CN209021043U - Disc spring progressive die structure - Google Patents

Abstract

The utility model discloses disc spring progressive die structure, including upper de- plate, lower template, is set between upper de- plate and lower template movably material strip, and guidance aperture member, middle aperture member, shape component and molding assembly are sequentially equipped between the upper de- plate and lower template；The guidance aperture member includes being set to the guide hole punch-pin in upper de- plate and set on guide hole cavity plate corresponding with guide hole punch-pin in lower template, the shape component includes bootstrap block, the shape punch-pin in bootstrap block, shape cavity plate corresponding with shape punch-pin, the flexibly floating block in shape cavity plate in lower template in upper de- plate, and the molding assembly includes the shaping upper in upper de- plate, molding lower die corresponding with shaping upper and flexibly several ejector beams in molding lower die in lower template.The utility model realizes that formed product is stablized, and is easy to demould.

Description

Disc spring progressive die structure

Technical field

The utility model belongs to technical field of mold more particularly to a kind of disc spring progressive die structure.

Background technique

It in existing disc spring forming process, needs to carry out multiple process, by blanking and piercing die separation material, then passes through molding The molding of mould converted products；The working time of single-piece is longer；It is placed into calmly after needing the direction for first determining burr when molding every time It is formed in the mould of position；It is easy to be contaminated when turnover, product when molding is caused impression occur or cause to scrap.

Utility model content

Purpose of the utility model is to solve above-mentioned technical problems, and provide a kind of disc spring progressive die structure, thus It realizes that formed product is stablized, is easy to demould.In order to achieve the above object, technical solutions of the utility model are as follows:

Disc spring progressive die structure, including upper de- plate, lower template, it is set to movably material strip between upper de- plate and lower template, institute It states and is sequentially equipped with guidance aperture member, middle aperture member, shape component and molding assembly between de- plate and lower template；It is described to draw Guide hole component includes being set to the guide hole punch-pin in upper de- plate and set on guide hole corresponding with guide hole punch-pin in lower template Cavity plate, the shape component include the bootstrap block in upper de- plate, the shape punch-pin in bootstrap block, are set in lower template Shape cavity plate corresponding with shape punch-pin, the flexibly floating block in shape cavity plate, the molding assembly include set on upper Shaping upper in de- plate, the molding lower die corresponding with shaping upper and set on forming in lower die in lower template Flexibly several ejector beams.

Specifically, the lower template is equipped with the floating pin being located in front of guidance aperture member, the floating pin abuts insertion In material strip.

Specifically, the middle aperture member includes the mesoporous punch-pin in upper de- plate and is set in lower template and mesoporous punch-pin Corresponding mesoporous cavity plate.

Specifically, the floating block surface is horizontally disposed.

Specifically, the surface both ends of the molding lower die are arranged diagonally downward, it is in frustum structure.

Specifically, the lower template, which is equipped with to be located in front of molding assembly, blows material pin.

Specifically, disc spring progressive die structure further include upper mounted plate at the top of the upper de- plate, upper clamp plate, upper padding plate and on Template, guide hole punch-pin run through upper clamp plate, the supreme de- plate of upper mounted plate, and mesoporous punch-pin runs through the supreme de- plate of upper mounted plate, shape Punch-pin runs through the supreme de- plate of upper mounted plate, and shaping upper runs through upper clamp plate, the supreme de- plate of upper mounted plate.

Specifically, disc spring progressive die structure further includes lower bolster, bottom plate and the bottom seat pad set on lower template bottom, draw Guide hole cavity plate runs through bottom plate, lower bolster to lower template, and mesoporous cavity plate runs through bottom plate, lower bolster to lower template, lower solid It is equipped with the first spring for being connected to floating block through lower bolster in fixed board, is equipped in bottom plate and is connected to ejector beam through lower bolster Second spring.

Compared with prior art, the beneficial effect of the utility model disc spring progressive die structure is mainly reflected in:

Precise positioning is carried out by guiding aperture member to go out guide hole, it is subsequent that material strip is detached from partly with shape component progress product Operation, product is reset in material strip with de- plate and lower template is closed, guarantee product do not fall off during transportation, molding group Molding lower die cooperation ejector beam effectively forms product with material pin is blown in part, and stable molding is easy to demould.

Detailed description of the invention

Fig. 1 is the structural representation of the utility model embodiment；

Fig. 2 is the partial enlargement diagram that lower die is formed in the present embodiment；

Digital representation in figure:

It is taken off on 1 solid under plate, 11 upper mounted plates, 12 upper clamp plates, 13 upper padding plates, 14 cope plates, 2 lower templates, 21 lower bolsters, 22 Material pin, 4 guide hole punch-pin, 41 guide hole cavity plates, 5 mesoporous punch-pin are blown, in 51 in fixed board, 23 bottom seat pads, 3 material strips, 31 floating pins, 32 Hole cavity plate, 6 bootstrap blocks, 61 shape punch-pin, 62 shape cavity plates, 63 floating blocks, 7 shaping uppers, 71 molding lower dies, 72 ejector beams, 8 the One spring, 81 second springs.

Specific embodiment

With reference to the accompanying drawing by the technical solutions in the embodiments of the present invention are clearly and completely described, it is clear that The described embodiments are only a part of the embodiments of the utility model, instead of all the embodiments.

Embodiment:

Referring to Fig.1 shown in -2, the present embodiment is disc spring progressive die structure, including upper de- plate 1, lower template 2, is set to upper de- plate Movably material strip 3 between 1 and lower template 2；

Guidance aperture member, middle aperture member, shape component and molding group are sequentially equipped between upper de- plate 1 and lower template 2 Part.

Lower template 2 is equipped with the floating pin 31 being located in front of guidance aperture member, and floating pin 31 abuts in insertion material strip 3.

Guidance aperture member includes the guide hole punch-pin 4 in upper de- plate 1 and is set in lower template 2 and guide hole punch-pin 4 Corresponding guide hole cavity plate 41.

Middle aperture member includes the mesoporous punch-pin 5 in upper de- plate 1 and is set to corresponding with mesoporous punch-pin 5 in lower template 2 Mesoporous cavity plate 51.

Shape component includes the bootstrap block 6 in upper de- plate 1, the shape punch-pin 61 in bootstrap block 6, is set to lower die Shape cavity plate 62 corresponding with shape punch-pin 61, flexibly floating block 63 in shape cavity plate 62 in plate 2.63 surface of floating block It is horizontally disposed.

Molding assembly include shaping upper 7 in the upper de- plate 1, be set to it is corresponding with shaping upper 7 in lower template 2 Form lower die 71 and flexibly several ejector beams 72 in molding lower die 71.Form the surface both ends inclination of lower die 71 It is down-set, it is in frustum structure.The quantity of the present embodiment ejector beam 72 is two, and extends through and be set to the two of molding lower die 71 Side.

Lower template 2, which is equipped with to be located in front of molding assembly, blows material pin 32.

Disc spring progressive die structure further include the upper mounted plate 11 set on upper 1 top of de- plate, upper clamp plate 12, upper padding plate 13 and on Template 14.Guide hole punch-pin 4 runs through upper clamp plate 12, the supreme de- plate 1 of upper mounted plate 11.Mesoporous punch-pin 5 through upper mounted plate 11 to Upper de- plate 1.Shape punch-pin 61 runs through the supreme de- plate 1 of upper mounted plate 11.Shaping upper 7 through upper clamp plate 12, upper mounted plate 11 to Upper de- plate 1.

Disc spring progressive die structure further includes lower bolster 21, bottom plate 22 and the bottom seat pad 23 set on 2 bottom of lower template.Draw Guide hole cavity plate 41 runs through bottom plate 22, lower bolster 21 to lower template 2.Mesoporous cavity plate 51 runs through bottom plate 22, lower bolster 21 To lower template 2.The first spring 8 that floating block 63 is connected to through lower bolster 21 is equipped in bottom plate 22.It is set in bottom plate 22 There is the second spring 81 that ejector beam 72 is connected to through lower bolster 21.

When using the present embodiment, in punching machine during 14 downlink of cope plate, material strip 3 positions on floating pin 31, guidance Aperture member goes out guide hole, it is ensured that the position of guide hole precise positioning product into following each step process；Material strip 3 is mobile, in Aperture member goes out the inner hole of product；Material strip 3 is mobile, and shape component separates the product shape of needs from material strip, by floating block 63 Isolated degree is controlled, guarantees that product is not completely separated from material strip；Material strip 3 is mobile, and unsegregated product leans against 2 table of lower template Face, upper de- plate 1 press product and are repositioned in material strip 3；Material strip 3 is mobile, and product is stamped out the shape of needs by molding assembly again, It is demoulded by 72 ejecting product of ejector beam, blows material pin 32 and assist product blowout mold.

Precise positioning is carried out by guiding aperture member to go out guide hole in the present embodiment, it is subsequent that product is carried out with shape component Half is detached from the operation of material strip, and product is reset in material strip 3 with de- plate 1 and lower template 2 is closed, and guarantees product during transportation It not falling off, molding lower die 71 cooperates ejector beam 72 and blows material pin 32 and effectively formed to product in molding assembly, stable molding, It is easy to demould.

Above-described is only some embodiments of the utility model.For those of ordinary skill in the art, Without departing from the concept of the present invention, various modifications and improvements can be made, these belong to practical Novel protection scope.

Claims (8)

1. disc spring progressive die structure, including upper de- plate, lower template, movably material strip is set between upper de- plate and lower template, it is special Sign is: guidance aperture member, middle aperture member, shape component and molding group are sequentially equipped between the upper de- plate and lower template Part；The guidance aperture member includes the guide hole punch-pin in upper de- plate and is set to corresponding with guide hole punch-pin in lower template Guide hole cavity plate, the shape component includes bootstrap block in the upper de- plate, the shape punch-pin in bootstrap block, is set to Shape cavity plate corresponding with shape punch-pin, the flexibly floating block in shape cavity plate in lower template, the molding assembly packet It includes and is set to the shaping upper in upper de- plate, be set to molding lower die corresponding with shaping upper in lower template and be set to molding Flexibly several ejector beams in lower die.

2. disc spring progressive die structure according to claim 1, it is characterised in that: the lower template, which is equipped with, is located at guide hole Floating pin in front of component, the floating pin abut in insertion material strip.

3. disc spring progressive die structure according to claim 1, it is characterised in that: the middle aperture member includes being set to upper de- plate Interior mesoporous punch-pin and it is set to mesoporous cavity plate corresponding with mesoporous punch-pin in lower template.

4. disc spring progressive die structure according to claim 1, it is characterised in that: the floating block surface is horizontally disposed.

5. disc spring progressive die structure according to claim 1, it is characterised in that: the surface both ends inclination of the molding lower die It is down-set, it is in frustum structure.

6. disc spring progressive die structure according to claim 1, it is characterised in that: the lower template, which is equipped with, is located at molding group Material pin is blown in front of part.

7. disc spring progressive die structure according to claim 3, it is characterised in that: disc spring progressive die structure further includes set on upper Upper mounted plate, upper clamp plate, upper padding plate and cope plate at the top of de- plate, guide hole punch-pin are supreme de- through upper clamp plate, upper mounted plate Plate, mesoporous punch-pin run through the supreme de- plate of upper mounted plate, and shape punch-pin runs through the supreme de- plate of upper mounted plate, and shaping upper runs through upper folder The supreme de- plate of plate, upper mounted plate.

8. disc spring progressive die structure according to claim 3, it is characterised in that: disc spring progressive die structure further includes being set to down Lower bolster, bottom plate and the bottom seat pad of template bottom, guide hole cavity plate run through bottom plate, lower bolster to lower template, mesoporous Cavity plate runs through bottom plate, lower bolster to lower template, and the first spring that floating block is connected to through lower bolster is equipped in bottom plate, The second spring that ejector beam is connected to through lower bolster is equipped in bottom plate.