CN213671394U - Automatic side punching die - Google Patents

Abstract

The utility model belongs to the technical field of the work piece punches, an automatic change side blow mould is disclosed, include: an active push block; a punch for punching a workpiece is arranged at one end of the driven push block, which is far away from the driving push block; the inclined slide way is arranged below the driven push block; the driven push block is arranged on the inclined slideway in a sliding mode, and an elastic part used for resetting after punching is arranged on the driven push block; when the driving push block moves downwards, the driven push block moves along the inclined slide way and moves towards the workpiece. The automatic side punching die can be used for side punching of workpieces, is convenient to use and popularize and apply.

Description

Automatic side punching die

Technical Field

The utility model belongs to the technical field of the work piece punches, concretely relates to change side blow mould.

Background

The existing punching mode is that a punch is usually arranged on the upper portion, a workpiece is arranged below the punch, the top surface of the workpiece can be punched, but the side face punching of the workpiece is inconvenient or even impossible.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model aims to provide an automatic side punching die.

The utility model discloses the technical scheme who adopts does:

an automated side-stamping die, comprising:

an active push block;

a punch for punching a workpiece is arranged at one end of the driven push block, which is far away from the driving push block;

the inclined slide way is arranged below the driven push block;

the driven push block is arranged on the inclined slideway in a sliding mode, and an elastic part used for resetting after punching is arranged on the driven push block;

when the driving push block moves downwards, the driven push block moves along the inclined slide way and moves towards the workpiece.

Furthermore, a first wedge-shaped surface is arranged at one end, close to the driven pushing block, of the driving pushing block, and a second wedge-shaped surface corresponding to the first wedge-shaped surface is arranged on the driven pushing block;

when the driving push block moves downwards to drive the driven push block to move along the inclined slide way, the first wedge-shaped surface is in surface contact connection with the second wedge-shaped surface.

Furthermore, a hanging fastener is arranged on the active push block;

when the driving push block moves downwards to drive the driven push block to move along the inclined slideway, the buckle head of the hanging buckle is buckled on the buckle of the driven push block.

Furthermore, a blocking part for preventing the driving push block from moving forwards is arranged on the driven push block;

a movable groove for the front and back displacement of the fastening head of the hanging fastener is arranged between the blocking part and the fastener.

Further, the driven pushing block is arranged in the sliding groove of the inclined sliding way in a sliding mode through a sliding block.

Furthermore, the elastic component is arranged in the sliding groove, one end of the elastic component is connected with the sliding block, and the other end of the elastic component is connected with the inclined slideway.

Further, the elastic component is a nitrogen spring.

Furthermore, a buffer part is arranged at the lower end of one side, away from the driven push block, of the driving push block

The automatic side punching die further comprises a limiting piece for placing the buffer piece.

Further comprises a punch passage for the directional displacement of the punch,

the punch channel is disposed on a front side of the punch.

The punching device further comprises a waste material cavity for placing punching waste materials, wherein the waste material cavity is arranged below the workpiece;

and the waste cavity is provided with a discharge slideway for discharging waste in the waste cavity.

The utility model has the advantages that:

when the automatic side punching die is used, a workpiece is fixedly placed on a male die matched with the workpiece, then the driving push block is driven to move downwards to drive the driven push block to move along the inclined slide way and move towards the workpiece, and further the punch is driven to move towards the workpiece to perform side punching on the workpiece; after the punching is completed, the driving force of the driving push block is withdrawn, the driving force of the driven push block is also withdrawn, and therefore the elastic part used for resetting after punching is arranged on the driven push block, the driven push block can reset under the elastic restoring force of the elastic part, the driving push block is reversely pushed to move upwards, the driving push block and the driven push block can both reset slowly, next punching operation on the next workpiece positioned on the male die is waited, and therefore the automatic side punching die is utilized to punch a hole in the lateral direction of the workpiece, is convenient to use and is convenient to popularize and apply.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial structural schematic view of fig. 1.

Fig. 3 is a partial structural schematic view of fig. 2.

Fig. 4 is a side view of fig. 1.

In the figure: 10-an active push block; 101-a first wedge face; 11-hanging fasteners; 111-a fastening head; 12-a buffer; 13-a stop; 20-driven push block; 201-a second wedge face; 202-a fastener; 203-a stop; 204-active slot; 21-nitrogen spring; 30-inclined ramps; 301-a chute; 40-a punch; 50-a workpiece; 51-a male die; 52-inner locating pin; 60-a punch channel; 71-a waste chamber; 72-discharge chute.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific embodiments.

Example 1:

as shown in fig. 1, an automated side-punching die of the present embodiment includes a driving push block 10, a driven push block 20, and an inclined slide 30.

A punch 40 for punching a workpiece is arranged at one end of the driven push block 20 far away from the driving push block 10; the inclined slide way 30 is arranged below the driven push block 20; the driven push block 20 is slidably disposed on the inclined slideway 30, and when the driving push block 10 is displaced downward, the driven push block 20 is displaced along the inclined slideway 30 and towards the workpiece 50.

The automatic side punching die of the embodiment is used as follows: firstly, a workpiece 50 is fixedly placed on a punch 51 matched with the workpiece 50 (the punch 51 is provided with an inner positioning pin 52 for positioning the workpiece 50), then the driving push block 10 is displaced downwards, the driven push block 20 is driven to displace along the inclined slideway 30 and towards the workpiece 50, and further the punch 10 is driven to displace towards the workpiece 50 so as to carry out lateral punching on the workpiece 50; after the punching is completed, the driving force of the driving push block 10 is withdrawn, the driving force of the driven push block 20 is also withdrawn, and because the driven push block 20 is provided with an elastic component for resetting after the punching, the driven push block 20 can reset under the elastic restoring force of the elastic component, and then the driving push block 10 is reversely pushed to move upwards, and the driving push block 10 and the driven push block 20 can both reset slowly to wait for the next punching operation of the next workpiece 50 positioned on the male die 51.

Example 2:

on the basis of embodiment 1, in this embodiment, one end of the driving pushing block 10 close to the driven pushing block is provided with a first wedge-shaped surface 101, and the driven pushing block 20 is provided with a second wedge-shaped surface 201 corresponding to the first wedge-shaped surface; when the driving pushing block 10 moves downward to drive the driven pushing block 20 to move along the inclined sliding way 30, the first wedge-shaped surface 101 and the second wedge-shaped surface 201 are in surface contact connection (as shown in fig. 1 and 2).

During the downward displacement of the driving pushing block 10, the driving pushing block 10 pushes the driven pushing block 20 to move forward through the cooperation of the first wedge-shaped surface 101 and the second wedge-shaped surface 201, so as to realize the punching operation.

Example 3:

on the basis of embodiment 1, in this embodiment, a hanging fastener 11 is disposed on the active push block 10; when the driving push block 10 moves downwards to drive the driven push block 20 to move along the inclined slideway 30, the buckle head 111 of the hanging buckle 11 slowly moves downwards to enter the movable groove 204, and then is slowly buckled on the buckle 202 of the driven push block 20 (as shown in fig. 4), the driving push block 10 and the driven push block 20 form buckling linkage, so that the driven push block 20 can be better pushed by the driving push block 10 to move forwards and downwards to perform punching operation, and punching impact is larger.

The driven push block 20 is provided with a stop part 203 for preventing the driving push block 10 from moving forwards; when the driving push block 10 pushes the driven push block 20 to move forward for punching, the stop part 203 can be limited at the front side of the fastening head 111 to prevent the fastening head 111, the hook 11 and the driving push block 10 from moving forward, so as to well limit the punching stroke of the punch 10 and prevent the punching stroke of the punch 40 from being too large.

A movable groove 204 for the front and back displacement of the fastening head 111 of the hanging fastener is arranged between the blocking part 203 and the fastener 202, so that the fastening head 111 can conveniently displace back and forth in the movable groove 204, after the punching is completed, the pushing force of the driving push block 10 is withdrawn, the pushing force of the driven push block 20 can also be withdrawn, because the elastic component for resetting after the punching is arranged on the driven push block 20, the driven push block 20 can reset under the action of the elastic restoring force of the elastic component, so that the driving push block 10 is reversely pushed to displace upwards, the fastener 202 also displaces backwards along with the upward displacement of the driving push block, the fastening head 111 can conveniently disengage from the fastening of the fastener 202, the driving push block 10 can conveniently disengage from the fastening linkage of the driven push block 20, the driving push block 10 can reset backwards and upwards under the pushing of the driven push block 20, and both the driving push block 10 and the driven push block 20 can slowly reset, waiting for the next punching operation to be performed on the next workpiece 50 positioned on the punch 51.

Example 4:

in addition to embodiment 1, in this embodiment, the driven pushing block 20 is slidably disposed in the sliding groove 301 of the inclined sliding channel 30 through a sliding block. The elastic component is arranged in the chute 301, one end of the elastic component is connected with the sliding block, the other end of the elastic component is connected with the inclined slideway, referring to fig. 3, the elastic component is a nitrogen spring 21, and when the driving push block 10 pushes the driven push block 20 to move forward and downward for punching operation, the sliding block compresses the nitrogen spring 21 arranged between the sliding block and the inclined slideway along with the forward and downward displacement of the driven push block 20; after punching is completed, the pushing force of the driving pushing block 10 is removed, the pushing force of the driven pushing block 20 is also removed, the driven pushing block 20 is reset backwards and upwards under the action of the elastic restoring force of the nitrogen spring 21, and the driving pushing block 10 is driven to be reset upwards.

Example 5:

on the basis of embodiment 1, in this embodiment, the automatic side punching die further includes a stopper 13 for resting the buffer 12. The buffer part 12 is arranged at the lower end of one side, far away from the driven push block, of the driving push block 10, the driving push block 10 pushes the driven push block 20 to move forwards and downwards, the driving push block 10 moves downwards to slowly drive the buffer part 12 to move downwards to contact the limiting part 13 and then to be placed on the limiting part 13, the stroke of the driving push block 10 is limited, the stroke of the driven push block 20 moving forwards is limited, and the punching stroke of the punch 40 is prevented from being too large.

Example 6:

on the basis of embodiment 1, in this embodiment, the automatic side-punching die further includes a punch passage 60 for directional displacement of the punch, and the punch passage 60 is disposed on the front side of the punch 40. When the driving push block 10 pushes the driven push block 20 to move forward and downward to drive the punch 40 to punch, the punch 40 will pass through the punch channel 60 to punch the workpiece 50, so as to facilitate directional punching.

Example 7:

on the basis of embodiment 1, in this embodiment, the automatic side-punching die further includes a waste cavity 71 for placing punching waste, and the waste cavity 71 is disposed below the workpiece; when the driving push block 10 pushes the driven push block 20 to move forward and downward to drive the punch 40 to perform punching operation, waste obtained by the punching operation falls into the waste cavity 71 from the workpiece 50, and the waste entering the waste cavity 71 slides out along the discharge slide 72 to be collected together because the discharge slide 72 for discharging waste in the waste cavity is arranged on the waste cavity 71.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (10)

1. An automated side-stamping die, comprising:

an active push block;

a punch for punching a workpiece is arranged at one end of the driven push block, which is far away from the driving push block;

the inclined slide way is arranged below the driven push block;

the driven push block is arranged on the inclined slideway in a sliding mode, and an elastic part used for resetting after punching is arranged on the driven push block;

when the driving push block moves downwards, the driven push block moves along the inclined slide way and moves towards the workpiece.

2. The automated side-piercing die of claim 1, wherein: a first wedge-shaped surface is arranged at one end, close to the driven pushing block, of the driving pushing block, and a second wedge-shaped surface corresponding to the first wedge-shaped surface is arranged on the driven pushing block;

when the driving push block moves downwards to drive the driven push block to move along the inclined slide way, the first wedge-shaped surface is in surface contact connection with the second wedge-shaped surface.

3. The automated side-piercing die of claim 1, wherein: the active push block is provided with a hanging fastener;

when the driving push block moves downwards to drive the driven push block to move along the inclined slideway, the buckle head of the hanging buckle is buckled on the buckle of the driven push block.

4. The automated side-piercing die of claim 3, wherein: the driven push block is provided with a blocking part for preventing the driving push block from moving forwards;

a movable groove for the front and back displacement of the fastening head of the hanging fastener is arranged between the blocking part and the fastener.

5. The automated side-piercing die of claim 1, wherein: the driven push block is arranged in the sliding groove of the inclined slideway in a sliding manner through a sliding block.

6. The automated side-piercing die of claim 5, wherein: the elastic component is arranged in the sliding groove, one end of the elastic component is connected with the sliding block, and the other end of the elastic component is connected with the inclined slideway.

7. The automated side-piercing die of claim 6, wherein: the elastic component is a nitrogen spring.

8. The automated side-piercing die of claim 1, wherein: the lower end of one side of the driving push block, which is far away from the driven push block, is provided with a buffer part

The automatic side punching die further comprises a limiting piece for placing the buffer piece.

9. The automated side-piercing die of claim 1, wherein: also comprises a punch passage for the directional displacement of the punch,

the punch channel is disposed on a front side of the punch.

10. The automated side-piercing die of claim 1, wherein: the punching device also comprises a waste material cavity for placing punching waste materials, wherein the waste material cavity is arranged below the workpiece;

and the waste cavity is provided with a discharge slideway for discharging waste in the waste cavity.

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