CN211990631U - Punching device - Google Patents

Abstract

A stamping device comprises a supporting platform, and a material storage box, a material distribution mechanism, a feeding mechanism and a stamping mechanism which are arranged on the supporting platform; the stamping device utilizes the storage box to place materials, utilizes the material distributing mechanism to separate from the feeding mechanism and move the materials, and utilizes the stamping mechanism to stamp the materials. Use above-mentioned stamping device to carry out the punching press to the material and scrap or stamping forming, compare in traditional manual work and get the blowing, only need place the multi-disc material in the storage box, just can be scrapped by the automatic completion punching press of stamping device to machining efficiency has been accelerated, has improved the safe operation degree. Meanwhile, the stamping device also has the advantages of simple structure and controllable cost.

Description

Punching device

Technical Field

The utility model relates to an automated production technique especially relates to a stamping device.

Background

In the flow of industrial production and processing, materials are often subjected to fixed-point stamping treatment; in the use process of the existing stamping equipment, materials are usually manually put into a stamping position of the equipment, and the materials are manually taken out after stamping is finished, so that only one piece of material can be taken and placed each time; the method has the problems of low processing efficiency, high labor intensity, unsafe manual contact with stamping equipment, easy damage to materials and equipment caused by collision in the process of manually taking and placing the materials, and the like.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is desirable to provide a stamping device capable of automatically picking and placing materials to solve the above problems.

A stamping device comprises a supporting platform, and a material storage box, a material distribution mechanism, a feeding mechanism and a stamping mechanism which are arranged on the supporting platform;

the storage box is arranged on the upper surface of the supporting platform and used for placing materials, and a feeding port is formed in the lower end of the storage box;

the material distribution mechanism is at least partially arranged between the feeding port and the supporting platform and used for separating materials from the material storage box;

one end of the feeding mechanism is arranged below the storage box, and the other end of the feeding mechanism is communicated with the stamping mechanism; the feeding mechanism is used for moving the separated materials into the stamping mechanism;

the stamping mechanism is arranged on the upper surface of the supporting platform and used for stamping materials.

Furthermore, the material distribution mechanism comprises two material distribution units, and the two material distribution units are positioned on two opposite sides of the storage box.

Furthermore, the material distribution mechanism comprises an upper layer telescopic piece and a lower layer telescopic piece, the upper layer telescopic piece is arranged above the lower layer telescopic piece, and the distance between the upper layer telescopic piece and the lower layer telescopic piece is positive integral multiple of the thickness of the material;

the lower-layer telescopic piece is used for supporting materials in the storage box, the upper-layer telescopic piece is used for separating the materials between the upper-layer telescopic piece and the lower-layer telescopic piece from the rest materials, the lower-layer telescopic piece retracts, and the separated materials are moved out from the feeding port.

Furthermore, the upper-layer telescopic piece comprises an upper-layer power part and an upper-layer material supporting rod, and the lower-layer telescopic piece comprises a lower-layer power part and a lower-layer material supporting rod;

the upper layer power part drives the upper layer material supporting rod to move close to or far away from the material; the lower power part drives the lower material supporting rod to move close to or far away from the material.

Furthermore, the feeding mechanism comprises a supporting piece, a first sliding rail, a first driving piece, a first connecting piece and a first material shifting rod;

the supporting piece is connected to the lower surface of the supporting platform;

the first sliding rail and the first driving piece are connected to the supporting piece;

one end of the first connecting piece is slidably arranged on the first sliding rail, and the other end of the first connecting piece penetrates through the supporting platform and is connected with the first material shifting rod;

the first driving piece drives the first connecting piece to move along the first sliding rail below the storage box and the stamping mechanism so as to drive the first material stirring rod to stir materials below the storage box to move into the stamping mechanism.

Further, the stamping mechanism comprises a shell, a stamping cylinder, a plurality of stamping heads and a fixing plate;

the shell is fixed on the upper surface of the supporting platform, and a discharge hole is formed in one side of the shell;

the upper part of the stamping cylinder is connected with the shell, and the lower part of the stamping cylinder is connected with the fixing plate;

a plurality of stamping heads are connected below the fixing plate;

the stamping cylinder drives the fixing plate to move towards the supporting platform so as to drive the stamping head to stamp and shear the material on the supporting platform.

Further, stamping device still includes the ejection of compact dish, the ejection of compact dish is located the discharge gate outside.

Furthermore, the stamping device also comprises a discharging mechanism, one end of the discharging mechanism is arranged below the stamping mechanism, and the other end of the discharging mechanism is arranged outside the discharging hole;

the discharging mechanism is used for moving the material which is punched in the punching mechanism out of the punching mechanism.

Furthermore, the discharging mechanism comprises a second slide rail, a second driving piece, a second connecting piece and a second material stirring rod;

the second slide rail and the second driving piece are fixed below the supporting platform;

one end of the second connecting piece is slidably arranged on the second slide rail, and the other end of the second connecting piece penetrates through the supporting platform and is connected with the second material stirring rod;

the second driving piece drives the second connecting piece to move below the stamping mechanism along the second sliding rail so as to drive the second material poking rod to poke materials below the stamping mechanism to move out of the stamping mechanism through the discharge hole.

Further, the moving direction of the feeding mechanism is perpendicular to the moving direction of the discharging mechanism.

The utility model discloses a stamping device utilizes the storage box to place the material, utilizes feed mechanism and feeding mechanism separation and removal material, utilizes punching press mechanism to carry out the punching press to the material. Use above-mentioned stamping device to carry out the punching press to the material and scrap or stamping forming, compare in traditional manual work and get the blowing, only need place the multichip material in the storage box, just can accomplish the punching press by stamping device is automatic to machining efficiency has been accelerated, has improved safe operation degree. Meanwhile, the stamping device also has the advantages of simple structure and controllable cost.

Drawings

Fig. 1 is a perspective view of a first viewing angle of a stamping device according to an embodiment of the present application.

Fig. 2 is a perspective view of a second perspective view of a stamping device according to an embodiment of the present application.

Fig. 3 is a perspective view of a third viewing angle of a stamping device according to an embodiment of the present application.

Fig. 4 is a disassembled perspective view of the press apparatus shown in fig. 1.

Fig. 5 is a disassembled perspective view of the press apparatus shown in fig. 3.

Description of the main elements

The following detailed description will further illustrate the present application in conjunction with the above-described figures.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

Some embodiments of the present application will be described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

Referring to fig. 1, the present application provides a stamping apparatus 100 for stamping and scrapping or stamping a material 200, wherein the stamping apparatus 100 includes a supporting platform 10, and a material storage box 20, a material distribution mechanism 30, a feeding mechanism 40 and a stamping mechanism 50 which are disposed on the supporting platform 10.

The storage case 20 is disposed on the upper surface of the supporting platform 10, the storage case 20 is used for placing the material 200, and a feeding port (not shown) is disposed at a lower end of the storage case 20.

At least part of the material separating mechanism 30 is disposed between the feeding port and the supporting platform 10, and is used for separating the material 200 from the material storage box 20.

One end of the feeding mechanism 40 is arranged below the storage box 20, and the other end is communicated with the stamping mechanism 50; the feeding mechanism 40 is used to move the separated material 200 into the punching mechanism 50.

The stamping mechanism 50 is arranged on the upper surface of the supporting platform 10, and the stamping mechanism 50 is used for stamping the material 200.

In the operation process of the stamping device 100, a plurality of materials 200 are added into the storage box 20, the material separating mechanism 30 separates the materials 200 from the storage box 20, and then the feeding mechanism 40 moves the separated materials 200 into the stamping mechanism 50 and the stamping is completed by the stamping mechanism 50.

Referring to fig. 1 to 5, a stamping apparatus 100 according to a preferred embodiment of the present application further includes a discharging mechanism 60 and a discharging tray 70.

The magazine 20 is located at the center of the upper surface of the support platform 10. The material separating mechanism 30 is located on two opposite sides of the magazine 20. The feeding mechanism 40 is located on the lower surface of the supporting platform 10, one end of the feeding mechanism is located below the storage box 20, and the other end of the feeding mechanism is communicated with the stamping mechanism 50. The stamping mechanism 50 is located on the upper surface of the support platform 10 and is disposed adjacent to the magazine 20. The discharging mechanism 60 is located on the lower surface of the supporting platform 10, one end of the discharging mechanism is located below the stamping mechanism 50, and the other end of the discharging mechanism is communicated with the discharging tray 70, so that the material 200 which is stamped in the stamping mechanism 50 can be moved out of the stamping mechanism 50. The discharge tray 70 is positioned adjacent the stamping mechanism 50 for receiving the stamped material 200.

The magazine 20 is rectangular and is adapted to store a plurality of stacked materials 200. The storage case 20 further includes eight insertion holes 21 adjacent to two opposite sides of the material separating mechanism 30, and the insertion holes 21 are used for cooperating with the material separating mechanism 30 to separate the materials 200 in the storage case 20.

It will be appreciated that the shape of the cartridge 20 should correspond to the shape of the material 200. In other embodiments of the present application, the cartridge 20 can be other shapes.

The material distributing mechanism 30 includes two material distributing units (not shown) located at two opposite sides of the storage box 20, and each material distributing unit includes an upper layer telescopic member 31 and a lower layer telescopic member 32. The upper layer telescopic part 31 is arranged above the lower layer telescopic part 32, and the distance between the upper layer telescopic part 31 and the lower layer telescopic part 32 is positive integral multiple of the thickness of the material 200. The two material distributing units are matched to complete material distribution.

The lower layer of telescopic members 32 can support all the materials 200 in the storage box 20, the upper layer of telescopic members 31 can support the rest of the materials 200 between the upper layer of telescopic members 31 and the lower layer of telescopic members 32, and after the lower layer of telescopic members 32 return, the materials 200 between the upper layer of telescopic members 31 and the lower layer of telescopic members 32 fall onto the supporting platform 10 and are conveyed away by the feeding mechanism 40.

The upper layer telescopic part 31 comprises an upper layer power part 311 and an upper layer material supporting rod 312; the lower telescoping member 32 includes a lower power section 321 and a lower lifter bar 322. The insertion holes 21 are used for matching the upper layer material supporting rod 312 and the lower layer material supporting rod 322 of the material distributing mechanism 30 to separate the materials 200 in the storage box 20.

The upper power part 311 drives the upper material supporting rods 312 to insert into or withdraw from the corresponding insertion holes 21 to support or separate the materials 200 in the material storage box 20; the lower power portion 321 drives the lower material supporting rod 322 to insert into or withdraw from the corresponding insertion hole 21 to support or separate the material 200 in the storage case 20.

In the present embodiment, the distance between the upper layer telescopic member 31 and the lower layer telescopic member 32 is the thickness of one piece of material 200, that is, the material distribution mechanism 30 separates one piece of material 200 at a time; in other embodiments of the present application, the distance between the upper layer expansion piece 31 and the lower layer expansion piece 32 is a positive integer multiple of the thickness of the material 200, i.e. the material distribution mechanism 30 can release multiple pieces of material 200 at a time according to the processing requirement.

The feeding mechanism 40 includes a support 41, a first slide rail 42, a first driving member 43, a first connecting member 44, and a first material-shifting rod 45. The support 41 is connected to the lower surface of the support platform 10 and is used to fix other mechanisms. The first slide rail 42 and the first driving member 43 are connected to the supporting member 41, and the first slide rail 42 and the first driving member 43 are disposed in parallel and adjacent to each other. One end of the first connecting member 44 is slidably disposed on the first slide rail 42 and connected to the first driving member 43, and the other end thereof is disposed through the supporting platform 10 and connected to the first material-shifting rod 45. The first material-shifting rod 45 is a T-shaped material-shifting rod for abutting against and pushing the material 200 to move.

The first driving member 43 drives the first connecting member 44 to move along the first slide rail 42 under the magazine 20 and the stamping mechanism 50 to drive the first material-poking rod 45 to poke the material 200 under the magazine 20 to move into the stamping mechanism 50.

The punching mechanism 50 includes a housing 51, a punching cylinder 52, a fixing plate 53, and a punching head 54. The housing 51 is rectangular and fixed to the upper surface of the support platform 10. The housing 51 is further provided with a discharge outlet 511 at one side thereof, and the material 200 after being punched leaves the punching mechanism 50 through the discharge outlet 511. The upper portion of the ram cylinder 52 is connected to the housing 51, and the lower portion of the ram cylinder 52 is connected to the fixed plate 53. A plurality of press heads 54 are connected to the lower side of the fixed plate 53.

The punching cylinder 52 drives the fixed plate 53 connected with the punching cylinder to move towards the supporting platform 10 so as to drive the punching head 54 to punch and cut the material 200 on the supporting platform 10.

It will be appreciated that a plurality of stamping heads 54 are used to stamp a plurality of portions of the material 200, respectively. In the present embodiment, the number of the punching heads 54 is three; in other embodiments of the present application, the position and number of the stamping heads 54 can be changed according to the actual stamping location.

The discharging mechanism 60 includes a second slide rail 61, a second driving member 62, a second connecting member 63 and a second material-shifting rod 64. The second slide rail 61 and the second driving member 62 are fixed below the supporting platform 10, and the second slide rail 61 and the second driving member 62 are disposed in parallel and adjacent to each other. One end of the second connecting member 63 is slidably disposed on the second slide rail 61 and connected to the second driving member 62, and the other end thereof is disposed through the supporting platform 10 and connected to the second material-pulling rod 64. The second material-ejecting bar 64 is a "T" shaped material-ejecting bar for abutting against and pushing the material 200 to move.

The second driving member 62 drives the second connecting member 63 to move along the second slide rail 61 below the punching mechanism 50 to drive the second material shifting rod 64 to shift the material 200 that is completely punched below the punching mechanism 50 out of the punching mechanism 50 through the discharge port 511.

Specifically, the feeding mechanism 40 moves in a direction perpendicular to the direction of movement of the discharging mechanism 60.

In the present embodiment, the first driver 43 and the second driver 62 are both rodless cylinders; in other embodiments of the present application, the first driver 43 and the second driver 62 may be other power structures, such as: an electrically controlled slipway or track.

The discharging tray 70 is arranged on the upper surface of the supporting platform 10 and positioned outside the discharging port 511, and is used for receiving the punched material 200; the discharge tray 70 may also be externally connected to a transport mechanism (not shown) for transporting the punched material 200 away from the punching device 100 in sequence.

In this embodiment, the material 200 is a middle frame of a sheet-shaped mobile phone; in other embodiments of the present application, the material 200 may have other configurations.

The complete operation of the punching apparatus 100 is as follows: firstly, a plurality of materials 200 are added into the material storage box 20; the upper layer telescopic part 31 and the lower layer telescopic part 32 of the material distributing mechanism 30 are matched to separate the material 200; the first driving part 43 of the feeding mechanism 40 drives the first connecting part 44 to drive the first material poking rod 45 to poke the separated material 200 to move to the stamping mechanism 50 along the first slide rail 42; the punching air cylinder 52 of the punching mechanism 50 drives the fixed plate 53 and the punching head 54 to move so as to complete punching; the second driving member 62 of the discharging mechanism 60 drives the second connecting member 63 to drive the second material-shifting rod 64 along the second sliding rail 61 to shift the punched material 200 to the discharging tray 70.

The utility model discloses a stamping device 100 utilizes storage box 20 to place material 200, utilizes feed mechanism 30 and 40 separation of feeding mechanism and removes material 200, utilizes punching press mechanism 50 to carry out the punching press to material 200 and scrap or stamping forming. Use above-mentioned stamping device 100 to carry out the punching press to material 200 and handle, compare in traditional manual work and get the blowing, only need place multi-disc material 200 in storage box 20, just can be accomplished the punching press by stamping device 100 is automatic to machining efficiency has been accelerated, has improved safe operation degree. Meanwhile, the stamping device 100 also has the advantages of simple structure and controllable cost.

In addition, various other changes and modifications can be made by those skilled in the art according to the technical idea of the present invention, and all such changes and modifications should fall within the protective scope of the claims of the present invention.

Claims (10)

1. A stamping device, characterized in that: the stamping device comprises a supporting platform, and a storage box, a material distributing mechanism, a feeding mechanism and a stamping mechanism which are arranged on the supporting platform;

the storage box is arranged on the upper surface of the supporting platform and used for placing materials, and a feeding port is formed in the lower end of the storage box;

the material distribution mechanism is at least partially arranged between the feeding port and the supporting platform and used for separating materials from the material storage box;

one end of the feeding mechanism is arranged below the storage box, and the other end of the feeding mechanism is communicated with the stamping mechanism; the feeding mechanism is used for moving the separated materials into the stamping mechanism;

the stamping mechanism is arranged on the upper surface of the supporting platform and used for stamping materials.

2. The stamping apparatus of claim 1, wherein: the material distributing mechanism comprises two material distributing units, and the two material distributing units are positioned on two opposite sides of the material storage box.

3. The stamping apparatus of claim 1, wherein: the material distribution mechanism comprises an upper layer telescopic piece and a lower layer telescopic piece, the upper layer telescopic piece is arranged above the lower layer telescopic piece, and the distance between the upper layer telescopic piece and the lower layer telescopic piece is positive integral multiple of the thickness of the material;

the lower-layer telescopic piece is used for supporting materials in the storage box, the upper-layer telescopic piece is used for separating the materials between the upper-layer telescopic piece and the lower-layer telescopic piece from the rest materials, the lower-layer telescopic piece retracts, and the separated materials are moved out from the feeding port.

4. A stamping apparatus as claimed in claim 3, wherein: the upper-layer telescopic piece comprises an upper-layer power part and an upper-layer material supporting rod, and the lower-layer telescopic piece comprises a lower-layer power part and a lower-layer material supporting rod;

the upper layer power part drives the upper layer material supporting rod to move close to or far away from the material; the lower power part drives the lower material supporting rod to move close to or far away from the material.

5. The stamping apparatus of claim 1, wherein: the feeding mechanism comprises a supporting piece, a first sliding rail, a first driving piece, a first connecting piece and a first material shifting rod;

the supporting piece is connected to the lower surface of the supporting platform;

the first sliding rail and the first driving piece are connected to the supporting piece;

one end of the first connecting piece is slidably arranged on the first sliding rail, and the other end of the first connecting piece penetrates through the supporting platform and is connected with the first material shifting rod;

the first driving piece drives the first connecting piece to move along the first sliding rail below the storage box and the stamping mechanism so as to drive the first material stirring rod to stir materials below the storage box to move into the stamping mechanism.

6. The stamping apparatus of claim 1, wherein: the stamping mechanism comprises a shell, a stamping cylinder, a plurality of stamping heads and a fixing plate;

the shell is fixed on the upper surface of the supporting platform, and a discharge hole is formed in one side of the shell;

the upper part of the stamping cylinder is connected with the shell, and the lower part of the stamping cylinder is connected with the fixing plate;

a plurality of stamping heads are connected below the fixing plate;

the stamping cylinder drives the fixing plate to move towards the supporting platform so as to drive the stamping head to stamp and shear the material on the supporting platform.

7. The stamping apparatus of claim 6, wherein: the stamping device further comprises a discharge disc, and the discharge disc is arranged on the outer side of the discharge hole.

8. The stamping apparatus of claim 6, wherein: the stamping device also comprises a discharging mechanism, one end of the discharging mechanism is arranged below the stamping mechanism, and the other end of the discharging mechanism is arranged outside the discharging hole;

the discharging mechanism is used for moving the material which is punched in the punching mechanism out of the punching mechanism.

9. The stamping apparatus of claim 8, wherein: the discharging mechanism comprises a second sliding rail, a second driving piece, a second connecting piece and a second material stirring rod;

the second slide rail and the second driving piece are fixed below the supporting platform;

one end of the second connecting piece is slidably arranged on the second slide rail, and the other end of the second connecting piece penetrates through the supporting platform and is connected with the second material stirring rod;

the second driving piece drives the second connecting piece to move below the stamping mechanism along the second sliding rail so as to drive the second material poking rod to poke materials below the stamping mechanism to move out of the stamping mechanism through the discharge hole.

10. The stamping apparatus of claim 9, wherein: the moving direction of the feeding mechanism is vertical to that of the discharging mechanism.

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