CN210817241U - Multi-step shaft rod cold heading die - Google Patents

Abstract

The utility model discloses a multistage shaft bar cold-heading mould, its characterized in that: the die comprises an upper die cavity, a middle die cavity and a lower die cavity which are coaxially arranged, wherein the upper die cavity is arranged in a stamping die head, the stamping die head is movably arranged up and down, the stamping die head is connected with a die sleeve, the lower die cavity is arranged in a bottom die base, the bottom die base is fixedly installed, the middle die cavity is arranged in a left die cavity and a right die cavity, the bottom of the middle die cavity is provided with a guide chamfer, the left half die and the right half die do radial sliding motion at the top of the bottom die base, the left half die and the right half die are mutually held tightly through an elastic ring, the excircle diameter of the left half die and the right half die after being held tightly mutually is smaller. The utility model discloses be exclusively used in the cold-heading shaping of many steps axostylus axostyle, simple structure, step external diameter size can be great under the fashioned axostylus axostyle moreover, and the punching press die head stroke is little.

Description

Multi-step shaft rod cold heading die

Technical Field

The utility model relates to a cold-heading mould, concretely relates to multistage axostylus axostyle cold-heading mould.

Background

At present, a multi-step shaft rod part comprises an exhaust pipe bolt, a plurality of protruding steps are usually arranged at the upper part and the lower part on a slender rod body, and for the shaft rod part, if a cold heading die is adopted for carrying out one-time cold heading forming, the cold heading die adopts a multi-petal structure die core with an outer cone and is matched with a die cylinder with an inner cone, so that the structure is quite complex; when the lower step of the shaft rod part has a larger outer diameter, in order to ensure that the lower step formed by cold heading can be smoothly released from the die core, the opening and closing size of the die core is larger, the action stroke of the movable die (namely the stamping die head) is correspondingly larger, and the stroke of the stamping die head is limited by the design of the cold heading machine, so that the multi-step shaft rod part with the larger outer diameter of the lower step can not be formed by the cold heading forming die in the prior art.

Disclosure of Invention

The utility model aims at providing a cold-heading shaping of multi-step axostylus axostyle is exclusively used in to the not enough of prior art, simple structure, and step external diameter size can be great under the fashioned axostylus axostyle moreover, and the little multi-step axostylus axostyle cold-heading mould of punching press die head stroke.

The utility model discloses a realize through following technical scheme:

many steps axostylus axostyle cold-heading mould, its characterized in that: the die comprises an upper die cavity, a middle die cavity and a lower die cavity which are coaxially arranged, wherein the upper die cavity is arranged in a stamping die head, the stamping die head is movably arranged up and down, the stamping die head is connected with a die sleeve, the lower die cavity is arranged in a bottom die base, the bottom die base is fixedly installed, the middle die cavity is arranged in a left die cavity and a right die cavity, the bottom of the middle die cavity is provided with a guide chamfer, the left half die and the right half die do radial sliding motion at the top of the bottom die base, the left half die and the right half die are mutually held tightly through an elastic ring, the excircle diameter of the left half die and the right half die after being held tightly mutually is smaller.

Above-mentioned technical scheme's multi-step shaft pole cold-heading mould, simple structure, the process of cold-heading work is: when the blank reaches the lower part of the stamping die head, the stamping die head moves downwards to push the lower end of the blank into the middle and lower die cavities, the upper end of the blank is positioned in the upper die cavity, the stamping die head continues to move downwards, the die closing sleeve closes and locks the left and right half dies until the lower end surface of the stamping die head abuts against the left and right half dies, at the moment, the blank is subjected to cold heading at the upper die cavity and the lower die cavity to form an upper step and a lower step, a guide inclined surface is formed at a guide chamfer at the bottom of the middle die cavity by cold heading, the stamping die head returns, the die closing sleeve leaves the die closing and locking of the left and right half dies, a rear ejector rod of a cold header can push the workpiece upwards, the guide inclined surface enables the left and right half dies to be opened, the workpiece leaves the middle die cavity to be demoulded, and after the workpiece leaves the middle die cavity, the left and. In the cold heading process, the action stroke of the stamping die head can be smaller, and smooth demolding of the lower step of the shaft rod is not influenced no matter how large the action stroke is, so that a multi-step shaft rod workpiece with the larger outer diameter size of the lower step can be formed.

Preferably, the top end surface of the bottom die holder is provided with T-shaped sliding grooves on the left side and the right side, the bottoms of the left half die and the right half die are respectively connected with T-shaped sliding blocks, and the T-shaped sliding blocks are in sliding fit with the T-shaped sliding grooves. The design not only ensures the radial sliding action of the left half die and the right half die, but also ensures that the left half die and the right half die only do the radial sliding action when the guide inclined plane pushes the left half die and the right half die to open.

Drawings

The utility model discloses there is following figure:

figure 1 is a schematic structural diagram of the present invention,

figure 2 is the utility model discloses the fashioned multi-step shaft pole part of cold-heading.

Detailed Description

As shown in fig. 1, the utility model discloses a multi-step axle bar cold-heading mould, upper die cavity A, well die cavity B and lower die cavity C that have coaxial setting, upper die cavity A locates in stamping die 7, stamping die 7 makes upper and lower movable setting, stamping die 7 fixed connection connects die sleeve 6, lower die cavity C locates in die holder 1, the bottom of lower die cavity C is equipped with the back of ejecting work piece and leads to ejector pin hole 10, die holder 1 fixed mounting, well die cavity B locates in left half mould 5 and right half mould 8, the bottom of well die cavity B is equipped with direction chamfer 9, left half mould 5, right half mould 8 do the radial sliding motion at the top of die holder 1, the top terminal surface of die holder 1 is equipped with T shape spout 3 on the left and right sides, the bottom of left half mould 5, right half mould 8 connects T shape slider 2 separately, T shape slider 2 and T shape spout 3 sliding fit; the left half die 5 and the right half die 8 are tightly held by an elastic ring (an annular spring 4), the excircle diameter of the left half die and the right half die after being tightly held is slightly smaller than the trepan bore diameter of the die closing sleeve 6 (generally controlled to be about 0.2 mm), and the die closing sleeve 6 locks and closes the left half die and the right half die from the outer side direction during cold heading.

The utility model discloses a work like this: when the blank reaches the lower part of the stamping die head, the stamping die head moves downwards to push the lower end of the blank into the middle and lower die cavities, the upper end of the blank is positioned in the upper die cavity, the stamping die head continues to move downwards, the die closing sleeve closes and locks the left and right half dies until the lower end surface of the stamping die head is abutted against the left and right half dies, and at the moment, the blank is subjected to cold heading at the upper die cavity and the lower die cavity to form an upper step and a lower step, cold heading is carried out at a guide chamfer at the bottom of the middle die cavity to form a guide inclined surface, then the stamping die head returns, the die closing sleeve is separated from die closing and locking of the left half die and the right half die, a rear ejector rod of the cold header can eject the workpiece upwards, the guide inclined surface enables the left half die and the right half die to be opened, the workpiece leaves the middle die cavity to realize demoulding, after the workpiece leaves the middle die cavity, the left half die and the right half die are recumbent under the fastening action of the elastic ring to wait for the cold heading forming of the next workpiece, and the multi-step shaft rod part formed by the cold heading is shown in figure 2.

Claims (2)

1. Many steps axostylus axostyle cold-heading mould, its characterized in that: the die comprises an upper die cavity, a middle die cavity and a lower die cavity which are coaxially arranged, wherein the upper die cavity is arranged in a stamping die head, the stamping die head is movably arranged up and down, the stamping die head is connected with a die sleeve, the lower die cavity is arranged in a bottom die base, the bottom die base is fixedly installed, the middle die cavity is arranged in a left die cavity and a right die cavity, the bottom of the middle die cavity is provided with a guide chamfer, the left half die and the right half die do radial sliding motion at the top of the bottom die base, the left half die and the right half die are mutually held tightly through an elastic ring, the excircle diameter of the left half die and the right half die after being held tightly mutually is smaller.

2. The multi-step shaft cold heading die of claim 1, wherein: the top end face of the bottom die holder is provided with T-shaped sliding grooves on the left side and the right side, the bottoms of the left half die and the right half die are respectively connected with a T-shaped sliding block, and the T-shaped sliding blocks are in sliding fit with the T-shaped sliding grooves.

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