to claim 1, wherein: the connecting shaft (101) and the outer guide pillar (103) are both connected with the upper template (102) in a welding mode, and the pressure plate (104) is connected with the upper template (102) and the cutter (105) through bolts.

4. The beveling apparatus for a hardware mold according to claim 1, wherein: the inner guide columns (202) are welded with the lower template (201), the lower fixing plate (204) is connected with the lower template (201) through bolts, the backing plate (205) is connected with the lower fixing plate (204) through bolts, the positioning columns (206) are welded with the backing plate (205), the movable plate (212) is connected with the positioning columns (206) in a sliding mode, the plastic baffle (209) is connected with the movable plate (212) through bolts, the material placing plate (208) is connected with the movable plate (212) through bolts, the positioning grinding blocks (210) are connected with the lower template (201) through bolts, and the connecting nozzles (211) are connected with the positioning grinding blocks (210) through welding.

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