CN113319179A

CN113319179A - Metal plate stamping device

Info

Publication number: CN113319179A
Application number: CN202110883247.2A
Authority: CN
Inventors: 李佰青
Original assignee: Xuzhou Yonglida Construction Machinery Manufacturing Co Ltd
Current assignee: Xuzhou Yonglida Construction Machinery Manufacturing Co Ltd
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2021-08-31

Abstract

The invention is suitable for the technical field of stamping equipment, and particularly relates to a metal plate stamping device, which comprises a workbench, a stamping part, a die holder and a metal plate, wherein the die holder is connected to the workbench in a sliding manner, the surface of the die holder is provided with a die slot, and the metal plate stamping device also comprises: the automatic feeding and discharging structure is arranged on the workbench and the stamping part and used for automatically placing a metal plate to be stamped on the die holder, and after the metal plate is stamped, the metal plate can be quickly taken out of the die cavity of the die holder and collected. According to the automatic feeding and discharging device, the metal plate to be punched can be automatically placed on the die holder through the automatic feeding and discharging structure, after the metal plate is punched, the metal plate can be quickly taken out of the die groove in the die holder and collected, and the metal plate to be punched on the die holder can be automatically positioned, so that the working efficiency of the punching device is improved.

Description

Metal plate stamping device

Technical Field

The invention relates to the technical field of sheet metal stamping equipment, in particular to a metal plate stamping device.

Background

The sheet metal is a process for comprehensive cold working of sheet metal, including shearing, cutting, compounding, folding, splicing and the like, while stamping is one of sheet metal working, and is a forming working method for obtaining a workpiece with a required shape and size by applying an external force to a plate, a strip, a pipe, a section bar and the like by stamping equipment to cause plastic deformation or separation.

When stamping a metal plate, the metal plate is usually placed on a die holder, and then a hydraulic push rod or a pneumatic push rod is used to drive a stamping head to press the metal plate, so that the metal plate is stamped and formed.

When the existing metal plate stamping equipment works, manual feeding and material taking are generally needed, and the working efficiency is low.

Disclosure of Invention

An embodiment of the present invention provides a metal plate stamping device, which aims to solve the following problems: when the existing metal plate stamping equipment works, manual feeding and material taking are generally needed, and the working efficiency is low.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a metal sheet stamping device, includes workstation, stamping workpiece, die holder and metal sheet, and die holder sliding connection is on the workstation, and the die cavity has been seted up on the surface of die holder, metal stamping device still includes:

the automatic feeding and discharging structure is arranged on the workbench and the stamping part and used for automatically placing a metal plate to be stamped on the die holder, rapidly taking out the metal plate from the die groove on the die holder and collecting the metal plate after the metal plate is stamped, and automatically positioning the metal plate to be stamped on the die holder in the feeding and discharging process; and

the sweeps clearance structure is installed on die holder and workstation for use automatic unloading structure to shake on the workstation as power input drive die holder on the workstation, so that the sweeps of the inside adhesion of die cavity of die holder breaks away from with the die holder, so that clear up the sweeps of die cavity inside.

Further, unloading structure includes in the automation:

the feeding assembly is arranged on the workbench and used for automatically placing a metal plate on the die holder;

the material taking assembly is arranged on the stamping part and used for taking the metal plate out of a die groove of the die holder after the stamping part stamps the metal plate;

the blanking assembly is arranged on the feeding assembly and used for removing the metal plate punched on the taking assembly from the lower part of the stamping part and collecting the metal plate; and

and the positioning assembly is arranged on the workbench and the feeding assembly and used for positioning the metal plate to be punched on the die holder by taking the feeding assembly as power input and through mechanical transmission.

Further, the material loading subassembly includes:

the first material absorbing part is used for absorbing the metal plate;

the feeding part is connected to the workbench and used for storing the metal plate and also can provide the metal plate for the first material absorbing part;

the second rotating part is used for installing the first material absorbing part and can also drive the first material absorbing part to rotate so that the first material absorbing part can transfer the metal plate to the upper part of the die holder; and

and the driving piece is arranged on the workbench, and the output end of the driving piece is connected with the second rotating piece and used for driving the second rotating piece to move.

Further, get the material subassembly and include:

the material taking part is used for taking the punched metal plate out of the die holder; and

the elastic piece is arranged on the stamping piece and used for installing the material taking piece and can also drive the material taking piece to move.

Further, the unloading subassembly includes:

the second material sucking part is hinged to the feeding assembly and used for sucking the metal plate punched on the material taking assembly;

the first linkage part is connected with the second material sucking part and used for driving the second material sucking part to rotate on the feeding assembly so that the punched metal plate can slide away from the second material sucking part; and

the pushing piece is arranged on the feeding assembly and used for driving the first linkage piece to move.

Further, the positioning assembly comprises:

the positioning piece is used for limiting the position of a metal plate to be punched on the die holder;

the moving part is used for installing the positioning part and can also drive the positioning part to move;

the second linkage part is rotatably connected to the workbench and used for mounting the moving part and driving the moving part to move; and

and the second transmission part is arranged on the feeding assembly and used for driving the second linkage part to move by taking the feeding assembly as power input.

Further, the sweeps clearance structure includes:

the traction assembly is arranged on the die holder and the workbench and is used for driving the die holder to move on the workbench;

the impact assembly is arranged on the workbench and the automatic feeding and discharging structure and is used for driving the traction assembly to move by taking the automatic feeding and discharging structure as power input; and

and the blowing piece is arranged on the workbench and used for blowing away the scraps in the die groove of the die holder.

Further, the pulling assembly comprises:

the traction part is connected with the die holder and is used for driving the die holder to move; and

the resetting piece is arranged on the workbench and the traction piece and is used for driving the traction piece to move.

Further, the impact assembly includes:

the impact piece is used for enabling the traction component to drive the die holder to vibrate by intermittently knocking the traction component;

the first rotating piece is rotatably connected to the workbench, is used for installing the impact piece and is also used for driving the impact piece to rotate; and

the first transmission piece is arranged on the first rotating piece and the automatic feeding and discharging structure and used for driving the first rotating piece to move by taking the automatic feeding and discharging structure as power input.

According to the metal plate stamping device provided by the invention, the automatic feeding and discharging structure is arranged, so that a metal plate to be stamped can be automatically placed on the die holder, and after the metal plate is stamped, the metal plate can be rapidly taken out of the die groove on the die holder and collected, and the metal plate to be stamped on the die holder can be automatically positioned, so that the working efficiency of the stamping device is improved.

Drawings

Fig. 1 is a schematic structural view of a metal plate stamping apparatus.

Fig. 2 is an enlarged view of a portion a in a metal plate press device.

Fig. 3 is an enlarged view of a portion B in a sheet metal punching apparatus.

Fig. 4 is a partial structural view of a positioning member and a moving member in a sheet metal punching apparatus.

In the figure: 1. a work table; 2. stamping parts; 3. a scrap cleaning structure; 31. a pulling assembly; 311. a reset member; 312. a pulling member; 32. an impact assembly; 321. a first rotating member; 322. a striker; 323. a first transmission member; 33. a wind-making piece; 34. a ventilation member; 4. an automatic feeding and discharging structure; 41. a feeding assembly; 411. a first suction member; 412. a material storage member; 413. pushing the material piece; 414. a second rotating member; 415. a drive member; 42. a material taking assembly; 421. a limiting member; 422. an elastic member; 423. an adsorbing member; 43. a blanking assembly; 431. a second suction member; 432. a pusher member; 433. a movable member; 434. a slider; 44. a positioning assembly; 441. a second transmission member; 442. a third transmission member; 443. a positioning member; 444. a moving member; 445. a fourth transmission member; 5. a die holder; 6. a metal plate.

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.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 4, a metal plate stamping device provided in an embodiment of the present invention includes a workbench 1, a stamping part 2, a die holder 5, and a metal plate 6, wherein the die holder 5 is slidably connected to the workbench 1, a die groove is formed in a surface of the die holder 5, and the metal plate stamping device further includes:

the automatic feeding and discharging structure 4 is arranged on the workbench 1 and the stamping part 2 and is used for automatically placing a metal plate 6 to be stamped on the die holder 5, taking out and collecting the metal plate 6 from a die groove on the die holder 5 after the metal plate 6 is stamped, and automatically positioning the metal plate 6 to be stamped on the die holder 5 in the feeding and discharging process; and

the sweeps clearance structure 3 is installed on die holder 5 and workstation 1 for use automatic unloading structure 4 to shake on workstation 1 for drive die holder 5 for power input, so that the sweeps of the inside adhesion of die cavity of die holder 5 breaks away from die holder 5, so that clear up the sweeps of the inside of die cavity.

In an embodiment of the present invention, the automatic loading and unloading structure 4 may be configured to load and unload materials on the die holder 5 by adopting a pneumatic adsorption and mechanical transmission manner, or push the metal plate 6 on the die holder 5 by using an electric or pneumatic telescopic rod, so that the metal plate 6 can move on the die holder 5, so as to achieve the purpose of automatic loading and unloading, and the metal plate 6 to be stamped may be positioned on the die holder 5 by adopting a mechanical transmission manner, or the position of the metal plate 6 may be limited on the die holder 5 by using a locking clamp, and the scrap cleaning structure 3 may separate the scraps adhered in the die groove from the die holder 5 by using the automatic loading and unloading structure 4 as a power input to drive the die holder 5 to vibrate on the surface of the worktable 1, or may clean the adhered scraps by using a high-pressure air gun to blow the inside of the die groove.

As shown in fig. 1 and 2, in an embodiment of the present invention, the automatic loading and unloading mechanism 4 includes:

the feeding assembly 41 is arranged on the workbench 1 and used for automatically placing the metal plate 6 on the die holder 5;

the material taking assembly 42 is arranged on the stamping part 2 and is used for taking the metal plate 6 out of the die cavity of the die holder 5 after the stamping part 2 stamps the metal plate 6;

a blanking assembly 43 arranged on the feeding assembly 41 and used for removing the metal plate 6 punched on the material taking assembly 42 from the lower part of the stamping part 2 and collecting the metal plate; and

and the positioning assembly 44 is arranged on the workbench 1 and the feeding assembly 41 and is used for positioning the metal plate 6 to be punched on the die holder 5 by taking the feeding assembly 41 as power input and through mechanical transmission.

In this embodiment, the feeding assembly 41 may first adsorb the metal plate 6 and then transfer the metal plate 6 to the die holder 5, or horizontally push the metal plate 6 to be stamped to the die holder 5 to feed the metal plate to the die holder 5, the taking assembly 42 may use an electromagnetic adsorption or a pneumatic adsorption to take the metal plate 6 out of the die slot of the die holder 5, the discharging assembly 43 may first adsorb the stamped metal plate 6 and tilt the metal plate 6 to automatically slide down, or use a rotating receiving plate to move the metal plate 6 on the taking assembly 42, the positioning assembly 44 may rely on the feeding assembly 41 as a power input, after the feeding assembly 41 feeds the metal plate to the die holder 5, the metal plate 6 is limited on the die holder 5 by a screw nut transmission or a gear and rack transmission, so that the feeding assembly 41 may automatically feed the metal plate 6 to the die holder 5, and need not artifical the intervention at the in-process of getting material, unloading, degree of automation is high, can also be when unloading from top to bottom, and is automatic with metal sheet 6 spacing on die holder 5 to this stamping device's work efficiency has been improved.

In this embodiment, the feeding assembly 41 includes:

a first suction member 411 for sucking the metal plate 6;

a feeding member connected to the table 1 for storing the metal plate 6 and also for supplying the metal plate 6 to the first suction member 411;

the second rotating component 414 is used for installing the first material absorbing component 411 and can also drive the first material absorbing component 411 to rotate, so that the first material absorbing component 411 transfers the metal plate 6 to the upper part of the die holder 5; and

and a driving member 415 mounted on the working platform 1, and an output end of the driving member 415 is connected to the second rotating member 414 for driving the second rotating member 414 to move.

In this embodiment, the first material absorbing member 411 may be a pneumatic chuck or an electromagnetic chuck, the feeding member may be composed of a material storing member 412 and a material pushing member 413, the material storing member 412 may be a material storing box or a material storing barrel, the material pushing member 413 may be a combination of an electric telescopic rod and a supporting plate or a combination of a hydraulic lifting rod and a lifting plate, the second rotating member 414 may be a rotating rod or a connecting rod, the driving member 415 may be a driving motor or a stepping motor, when the mold base 5 is loaded, the material pushing member 413 may be opened, the material pushing member 413 drives the metal plate to move upwards until the metal plate contacts with the first material absorbing member 411, then the first material absorbing member 411 is opened, the metal plate is absorbed by the first material absorbing member 411, then the driving member 415 is opened, the driving member 415 drives the second rotating member 414 to rotate, so that the second rotating member 414 drives the first material absorbing member 411 to rotate above the mold base 5, then the first material absorbing member 411 is closed, so that the metal plate can be placed on the die set 5 to be punched and then the first suction member 411 is restored to its original position.

In this embodiment, the material taking assembly 42 includes:

the material taking part is used for taking the punched metal plate 6 out of the die holder 5; and

elastic component 422 sets up on stamping workpiece 2 for the installation gets the material piece, and can also drive and get the material piece and remove.

In this embodiment, get the material piece and can constitute by adsorption piece 423 and locating part 421, and adsorption piece 423 can be electromagnet piece or electromagnetism iron plate, and locating part 421 can be gag lever post or spacing post, and elastic component 422 can be spring or elastic damping piece, when the metal sheet 6 after the needs will be stamped takes out from die holder 5, opens adsorption piece 423 in the in-process that stamping workpiece 2 resumeed the normal position, and adsorption piece 423 adsorbs metal sheet 6 and shifts up to take out metal sheet 6 from the die cavity.

In this embodiment, the blanking assembly 43 includes:

the second material sucking part 431 is hinged on the feeding assembly 41 and used for sucking the punched metal plate 6 on the material taking assembly 42;

the first linkage part is connected with the second material sucking part 431 and is used for driving the second material sucking part 431 to rotate on the feeding assembly 41 so that the punched metal plate 6 can slide away from the second material sucking part 431; and

and the pushing piece 432 is mounted on the feeding assembly 41 and is used for driving the first linkage piece to move.

In this embodiment, the second material suction member 431 may be a pneumatic suction cup or an electromagnetic suction cup, the first linkage member may be composed of a movable member 433 and a sliding member 434, the sliding member 434 may be a sliding rail or a sliding groove, the movable member 433 may be a sliding block or a pulley, the pushing member 432 may be an electric telescopic rod or a pneumatic telescopic rod, and the pushing member 432 is hinged to the movable member 433, when the second material suction member 431 rotates to the lower side of the stamping member 2 and the metal plate 6 is taken away, the second material suction member 431 is restored to the original position and the pushing member 432 is opened, so that the pushing member 432 drives the sliding member 434 and the second material suction member 431 to rotate on the second rotating member 414 together with the movable member 433, so that the metal plate 6 on the second material suction member 431 can slide away, and is convenient to collect.

In this embodiment, the positioning assembly 44 includes:

a positioning member 443 for defining the position of the metal plate 6 to be stamped on the die holder 5;

the moving part 444 is used for installing the positioning part 443 and can also drive the positioning part 443 to move;

the second linkage part is rotatably connected to the workbench 1 and is used for installing the moving part 444 and driving the moving part 444 to move; and

and the second transmission piece 441 is arranged on the feeding assembly 41 and is used for driving the second linkage piece to move by taking the feeding assembly 41 as power input.

In this embodiment, the positioning member 443 may be a positioning plate or a positioning rod, the moving member 444 may be a ball nut or a threaded ring, the second coupling member may be composed of the fourth transmission member 445 and the third transmission member 442, and the fourth transmission member 445 may be a ball screw or a threaded rod, and a bearing is provided at a connection of the fourth transmission member 445 and the working table 1, the third transmission member 442 may be a bevel gear or a transmission gear ring, the second transmission member 441 may be a transmission gear ring or a gear, when the feeding assembly 41 finishes feeding and returns to the original position on the mold base 5, the second rotating member 414 drives the third transmission member 442 to rotate through the second transmission member 441, so that the third transmission member 442 drives the fourth transmission member 445 to rotate on the working platform 1, so that the moving member 444 drives the positioning member 443 to move on the fourth transmission member 445, so that the positioning member 443 positions the metal plate 6 on the die holder 5.

As shown in fig. 1, in one embodiment of the present invention, the scrap cleaning structure 3 includes:

the traction assembly 31 is arranged on the die holder 5 and the workbench 1 and is used for driving the die holder 5 to move on the workbench 1;

the impact assembly 32 is arranged on the workbench 1 and the automatic feeding and discharging structure 4 and is used for driving the traction assembly 31 to move by taking the automatic feeding and discharging structure 4 as power input; and

and the blowing piece is arranged on the workbench 1 and used for blowing away the scraps in the die cavity of the die holder 5.

In this embodiment, the dragging assembly 31 may drive the die holder 5 to move by using an elastic object movement manner or a driving cylinder reciprocating manner, the impacting assembly 32 may impact the dragging assembly 31 through mechanical transmission or cause the dragging assembly 31 to vibrate by using a hydraulic hammer striking manner, so as to separate the scraps adhered in the die cavity from the die holder 5, the blowing member may include a ventilation member 34 and a wind-making member 33, the wind-making member 33 may be a wind-making machine or an induced draft machine, the ventilation member 34 may be a ventilation pipe or a connection cylinder, and the wind-making member 33 blows wind into the ventilation member 34, so that the wind blows out from the ventilation member 34 and blows out in the die cavity to blow away the scraps.

In this embodiment, the dragging assembly 31 includes:

the traction part 312 is connected with the die holder 5 and used for driving the die holder 5 to move; and

the reset piece 311 is installed on the workbench 1 and the pulling piece 312, and is used for driving the pulling piece 312 to move.

The impact assembly 32 includes:

the striking piece 322 is used for enabling the driving component 31 to drive the die holder 5 to vibrate by intermittently knocking the driving component 31;

the first rotating part 321 is rotatably connected to the workbench 1, and is used for installing the striking part 322 and driving the striking part 322 to rotate; and

the first transmission member 323 is disposed on the first rotation member 321 and the automatic loading and unloading structure 4, and is configured to drive the first rotation member 321 to move by taking the automatic loading and unloading structure 4 as a power input.

In this embodiment, the driving member 312 may be a connecting plate or a vibrating plate, the resetting member 311 may be a spring or an elastic block, the striking member 322 may be an eccentric knocking block or a cam, the first rotating member 321 may be a rotating rod or a connecting rod, a roller is disposed at a connection between the first rotating member 321 and the workbench 1, the first rotating member 323 may be a transmission belt or a transmission chain, when the second rotating member 414 rotates, the second rotating member 414 may drive the first rotating member 321 to rotate through the first driving member 323, so that the first rotating member 321 drives the pulling member 312 to vibrate through the resetting member 311, thereby the pulling member 312 drives the die holder 5 to vibrate, and the scraps adhered in the die holder 5 are separated from the die holder 5.

The working mode of the invention is as follows: when the die holder 5 is loaded, the material pushing part 413 can be opened, the material pushing part 413 drives the metal plate to move upwards until the metal plate is contacted with the first material absorbing part 411, then the first material absorbing part 411 is opened, the metal plate is absorbed by the first material absorbing part 411, then the driving part 415 is opened, the driving part 415 drives the second rotating part 414 to rotate, so that the second rotating part 414 drives the first material absorbing part 411 to rotate above the die holder 5, then the first material absorbing part 411 is closed, so that the metal plate can be placed on the die holder 5 to be stamped, then the first material absorbing part 411 returns to the original position, when the stamped metal plate 6 needs to be taken out from the die holder 5, the absorbing part 423 is opened in the process of returning to the original position of the stamping part 2, the absorbing part 423 absorbs the metal plate 6 and moves upwards, so that the metal plate 6 is taken out from the die holder, after the second material absorbing part 431 rotates to the position below the stamping part 2 and takes away the metal plate 6, the second material sucking part 431 is reset and the pushing part 432 is opened, so that the pushing part 432 with the movable part 433 drives the sliding part 434 and the second material sucking part 431 to rotate on the material pushing part 413, so that the metal plate 6 on the second material sucking part 431 can slide away and be convenient for collection, when the material loading assembly 41 finishes loading on the die holder 5 and resets, the second rotating part 414 drives the third transmission part 442 to rotate through the second transmission part 441, so that the third transmission part 442 drives the fourth transmission part 445 to rotate on the workbench 1, so that the moving part 444 drives the positioning part 443 to move on the fourth transmission part 445, and the positioning part 443 positions the metal plate 6 on the die holder 5;

when the second rotating member 414 rotates, the second rotating member 414 can drive the first rotating member 321 to rotate through the first transmission member 323, so that the first rotating member 321 drives the pulling member 312 to vibrate through the reset member 311, so that the pulling member 312 drives the die holder 5 to vibrate, and scraps adhered in the die holder 5 are separated from the die holder 5, the wind generating member 33 blows wind into the ventilation member 34, so that the wind blows out from the ventilation member 34 and blows in the die cavity, and the scraps are blown away.

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 metal sheet stamping device, includes workstation, stamping workpiece, die holder and metal sheet, and die holder sliding connection is on the workstation, and the die cavity has been seted up on the surface of die holder, its characterized in that, metal stamping device still includes:

2. The apparatus as claimed in claim 1, wherein the automatic loading and unloading mechanism comprises:

3. A sheet metal stamping device as claimed in claim 2, wherein the loading assembly comprises:

the first material absorbing part is used for absorbing the metal plate;

4. A sheet metal stamping apparatus as claimed in claim 2, wherein the take-out assembly includes:

5. A sheet metal stamping device as claimed in claim 2, wherein the blanking assembly comprises:

6. A sheet metal stamping apparatus as claimed in claim 2, wherein the positioning assembly comprises:

7. A sheet metal stamping apparatus as claimed in claim 1, wherein the scrap removal structure includes:

8. A sheet metal stamping apparatus as claimed in claim 7, wherein the draw assembly comprises:

9. A sheet metal stamping apparatus as claimed in claim 7, wherein the impact assembly comprises: