CN209139816U - A kind of multistation powder metallurgy forming mold - Google Patents

Abstract

The utility model provides a kind of multistation powder metallurgy forming mold, including top swage, anvil swage, medium rod and parent model, the anvil swage is equipped with cavity, the medium rod is located in the cavity of the anvil swage, and the medium rod can be mobile relative to the anvil swage, clearance fit is formed at the top of the lower part and the anvil swage of the inner cavity of the parent model and the top swage, the top swage is open at one end towards the anvil swage, and the top swage is equipped with the first powder compacting slot, the both ends open of the anvil swage, and the anvil swage runs through equipped with the second powder compacting slot, multiple first powder compactings hole and the second powder compacting hole are respectively equipped on the first powder compacting slot and the second powder compacting slot, the medium rod is correspondingly provided with multiple powder compacting blocks.The utility model realizes a mold can carry out the production of multiple products simultaneously, and production efficiency greatly improves, and meet the needs of product mass production.

Description

A kind of multistation powder metallurgy forming mold

Technical field

The utility model relates to powder metallurgy processing technique field more particularly to a kind of multistation powder metallurgy forming moulds Tool.

Background technique

Powder metallurgy formation is one of the basic working procedure in powder metallurgy production, it is therefore an objective to which loose powder, which is made, to be had The semifinished or finished goods of prespecified geometric, size, density and intensity.Die forming is in powder metallurgy production using most wide The capital equipment of manufacturing process, pressing mold and press die forming is pressing mold and press.Wherein, the principle of Mould design is: sufficiently Performance powder metallurgy is cut less and the process characteristic without cutting, guarantees three Xiang Yaoqiu (the i.e. geometry, ruler that reach green compact quality Very little precision and finish, the uniformity of density)；However, existing powder metallurgy forming mold is only capable of one product of production every time, Production efficiency is low, is not able to satisfy the demand of product mass production.Therefore, it is really necessary to design a kind of multistation powder metallurgy at Pattern tool, solves the defect of the prior art.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of multistation powder metallurgy forming mold, and one Mold can carry out the production of multiple products simultaneously, and production efficiency greatly improves, and meet the needs of product mass production.

The utility model provides following technical scheme, a kind of multistation powder metallurgy forming mold, including top swage, mo(u)ld bottom half Mould, medium rod and parent model, the anvil swage are equipped with cavity, and the medium rod is located in the cavity of the anvil swage, and the medium rod Can be mobile relative to the anvil swage, the inner cavity of the parent model and the lower part of the top swage and the top of the anvil swage Form clearance fit；The top swage is open at one end towards the anvil swage, and the top swage is equipped with the first powder compacting Slot, the both ends open of the anvil swage, and the anvil swage, which run through, is equipped with the second powder compacting slot, the first powder compacting slot Be respectively equipped with multiple first powder compactings hole and the second powder compacting hole on the second powder compacting slot, the medium rod is corresponding Equipped with multiple powder compacting blocks.

Further, the hole heart in multiple first powder compacting holes is located in same horizontal line, and multiple described first Powder compacting is connected between hole.

Further, the hole heart in multiple second powder compacting holes is located in same horizontal line, and multiple described second Powder compacting is connected between hole.

Further, the quantity in first powder compacting hole, second powder compacting hole and the powder compacting block It is identical.

Further, first powder compacting hole is different from the size in second powder compacting hole and shape.

Further, the axial line of the top swage, the axial line of the anvil swage, the axial line of the medium rod and described The axial line of parent model is located on same vertical line.

The utility model has the following beneficial effects: the multistation powder metallurgy forming mold is compared to its work of traditional mold Efficiency greatly improves, by the way that multiple first powder compactings hole and the second powder compacting hole is respectively set in top swage and anvil swage, Medium rod is correspondingly arranged multiple powder compacting blocks, and the production of multiple products can be carried out simultaneously by realizing a mold, meets product The demand of mass production has preferable economical, societal benefits, is ideal powder metallurgy forming mold.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of multistation powder metallurgy forming mold described in the utility model；

Fig. 2 is the cross-sectional view of anvil swage described in the utility model；

Fig. 3 is the cross-sectional view of parent model described in the utility model；

Fig. 4 is the structural schematic diagram of the top swage of the utility model embodiment one；

Fig. 5 is the structural schematic diagram of the anvil swage of the utility model embodiment one；

Fig. 6 is the structural schematic diagram of the medium rod of the utility model embodiment one；

Fig. 7 is the structural schematic diagram of the top swage of the utility model embodiment two；

Fig. 8 is the structural schematic diagram of the anvil swage of the utility model embodiment two；

Fig. 9 is the structural schematic diagram of the medium rod of the utility model embodiment two.

Description of symbols:

Top swage 1, the first powder compacting slot 11, the first powder compacting hole 111, anvil swage 2, cavity 21, the second powder at Type groove 22, the second powder compacting hole 221, medium rod 3, powder compacting block 31, parent model 4, inner cavity 41.

Specific embodiment

In order to make the purpose of utility model of the utility model, technical solution and technical effect are more clearly understood, tie below Specific embodiment is closed to be described further the utility model.It should be understood that specific embodiment described herein, be only used for It explains the utility model, is not used to limit the utility model.

Referring to figs. 1 to Fig. 6, a kind of multistation powder metallurgy forming mold, including top swage 1, anvil swage 2, medium rod 3 and mother Pattern 4, the anvil swage 2 are equipped with cavity 21, and the medium rod 3 is located in the cavity 21 of the anvil swage 2, and the medium rod 3 can It is mobile relative to the anvil swage 2, the lower part and the anvil swage 2 of the inner cavity 41 of the parent model 4 and the top swage 1 Clearance fit is formed at top, and the top swage 1 is open at one end towards the anvil swage 2, and the top swage 1 is equipped with the first powder Last forming tank 11, the both ends open of the anvil swage 2, and the anvil swage 2, which run through, is equipped with the second powder compacting slot 22, and described the Multiple first powder compactings hole 111 and the second powder are respectively equipped on one powder compacting slot 11 and the second powder compacting slot 22 Molding hole 221, the medium rod 3 are correspondingly provided with multiple powder compacting blocks 31.The multistation powder metallurgy forming mold is compared to biography Its working efficiency of the mold of system greatly improves, by being respectively set multiple described first in the top swage 1 and the anvil swage 2 Powder compacting hole 111 and second powder compacting hole 221, the medium rod 3 are correspondingly arranged multiple powder compacting blocks 31, realize One mold can carry out the production of multiple products simultaneously, meet the needs of product mass production, have preferable economy, society Meeting benefit, is ideal powder metallurgy forming mold.

Further, the hole heart in multiple first powder compacting holes 111 is located in same horizontal line, and multiple described It is connected between one powder compacting hole 111.

Further, the hole heart in multiple second powder compacting holes 221 is located in same horizontal line, and multiple described It is connected between two powder compacting holes 221.

Further, first powder compacting hole 111, second powder compacting hole 221 and the powder compacting block 31 quantity is identical.

Further, the size and shape in first powder compacting hole 111 and second powder compacting hole 221 be not Together.

Further, the axial line of the top swage 1, the axial line of the anvil swage 2, the medium rod 3 axial line and The axial line of the parent model 4 is located on same vertical line.

Referring to fig. 4 to fig. 6, in example 1, first powder compacting hole 111, second powder compacting hole 221 Three are respectively set to the quantity of the powder compacting block 31.Specifically, positioned at first powder compacting hole 111 of two sides The two sides for being located in the middle first powder compacting hole 111 are symmetricly set on, positioned at second powder compacting hole of two sides 221 are symmetricly set on the two sides for being located in the middle second powder compacting hole 221, the powder compacting block 31 positioned at two sides It is symmetricly set on the two sides for being located in the middle the powder compacting block 31.

Referring to Fig. 7 to Fig. 9, in example 2, first powder compacting hole 111, second powder compacting hole 221 Two are respectively set to the quantity of the powder compacting block 31.Specifically, two first powder compacting holes 111 are in axis pair Claiming to be arranged on the top swage 1, two second powder compacting holes 221 are axisymmetricly arranged on the anvil swage 2, and two A powder compacting block 31 is axisymmetricly arranged in the medium rod 3.

In addition, according to different production requirements, first powder compacting hole 111, second powder compacting hole, 221 and The quantity of the powder compacting block 31 can also be respectively set to more.

It, cannot the above content is specific preferred embodiment further detailed description of the utility model is combined Assert that the specific implementation of the utility model is only limited to these instructions.For the ordinary skill of the utility model technical field For personnel, without departing from the concept of the premise utility, architectural form cans be flexible and changeable, and can be produced with subseries Product.Several simple deduction or replace are only made, it is true by the claims submitted all to shall be regarded as belonging to the utility model Fixed scope of patent protection.

Claims (6)

1. a kind of multistation powder metallurgy forming mold, including top swage, anvil swage, medium rod and parent model, it is characterised in that: institute Anvil swage is stated equipped with cavity, the medium rod is located in the cavity of the anvil swage, and the medium rod can be relative to the anvil swage Mobile, clearance fit is formed at the top of the lower part and the anvil swage of the inner cavity of the parent model and the top swage；It is described Top swage is open at one end towards the anvil swage, and the top swage be equipped with the first powder compacting slot, the two of the anvil swage End opening, and the anvil swage run through be equipped with the second powder compacting slot, the first powder compacting slot and second powder at Multiple first powder compactings hole and the second powder compacting hole are respectively equipped in type groove, the medium rod is correspondingly provided with multiple powder compactings Block.

2. multistation powder metallurgy forming mold as described in claim 1, it is characterised in that: multiple first powder compactings The hole heart in hole is located in same horizontal line, and is connected between multiple first powder compacting holes.

3. multistation powder metallurgy forming mold as described in claim 1, it is characterised in that: multiple second powder compactings The hole heart in hole is located in same horizontal line, and is connected between multiple second powder compacting holes.

4. multistation powder metallurgy forming mold as described in claim 1, it is characterised in that: first powder compacting hole, Second powder compacting hole is identical with the quantity of the powder compacting block.

5. multistation powder metallurgy forming mold as described in claim 1, it is characterised in that: first powder compacting hole with The size and shape in second powder compacting hole are different.

6. multistation powder metallurgy forming mold as described in claim 1, it is characterised in that: the axial line of the top swage, The axial line of the axial line of the anvil swage, the axial line of the medium rod and the parent model is located on same vertical line.