CN205614005U - Duplex position forward finishing mould - Google Patents

Abstract

The utility model provides a duplex position forward finishing mould, the adjacent setting of this two finishing moulds, every finishing mould includes the cope match -plate pattern, goes up the die sleeve, goes up punch sleeve, upper punch, die, die socket, sliding chute seat and lower bolster, it is located the cope match -plate pattern below to go up the die sleeve, it locates to go up the punch sleeve cover go up the inboard of die sleeve, the root of upper punch sets up on last die sleeve, and the head of upper punch stretches out go up punch sleeve, the die is located go up punch sleeve's below, the below of die, the top of die socket are provided with material returned piece, the sliding chute seat set up in the below of die socket lies in the top of lower bolster. The utility model discloses a mould structure is compact, and the assembly precision is high, has improved equipment accuracy, can not produce the dimensional deviation under the slight exogenic action receiving, and forging size precision is higher.

Description

A kind of double forward finishing mold

Technical field

This utility model relates to precision metal forging field, particularly to a kind of double forward finishing mold.

Background technology

Cold-forging precise forming technology is the key technology of cold temperature precision forging, the coldest temperature precision forging Automobile driving axle critical component sliding sleeve and the important procedure of out star wheel.Sliding sleeve after cold forging essence shapes is with outer Star-wheel only needs a small amount of machining, and heat treatment just can directly assemble use, and its inner chamber needs not move through and adds Work, therefore inner chamber dimensional accuracy is high, cold-finishing shape this procedure and ensure.This allows for essence shaping dies Precision is high, has higher requirement mould.

Referring to Fig. 1, it is the structural representation of existing reverse finishing mold.As it is shown in figure 1, this mould Including die 101 and drift 102, this mould structure is simple, it is easy to dismounting, but the dress of this mould structure Joining precision low, essence forming dimension is difficult to ensure, and needs artificial loading, feeding, safety in process of production Coefficient is low, and this mould structure is unfavorable for using on forcing press at high speed simultaneously, limits production efficiency.

Therefore, it is necessary to propose a kind of new technical scheme to solve the problems referred to above.

Utility model content

The purpose of this utility model is to provide a kind of double forward finishing mold, its mould features compact structure, Assembly precision is high, improves equipment precision, will not produce dimensional discrepancy under by slight External Force Acting, forging Part dimensional accuracy is higher.

In order to solve the problems referred to above, this utility model provides a kind of double forward finishing mold, and it includes Two moulds, these two moulds are disposed adjacent, each mould include cope match-plate pattern, Upper Die-sleeve, upper punch headgear, Upper punch, die, die socket, sliding chute seat and lower bolster,

Described Upper Die-sleeve is positioned at below cope match-plate pattern, and described upper punch headgear is sheathed on the inner side of described Upper Die-sleeve, institute The root stating upper punch is arranged on Upper Die-sleeve, and the head of upper punch stretches out described upper punch headgear；

Described die is positioned at the lower section of described upper punch headgear, the lower section of described die, being provided above of die socket Material returned block, described sliding chute seat is had to be arranged at the lower section of described die socket and are positioned at the top of described lower bolster；

Described die is formed with matrix cavity, and described sliding chute seat is formed with chute chamber, described matrix cavity and described cunning Vallecular cavity is connected, and after forging to be forged forges in matrix cavity, slides in chute chamber after the material returned block material returned.

As this utility model one preferred embodiment, described cope match-plate pattern and lower bolster are coaxially disposed.

As this utility model one preferred embodiment, the die sleeve hole on described cope match-plate pattern and lower bolster adds Axiality≤0.05 of work.

As this utility model one preferred embodiment, the size of two moulds is identical.

As this utility model one preferred embodiment, each module also includes spring, and it moves back with described Material block connects.

The beneficial effects of the utility model: compared with prior art, double forward finishing of the present utility model Mould, its compact conformation, assembly precision is high, improves equipment precision, will not be by slight External Force Acting Lower generation dimensional discrepancy, forging's block dimension precision is higher.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, institute in embodiment being described below The accompanying drawing used is needed to be briefly described, it should be apparent that, the accompanying drawing in describing below is only this practicality Some novel embodiments, for those of ordinary skill in the art, are not paying creative work Under premise, it is also possible to obtain other accompanying drawing according to these accompanying drawings.Wherein:

Fig. 1 is the structural representation of existing reverse finishing mold；

Fig. 2 is the structural representation of double forward finishing mold of the present utility model.

Detailed description of the invention

Understandable for enabling above-mentioned purpose of the present utility model, feature and advantage to become apparent from, below in conjunction with attached This utility model is described in further detail by figure and detailed description of the invention.

" embodiment " or " embodiment " referred to herein refers to may be included in this utility model at least Special characteristic, structure or characteristic in individual implementation.Different local in this manual occur " one In individual embodiment " not refer both to same embodiment, it is not single or selective and other embodiments Mutually exclusive embodiment.

Refer to the structural representation that Fig. 2, Fig. 2 are double forward finishing molds of the present utility model.Such as figure Shown in 2, finishing mold of the present utility model includes two moulds being disposed adjacent, and each mould includes cope match-plate pattern 1, Upper Die-sleeve 2, upper punch headgear 3, upper punch 4, die 5, material returned block 6, die socket 7, sliding chute seat 8 With lower bolster 8.Described Upper Die-sleeve 2 is positioned at below cope match-plate pattern 1, and described upper punch headgear 3 is sheathed on described upper mold The inner side of set 2, the root of described upper punch 4 is arranged on Upper Die-sleeve 2, and the head of upper punch 4 stretches out institute State upper punch headgear 3.The size of two moulds 100 is identical.

Described die 5 is positioned at the lower section of described upper punch headgear 3, the lower section of described die 5, die socket 7 Being provided above material returned block 6, described sliding chute seat 8 is arranged at the lower section of described die socket 7 and is positioned at described lower mold The top of plate 9；

Described die 5 is formed with matrix cavity, and described sliding chute seat 8 is formed with chute chamber 10, described matrix cavity with Described chute chamber 10 is connected, and after forging to be forged forges in matrix cavity, slides into after material returned block 6 material returned In chute chamber 10.

Described cope match-plate pattern 1 and lower bolster 8 are coaxially disposed.Described cope match-plate pattern 1 and the processing die sleeve of lower bolster 8 Kong Shi, uses accurate Milling Machining, and the axiality of the die sleeve hole machined of 8 on described cope match-plate pattern 1 and lower bolster≤ 0.05, so mould and die accuracy of assembling is the highest, and after this mould process and assemble after only need to change drift and recessed Mould, remaining part is all without changing, and follow-up dismounting Key Mold is simple.

Each module also includes spring (not shown), and it is connected with described material returned block 6.

In one embodiment, this utility model also provides for a kind of technique using this mould to carry out finishing, tool Body comprises the steps: that, when forging the blank in matrix cavity, upper punch 4 will give from top to bottom Forging pressure so that forging moves downward, is deformed when touching die 5, when forging is completely by recessed After mould 5, material returned block 6 pushes up plane on forging, upper punch 4 backhaul under the action of the spring, and forging is moving back Under the power effect of material block 6, exit upper punch 4, then fall in the chute chamber 10 of sliding chute seat 8, slide into material In frame, complete a forward finishing and shape.Mould of the present utility model can utilize robot feeding, will forging Part clamping is sent in die cavity, it is not necessary to artificial loading, feeding, it is achieved that automated production, reduces human cost, Eliminate safe hidden trouble.

Finishing mold of the present utility model uses double structure, and each mould has two drifts, two dies, Once extruding can realize the shaping of two pieces forging, two die sizes fully according to a piece of paper figure paper conversion, its Precision is identical, and the forging precision of the forging and molding under same equipment is consistent, the most there is not the biggest precision Deviation, achieves the double of production capacity in the situation not affecting precision, improves production efficiency, reduce into This.

Double forward finishing mold of the present utility model, use forward extrusion principle, by forging forward by Upper downward crimp, finally forging is exited from upper punch by recycling material returned block, falls in chute chamber, This mould structure can be connected with robot feeding, uses robot feeding, automatic material returning, solves people The cost of work feeding and safety problem, be the mould structure of double simultaneously, and a stroke is exactly two pieces forging Part, more than the most conventional reverse finishing of efficiency is doubled.The mould features compact structure, assembly precision is high, Improve equipment precision, will not produce dimensional discrepancy under by slight External Force Acting, forging's block dimension precision is relatively High.

Described above the most fully discloses detailed description of the invention of the present utility model.It is pointed out that ripe Know any change that detailed description of the invention of the present utility model done by person skilled in art all without departing from this The scope of claims of utility model.Correspondingly, the scope of claim of the present utility model is the most not It is limited only to previous embodiment.

Claims (5)

1. a double forward finishing mold, it is characterised in that: it includes two moulds, these two moulds Be disposed adjacent, each mould include cope match-plate pattern, Upper Die-sleeve, upper punch headgear, upper punch, die, die socket, Sliding chute seat and lower bolster,

Described Upper Die-sleeve is positioned at below cope match-plate pattern, and described upper punch headgear is sheathed on the inner side of described Upper Die-sleeve, institute The root stating upper punch is arranged on Upper Die-sleeve, and the head of upper punch stretches out described upper punch headgear；

Described die is positioned at the lower section of described upper punch headgear, the lower section of described die, being provided above of die socket Material returned block, described sliding chute seat is had to be arranged at the lower section of described die socket and are positioned at the top of described lower bolster；

Described die is formed with matrix cavity, and described sliding chute seat is formed with chute chamber, described matrix cavity and described cunning Vallecular cavity is connected, and after forging to be forged forges in matrix cavity, slides in chute chamber after the material returned block material returned.

Double forward finishing mold the most according to claim 1, it is characterised in that: described cope match-plate pattern It is coaxially disposed with lower bolster.

Double forward finishing mold the most according to claim 2, it is characterised in that: described cope match-plate pattern Axiality≤0.05 with the die sleeve hole machined on lower bolster.

Double forward finishing mold the most according to claim 1, it is characterised in that: two moulds Size is identical.

Double forward finishing mold the most according to claim 1, it is characterised in that: each module is also Including spring, it is connected with described material returned block.