CN211074026U - Die press is used in production of diamond wear-resistant material - Google Patents

Abstract

The utility model belongs to the technical field of diamond abrasive material production facility and specifically relates to a mould press is used in diamond abrasive material production is related to, it includes, support base, supporting steel plate, pneumatic cylinder braced frame, bed die subassembly supporting platform, go up the mould subassembly, hydraulic cylinder, hydraulic pressure shunt, hydraulic tank, pump oil motor, hydraulic oil pump, hydraulic pressure pipeline and controller, wherein, supporting steel plate sets up on supporting the base and is connected with the support base stationary phase, the utility model discloses a vibrations buffer spring and buffer board's mating reaction has solved present because the characteristic of the raw materials composition itself of grinding apparatus mould shell, and it often can take place the inhomogeneous problem of its mass density when extrudeing in the press to cause the unqualified problem of the grinding apparatus mould shell product quality that extrudes.

Description

Die press is used in production of diamond wear-resistant material

Technical Field

The utility model belongs to the technical field of diamond abrasive material production facility and specifically relates to a mould press is used in diamond abrasive material production.

Background

The diamond has the hardness, so the manufactured tool is particularly suitable for processing hard and brittle materials, particularly non-metallic materials, such as stone, wall and floor tiles, glass, ceramics, concrete, refractory materials, magnetic materials, semiconductors, precious stones and the like; it can also be used for processing nonferrous metals, alloys, woods, such as copper, aluminum, hard alloy, quenched steel, cast iron, composite wear-resistant wood boards, and the like. At present, diamond tools are widely applied to industries such as buildings, building materials, petroleum, geology, metallurgy, machinery, electronics, ceramics, wood, automobiles and the like. The uses of diamond tools are mainly classified into: diamond grinding tools, diamond sawing tools, diamond cutters, diamond drilling tools, etc. Diamond tools have been widely used in the construction, building, petroleum, geological, metallurgical, mechanical, electronic, ceramic, wood, automotive and other industries. Diamond tools are an emerging industry and there is a great deal of room for their replacement with conventional tools. Currently, in China, Korea has become the world production base for diamond tools, and developed countries in Europe and America have a small amount of high-end capacity. Taking the united states as an example, diamond products in our country account for about 45% of their import, and in korea approximately 75%. Because the entry threshold of the diamond tool is not high, the domestic concentration is very low. A large number of small tool processing enterprises exist in a stone production base, only a few types of products are usually made, the profit capacity is far from that of large-scale enterprises, and the industry has an integrated trend along with the upgrading of diamond tool types and the regression of gross profit rate.

Pyrophyllite piece is the essential biography pressure medium of diamond wear-resisting instrument in the production and processing process, at present, current pyrophyllite piece mainly has press extrusion to form, however, because the characteristic of the raw materials composition itself of pyrophyllite piece, it often can take place the inhomogeneous problem of its matter density of itself when extrudeing in the press (when the user puts pyrophyllite piece raw materials into under the extruder grinding apparatus in, because the level that the raw materials placed formed in the grinding apparatus is highly inconsistent under the extruder, and then cause, the density of each part of pyrophyllite piece itself of extrusion is inconsistent), thereby cause the unqualified problem of the pyrophyllite piece product quality of extrusion, can not satisfy user's production user demand.

Disclosure of Invention

In order to solve the problem that the density of the pyrophyllite is not uniform when the pyrophyllite is extruded in a press machine due to the characteristics of the raw material components of the pyrophyllite at present (when a user puts the raw material of the pyrophyllite into a lower grinding tool of the extruder, the horizontal height formed by the placed raw material in the lower grinding tool of the extruder is not uniform, and further the density of each part of the extruded pyrophyllite is not uniform), thereby the quality of the extruded pyrophyllite is unqualified The hydraulic control device comprises an oil pumping motor, a hydraulic oil pump, a hydraulic pipeline and a controller, wherein a supporting steel plate is arranged on a supporting base and is fixedly connected with the supporting base, a hydraulic cylinder supporting frame is arranged at the upper part of the supporting steel plate and is fixedly connected with the supporting steel plate, a hydraulic cylinder is arranged at the upper part of the hydraulic cylinder supporting frame and is fixedly connected with the hydraulic cylinder supporting frame, an upper die assembly is arranged at the lower part of the hydraulic cylinder and is connected with the hydraulic cylinder, a lower die assembly supporting platform is arranged at the upper part of the supporting steel plate and is connected with the supporting steel plate, a lower die assembly is arranged on a lower die assembly supporting platform and is connected with the lower die assembly supporting platform, a hydraulic shunt bracket is arranged on the outer side surface of the hydraulic cylinder supporting frame, the hydraulic shunt is arranged on the hydraulic shunt bracket, the hydraulic oil tank is arranged on the side surface of the support base and is fixedly connected with the support base, the oil pumping motor is arranged on the upper portion of the hydraulic oil tank and is fixedly connected with the hydraulic oil tank, a hydraulic oil pump is mounted on the oil pumping motor, the hydraulic oil pump is connected with a hydraulic flow divider through a hydraulic pipeline, the hydraulic flow divider is connected with the hydraulic oil cylinder through a hydraulic pipeline, and the controller is arranged on the hydraulic cylinder support frame and is connected with the hydraulic cylinder support frame;

the lower die assembly supporting platform is provided with a sliding groove, the bottom of the lower die assembly is provided with a sliding rail, the sliding rail is fixedly connected with the bottom of the lower die assembly, and the sliding rail is arranged in the sliding groove and is connected with the sliding groove in a sliding manner;

the lower die assembly comprises a lower die supporting bottom plate, a lower die shell, a vibration buffer spring and a buffer plate, wherein the lower die shell is arranged on the lower die supporting bottom plate and is fixedly connected with the lower die supporting bottom plate;

n groups of vibration buffer springs are mounted on the lower die supporting bottom plate;

four groups of vibration buffer springs are arranged on the lower die supporting bottom plate;

a spring supporting seat is arranged on a lower die supporting bottom plate at the bottom in the lower die shell, and the vibration buffer spring is arranged on the vibration buffer spring supporting seat and is connected with the vibration buffer spring supporting seat;

the upper die assembly consists of an upper die shell and an upper grinding tool punching core, and the upper grinding tool punching core is arranged in the upper die shell and is fixedly connected with the upper die shell;

a gap is arranged between the upper die shell and the upper die punching core;

the controller is connected with the oil pumping motor through a data line;

the utility model has the advantages that: the utility model discloses a structural design science, the utility model discloses a cooperation of vibrations buffer spring and buffer board has solved at present because the characteristic of the raw materials composition itself of pyrophyllite piece, it often can take place the inhomogeneous problem of its matter density of itself when extrudeing in the press (when the user put into the extruder with pyrophyllite piece raw materials in the grinding apparatus down, because the level height that the raw materials of placing formed in the extruder grinding apparatus down is highly inconsistent, and then causes, the density of each part of pyrophyllite piece itself of extrusion is inconsistent), thereby cause the unqualified problem of the pyrophyllite piece product quality that extrudes.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the present invention;

fig. 3 is a schematic front view of the upper mold assembly of the present invention;

fig. 4 is a schematic bottom view of the upper mold assembly of the present invention;

fig. 5 is a schematic front view of the lower mold assembly of the present invention;

FIG. 6 is a schematic view of the lower mold assembly of the present invention on a lower mold assembly support platform;

the reference numbers in the figures are: 1-supporting base, 2-supporting steel plate, 3-hydraulic cylinder supporting frame, 4-lower die assembly, 5-lower die assembly supporting platform, 6-upper die assembly, 7-hydraulic oil cylinder, 8-hydraulic shunt, 9-hydraulic oil tank, 10-oil pumping motor, 11-hydraulic oil pump, 12-hydraulic pipeline, 13-controller, 14-hydraulic shunt bracket, 15-chute, 16-slide rail, 17-lower die supporting bottom plate, 18-lower die shell, 19-vibration buffer spring, 20-buffer plate, 21-vibration buffer spring supporting seat, 22-upper die shell, 23-upper die punching core and 24-gap.

Detailed Description

Specific example 1: the best embodiment of the invention is further explained by combining the description with the attached figure 1, the description with the attached figure 3, the description with the attached figure 4, the description with the attached figure 5 and the description with the attached figure 6:

in order to solve the problem that the density of the pyrophyllite is not uniform when the pyrophyllite is extruded in a press machine due to the characteristics of the raw material components of the pyrophyllite at present (when a user puts the pyrophyllite into a lower grinding tool of the extruder, the horizontal height formed by the placed raw material in the lower grinding tool of the extruder is not uniform, and further the density of each part of the extruded pyrophyllite is not uniform), thereby the quality of the extruded pyrophyllite is unqualified, the utility model provides a die press for producing diamond wear-resistant materials, which has the following technical scheme, the die press for producing the diamond wear-resistant materials comprises a supporting base 1, a supporting steel plate 2, a hydraulic cylinder supporting frame 3, a lower die assembly 4, a lower die assembly supporting platform 5, an upper die assembly 6, a hydraulic oil cylinder 7, a hydraulic flow divider 8, The hydraulic oil pump comprises a hydraulic oil tank 9, an oil pumping motor 10, a hydraulic oil pump 11, a hydraulic pipeline 12 and a controller 13, wherein a supporting steel plate 2 is arranged on a supporting base 1 and is fixedly connected with the supporting base 1, a hydraulic cylinder supporting frame 3 is arranged at the upper part of the supporting steel plate 2 and is fixedly connected with the supporting steel plate 2, a hydraulic oil cylinder 7 is arranged at the upper part of the hydraulic cylinder supporting frame 3 and is fixedly connected with the hydraulic cylinder supporting frame 3, an upper die assembly 6 is arranged at the lower part of the hydraulic oil cylinder 7 and is connected with the hydraulic oil cylinder 7, a lower die assembly supporting platform 5 is arranged at the upper part of the supporting steel plate 2 and is connected with the supporting steel plate 2, a lower die assembly 4 is arranged on the lower die assembly supporting platform 5 and is connected with the lower die assembly supporting platform 5, and a hydraulic shunt bracket 14 is arranged on, the hydraulic flow divider 8 is arranged on a hydraulic flow divider support 14 and is connected with the hydraulic flow divider support 14, the hydraulic oil tank 9 is arranged at the side position of the support base 1 and is fixedly connected with the support base 1, the oil pumping motor 10 is arranged at the upper position of the hydraulic oil tank 9 and is fixedly connected with the hydraulic oil tank 9, the oil pumping motor 10 is provided with a hydraulic oil pump 11, the hydraulic oil pump 11 is connected with the hydraulic flow divider 8 through a hydraulic pipeline 12, the hydraulic flow divider 8 is connected with the hydraulic oil cylinder 7 through a hydraulic pipeline 12, and the controller 13 is arranged on the hydraulic cylinder support frame 3 and is connected with the hydraulic cylinder support frame 3; the lower die assembly 4 comprises a lower die supporting bottom plate 17, a lower die shell 18, a vibration buffering spring 19 and a buffering plate 20, wherein the lower die shell 18 is arranged on the lower die supporting bottom plate 17 and is fixedly connected with the lower die supporting bottom plate 17, the vibration buffering spring 19 is arranged on the lower die supporting bottom plate 17 at the bottom in the lower die shell 18 and is connected with the lower die supporting bottom plate 17, and the buffering plate 20 is arranged at the upper part of the vibration buffering spring 19 and is connected with the vibration buffering spring 19; n groups of vibration buffer springs 19 are arranged on the lower die supporting bottom plate 17; four groups of vibration buffer springs 19 are arranged on the lower die supporting bottom plate 17; the upper die assembly 6 consists of an upper die shell 22 and an upper grinding tool punching core 23, and the upper grinding tool punching core 23 is arranged in the upper die shell 22 and is fixedly connected with the upper die shell 22; a gap is arranged between the upper die shell 22 and the upper die punching core 23; the controller 13 is connected with the oil pumping motor 10 through a data line; according to the technical scheme, the combined action of the lower die shell 18, the vibration buffer spring 19 and the buffer plate 20 in the lower die component 4 and the upper die shell 22 and the upper die punch core 23 in the upper die component 6 can realize the effect that the density of each part of the pyrophyllite block is uniform when the raw material of the pyrophyllite block is extruded.

Specific example 2: the best embodiment of the invention is further explained by combining the specification with the attached figure 2, the specification with the attached figure 3, the specification with the attached figure 4, the specification with the attached figure 5 and the specification with the attached figure 6:

in order to make the utility model more convenient in the specific using process, on the basis of the specific embodiment 1, a sliding groove 15 is arranged on the lower die assembly supporting platform 5, a sliding rail 16 is arranged at the bottom of the lower die assembly 4, the sliding rail 16 is fixedly connected with the bottom of the lower die assembly 4, and the sliding rail 16 is arranged in the sliding groove 15 and is connected with the sliding groove 15 in a sliding manner; in specific use, the user can pass through slide rail 16 with lower mould subassembly 4 and to the outside roll-off of extruder body in spout 15, has made things convenient for taking out of pyrophyllite piece.

Specific example 3: the best embodiment of the invention is further explained by combining the attached drawings 1, 2, 3, 4, 5 and 6 in the specification: in order to make the utility model more convenient in the specific using process, on the basis of the specific embodiment 1, a spring supporting seat 21 is installed on the lower mold supporting bottom plate 17 at the bottom in the lower mold shell 18, and the vibration buffering spring 19 is installed on the vibration buffering spring supporting seat 21 and connected with the vibration buffering spring supporting seat 21; the arrangement of the vibration buffer spring supporting seat 21 can enable the relative position of the vibration buffer spring 19 on the lower die supporting bottom plate 17 to be more stable, and the service life of the vibration buffer spring 19 is prolonged.

The utility model discloses theory of operation and working process at specific during operation do: when the utility model works, a user firstly puts the raw material of pyrophyllite blocks into the lower die shell 18 on the lower die component 4, at this time, the raw material of pyrophyllite blocks can be directly accumulated on the buffer plate 20 on the vibration buffer spring 19 in the lower die shell 18, and because of the vibration operation of the vibration buffer spring 19 at the bottom of the buffer plate 20, at this time, the raw material of pyrophyllite blocks in the lower die shell 18 can vibrate, further, the upper plane of the raw material of pyrophyllite blocks in the die shell tends to be horizontal, when the raw material of pyrophyllite blocks in the lower die shell 18 is extruded, firstly, the controller 13 sends a working instruction to the oil pumping motor 10 through the data line, at this time, the oil pumping motor 10 starts to work and drives the hydraulic oil pump 11 to work, the hydraulic oil pump 11 finally enters the hydraulic oil cylinder 7 through the hydraulic flow divider 8 through the hydraulic pipeline 12, at the moment, the hydraulic oil cylinder 7 drives the upper die assembly 6 at the lower part to extrude and form the pyrophyllite block raw material in the lower die shell 18, in the process, the upper grinding tool punching core 23 on the upper die assembly 6 firstly contacts the pyrophyllite block raw material in the lower die shell 18, during the process of pressing down the punch core 23 of the upper grinding tool, the vibration buffer spring 19 at the bottom of the buffer plate 20 also has the function of downward buffering, in the process of buffering by the vibration buffering spring 19, the pyrophyllite block raw material in the lower die shell 18 can form a state that the upper surface and the lower surface are horizontally parallel in the lower die shell 18 under the action of the downward pressing force of the upper die core 23 and the upward supporting force of the vibration buffering spring 19, go up grinding apparatus towards core 23 and carry out downward extrusion operation next, finally form pyrophyllite piece product, the matter density in the pyrophyllite piece product of this moment is even unanimous, has satisfied user's user demand.

Claims (9)

1. A die press for producing diamond wear-resistant materials is characterized by comprising a supporting base, a supporting steel plate, a hydraulic cylinder supporting frame, a lower die assembly supporting platform, an upper die assembly, a hydraulic cylinder, a hydraulic flow divider, a hydraulic oil tank, an oil pumping motor, a hydraulic oil pump, a hydraulic pipeline and a controller, wherein the supporting steel plate is arranged on the supporting base and is fixedly connected with the supporting base, the hydraulic cylinder supporting frame is arranged at the upper part of the supporting steel plate and is fixedly connected with the supporting steel plate, the hydraulic cylinder is arranged at the upper part of the hydraulic cylinder supporting frame and is fixedly connected with the hydraulic cylinder supporting frame, the upper die assembly is arranged at the lower part of the hydraulic cylinder and is connected with the hydraulic cylinder, the lower die assembly supporting platform is arranged at the upper part of the supporting steel plate and is connected with, the lower die assembly is arranged on the lower die assembly supporting platform and connected with the lower die assembly supporting platform, a hydraulic flow divider support is arranged on the side face of the outside of the hydraulic cylinder supporting frame, the hydraulic flow divider is arranged on the hydraulic flow divider support and connected with the hydraulic flow divider support, the hydraulic oil tank is arranged on the side position of the supporting base and fixedly connected with the supporting base, the oil pumping motor is arranged on the upper portion of the hydraulic oil tank and fixedly connected with the hydraulic oil tank, the oil pumping motor is provided with a hydraulic oil pump, the hydraulic oil pump is connected with the hydraulic flow divider through a hydraulic pipeline, the hydraulic flow divider is connected with the hydraulic oil cylinder through a hydraulic pipeline, and the controller is arranged on the hydraulic cylinder supporting frame and connected with the hydraulic cylinder supporting frame.

2. The die press for producing the diamond wear-resistant material as recited in claim 1, wherein the lower die assembly supporting platform is provided with a sliding groove, the bottom of the lower die assembly is provided with a sliding rail, the sliding rail is fixedly connected with the bottom of the lower die assembly, and the sliding rail is installed in the sliding groove and is slidably connected with the sliding groove.

3. The die press for producing the diamond wear-resistant material according to claim 1, wherein the lower die assembly comprises a lower die supporting base plate, a lower die shell, a vibration buffering spring and a buffering plate, wherein the lower die shell is arranged on the lower die supporting base plate and is fixedly connected with the lower die supporting base plate, the vibration buffering spring is arranged on the lower die supporting base plate at the bottom in the lower die shell and is connected with the lower die supporting base plate, and the buffering plate is arranged at the upper part of the vibration buffering spring and is connected with the vibration buffering spring.

4. The die press for producing the diamond wear-resistant material as claimed in claim 3, wherein the lower die supporting base plate is provided with N sets of shock absorbing springs.

5. The die press for producing diamond wear-resistant material according to claim 3, wherein four sets of shock absorbing springs are mounted on the lower die supporting base plate.

6. The die press for producing diamond wear-resistant material according to claim 3, wherein the lower die supporting bottom plate at the bottom inside the lower die shell is provided with a spring supporting seat, and the vibration buffering spring is arranged on the vibration buffering spring supporting seat and connected with the vibration buffering spring supporting seat.

7. The die press for producing diamond wear-resistant materials according to claim 1, wherein the upper die assembly comprises an upper die shell and an upper die core, and the upper die core is arranged in the upper die shell and fixedly connected with the upper die shell.

8. The die press for producing diamond wear-resistant material according to claim 7, wherein a gap is provided between the upper die shell and the upper die punch core.

9. The die press for producing diamond wear-resistant material according to claim 1, wherein the controller is connected to the oil pumping motor through a data line.

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