CN204996917U

CN204996917U - Servo annular punching equipment of netted gradual change of metal pipe wall

Info

Publication number: CN204996917U
Application number: CN201520718410.XU
Authority: CN
Inventors: 饶艳红
Original assignee: Will Five Metals Plastic Cement Co Ltd Is Closed In Dongguan
Current assignee: Will Five Metals Plastic Cement Co Ltd Is Closed In Dongguan
Priority date: 2015-09-17
Filing date: 2015-09-17
Publication date: 2016-01-27
Anticipated expiration: 2025-09-17

Abstract

The utility model discloses a servo annular punching equipment of netted gradual change of metal pipe wall, including fixing base, first sliding seat, second sliding seat, an actuating mechanism, the 2nd actuating mechanism, the 3rd actuating mechanism and stamping die, the slide of the activity around can that is equipped with in this first sliding seat is provided with on this slide and is used for being connected the interfacing part of fixing with the tubular metal resonator, and the interfacing part is rotationally installed on the slide, is provided with the mold core in this second sliding seat, stamping die is including the die holder and set up a plurality of towards the needle in the die holder. Utilize stamping die and each actuating mechanism etc. Through the cooperation for rotatable and the axial displacement of tubular metal resonator, thus this equipment of messenger can be automatically on the tubular metal resonator through -hole of the different shapes of punching, it is strong that the arbitrariness is arranged to the through -hole, punching process graduation is accurate, and reach the ring dash with the purpose in punching gradual change hole, improve the precision of work efficiency and product by a wide margin, this equipment can coordinate vacuum system the while, effectively separated the not smooth problem of waste material that has decided.

Description

Metal pipe-wall netted gradual change servo annular punching apparatus

Technical field

The utility model relates to punching apparatus art, refers in particular to a kind of metal pipe-wall netted gradual change servo annular punching apparatus.

Background technology

Perforating press is specifically designed to angle bar, band iron, copper, the metal sheets such as aluminium row carry out the equipment punched, current perforating press can the through hole of the automatically netted arrangement of punching on sheet metal, but, cannot punching difformity in the through hole of netted arrangement on metal tube automatically, in prior art, if need on metal tube punching difformity and in the through hole of netted arrangement time, human assistance perforating press can only be adopted to complete, during every punching one through hole of perforating press, need the fixed position of artificial change metal tube and punching is carried out to another location, semiautomatic fashion like this, not only efficiency is low, punching precision is not high yet, and the waste material in punching process exports not smooth.Therefore, be necessary to improve current perforating press.

Utility model content

In view of this, the utility model is for the disappearance of prior art existence, its main purpose is to provide a kind of metal pipe-wall netted gradual change servo annular punching apparatus, and it effectively can solve existing perforating press can not the problem of punching difformity through hole on metal tube automatically.

For achieving the above object, the utility model adopts following technical scheme:

A kind of metal pipe-wall netted gradual change servo annular punching apparatus, includes holder, the first sliding seat, the second sliding seat, the first driving mechanism, the second driving mechanism, the 3rd driving mechanism and diel, this first sliding seat and the second sliding seat all can be arranged at the arrangement of on holder and front and back up and downly, this first sliding seat is provided with can the slide of fore-aft travel, this slide is provided with the interfacing part for being connected and fixed with metal tube, interfacing part is rotatably installed on slide, this second sliding seat is provided with core rod, the gap of inserting for metal tube is formed between core rod and the second sliding seat, this core rod is just to interfacing part, there is in core rod the garbage collection chamber for docking with vacuum system, the external surface top of core rod is provided with multiple blanking hole, the plurality of blanking hole is all communicated with garbage collection chamber, this first driving mechanism is arranged on holder, and the first driving mechanism drives the first sliding seat and the second sliding seat movable back and forth up and down, this second driving mechanism is arranged in the first sliding seat, and the second driving mechanism drives before and after slide and slidably reciprocates, 3rd driving mechanism is arranged on slide, and the 3rd driving mechanism drives interfacing part to rotate, this diel can be arranged at directly over core rod up and downly, and diel includes die holder and is arranged at the multiple red needles in die holder, and multiple red needle and corresponding blanking hole are just right up and down.

As a kind of preferred version, described first driving mechanism includes multiple cylinder, and the plurality of cylinder is arranged at the bottom of holder.

As a kind of preferred version, described second driving mechanism includes screw mandrel, nut and servomotor, extend before and after this screw mandrel and be arranged in the first sliding seat rotationally, this nut is fixed on slide, nut and screw mandrel are screwed together, this servomotor is fixed in the first sliding seat, and servomotor drives screw mandrel to rotate.

As a kind of preferred version, described first sliding seat is provided with two slide rails, aforementioned screw mandrel, between two slide rails, this slide is provided with slide block, and this slide block is slidably mounted on corresponding slide rail.

As a kind of preferred version, described 3rd driving mechanism includes servomotor and belt, and this servomotor is rotated by belt drive interfacing part.

As a kind of preferred version, described die holder is provided with guide pillar, this second sliding seat is provided with guide hole, this guide pillar inserts in guide hole, and punching module is up and down under the cooperation guiding of guide pillar and guide hole.

As a kind of preferred version, in die holder, a vertical briquetting is all provided with for each red needle, each vertical briquetting corresponding is all provided with a cross sliding clock in die holder, this vertical briquetting can be arranged at directly over the red needle of correspondence up and downly, vertical briquetting drives corresponding red needle movable downwards, this cross sliding clock level can be arranged at the top of the vertical briquetting of correspondence back and forth actively, cross sliding clock drives vertical briquetting movable downwards, and, each cross sliding clock corresponding is all provided with a four-wheel drive mechanism on die holder, this four-wheel drive mechanism connects with corresponding cross sliding clock and drives corresponding cross sliding clock level movable back and forth.

As a kind of preferred version, the top of described vertical briquetting has multiple first arc convex, and adjacent two first arc convex are formed with the first arc recess, accordingly, the bottom of this cross sliding clock has multiple second arc convex, and adjacent two second arc convex are formed with the second arc recess; Under reset condition, the second arc convex is embedded in the first arc recess, and under pressed status, the second arc convex is butted on the first arc convex.

As a kind of preferred version, described four-wheel drive mechanism is cylinder, and cylinder is fixed on the side of die holder, and the piston rod of cylinder is fixedly connected with cross sliding clock.

As a kind of preferred version, described holder is provided with guide pillar, this first sliding seat is up and down along guide pillar.

The utility model compared with prior art has obvious advantage and beneficial effect, specifically, as shown from the above technical solution:

Diel and each driving mechanism etc. is utilized by coordinating, make metal tube rotatable and move axially, thus make this equipment can the automatically difform through hole of punching on metal tube, arrays of openings arbitrariness is strong, punching process calibration is accurate, and reaches the object in ring punching and punching gradual change hole, significantly increases work efficiency and the precision of product, this equipment can coordinate vacuum system simultaneously, and efficient solution has decided the not smooth problem of waste material.

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, the utility model is described in detail.

Accompanying drawing explanation

Fig. 1 is the assembling schematic perspective view of the preferred embodiment of the utility model;

Fig. 2 is the assembling schematic perspective view of another angle of preferred embodiment of the utility model;

Fig. 3 is the internal structure schematic diagram of the preferred embodiment of the utility model;

Fig. 4 is the sectional view of the preferred embodiment of the utility model;

Fig. 5 is the close-up schematic view of Fig. 4.

Accompanying drawing identifier declaration:

10, holder 11, guide pillar

20, the first sliding seat 30, second sliding seat

31, guide hole 40, first driving mechanism

41, cylinder 50, second driving mechanism

51, screw mandrel 52, nut

53, servomotor 60, the 3rd driving mechanism

61, servomotor 62, belt

70, diel 71, die holder

72, red needle 73, guide pillar

74, vertical briquetting 75, cross sliding clock

76, four-wheel drive mechanism 701, first arc convex

702, the first arc recess 703, second arc convex

704, the second arc recess 81, slide

82, interfacing part 83, slide rail

84, slide block 85, core rod

851, main part 852, stiffener

801, garbage collection chamber 802, blanking hole

90, metal tube 90, through hole.

Detailed description of the invention

Please refer to shown in Fig. 1 to Fig. 5, that show the concrete structure of the preferred embodiment of the utility model, include holder 10, first sliding seat 20, second sliding seat 30, first driving mechanism 40, second driving mechanism 50, the 3rd driving mechanism 60 and diel 70.

This first sliding seat 20 and the second sliding seat 30 all can be arranged at the arrangement of on holder 10 and front and back up and downly, and in the present embodiment, this holder 10 is provided with guide pillar 11, this first sliding seat 20 is up and down along guide pillar 11.

This first sliding seat 20 is provided with can the slide 81 of fore-aft travel, this slide 81 is provided with the interfacing part 82 for being connected and fixed with metal tube 90, interfacing part 82 is rotatably installed on slide 81, in the present embodiment, this first sliding seat 20 is provided with two slide rails 83, this slide 81 is provided with slide block 84, and this slide block 84 is slidably mounted on corresponding slide rail 83.

This second sliding seat 30 is provided with core rod 85, the gap of inserting for metal tube 90 is formed between core rod 85 and the second sliding seat 30, this core rod 85 is just to interfacing part 82, there is in core rod 85 the garbage collection chamber 801 for docking with vacuum system (not shown), the external surface top of core rod 85 is provided with multiple blanking hole 802, and the plurality of blanking hole 802 is all communicated with garbage collection chamber 801.Further, in the present embodiment, this core rod 85 includes main part 851 and stiffener 852, and this stiffener 852 is embedded at the top of main part 851, and the plurality of blanking hole 802 runs through stiffener 852 and is communicated with garbage collection chamber 801 with main part 851.

This first driving mechanism 40 is arranged on holder 10, first driving mechanism 40 drives the first sliding seat 20 and the second sliding seat about 30 movable back and forth, in the present embodiment, this first driving mechanism 40 includes multiple cylinder 41, and the plurality of cylinder 41 is arranged at the bottom of holder 10.

This second driving mechanism 50 is arranged in the first sliding seat 20, second driving mechanism 50 drives before and after slide 81 and slidably reciprocates, in the present embodiment, this second driving mechanism 50 includes screw mandrel 51, nut 52 and servomotor 53, extend before and after this screw mandrel 51 and be arranged in the first sliding seat 20 rotationally, screw mandrel 51 is between two slide rails 83, this nut 52 is fixed on slide 81, nut 52 and screw mandrel 51 are screwed together, this servomotor 53 is fixed in the first sliding seat 20, and servomotor 53 drives screw mandrel 51 to rotate.

3rd driving mechanism 60 is arranged on slide 81, and the 3rd driving mechanism 60 drives interfacing part 82 to rotate, and in the present embodiment, the 3rd driving mechanism 60 includes servomotor 61 and belt 62, and this servomotor 61 drives interfacing part 82 to rotate by belt 62.

This diel 70 can be arranged at directly over core rod 85 up and downly, diel 70 includes die holder 71 and is arranged at the multiple red needles 72 in die holder 71, multiple red needle 72 is just right with corresponding blanking hole about 802, and the plurality of red needle 72 is dissimilar red needle.In the present embodiment, this die holder 71 is provided with guide pillar 73, this second sliding seat 30 is provided with guide hole 31, this guide pillar 73 inserts in guide hole 31, punching module 70 is up and down under the cooperation guiding of guide pillar 73 and guide hole 31, and, in die holder 71, a vertical briquetting 74 is all provided with for each red needle 72, each vertical briquetting 74 corresponding is all provided with a cross sliding clock 75 in die holder 71, this vertical briquetting 74 can be arranged at directly over the red needle 72 of correspondence up and downly, vertical briquetting 74 drives corresponding red needle 72 movable downwards, this cross sliding clock 75 level can be arranged at the top of the vertical briquetting 74 of correspondence back and forth actively, cross sliding clock 75 drives vertical briquetting 74 movable downwards, and, each cross sliding clock 75 corresponding is all provided with a four-wheel drive mechanism 76 on die holder 71, this four-wheel drive mechanism 76 connects with corresponding cross sliding clock 75 and drives corresponding cross sliding clock 75 level movable back and forth, specifically, the top of this vertical briquetting 74 has multiple first arc convex 701, adjacent two first arc convex 701 are formed with the first arc recess 702, accordingly, the bottom of this cross sliding clock 75 has multiple second arc convex 703, adjacent two second arc convex 703 are formed with the second arc recess 704, under reset condition, the second arc convex 703 is embedded in the first arc recess 702, under pressed status, second arc convex 704 is butted on the first arc convex 701, this four-wheel drive mechanism 76 is cylinder, and cylinder is fixed on the side of die holder 71, and the piston rod of cylinder is fixedly connected with cross sliding clock 75.

The course of work that the present embodiment is described in detail in detail is as follows:

During work, first, the first sliding seat 20 is driven to rise a height and position with the relative holder 10 of the second sliding seat 30 by the first driving mechanism 40, then, one end of metal tube 90 and interfacing part 82 are connected and fixed, then, slide 81 is driven to slide by the second driving mechanism 50, metal tube 90 is made to insert the gap between core rod 85 and the second sliding seat 30 and entangle core rod 85, then, the first sliding seat 20 and the second sliding seat 30 is driven to drop on holder 10 by the first driving mechanism 40, then, corresponding cross sliding clock 75 is driven by four-wheel drive mechanism 76, corresponding cross sliding clock 75 is made to drive corresponding vertical briquetting 74 movable downwards, thus make corresponding red needle 72 stretch out the bottom of die holder 71, so, select the red needle 72 of suitable type, after red needle 72 has been selected, this diel 70 is driven and activity downwards by the elevating mechanism (not shown) of outside, the tube wall of the red needle 72 pairs of metal tubes 90 stretched out bottom die holder 71 is made to carry out punching, the waste material that punching is formed enters garbage collection chamber 801 by blanking hole 802, then by vacuum system, waste material is siphoned away, waste material cleaning is smooth and easy.When completing after to the punching on metal tube 90 1 positions, the first sliding seat 20 is driven to rise a height and position with the relative holder 10 of the second sliding seat 30 by the first driving mechanism 40, then, slide 81 is driven to slide by the second driving mechanism 50, metal tube 90 is made to move axially a position, or drive interfacing part 82 to rotate by the 3rd driving mechanism 60, metal tube 90 is made to turn over an angle position with interfacing part 82, after position chooses, the first sliding seat 20 and the second sliding seat 30 is driven to drop on holder 10 by the first driving mechanism 40, and fully aforementioned activities carries out punching to metal tube 90.So, move in circles, until the position all to metal tube 90 completes punching operation, after punching operation completes, drive the first sliding seat 20 to rise a height and position with the relative holder 10 of the second sliding seat 30 by the first driving mechanism 40, and drive slide 81 to reset by the second driving mechanism 50, then take out metal tube 90, metal tube 90 is now laid with multiple through hole 91, and this multiple through hole 91 is in netted arrangement.

Design focal point of the present utility model is: utilize diel and each driving mechanism etc. by coordinating, make metal tube rotatable and move axially, thus make this equipment can the automatically difform through hole of punching on metal tube, arrays of openings arbitrariness is strong, punching process calibration is accurate, and reaches the object in ring punching and punching gradual change hole, significantly increases work efficiency and the precision of product, this equipment can coordinate vacuum system simultaneously, and efficient solution has decided the not smooth problem of waste material.

The above, it is only preferred embodiment of the present utility model, not technical scope of the present utility model is imposed any restrictions, therefore every above embodiment is done according to technical spirit of the present utility model any trickle amendment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims

1. a metal pipe-wall netted gradual change servo annular punching apparatus, is characterized in that: include holder, the first sliding seat, the second sliding seat, the first driving mechanism, the second driving mechanism, the 3rd driving mechanism and diel, this first sliding seat and the second sliding seat all can be arranged at the arrangement of on holder and front and back up and downly, this first sliding seat is provided with can the slide of fore-aft travel, this slide is provided with the interfacing part for being connected and fixed with metal tube, interfacing part is rotatably installed on slide, this second sliding seat is provided with core rod, the gap of inserting for metal tube is formed between core rod and the second sliding seat, this core rod is just to interfacing part, there is in core rod the garbage collection chamber for docking with vacuum system, the external surface top of core rod is provided with multiple blanking hole, the plurality of blanking hole is all communicated with garbage collection chamber, this first driving mechanism is arranged on holder, and the first driving mechanism drives the first sliding seat and the second sliding seat movable back and forth up and down, this second driving mechanism is arranged in the first sliding seat, and the second driving mechanism drives before and after slide and slidably reciprocates, 3rd driving mechanism is arranged on slide, and the 3rd driving mechanism drives interfacing part to rotate, this diel can be arranged at directly over core rod up and downly, and diel includes die holder and is arranged at the multiple red needles in die holder, and multiple red needle and corresponding blanking hole are just right up and down.

2. metal pipe-wall according to claim 1 netted gradual change servo annular punching apparatus, is characterized in that: described first driving mechanism includes multiple cylinder, and the plurality of cylinder is arranged at the bottom of holder.

3. metal pipe-wall according to claim 1 netted gradual change servo annular punching apparatus, it is characterized in that: described second driving mechanism includes screw mandrel, nut and servomotor, extend before and after this screw mandrel and be arranged in the first sliding seat rotationally, this nut is fixed on slide, nut and screw mandrel are screwed together, this servomotor is fixed in the first sliding seat, and servomotor drives screw mandrel to rotate.

4. metal pipe-wall according to claim 3 netted gradual change servo annular punching apparatus, it is characterized in that: described first sliding seat is provided with two slide rails, aforementioned screw mandrel, between two slide rails, this slide is provided with slide block, and this slide block is slidably mounted on corresponding slide rail.

5. metal pipe-wall according to claim 1 netted gradual change servo annular punching apparatus, is characterized in that: described 3rd driving mechanism includes servomotor and belt, and this servomotor is rotated by belt drive interfacing part.

6. metal pipe-wall according to claim 1 netted gradual change servo annular punching apparatus, it is characterized in that: described die holder is provided with guide pillar, this second sliding seat is provided with guide hole, and this guide pillar inserts in guide hole, and punching module is up and down under the cooperation guiding of guide pillar and guide hole.

7. metal pipe-wall according to claim 1 netted gradual change servo annular punching apparatus, it is characterized in that: in die holder, be all provided with a vertical briquetting for each red needle, each vertical briquetting corresponding is all provided with a cross sliding clock in die holder, this vertical briquetting can be arranged at directly over the red needle of correspondence up and downly, vertical briquetting drives corresponding red needle movable downwards, this cross sliding clock level can be arranged at the top of the vertical briquetting of correspondence back and forth actively, cross sliding clock drives vertical briquetting movable downwards, and, each cross sliding clock corresponding is all provided with a four-wheel drive mechanism on die holder, this four-wheel drive mechanism connects with corresponding cross sliding clock and drives corresponding cross sliding clock level movable back and forth.

8. metal pipe-wall according to claim 7 netted gradual change servo annular punching apparatus, it is characterized in that: the top of described vertical briquetting has multiple first arc convex, adjacent two first arc convex are formed with the first arc recess, accordingly, the bottom of this cross sliding clock has multiple second arc convex, and adjacent two second arc convex are formed with the second arc recess; Under reset condition, the second arc convex is embedded in the first arc recess, and under pressed status, the second arc convex is butted on the first arc convex.

9. metal pipe-wall according to claim 7 netted gradual change servo annular punching apparatus, it is characterized in that: described four-wheel drive mechanism is cylinder, cylinder is fixed on the side of die holder, and the piston rod of cylinder is fixedly connected with cross sliding clock.

10. metal pipe-wall according to claim 1 netted gradual change servo annular punching apparatus, it is characterized in that: described holder is provided with guide pillar, this first sliding seat is up and down along guide pillar.