CN217370165U - Novel punch press body - Google Patents

Abstract

The utility model discloses a novel punch press fuselage, including the fuselage main part set up the collecting region in the fuselage main part, set up in the collecting region and tie and sweep the subassembly, the subassembly is swept to tie and includes slidable push pedal, reset spring, slide rail, slider and control, and the symmetry sets up the slide rail on the wall in collecting region, all sets up the slidable slider in the slide rail, sets up between the slider the push pedal, the slider passes through reset spring and is connected with the control, the control includes first electro-magnet and first switch, works as when first switch triggers first electro-magnet and starts, the push pedal overcomes reset spring under the magnetic force of the same magnetic pole and removes to keeping away from first electro-magnet one side. The subassembly is swept to the tie through setting up slide rail, slider and push pedal in the collecting region to and reset spring and control are to the control of ejector pad, realize after the punching press a plurality of times, the push pedal is automatic to accumulational work piece removal, arranges the work piece in collect other regions of frame, and the operator need not go the arrangement, improves production efficiency.

Description

Novel punch press body

Technical Field

The utility model belongs to the technical field of the punch press technique and specifically relates to novel punch press fuselage.

Background

The punching process of the punch, also called as the punching press, has the advantages of saving materials and energy sources, high efficiency, low technical requirement on operators and capability of manufacturing products which cannot be achieved by machining through various die applications compared with the traditional machining, so that the punch has more and more extensive application.

Present punching press production carries out one-time molding to panel, through mould rapid prototyping, the common punch press fuselage is including installing the mould punching press district, place the workspace of lower mould and shaping work piece, under workspace and lower mould, generally place and collect the frame and be arranged in the frame convenient taking and putting with the work piece, but the falling to the ground of mould only has one, the work piece in collecting the frame will be pushed into the hill, need the operator to be distracted and manually push away the hill, influence production efficiency, consequently, improve it.

SUMMERY OF THE UTILITY MODEL

The utility model provides a novel punch body to the not enough among the prior art.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve: novel punch press fuselage includes the fuselage main part set up the collecting region in the fuselage main part, set up in the collecting region and tie and sweep the subassembly, the subassembly is swept to the tie and includes slidable push pedal, reset spring, slide rail, slider and control the symmetry sets up the slide rail on the wall in collecting region all set up slidable slider in the slide rail, set up between the slider the push pedal, the slider passes through reset spring and is connected with the control, the control includes first electro-magnet and first switch, works as when first switch triggers first electro-magnet and starts, reset spring is overcome to keeping away from first electro-magnet one side removal under the magnetic force effect of the same magnetic pole to the push pedal.

In the above scheme, it is preferable that still set up punching press district and workspace in the main part, including gliding drift from top to bottom in the punching press district, set up the catch bar on the drift, set up the control piece in the district of placing of catch bar below, when the drift drives when triggering first switch after the catch bar removes, first electro-magnet starts.

In the above-mentioned scheme, it is preferred that the control piece still includes box, box body and control lever, the control lever slides in the box body the symmetry sets up the body of rod that a plurality of rotations are connected on the control lever, the body of rod is connected with the control lever through first elastic component, the control lever pass through the second elastic component with box body internal connection works as the control lever is extruded by the catch bar, during the downward movement, first elastic component is overcome to the body of rod and rotates to control lever one side, gets into in the box body, works as the catch bar is not when the extrusion, the control lever moves outward to the box body, the body of rod card is in inside the box body, sets up in the bottom half first electro-magnet, first switch sets up in the box body bottom, works as when the bottom of control lever contacts with first switch, first electro-magnet removes.

In the above scheme, preferably, the box body is connected with the inside of the box body through a third elastic piece, a first through hole is formed in the box body, the diameter of the first through hole is larger than that of the push rod, the diameter of the first through hole is smaller than that of the push rod, and the second elastic piece is smaller than the third elastic piece in elasticity.

In the above scheme, it is preferred that set up first groove and second groove on the control lever, the symmetry sets up the dwang in first groove and the second groove are equal the inside in first groove sets up the second electro-magnet, but box body bottom is the adsorbed metalwork of magnetic force, the second switch setting of second electro-magnet is in the control lever bottom, works as first switch and second switch contact the back, first electro-magnet with the second electro-magnet starts, the body of rod is overcome first elastic component and is rotated to the control lever, the box body is adsorbed to first electro-magnet, the control lever supports under the effect of second elastic component and locates at first through-hole.

In the above solution, preferably, under the effect of the first elasticity, the angle of the rod body in the first groove and the second groove on the same horizontal line is 80-90 degrees.

In the above scheme, preferably, the pushing rod includes a first rod and a second rod, the second rod is vertically arranged on the first rod, and the second rod is located above the first through hole.

In the above aspect, it is preferable that a base is disposed below the working area, and the collecting area is disposed between the bases.

In the above aspect, it is preferable that a collection frame is placed in the collection region.

In the above scheme, preferably, the slider is a magnet, and one side of the slider opposite to the first electromagnet is a homopolar magnetic pole.

The utility model has the advantages that: the subassembly is swept to the tie through setting up slide rail, slider and push pedal in the collecting region to and reset spring and control are to the control of ejector pad, realize after the punching press a plurality of times, the push pedal is automatic to accumulational work piece removal, arranges the work piece in collect other regions of frame, and the operator need not go the arrangement, improves production efficiency.

Drawings

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

Fig. 2 is a relationship diagram of the push plate and the collecting area of the present invention.

Fig. 3 is an enlarged view of fig. 2 at a.

Fig. 4 is an internal structure view of the control member of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings: referring to fig. 1-4, the novel punch press body comprises a body main body 1, wherein a stamping area 11, a working area 12 and a collecting area 2 are arranged on the body main body 1, the stamping area 11 is located at the upper half part of the body, a punch 13 is arranged in the stamping area 11, the punch 13 can move up and down in the body, an upper die is mounted on the punch 13 to realize synchronous movement of the upper die, the working area 12 is arranged below the stamping area 11, the working area 12 is used for placing a lower die, the lower die corresponds to the upper die in position, namely, after the upper die moves downwards, the upper die and the lower die are used, a base is arranged between the body, the collecting area 2 is arranged between the bases, and the collecting area 2 is arranged in a gap between the bases.

The method comprises the following steps that a workpiece is placed on the lower die, after the upper die completes stamping, the stamped workpiece falls into the collecting region 2 from the lower die, so that a collecting frame 26 can be placed on the collecting region 2, further, a flat sweeping assembly is arranged in the collecting region 2, the flat sweeping assembly comprises a push plate 3, a return spring 4, a sliding rail 5, a sliding block 7 and a control piece 6, the sliding rail 5 is arranged in the collecting region 2, the sliding rail 5 is symmetrically arranged on the upper wall of the collecting region 2, and the position of the sliding rail 5 is higher than the highest position of the collecting frame 26.

Two groups of sliding blocks 7 are connected in a sliding manner in the two groups of sliding rails 5, a push plate 3 is arranged between the sliding blocks 7, referring to fig. 2, in an inoperative state, the push plate 3 is arranged on the upper side of the collecting frame 26 in a clinging manner, a first electromagnet 9 is arranged in the base, the first electromagnet 9 is connected with the sliding blocks 7 through a return spring 4, and under the action of the return spring 4, the push plate 3 is in an inoperative state and is arranged above the collecting tank.

The slider 7 is provided with a magnet, one side of the slider 7 corresponding to the first electromagnet 9 is provided with opposite magnetic poles, when the first electromagnet 9 is started, the pushing block overcomes the return spring 4 and is swept to the outer side of the collecting frame 26 by larger repulsive magnetic force, and if the collecting frame 26 accumulating workpieces at the moment can transfer the excessive part to the empty part outside the collecting frame 26.

The first electromagnet 9 is arranged above the control part 6, the control part 6 comprises a first switch 10 for controlling starting and stopping, when the first switch 10 is pressed and triggered, the first electromagnet 9 is started to realize flat sweeping, meanwhile, a push rod 14 is arranged on the punch 13, and after the push rod 14 and the punch 13 move downwards together, the push rod 14 triggers the first switch 10 to realize starting of the first electromagnet 9.

The above arrangement, since each time a sweep of the pusher 3 is triggered, but stacking is a continuous process, addresses this problem, the control member 6 further comprises a box 15, a box 16 and a control rod 17, the control rod 17 sliding in the box 16, a first groove 18 and a second groove 19, see fig. 4, are provided in said control rod 17, both symmetrically arranged in said control rod 17, a plate body 20 is rotatably connected in the first groove 18, the plate body 20 is connected with the groove body through a first elastic piece 21, the other group is arranged in the second groove 19 corresponding to the mirror image of the reorganization plate body 20, i.e. the two sets of panels 20 are located on the same horizontal line, see in particular fig. 4, when said panels 20 are not stressed, the plate bodies 20 form an angle between two groups of plate bodies 20 on the same horizontal line of 80-90 degrees under the action of the first elastic member 21.

When the control rod 17 needs to enter the box 16, the plate 20 rotates to one side of the control rod 17 against the first elastic element 21, that is, the plate 20 is located in the control rod 17, that is, the control rod 17 can enter the box 16, the bottom of the control rod 17 is connected with the box 16 through the second elastic element 22, and when the control rod 17 is moved away from the box 16 by the second elastic element 22, the upper side surface of the plate 20 contacts with the box 16, so that the control rod 17 is limited in the box 16.

Specifically, the control lever 17 may be provided with a plurality of sets of plate bodies 20 on the same horizontal line, the box body 16 is connected with the inside of the box body 15 through a third elastic member 23, the top of the box body 15 is provided with a first through hole 24, the diameter of the first through hole 24 is smaller than that of the control lever 17, that is, the control lever 17 always abuts against the lower side of the first through hole 24, that is, when the rotating member rotates, the elastic force of the second elastic member 22 is smaller than that of the third elastic member 23.

The push rod 14 comprises a first rod body and a second rod body, the second rod body is vertically arranged on the first rod body, the second rod body downwards corresponds to the first through hole 24, the diameter of the second rod body is smaller than that of the first through hole 24, namely, the second rod body can enter the first through hole 24 and abut against the control rod 17, when the first push rod 14 abuts against the control rod 17, the control rod 17 overcomes the second elastic piece 22 to downwards move, the third elastic piece 23 does not keep stable, the control rod 17 is kept to enter the group of plate bodies 20 every time, when the push rod 14 exits, under the action of the third elastic piece 23, the control rod 17 abuts against the first through hole 24 again, and the distance that the push rod 14 presses down every time is the same.

The first switch 10 of the first electromagnet 9 is arranged at the bottom of the box 16, in this embodiment, the first switch 10 is arranged inside the second elastic member 22, when the control rod 17 is lowered to the lowest position, that is, the punch 13 performs punching for multiple times, a certain number of workpieces are arranged in the collection frame 26, the first magnetic member is activated, and the push plate 3 performs flat sweeping towards one side of the collection frame 26.

Furthermore, at this time, the initial position of the box body 15 needs to be restored, a second electromagnet 25 is arranged in the middle of the control rod 17, after the second electromagnet 25 is powered on, the plate bodies 20 are all attracted to the second electromagnet 25, namely, the plate body 20 is made of metal with magnetic force, a second switch 27 for controlling the on-off of the second electromagnet 25 is arranged at the bottom of the box body 16 and is opposite to the first switch 10, when the first switch 10 and the second switch 27 are contacted, the first electromagnet 9 and the second electromagnet 25 are started simultaneously, and the bottom of the box body 16 also adopts a metal piece which can be absorbed by magnetic force, when the first electromagnet 9 is activated, the box 16 moves towards the bottom of the box 15 against the third elastic element 23, the first electromagnet 9 and the second electromagnet 25 can be connected with a time relay on the circuit, so that the electromagnets are always magnetic within a certain time after the switch is triggered.

The working principle is as follows: when the workpiece is placed on a lower die for processing, the punch 13 drives the upper die to punch once to produce one workpiece and place the workpiece into the collection frame 26, the push rod 14 drives the control rod 17 to move downwards, and each time the workpiece moves, namely, a plurality of plate bodies 20 enter the box body 16 through overcoming the first elastic piece 21, when the push rod 14 exits, under the action of the third elastic piece 23, the control rod 17 and the box body 16 move upwards to push the box control rod 17 to be propped against the first through hole 24 again, after repeated multiple operations are performed, after enough workpieces are produced, the second switch 27 and the first switch 10 on the control rod 17 are pressed at the same time, the first electromagnet 9 and the second electromagnet 25 have magnetism at the same time, the push block overcomes the reset spring 4 to sweep horizontally to the outer side of the collection frame 26 under the action of the first electromagnet 9 to process the workpieces,

meanwhile, the box body 16 and the box body 15 overcome the third elastic piece 23 and are adsorbed in the box body 15 above the first electromagnet 9, the plate body 20 rotates towards one side of the second electromagnet 25, the control rod 17 is ejected towards the first through hole 24 under the action of the second elastic piece 22, and repeated operation can be realized after power failure.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. Novel punch press fuselage, including the fuselage main part, its characterized in that: set up the collecting region in the fuselage main part, set up in the collecting region and sweep the subassembly flatly, the subassembly is swept flatly and includes slidable push pedal, reset spring, slide rail, slider and control the symmetry sets up the slide rail on the wall in collecting region all set up slidable slider in the slide rail, set up between the slider the push pedal, the slider passes through reset spring and is connected with the control, the control includes first electro-magnet and first switch, works as when first switch triggers first electro-magnet and starts, the push pedal overcomes reset spring under the magnetic force effect of same magnetic pole and removes to keeping away from first electro-magnet one side.

2. The novel punch press fuselage of claim 1, characterized in that: still set up punching press district and workspace in the main part, including gliding drift from top to bottom in the punching press district, set up the catch bar on the drift, set up the control in the district of placing of catch bar below, when the drift drives when triggering first switch after the catch bar removes, first electro-magnet starts.

3. The novel punch press fuselage of claim 2, characterized in that: the control piece still includes box, box body and control lever, the control lever slides in the box body the symmetry sets up the body of rod that a plurality of rotations are connected on the control lever, the body of rod is connected with the control lever through first elastic component, the control lever pass through the second elastic component with box body internal connection, works as the control lever is extruded by the catch bar, during the lapse, the body of rod is overcome first elastic component and is rotated to control lever one side, gets into in the box body, works as when the catch bar is not when extrudeing, the control lever moves outward to the box body, the body of rod card is in inside the box body, sets up bottom half the first electro-magnet, first switch sets up in the box body bottom, works as when the bottom of control lever contacts with first switch, first electro-magnet removes.

4. The novel punch press fuselage of claim 3, characterized in that: the box body passes through third elastic component and box internal connection set up first through-hole on the box, the diameter of first through-hole is greater than the catch bar, the diameter of first through-hole is less than the catch bar, the second elastic component is less than third elastic component elasticity.

5. The novel punch press fuselage of claim 4, characterized in that: set up first groove and second groove on the control lever, the symmetry sets up the dwang in first groove and the second groove are equal the inside in first groove sets up the second electro-magnet, but the box body bottom is the adsorbed metalwork of magnetic force, the second switch setting of second electro-magnet is in the control lever bottom works as after first switch and second switch contact, first electro-magnet with the second electro-magnet starts, but the body of rod is overcome first elastic component and is rotated to the control lever, the box body is adsorbed to first electro-magnet, the control lever supports under the effect of second elastic component in first through-hole department.

6. The novel punch press fuselage of claim 5, characterized in that: under the action of the first elasticity, the angle of the rod body in the first groove and the second groove which are positioned on the same horizontal line is 80-90 degrees.

7. The novel punch press fuselage of claim 6, characterized in that: the push rod comprises a first rod and a second rod, the second rod is vertically arranged on the first rod, and the second rod is located above the first through hole.

8. The novel punch press fuselage of claim 2, characterized in that: the base is arranged below the working area, and the collecting area is arranged between the bases.

9. The novel punch press fuselage of claim 8, characterized in that: and placing a collecting frame in the collecting area.

10. The novel punch press fuselage of claim 1, characterized in that: the slider is magnet, and the slider is homopolar magnetic pole with first electro-magnet opposite side.

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