CN111014423A - Intelligent adjusting cutting edge of thick plate stamping die - Google Patents

Abstract

An intelligent adjusting cutting edge of a thick plate stamping die comprises a stamping seat body, wherein a lower die set and an upper die set are arranged above the stamping seat body, a lower die connecting plate is arranged in the middle of the lower die set, and a convex seat is arranged in the middle of the lower die connecting plate; a cutting edge curved surface is arranged above the convex seat; a plurality of threaded support columns are arranged below the cutting edge curved surface and are in threaded connection with the lower die connecting plate; the bottom of screw thread support column is provided with pressure sensors, and pressure sensors is connected with the PC control end through transmission data line. Compared with the prior art, the intelligent cutting edge adjustment method for the thick plate stamping die is characterized in that a plurality of threaded support columns are adopted to construct support aiming at a plate with the thickness larger than 10mm, so that the plate is enabled to form curved surfaces with different shapes, pressure is dynamically captured in real time by using the pressure sensor, a certain pressure cloud picture is formed, the required curved surface shape is formed through data processing, and data is transmitted to the mechanical arm to adjust the threaded support columns so as to form the cutting edge with the specific shape.

Description

Intelligent adjusting cutting edge of thick plate stamping die

Technical Field

The invention relates to the field of mechanical equipment manufacturing, in particular to a blanking system scheme for thick plates, and specifically relates to an intelligent adjusting cutting edge of a thick plate stamping die.

Background

With the development of economy, equipment manufacturing develops towards the direction of automation and intelligence, basic part manufacturing is the source of product production, the manufacturing cost and quality of the basic part manufacturing directly relate to the development of enterprises, the pressure required by the stamping of medium and thick plates processed by a stamping die is extremely high at present, the requirement on stamping equipment is extremely high, and the required production investment cost and energy consumption are relatively high.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent adjusting cutting edge of a thick plate stamping die aiming at the defects of the prior art.

In order to solve the technical problems, the invention adopts the technical scheme that: an intelligent adjusting cutting edge of a thick plate stamping die comprises a stamping seat body, wherein a lower die set and an upper die set are arranged above the stamping seat body, and the lower die set and the upper die set are matched with each other; a lower die connecting plate is arranged in the middle of the lower die set, and a convex seat is arranged in the middle of the lower die connecting plate; a cutting edge curved surface is arranged above the convex seat; a plurality of threaded support columns are arranged below the cutting edge curved surface and are in threaded connection with the lower die connecting plate; the bottom of screw thread support column is provided with pressure sensors, and pressure sensors is connected with the PC control end through transmission data line.

Furthermore, the screw thread support columns are uniformly distributed on two sides of the convex seat and used for adjusting the shape of the curved surface of the cutting edge.

Further, the pressure sensor is mounted on the stamping seat body; the pressure sensor is provided with a port, and the port is used for being connected with a transmission data line.

Furthermore, a mechanical arm is arranged on one side of the stamping seat body and is electrically connected with the PC control end.

Compared with the prior art, the intelligent cutting edge adjustment method for the thick plate stamping die is characterized in that a plurality of threaded support columns are adopted to construct support aiming at a plate with the thickness larger than 10mm, so that the plate is enabled to form curved surfaces with different shapes, pressure is dynamically captured in real time by using the pressure sensor, a certain pressure cloud picture is formed, the required curved surface shape is formed through data processing, and data is transmitted to the mechanical arm to adjust the threaded support columns so as to form the cutting edge with the specific shape.

Drawings

FIG. 1 is a schematic structural view of the present invention;

wherein, 1, punching press pedestal, 2, lower module, 3, go up the module, 4, lower mould connecting plate, 5, boss, 6, blade curved surface, 7, screw thread support column, 8, pressure sensors, 9, PC control end, 10, robotic arm.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below.

As shown in fig. 1, an intelligent adjusting cutting edge of a thick plate stamping die comprises a stamping seat body 1, wherein a lower die set 2 and an upper die set 3 are arranged above the stamping seat body 1, and the lower die set 2 and the upper die set 3 are mutually matched; a lower die connecting plate 4 is arranged in the middle of the lower die set 3, two sides of the lower die connecting plate 4 are installed on the lower die set 2 through bolts, and a convex seat 5 is installed in the middle of the lower die connecting plate 4; a cutting edge curved surface 6 is arranged above the convex seat 5; a plurality of threaded support columns 7 are arranged below the cutting edge curved surface 6, and the threaded support columns 7 are in threaded connection with the lower die connecting plate 4; the threaded support columns 7 are uniformly distributed on two sides of the convex base 5, and the threaded support columns 7 are used for adjusting the shape of the cutting edge curved surface 6; the bottom of screw thread support column 7 is provided with pressure sensor 8, and pressure sensor 8 is connected with PC control end 9 through transmission data line.

The pressure sensor 8 is arranged on the stamping seat body 1; and a port is formed in the pressure sensor 8 and is used for being connected with a transmission data line.

And a mechanical arm 10 is arranged on one side of the stamping seat body 1, the mechanical arm 10 is electrically connected with the PC control end 9, and the mechanical arm 10 is used for adjusting the height of the threaded support column 7.

The working principle is as follows: when the pressure sensor works, the PC control end 9 collects data transmitted by the pressure sensor 8, and the pressure of each point forms a stress distribution curved surface at the PC end, so that the magnitude of contact stress is predicted, and a corresponding adjusting scheme is given; according to the analysis result of the PC control end 9, the adjustment data of each threaded support column 7 is transmitted to the mechanical arm 10, the corresponding threaded support column 7 is searched by the mechanical arm 10, and the height of the threaded support column is adjusted, so that a new cutting edge curved surface 6 is formed, thick plate stamping is performed by using the new curved cutting edge 10, particularly a plate with the thickness larger than 10mm, the required stamping pressure is reduced by 20% through the arrangement, the requirement on stamping equipment is reduced, and the energy consumption is reduced by 15% at the same time.

The present invention is not limited to the embodiments described above, and those skilled in the art may make modifications or changes within the scope of the disclosure without departing from the spirit of the present invention, so that the scope of the present invention is defined by the appended claims.

Claims (4)

1. The utility model provides a thick plate stamping die intelligent regulation blade, includes the punching press pedestal, punching press pedestal top is provided with down the module and goes up the module, and lower module agrees with its characterized in that each other with last module: a lower die connecting plate is arranged in the middle of the lower die set, and a convex seat is arranged in the middle of the lower die connecting plate; a cutting edge curved surface is arranged above the convex seat; a plurality of threaded support columns are arranged below the cutting edge curved surface and are in threaded connection with the lower die connecting plate; the bottom of screw thread support column is provided with pressure sensors, and pressure sensors is connected with the PC control end through transmission data line.

2. The smart cutting edge of claim 1 wherein: the screw thread support columns are evenly distributed on two sides of the convex seat and used for adjusting the shape of the curved surface of the cutting edge.

3. The smart cutting edge of claim 1 wherein: the pressure sensor is arranged on the stamping seat body; the pressure sensor is provided with a port, and the port is used for being connected with a transmission data line.

4. The smart cutting edge of claim 1 wherein: and one side of the stamping seat body is provided with a mechanical arm which is electrically connected with the PC control end.

Images