CN206153375U - Mode structure on porous blanking - Google Patents

Abstract

The utility model discloses a mode structure on porous blanking, include the upper die base and set up the first drift group on the upper die base, second drift group, third drift group, fourth drift group, the 5th drift group and the 6th drift group, fourth drift group and the 6th drift group have the U -shaped drift, first drift group, second drift group, third drift group, fourth drift group and the 5th drift group all have multiple punches, first drift group, the blanking end of the drift of second drift group and fourth drift group and blanking end that the distance between the upper die base is greater than the drift of third drift group and the 5th drift group and the distance between the upper die base. The utility model discloses a mode structure on porous blanking sets the length of the drift of different positions departments to difference, forms the effect of ladder blanking to can stagger blanking time of each drift group, reduce die -cut power, will reduce the tonnage requirement to the press like this, and then reduction in production cost.

Description

Porous punching upper die structure

Technical field

This utility model belongs to technical field of mold, and specifically, this utility model is related to a kind of porous punching of progressive die Cut out upper die structure.

Background technology

During multi-station progressive die punching press, raw material is linearly sent into, one stroke of press, on different stations Two or more stamping procedures are completed, production efficiency is high, and formed product can be same or multiple.Wherein, multiple products When product common mode is produced, very big blanking pressure is needed using one-step punching forming, it is so just higher to the tonnage demand of forcing press, Production cost is caused to rise.

Utility model content

This utility model is intended at least solve one of technical problem present in prior art.For this purpose, this utility model is carried For a kind of porous punching upper die structure, it is therefore an objective to reduce production cost.

To achieve these goals, the technical scheme that this utility model is taken is：Porous punching upper die structure, including upper mould Seat and the first drift group, the second drift group, the 3rd drift group, the 4th drift group, the 5th drift group that are arranged on upper bolster With the 6th drift group, the 4th drift group and the 6th drift group have U-shaped drift, the first drift group, the second drift group, the 3rd drift Group, the 4th drift group and the 5th drift group be respectively provided with multiple drifts, and the first drift group, the second drift group and the 4th drift group are rushed The punching end and upper bolster of the distance between the punching end of head and upper bolster more than the 3rd drift group and the drift of the 5th drift group The distance between.

The first drift group has multiple round punch.

The second drift group has multiple round punch.

The 3rd drift group has multiple round punch.

The 4th drift group has a round punch and a U-shaped drift.

The 5th drift group has multiple round punch.

The 6th drift group has a round punch and a U-shaped drift.

The first drift group, the second drift group, the 3rd drift group, the 4th drift group, the 5th drift group and the 6th drift The drift of group is to be threadedly coupled with the upper bolster.

Porous punching upper die structure of the present utility model, by the length of the drift of various location difference is arranged to, and is formed The effect of ladder punching, such that it is able to the punching time of each drift group that staggers, reduces flush shear force, thus can reduce to pressure The tonnage demand of machine, and then reduce production cost.

Description of the drawings

This specification includes the following drawings, and shown content is respectively：

Fig. 1 is the structural representation of this utility model porous punching upper die structure；

Fig. 2 is the arrangement schematic diagram of drift；

Fig. 3 is the structural representation of drift and upper bolster junction；

It is labeled as in figure：1st, upper bolster；2nd, the first drift group；3rd, the second drift group；4th, the 3rd drift group；5th, the 4th drift Group；6th, the 5th drift group；7th, the 6th drift group；8th, round punch；9th, briquetting.

Specific embodiment

Below against accompanying drawing, by the description to embodiment, specific embodiment of the present utility model is made further in detail Thin explanation, it is therefore an objective to help those skilled in the art design of the present utility model, technical scheme are had it is more complete, accurately and Deep understanding, and contribute to its enforcement.

As depicted in figs. 1 and 2, this utility model is suitable to mould knot on the porous punching of multi-station progressive die there is provided a kind of Structure, including upper bolster 1 and the first drift group 2, the second drift group 3, the 3rd drift group 4, the 4th punching that are arranged on upper bolster 1 Head the 5, the 5th drift group 6 of group and the 6th drift group 7, the 4th drift group 5 and the 6th drift group 7 have U-shaped drift, the first drift group 2nd, the second drift group 3, the 3rd drift group 4, the 4th drift group 5 and the 5th drift group 6 are respectively provided with multiple drifts, the first drift group 2, The distance between the punching end of the drift of the second drift group 3 and the 4th drift group 5 and upper bolster 1 are more than the 3rd drift group 4 and the The distance between the punching end of the drift of five drift groups 6 and upper bolster 1, and the sanction end of the drift of the 6th drift group 7 and upper mould Seat the distance between 1 and the punching end of the drift of the first drift group 2, the second drift group 3 and the 4th drift group 5 and upper bolster 1 it Between distance and the 3rd drift group 4 and the 5th drift group 6 drift punching end it is unequal with the distance between upper bolster 1, The effect of ladder punching so can be formed in punching press, such that it is able to the punching time of each drift group that staggers, punching is reduced Power, can thus reduce the tonnage demand to forcing press, and then reduce production cost.

Specifically, as depicted in figs. 1 and 2, the first drift group 2, the second drift group 3 and the 6th drift group 7 be located at it is upper On the parallel same straight line of the length direction of die holder 1, the 6th drift group 7 be located at the first drift group 2 and the second drift group 3 it Between, the 3rd drift group 4, the 4th drift group 5 and the 5th drift group 6 be located at it is parallel with the length direction of upper bolster 1 it is same always On line, the 4th drift group 5 is located between the 3rd drift group 4 and the 5th drift group 6, and the 4th drift group 5 and the 6th drift group 7 On the same straight line parallel with the width of upper bolster 1, the first drift group 2 and the 3rd drift group 4 are located at upper bolster 1 Same one end, the second drift group 3 and the 5th drift group 6 are located at the other end of upper bolster 1.First drift group 2, the second drift group 3 With the length of the drift that the length of the drift of the 4th drift group 5 is more than the 3rd drift group 4 and the 5th drift group 6, the 6th drift group 7 Drift length and the first drift group 2, the second drift group 3 and the 4th drift group 5 drift length and the 3rd drift group 4 It is unequal with the length of the drift of the 5th drift group 6, the drift of different length is arranged so in staggered positions, can be with during punching The effect of ladder punching is formed, is staggered the punching time, reduce flush shear force.

First drift group 2, the second drift group 3, the 3rd drift group 4 and the 5th drift group 6 are respectively provided with multiple round punch, the Four drift groups 5 have a round punch and a U-shaped drift, and the 6th drift group 7 also has a round punch and a U-shaped Drift.As depicted in figs. 1 and 2, in the present embodiment, the first drift group 2 has five round punch, and the second drift group 3 has Five round punch, the 3rd drift group 4 has six round punch, and the 5th drift group 6 has five round punch.

As preferred, the first drift group 2, the second drift group 3, the 3rd drift group 4, the 4th drift group 5, the 5th drift group 6 and the 6th drift group 7 round punch and upper bolster 1 to be threadedly coupled.Round punch has a connection end and a punching End, connection end is the one end for being connected with upper bolster 1, and it is the one end for the punching on workpiece to be punched end.As shown in figure 3, Round punch 8 is arranged to upper bolster 1 to be threadedly coupled, facilitates the dismounting of round punch 8, and the circular punching for changing failure Head, is accordingly provided with external screw thread on the outer surface of the connection end of round punch 8, and upper bolster 1 is provided with internal thread hole, is installing When, round punch 8 is started from the top of upper bolster 1 to screw in downwards in screwed hole.In the end face of the connection end of round punch 8 At the heart and a hexagonal hole is provided with, for allowing inner hexagon spanner to insert, the screw-in for facilitating round punch 8 is installed.In addition, in order to The counteracting force of opposing blanking pressure, is also equipped with a briquetting 9 in the internal thread hole of upper bolster 1, and briquetting 9 is located at round punch 8 top, the bottom surface of briquetting 9 and the end contact of round punch 8, briquetting 9 can play position-limiting action to round punch 8.Pressure Block 9 is circular block shape structure, and with upper bolster 1 also to be threadedly coupled, easy disassembly, the outer surface of briquetting 9 is provided with outer spiral shell to briquetting 9 Stricture of vagina, while also being provided with a hexagonal hole at the end face center of briquetting 9, for allowing inner hexagon spanner to insert, facilitates briquetting 9 Screw in and install.This structure only need to unload two screw elements, you can changed, greatly reduce replacing in quick-replaceable Time, production cost is saved, improve production efficiency, and reduced labor intensity.

This utility model is exemplarily described above in association with accompanying drawing.Obviously, this utility model is implemented not Limited by aforesaid way.As long as employ the various unsubstantialities that method design of the present utility model and technical scheme are carried out Improvement；Or it is not improved, above-mentioned design of the present utility model and technical scheme are directly applied to into other occasions, at this Within the protection domain of utility model.

Claims (8)

1. porous punching upper die structure, it is characterised in that：Including upper bolster and the first drift group being arranged on upper bolster, Two drift groups, the 3rd drift group, the 4th drift group, the 5th drift group and the 6th drift group, the 4th drift group and the 6th drift group With U-shaped drift, the first drift group, the second drift group, the 3rd drift group, the 4th drift group and the 5th drift group are respectively provided with multiple Drift, the distance between the punching end of the drift of the first drift group, the second drift group and the 4th drift group and upper bolster are more than the The distance between the punching end of the drift of three drift groups and the 5th drift group and upper bolster.

2. porous punching upper die structure according to claim 1, it is characterised in that：The first drift group has multiple circles Shape drift.

3. porous punching upper die structure according to claim 1, it is characterised in that：The second drift group has multiple circles Shape drift.

4. porous punching upper die structure according to claim 1, it is characterised in that：The 3rd drift group has multiple circles Shape drift.

5. porous punching upper die structure according to claim 1, it is characterised in that：The 4th drift group has a circle Shape drift and a U-shaped drift.

6. porous punching upper die structure according to claim 1, it is characterised in that：The 5th drift group has multiple circles Shape drift.

7. porous punching upper die structure according to claim 1, it is characterised in that：The 6th drift group has a circle Shape drift and a U-shaped drift.

8. according to the arbitrary described porous punching upper die structure of claim 1 to 7, it is characterised in that：The first drift group, The drift of two drift groups, the 3rd drift group, the 4th drift group, the 5th drift group and the 6th drift group is screw thread with the upper bolster Connection.