CN214768320U - Cold plastic mould of high accuracy copper forging - Google Patents

Abstract

The utility model discloses a cold plastic mould of high accuracy copper forging, including base and first riser, the upper surface rigid coupling of base has a plurality of first risers, cooling device is installed to the top of base. This cold plastic mould of high accuracy copper forging, through the water tank, mutually support between water pump and the third pipeline isotructure, can make the water pump discharge the cooling water in the water tank in the second pipeline, the cooling water can enter into in the third pipeline after passing through the second pipeline, flow back to in the water tank at last, and then can carry out quick cooling to the plastic mould, through the motor, first sheave, the second sheave, mutually support between concave plate and the baffle isotructure, can drive first sheave through the motor and rotate, first sheave passes through the belt and drives the second sheave and rotate, the second sheave drives the rectangular block through two-way threaded rod and removes, the rectangular block drives the baffle through second connecting rod and concave plate and removes, thereby can support the plastic mould through the baffle and fix.

Description

Cold plastic mould of high accuracy copper forging

Technical Field

The utility model relates to the technical field of mold, specifically be a cold plastic mould of high accuracy copper forging.

Background

In short, the mold is a tool for manufacturing a molded article, the tool is composed of various parts, different molds are composed of different parts, and some copper forging pieces need to use a cold shaping mold in order to improve the precision.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cold plastic mould of high accuracy copper forging to solve and propose among the above-mentioned background art and the cold plastic mould structure singleness among the prior art, the not good problem of cooling effect.

In order to achieve the above object, the utility model provides a following technical scheme: a high-precision copper forging cold shaping die comprises a base and first vertical plates, wherein the upper surface of the base is fixedly connected with a plurality of first vertical plates, and a cooling device is arranged above the base;

the cooling device comprises a water tank, a first pipeline, a second vertical plate, a water pump, a second pipeline and a third pipeline;

the lower surface of water tank and the base are fixed to be continuous, the left side rigid coupling of water tank has first pipeline, the upper surface right side rigid coupling of water tank has the second riser, the inside rigid coupling of second riser has the water pump, the pipe that absorbs water of water pump links to each other with the water tank is fixed, the outlet pipe rigid coupling of water pump has the second pipeline, the left side below rigid coupling of second pipeline has the third pipeline, the below of third pipeline links to each other with the water tank is fixed.

Preferably, the second pipe is shaped like a serpentine.

Preferably, the shaping device is arranged on the inner side of the first vertical plate;

the shaping device comprises a first transverse plate, a shaping die, a third vertical plate, a first connecting rod, a second transverse plate and a spring;

the left and right sides of first diaphragm links to each other with the riser is fixed, the outer wall clearance fit of the convex through-hole department inner wall of first diaphragm and second pipeline, the plastic mould is installed to the top of first diaphragm, the below outer wall of plastic mould closely laminates with the convex through-hole department inner wall of first diaphragm, the below of plastic mould is equipped with a plurality of third risers, the lower surface and the water tank of third riser are fixed to be linked to each other, the top of third riser is rotated through the pivot and is connected with first connecting rod, the second diaphragm is installed to the rear end face top of first connecting rod, the spout department inner wall of second diaphragm and the slider department outer wall clearance fit of first connecting rod, the upper surface of second diaphragm laminates with the lower surface of second pipeline mutually, controls the inboard of first connecting rod is rotated through the pivot and is connected with the spring.

Preferably, the second transverse plate and the first connecting rod form a sliding structure.

Preferably, a fixing device is arranged above the first vertical plate;

the fixing device comprises a third transverse plate, a motor, a first grooved wheel, a second grooved wheel, a bidirectional threaded rod, a rectangular block, a second connecting rod, a concave plate, a baffle plate and a fourth transverse plate;

the inner sides of the left and right third transverse plates are fixedly connected with the first vertical plate, a motor is fixedly connected inside the third transverse plates, a first grooved wheel is fixedly connected on the outer wall of an output shaft of the motor, a second grooved wheel is rotatably connected on the outer wall of the inner side of the first grooved wheel through a belt, a bidirectional threaded rod is fixedly connected inside the second grooved wheel, the lower part of the bidirectional threaded rod is rotationally connected with the first transverse plate through a bearing, the middle outer wall of the bidirectional threaded rod is in threaded connection with a plurality of rectangular blocks, the front end faces of the rectangular blocks are rotationally connected with a second connecting rod through a rotating shaft, the inner sides of the left and right second connecting rods are rotationally connected with a concave plate through a rotating shaft, the inner side of the concave plate is fixedly connected with a baffle plate, the outer wall of the inner side of the baffle plate is tightly attached to the outer wall of the shaping mould, the outer wall of the upper portion of the bidirectional threaded rod is rotatably connected with a fourth transverse plate, and the outer side of the fourth transverse plate is fixedly connected with the first vertical plate.

Preferably, the fourth transverse plate and the first vertical plate are arranged vertically.

Compared with the prior art, the beneficial effects of the utility model are that: according to the cold shaping die for the high-precision copper forging, through mutual matching of the structures such as the water tank, the first pipeline, the second vertical plate, the water pump, the second pipeline and the third pipeline, cooling water in the water tank can be discharged into the second pipeline by the water pump, the cooling water can enter the third pipeline after passing through the second pipeline and finally flows back into the water tank, and therefore the rapid cooling can be carried out on the shaping die;

through the mutual matching of the first transverse plate, the shaping die, the third vertical plate, the first connecting rod, the second transverse plate, the spring and the like, the first connecting rod can tightly abut against the second transverse plate through the elastic performance of the spring, and the second pipeline is fixed through the second transverse plate, so that the second pipeline is more stable;

through mutually supporting between third diaphragm, motor, first sheave, second sheave, two-way threaded rod, rectangular block, second connecting rod, concave plate and the baffle isotructure, can drive first sheave through the motor and rotate, first sheave passes through the belt and drives the second sheave and rotate, and the second sheave passes through two-way threaded rod and drives the rectangular block and remove, and the rectangular block drives the baffle through second connecting rod and concave plate and removes to can support the fastening with the shaping mould through the baffle and decide.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the first link, the water pump and the water tank of FIG. 1;

fig. 3 is a schematic structural view of the first riser, the motor and the bidirectional threaded rod in fig. 1;

fig. 4 is a schematic view of the rectangular block, the second link and the baffle of fig. 1.

In the figure: 1. the base, 2, the riser, 3, cooling device, 301, the water tank, 302, the first pipeline, 303, the second riser, 304, the water pump, 305, the second pipeline, 306, the third pipeline, 4, shaping device, 401, the first diaphragm, 402, the shaping mould, 403, the third riser, 404, first connecting rod, 405, the second diaphragm, 406, the spring, 5, fixing device, 501, the third diaphragm, 502, the motor, 503, the first sheave, 504, the second sheave, 505, two-way threaded rod, 506, the rectangular block, 507, the second connecting rod, 508, the concave plate, 509, the baffle, 510, the fourth diaphragm.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, 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.

Referring to fig. 1-4, the present invention provides a technical solution: a high-precision copper forging cold shaping die comprises a base 1 and a first vertical plate 2, wherein 2 first vertical plates 2 are fixedly connected to the upper surface of the base 1, an opening is formed in the upper portion inside the first vertical plate 2 and can enable a belt on a first sheave 503 to rotate, a cooling device 3 is installed above the base 1, the cooling device 3 comprises a water tank 301, a first pipeline 302, a second vertical plate 303, a water pump 304, a second pipeline 305 and a third pipeline 306, the lower surface of the water tank 301 is fixedly connected with the base 1, the left side of the water tank 301 is fixedly connected with the first pipeline 302, a valve is installed in the middle of the first pipeline 303 and can control water in the water tank 301, the right side of the upper surface of the water tank 301 is fixedly connected with the second vertical plate 303, the water pump 304 is fixedly connected inside the second vertical plate 303, the water pump 304 is 0510A in type, a water suction pipe of the water pump 304 is fixedly connected with the water tank 301, and a water outlet pipe of the water pump 304 is fixedly connected with the second pipeline 305, a third pipeline 306 is fixedly connected to the lower portion of the left side of the second pipeline 305, the third pipeline 306 is communicated with the second pipeline 305, the lower portion of the third pipeline 306 is fixedly connected with the water tank 301, and the second pipeline 305 is processed into a snake shape.

The shaping device 4 is arranged on the inner side of the first vertical plate 2, the shaping device 4 comprises a first transverse plate 401, a shaping mold 402, a third vertical plate 403, a first connecting rod 404, a second transverse plate 405 and a spring 406, the left side and the right side of the first transverse plate 401 are fixedly connected with the first vertical plate 2, a convex through hole is processed inside the first transverse plate 401, the inner wall of the convex through hole of the first transverse plate 401 is in clearance fit with the outer wall of the second pipeline 305, the shaping mold 402 is arranged above the first transverse plate 401, the lower outer wall of the shaping mold 402 is tightly attached to the inner wall of the convex through hole of the first transverse plate 401, 2 third vertical plates 403 are arranged below the shaping mold 402, the lower surfaces of the third vertical plates 403 are fixedly connected with the water tank 301, the upper part of the third vertical plates 403 is rotatably connected with the first connecting rod 404 through a rotating shaft, a sliding block is processed above the rear end surface of the first connecting rod 404, the second transverse plate 405 is arranged above the rear end surface of the first connecting rod 404, the inside processing of second diaphragm 405 has the spout, the spout department inner wall of second diaphragm 405 and the slider department outer wall clearance fit of first connecting rod 404, the upper surface of second diaphragm 405 is laminated with the lower surface of second pipeline 305 mutually, second diaphragm 405 can play the supporting role to second pipeline 305, the inboard of controlling first connecting rod 404 rotates through the pivot and is connected with spring 406, spring 406 is in tensile state when first connecting rod 404 rotates to the inboard, second diaphragm 405 constitutes sliding construction with first connecting rod 404.

A fixing device 5 is arranged above the first vertical plate 2, the fixing device 5 comprises a third transverse plate 501, a motor 502, a first grooved pulley 503, a second grooved pulley 504, a bidirectional threaded rod 505, rectangular blocks 506, a second connecting rod 507, a concave plate 508, a baffle 509 and a fourth transverse plate 510, the inner sides of the left and right third transverse plates 501 are fixedly connected with the first vertical plate 2, the motor 502 is fixedly connected inside the third transverse plate 501, the model of the motor 502 is 3GB-555, the outer wall of the output shaft of the motor 502 is fixedly connected with the first grooved pulley 503, the outer wall of the inner side of the first grooved pulley 503 is rotatably connected with the second grooved pulley 504 through a belt, the first grooved pulley 503 can drive the second grooved pulley 504 to rotate through the belt, the bidirectional threaded rod 505 is fixedly connected inside the second grooved pulley 504, the lower part of the bidirectional threaded rod 505 is rotatably connected with the first transverse plate 401 through a bearing, the outer wall of the middle of the bidirectional threaded rod 505 is in threaded connection with the 2 rectangular blocks 506, two-way threaded rod 505 can drive rectangular block 506 and remove, the preceding terminal surface of rectangular block 506 rotates through the pivot and is connected with second connecting rod 507, the inboard of controlling second connecting rod 507 rotates through the pivot and is connected with concave plate 508, rectangular block 506 can drive concave plate 508 through second connecting rod 507 and remove, the inboard rigid coupling of concave plate 508 has baffle 509, the inboard outer wall of baffle 509 closely laminates with the outer wall of plastic mould 402, the top outer wall of two-way threaded rod 505 rotates and is connected with fourth diaphragm 510, the outside and the first riser 2 of fourth diaphragm 510 are fixed and link to each other, fourth diaphragm 510 and first riser 2 are perpendicular setting.

When an operator needs to use the high-precision copper forging cold-shaping mold, firstly, the operator switches on an external power supply of the motor 502, starts the motor 502, enables an output shaft of the motor 502 to drive the first grooved pulley 503 to rotate, the first grooved pulley 503 drives the second grooved pulley 504 to rotate through a belt, the second grooved pulley 504 drives the bidirectional threaded rod 505 to rotate, the bidirectional threaded rod 505 drives the second connecting rod 507 to move through the rectangular block 506, the second connecting rod 507 drives the baffle 509 to move inwards through the concave plate 508, so that the shaping mold 402 is tightly fixed through the baffle 509, the second transverse plate 405 is pressed downwards, the second transverse plate 405 drives the first connecting rod 404 to rotate at the third vertical plate 403, meanwhile, the first connecting rod 404 stretches the spring 406, the spring 406 is elastically deformed, the second pipeline 305, the water tank 301 and the like are installed, and the second pipeline 305 is attached to the lower surface of the shaping mold 402, the second transverse plate 405 is loosened, so that the second transverse plate 405 tightly abuts and fixes the second pipeline 305 through the elastic performance of the spring 406, the external power supply of the water pump 304 is switched on, the water pump 304 is started, the water pump 304 discharges the cooling water in the water tank 301 into the second pipeline 305, the cooling water flows back into the water tank 301 through the third pipeline 306, circulation is achieved, and the purpose of cooling the shaping mold 402 is achieved.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", 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.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "disposed," "connected," "fixed," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a cold plastic mould of high accuracy copper forging, includes base (1) and first riser (2), the upper surface rigid coupling of base (1) has a plurality of first risers (2), its characterized in that: a cooling device (3) is arranged above the base (1);

the cooling device (3) comprises a water tank (301), a first pipeline (302), a second vertical plate (303), a water pump (304), a second pipeline (305) and a third pipeline (306);

the lower surface of water tank (301) is fixed continuous with base (1), the left side rigid coupling of water tank (301) has first pipeline (302), the upper surface right side rigid coupling of water tank (301) has second riser (303), the inside rigid coupling of second riser (303) has water pump (304), the pipe that absorbs water of water pump (304) is fixed continuous with water tank (301), the outlet pipe rigid coupling of water pump (304) has second pipeline (305), the left side below rigid coupling of second pipeline (305) has third pipeline (306), the below of third pipeline (306) links to each other with water tank (301) is fixed.

2. The high-precision copper forging cold shaping die of claim 1, wherein: the second conduit (305) is shaped as a serpentine.

3. The high-precision copper forging cold shaping die of claim 1, wherein: a shaping device (4) is arranged on the inner side of the first vertical plate (2);

the shaping device (4) comprises a first transverse plate (401), a shaping die (402), a third vertical plate (403), a first connecting rod (404), a second transverse plate (405) and a spring (406);

the left side and the right side of the first transverse plate (401) are fixedly connected with a first vertical plate (2), the inner wall of a convex through hole of the first transverse plate (401) is in clearance fit with the outer wall of a second pipeline (305), a shaping mold (402) is installed above the first transverse plate (401), the outer wall of the lower portion of the shaping mold (402) is tightly attached to the inner wall of the convex through hole of the first transverse plate (401), a plurality of third vertical plates (403) are arranged below the shaping mold (402), the lower surface of each third vertical plate (403) is fixedly connected with the water tank (301), the upper portion of each third vertical plate (403) is rotatably connected with a first connecting rod (404) through a rotating shaft, a second transverse plate (405) is installed above the rear end face of the first connecting rod (404), the inner wall of a sliding groove of the second transverse plate (405) is in clearance fit with the outer wall of a sliding block of the first connecting rod (404), and the upper surface of the second transverse plate (405) is attached to the lower surface of the second pipeline (305), the inner sides of the left and right first connecting rods (404) are rotatably connected with springs (406) through rotating shafts.

4. The high-precision copper forging cold shaping die of claim 3, wherein: the second transverse plate (405) and the first connecting rod (404) form a sliding structure.

5. The high-precision copper forging cold shaping die of claim 1, wherein: a fixing device (5) is arranged above the first vertical plate (2);

the fixing device (5) comprises a third transverse plate (501), a motor (502), a first grooved wheel (503), a second grooved wheel (504), a bidirectional threaded rod (505), a rectangular block (506), a second connecting rod (507), a concave plate (508), a baffle plate (509) and a fourth transverse plate (510);

the inner side of the left and right third transverse plate (501) is fixedly connected with a first vertical plate (2), the inner part of the third transverse plate (501) is fixedly connected with a motor (502), the outer wall of an output shaft of the motor (502) is fixedly connected with a first grooved pulley (503), the outer wall of the inner side of the first grooved pulley (503) is rotatably connected with a second grooved pulley (504) through a belt, the inner part of the second grooved pulley (504) is fixedly connected with a bidirectional threaded rod (505), the lower part of the bidirectional threaded rod (505) is rotatably connected with the first transverse plate (401) through a bearing, the outer wall of the middle part of the bidirectional threaded rod (505) is in threaded connection with a plurality of rectangular blocks (506), the front end face of each rectangular block (506) is rotatably connected with a second connecting rod (507) through a rotating shaft, the inner side of the left and right second connecting rod (507) is rotatably connected with a concave plate (508) through a rotating shaft, and the inner side of the concave plate (508) is fixedly connected with a baffle (509), the outer wall of the inner side of the baffle (509) is tightly attached to the outer wall of the shaping mold (402), the outer wall of the upper portion of the bidirectional threaded rod (505) is rotatably connected with a fourth transverse plate (510), and the outer side of the fourth transverse plate (510) is fixedly connected with the first vertical plate (2).

6. The high-precision copper forging cold shaping die of claim 5, wherein: the fourth transverse plate (510) and the first vertical plate (2) are arranged vertically.

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