CN112775304A

CN112775304A - Automatic stamping die of metalwork of conveniently getting material

Info

Publication number: CN112775304A
Application number: CN202011619570.0A
Authority: CN
Inventors: 刘端艳
Original assignee: Yumao Technology Suzhou Co ltd
Current assignee: Yumao Technology Suzhou Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-11
Anticipated expiration: 2040-12-31
Also published as: CN112775304B

Abstract

The invention is suitable for the technical field of metal part processing, and provides an automatic metal part stamping die convenient for material taking, which comprises a supporting assembly, a guide assembly, a stamping assembly, a material taking assembly and a feeding assembly, wherein the supporting assembly is arranged on the supporting assembly; the stamping assembly comprises a stamping sliding block and a supporting seat, and the material taking assembly comprises a material taking sliding block; the feeding assembly comprises a feeding slide block; can follow gliding punching press slider of T shape guide way through the setting, get material slider and feeding slider, the installation is used for punching press the punching press hydro-cylinder of metalwork on the punching press slider, get the material cylinder of getting that the installation is used for taking out the product on the material slider, the output of getting the material cylinder is fixed with the electromagnetic adsorption piece, the last installation of feeding slider is used for putting into the feeding cylinder of raw materials, the output of feeding cylinder is fixed with the vacuum adsorption dish, the punching press slider, get material slider and feeding slider and drive through three drive actuating cylinder respectively, thereby realize automatic material of getting, blowing and automatic punching press, the machining efficiency is promoted.

Description

Automatic stamping die of metalwork of conveniently getting material

Technical Field

The invention belongs to the technical field of metal part processing, and particularly relates to an automatic metal part stamping die convenient for material taking.

Background

The stamping equipment is a forming processing equipment which applies external force to plates, strips, pipes, profiles and the like by a profile die to cause the plates, the strips, the pipes, the profiles and the like to generate plastic deformation or separation so as to obtain metal workpieces with required shapes and sizes.

However, when the existing stamping equipment works, workers need to manually take products to place on the stamping equipment, and the products after stamping need to be manually taken down, so that the production efficiency is low, and certain potential safety hazards can be brought to the workers.

Disclosure of Invention

The invention provides an automatic metal piece stamping die convenient for material taking, and aims to solve the problems in the prior art.

The invention is realized in this way, a metal part automatic stamping die convenient for material taking, which comprises a supporting component, a guide component, a stamping component, a material taking component and a feeding component;

the supporting assembly comprises a base and a plurality of vertical plates, and the vertical plates are all fixed at the top of the base;

the guide assembly comprises a stamping guide plate, a material taking guide plate and a material feeding guide plate; the stamping guide plate, the material taking guide plate and the material feeding guide plate are all fixed at the upper end of the vertical plate; one ends of the stamping guide plate and the material taking guide plate are connected together to form a T-shaped structure; a stamping guide groove is formed in the stamping guide plate, a material taking guide groove is formed in the material taking guide plate, a material feeding guide groove is formed in the material feeding guide plate, and one ends of the stamping guide groove, the material taking guide groove and the material feeding guide groove are connected together to form a T-shaped structure;

the stamping assembly comprises a stamping sliding block and a supporting seat, and the stamping sliding block is arranged in the stamping guide groove and is connected with the stamping guide plate in a sliding manner; a stamping oil cylinder is fixed at the bottom of the stamping sliding block; the output end of the punching oil cylinder faces downwards vertically and is fixedly provided with an upper die holder; the supporting seat is fixed on the top of the base, and a lower die seat matched with the upper die seat is installed on the top of the supporting seat; a first driving cylinder is installed on the stamping guide plate, and the output end of the first driving cylinder is fixedly connected with the stamping sliding block and drives the stamping sliding block to slide along the stamping guide groove;

the material taking assembly comprises a material taking sliding block; the material taking sliding block is arranged in the material taking guide groove and is connected with the material taking guide plate in a sliding manner; a material taking cylinder is fixed at the bottom of the material taking sliding block, and the output end of the material taking cylinder faces downwards vertically and is fixedly connected with an electromagnetic adsorption block; a second driving cylinder is installed on the material taking guide plate, and the output end of the second driving cylinder is fixedly connected with the material taking slide block and drives the material taking slide block to slide along the material taking guide groove;

the feeding assembly comprises a feeding slide block; the feeding sliding block is arranged in the feeding guide groove and is connected with the feeding guide plate in a sliding manner; a feeding cylinder is fixed at the bottom of the feeding sliding block, and the output end of the feeding cylinder faces downwards vertically and is fixed with a vacuum adsorption disc; a driving cylinder III is installed on the feeding guide plate; and the output end of the driving cylinder III is fixedly connected with the material taking slide block and drives the feeding slide block to slide along the feeding guide groove.

Preferably, two guide rods which are vertically arranged are fixed at the top of the upper die holder;

the outer wall of the punching oil cylinder is fixedly provided with positioning sleeves respectively corresponding to the two guide rods; the positioning sleeve is sleeved on the corresponding guide rod and is connected with the guide rod in a sliding manner.

Preferably, a first stop block and a second stop block are respectively arranged at the joint of the material taking guide plate and the material feeding guide plate;

and a first limiting block and a second limiting block which respectively correspond to the first stop block and the second stop block are fixed on the material taking slide block and the material feeding slide block.

Preferably, the material taking assembly further comprises a slag collecting box; the slag collecting box is fixed on the base;

and a filter screen which is obliquely arranged is fixed in the slag collection box.

Preferably, a product box is arranged on one side wall of the slag collecting box in a close fit manner, an opening is formed in one side wall of the slag collecting box, and the opening is positioned at the lower end of the filter screen in the inclined direction;

and a product inlet aligned and communicated with the opening is formed in the side wall of the product box.

Preferably, a handle is fixed on the upper surface of the filter screen, and a circular through hole is formed in the handle.

Preferably, the feeding assembly further comprises a raw material box fixed on the base and located below the vacuum adsorption disc.

Preferably, at least one hook is fixed on the side wall of the raw material box;

at least one clamping piece matched with the hook is fixed on the outer wall of the supporting seat.

Compared with the prior art, the invention has the beneficial effects that: according to the automatic metal piece stamping die convenient for material taking, disclosed by the invention, the stamping sliding block, the material taking sliding block and the feeding sliding block which can slide along the T-shaped guide groove are arranged, the stamping oil cylinder for stamping the metal piece is arranged on the stamping sliding block, the material taking air cylinder for taking out a product is arranged on the material taking sliding block, the electromagnetic adsorption block is fixed at the output end of the material taking air cylinder, the feeding air cylinder for putting in a raw material is arranged on the feeding sliding block, the vacuum adsorption disc is fixed at the output end of the feeding air cylinder, and the stamping sliding block, the material taking sliding block and the feeding sliding block are respectively driven by the three driving air cylinders, so that automatic material taking, material discharging.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a top view of the guide assembly of fig. 1.

Fig. 3 is a schematic structural view of the slag collection box in fig. 1.

Fig. 4 is an enlarged schematic view of detail a in fig. 1.

Fig. 5 is an enlarged schematic view of detail B in fig. 1.

In the figure: 1-supporting component, 11-base, 12-vertical plate, 2-guiding component, 21-punching guiding plate, 211-punching guiding groove, 22-material taking guiding plate, 221-material taking guiding groove, 222-first baffle, 23-feeding guiding plate, 231-feeding guiding groove, 232-second baffle, 3-punching component, 31-punching sliding block, 32-punching oil cylinder, 33-upper die base, 34-supporting base, 341-clamping component, 35-lower die base, 36-driving cylinder I, 37-guiding rod, 38-positioning sleeve, 4-material taking component, 41-material taking sliding block, 411-first limiting block, 42-material taking cylinder, 43-electromagnetic adsorption block, 44-driving cylinder II, 45-slag collecting box, 46-a filter screen, 461-a handle, 47-a product box, 5-a feeding component, 51-a feeding slide block, 511-a second limiting block, 52-a feeding cylinder, 53-a vacuum adsorption disc, 54-a third driving cylinder, 55-a raw material box and 551-a hook.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model provides an automatic stamping die of metalwork of conveniently getting material, includes supporting component 1, direction subassembly 2, punching press subassembly 3, gets material subassembly 4 and feeding subassembly 5.

The supporting component 1 comprises a base 11 and a plurality of vertical plates 12, and the vertical plates 12 are all fixed on the top of the base 11.

The guide assembly 2 comprises a stamping guide plate 21, a material taking guide plate 22 and a material feeding guide plate 23; the stamping guide plate 21, the material taking guide plate 22 and the feeding guide plate 23 are all fixed at the upper end of the vertical plate 12; one ends of the stamping guide plate 21 and the material taking guide plate 22 are connected together to form a T-shaped structure; stamping guide plate 21 is internally provided with stamping guide groove 211, taking guide plate 22 is internally provided with taking guide groove 221, feeding guide plate 23 is internally provided with feeding guide groove 231, and stamping guide groove 211, taking guide groove 221 and one end of feeding guide groove 231 are connected together and form a T-shaped structure.

In the present embodiment, the punching guide plate 21, the material taking guide plate 22, and the material feeding guide plate 23 are integrally formed, and the punching guide groove 211, the material taking guide groove 221, and the material feeding guide groove 231 are rectangular grooves having the same width and are connected to form a T-shaped groove.

The stamping assembly 3 comprises a stamping slider 31 and a supporting seat 34, wherein the stamping slider 31 is arranged in the stamping guide groove 211 and is connected with the stamping guide plate 21 in a sliding manner; a stamping oil cylinder 32 is fixed at the bottom of the stamping slide block 31; the output end of the punching oil cylinder 32 faces downwards vertically and is fixed with an upper die holder 33; the supporting seat 34 is fixed on the top of the base 11, and the top of the supporting seat 34 is provided with a lower die seat 35 matched with the upper die seat 33; a first driving cylinder 36 is mounted on the stamping guide plate 21, and an output end of the first driving cylinder 36 is fixedly connected with the stamping slide block 31 and drives the stamping slide block 31 to slide along the stamping guide groove 211.

When the first driving cylinder 36 extends, the punching slider 31 can be driven to move to the connection between the material taking guide groove 221 and the feeding guide groove 231, that is, to move above the lower die holder 35. The punching oil cylinder 32 is used for driving the upper die holder 33 to move up and down, and when the punching oil cylinder 32 extends, the upper die holder 33 can be driven to move downwards, so that the materials in the lower die holder 35 can be punched.

The material taking assembly 4 comprises a material taking slide block 41 and a slag collecting box 45; the material taking slide block 41 is arranged in the material taking guide groove 221 and is connected with the material taking guide plate 22 in a sliding manner; a material taking cylinder 42 is fixed at the bottom of the material taking slide block 41, and the output end of the material taking cylinder 42 faces downwards vertically and is fixedly connected with an electromagnetic adsorption block 43; the second driving cylinder 44 is mounted on the material taking guide plate 22, and the output end of the second driving cylinder 44 is fixedly connected with the material taking slide block 41 and drives the material taking slide block 41 to slide along the material taking guide groove 221. A product box 47 is arranged on one side wall of the slag collection box 45 in a clinging manner, an opening is formed in one side wall of the slag collection box 45, and the opening is positioned at the lower end of the filter screen 46 in the inclined direction; the side wall of the product box 47 is provided with a product inlet aligned and communicated with the opening. A handle 461 is fixed on the upper surface of the filter 46, and a circular through hole is arranged in the handle 461.

When the second driving cylinder 44 extends, the material taking sliding block 41 can be driven to move to the upper side of the lower die holder 35, and when the second driving cylinder 44 is retracted, the material taking sliding block 41 can be driven to move to the upper side of the slag collecting box 45. The electromagnetic adsorption block 43 is an electromagnet, and can be used for adsorbing a punched product and placing the product into the slag collection box 45. The product contacts filter screen 46 in the collection sediment case 45 at first, and electromagnetic adsorption piece 43 cuts off the power supply and loses magnetism, and the piece on the product filters through collection sediment case 45 for better clean product can slide to product case 47 in along filter screen 46.

The feeding assembly 5 comprises a feeding slide block 51 and a raw material box 55; the feeding slide block 51 is arranged in the feeding guide groove 231 and is connected with the feeding guide plate 23 in a sliding manner; a feeding cylinder 52 is fixed at the bottom of the feeding slide block 51, and the output end of the feeding cylinder 52 is vertically downward and is fixed with a vacuum adsorption disc 53; a third driving cylinder 54 is arranged on the feeding guide plate 53; the output end of the driving cylinder three 54 is fixedly connected with the material taking slide block 41 and drives the feeding slide block 51 to slide along the feeding guide groove 231. The raw material tank 55 is fixed to the base 11 and positioned below the vacuum chuck 53.

The material box 55 is used for storing metal piece material to be processed, and metal pieces are stacked in the material box 55 in the height direction. The third driving cylinder 54 can drive the feeding slide block 51 to move above the lower die holder 35 during extension, and the third driving cylinder 54 can drive the feeding slide block 51 to move above the raw material box 55 during recovery. The vacuum suction tray 53 is connected to a vacuum generator, and is used to suck the metal raw material in the raw material tank 55 and then placed in the lower die holder 35.

Two guide rods 37 which are vertically arranged are fixed at the top of the upper die holder 33; the outer wall of the punching oil cylinder 32 is fixed with positioning sleeves 38 which respectively correspond to the two guide rods 37; the positioning sleeve 38 is sleeved on the corresponding guide rod 37 and is connected with the guide rod 37 in a sliding manner.

A first stop block 222 and a second stop block 232 are respectively arranged at the joint of the material taking guide plate 22 and the material feeding guide plate 23; a first limiting block 411 and a second limiting block 511 which respectively correspond to the first stopping block 222 and the second stopping block 232 are fixed on the material taking slide block 41 and the material feeding slide block 51. The first stopper 222 is used for limiting the material taking slide block 41 and preventing the moving position of the material taking slide block 41 from exceeding the lower die base 35. The second stopper 232 is used for limiting the feeding slide block 51 and preventing the moving position of the feeding slide block 51 from exceeding the lower die holder 35.

At least one hook 551 is fixed on the side wall of the raw material box 55; at least one clamping piece 341 matched with the hook 551 is fixed on the outer wall of the supporting seat 34. The hook 551 and the clip 341 are detachably connected, and are used for making the connection between the raw material box 55 and the supporting base 34 more stable.

When the device is used, the feeding cylinder 52 firstly extends to adsorb metal raw materials in the raw material box 55 and then recovers, the driving cylinder three 54 extends to drive the feeding slide block 51 to move to the upper part of the lower die holder 35, the feeding cylinder 52 drives the vacuum adsorption disc 53 to place the raw materials in the lower die holder 35, and then the feeding cylinder 52 recovers and drives the driving cylinder three 54 to recover. The first driving cylinder 36 extends to drive the stamping slide block 31 to move above the lower die base 35, the stamping cylinder 32 extends to drive the upper die base 33 to move downwards, and therefore stamping operation is conducted on the materials in the lower die base 35. After the punching is finished, the punching oil cylinder 32 is recovered, and the first driving cylinder 36 is recovered. Then, the second driving cylinder 44 extends, the material taking slide block 41 is driven to move to the upper side of the lower die holder 35, the material taking cylinder 42 extends, the electromagnetic adsorption block 43 adsorbs the punched product, then the material taking cylinder 42 recovers, the second driving cylinder 44 recovers, the material taking slide block 41 is driven to move to the upper side of the slag collecting box 45, the material taking cylinder 42 extends, and the product is placed in the slag collecting box 45.

According to the automatic metal piece stamping die convenient for material taking, the stamping sliding block 31, the material taking sliding block 41 and the feeding sliding block 51 which can slide along the T-shaped guide groove are arranged, the stamping oil cylinder 32 used for stamping metal pieces is installed on the stamping sliding block 31, the material taking air cylinder 42 used for taking out products is installed on the material taking sliding block 41, the electromagnetic adsorption block 43 is fixed at the output end of the material taking air cylinder 42, the feeding air cylinder 52 used for placing raw materials is installed on the feeding sliding block 51, the vacuum adsorption disc 53 is fixed at the output end of the feeding air cylinder 52, and the stamping sliding block 31, the material taking sliding block 41 and the feeding sliding block 51 are respectively driven by the three driving air cylinders, so that automatic material taking, material discharging and automatic stamping are realized, and the.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a conveniently get automatic stamping die of metalwork of material which characterized in that: comprises a supporting component (1), a guiding component (2), a punching component (3), a material taking component (4) and a feeding component (5);

the supporting assembly (1) comprises a base (11) and a plurality of vertical plates (12), and the vertical plates (12) are all fixed to the top of the base (11);

the guide assembly (2) comprises a stamping guide plate (21), a material taking guide plate (22) and a feeding guide plate (23); the stamping guide plate (21), the material taking guide plate (22) and the feeding guide plate (23) are all fixed at the upper end of the vertical plate (12); one ends of the stamping guide plate (21) and the material taking guide plate (22) are connected together to form a T-shaped structure; a stamping guide groove (211) is formed in the stamping guide plate (21), a taking guide groove (221) is formed in the taking guide plate (22), a feeding guide groove (231) is formed in the feeding guide plate (23), and one ends of the stamping guide groove (211), the taking guide groove (221) and the feeding guide groove (231) are connected together to form a T-shaped structure;

the stamping assembly (3) comprises a stamping sliding block (31) and a supporting seat (34), and the stamping sliding block (31) is installed in the stamping guide groove (211) and is connected with the stamping guide plate (21) in a sliding mode; a stamping oil cylinder (32) is fixed at the bottom of the stamping sliding block (31); the output end of the punching oil cylinder (32) faces downwards vertically and is fixedly provided with an upper die holder (33); the supporting seat (34) is fixed on the top of the base (11), and a lower die seat (35) matched with the upper die seat (33) is installed on the top of the supporting seat (34); a first driving cylinder (36) is mounted on the stamping guide plate (21), and the output end of the first driving cylinder (36) is fixedly connected with the stamping slide block (31) and drives the stamping slide block (31) to slide along the stamping guide groove (211);

the material taking assembly (4) comprises a material taking slide block (41); the material taking slide block (41) is arranged in the material taking guide groove (221) and is connected with the material taking guide plate (22) in a sliding manner; a material taking cylinder (42) is fixed at the bottom of the material taking sliding block (41), and the output end of the material taking cylinder (42) faces downwards vertically and is fixedly connected with an electromagnetic adsorption block (43); a second driving cylinder (44) is mounted on the material taking guide plate (22), the output end of the second driving cylinder (44) is fixedly connected with the material taking slide block (41) and drives the material taking slide block (41) to slide along the material taking guide groove (221);

the feeding assembly (5) comprises a feeding slide block (51); the feeding slide block (51) is arranged in the feeding guide groove (231) and is connected with the feeding guide plate (23) in a sliding manner; a feeding cylinder (52) is fixed at the bottom of the feeding sliding block (51), and the output end of the feeding cylinder (52) is vertically downward and is fixed with a vacuum adsorption disc (53); a driving cylinder III (54) is arranged on the feeding guide plate (53); the output end of the driving air cylinder III (54) is fixedly connected with the material taking slide block (41) and drives the feeding slide block (51) to slide along the feeding guide groove (231).

2. The automatic metal part stamping die convenient for material taking as claimed in claim 1, wherein: two guide rods (37) which are vertically arranged are fixed at the top of the upper die holder (33);

the outer wall of the punching oil cylinder (32) is fixedly provided with positioning sleeves (38) which respectively correspond to the two guide rods (37); the positioning sleeve (38) is sleeved on the corresponding guide rod (37) and is connected with the guide rod (37) in a sliding mode.

3. The automatic metal part stamping die convenient for material taking as claimed in claim 1, wherein: a first stop block (222) and a second stop block (232) are respectively arranged at the joint of the material taking guide plate (22) and the material feeding guide plate (23);

and a first limiting block (411) and a second limiting block (511) which respectively correspond to the first stop block (222) and the second stop block (232) are fixed on the material taking slide block (41) and the material feeding slide block (51).

4. The automatic metal part stamping die convenient for material taking as claimed in claim 1, wherein: the material taking assembly (4) also comprises a slag collecting box (45); the slag collection box (45) is fixed on the base (11);

a filter screen (46) which is obliquely arranged is fixed in the slag collection box (45).

5. The automatic metal part stamping die convenient for material taking as claimed in claim 4, wherein: a product box (47) is arranged on one side wall of the slag collection box (45) in a clinging manner, an opening is formed in one side wall of the slag collection box (45), and the opening is positioned at the lower end of the filter screen (46) in the inclined direction;

and a product inlet aligned with and communicated with the opening is formed in the side wall of the product box (47).

6. The automatic metal part stamping die convenient for material taking as claimed in claim 4, wherein: a handle (461) is fixed on the upper surface of the filter screen (46), and a circular through hole is formed in the handle (461).

7. The automatic metal part stamping die convenient for material taking as claimed in claim 1, wherein: the feeding assembly (5) further comprises a raw material box (55), and the raw material box (55) is fixed on the base (11) and located below the vacuum adsorption disc (53).

8. The automatic metal part stamping die convenient for material taking as claimed in claim 7, wherein: at least one hook (551) is fixed on the side wall of the raw material box (55);

at least one clamping piece (341) matched with the hook (551) is fixed on the outer wall of the supporting seat (34).