CN110435316B

CN110435316B - Antirust stamping machine

Info

Publication number: CN110435316B
Application number: CN201910669819.XA
Authority: CN
Inventors: 熊立贵; 涂志刚; 张尚先; 彭杏妮; 李裕耀
Original assignee: Guangdong Polytechnic Institute
Current assignee: Zhongshan Glamor Optoelectronics Technology Co ltd
Priority date: 2019-07-24
Filing date: 2019-07-24
Publication date: 2020-11-10
Anticipated expiration: 2039-07-24
Also published as: CN110435316A

Abstract

The invention provides an antirust stamping machine which comprises a base, wherein a processing workbench is arranged on the base, and a jig stamping part, a jig derusting part and a jig discharging part are also arranged on the base; the processing workbench is used for placing a processing jig; the jig stamping part is used for stamping the jig, the jig derusting part is used for derusting the jig, and the jig discharging part is used for pulling the jig out of the processing workbench. According to the invention, the jig is placed on the processing workbench, then the jig is subjected to stamping processing and rust removal processing through the jig stamping part and the jig rust removal part in sequence, and the jig is discharged out of the processing workbench through the jig discharge part after the processing is finished, so that the whole process is automatically controlled, the operation is continuously and uninterruptedly finished, the speed and the efficiency are high, and the production cost and the labor intensity are greatly reduced.

Description

Antirust stamping machine

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of jig processing, in particular to an antirust stamping machine.

[ background of the invention ]

In the processing production, the tool needs to be derusted and stamped, at present, the derusting and the stamping are respectively carried out in a manual operation mode, and a manual derusting machine and a stamping machine are manually operated, so that the operation is slow, and the working efficiency is low.

In order to improve the production efficiency and reduce the production cost, an automatic antirust stamping machine with high production speed is urgently needed in the market, and a solution is provided for solving the problem.

[ summary of the invention ]

The invention aims to overcome the defects of the prior art and provides an antirust stamping machine.

In order to solve the technical problems, the invention adopts the following technical scheme:

an antirust stamping machine comprises a base, wherein a processing workbench is arranged on the base, and a jig stamping part, a jig derusting part and a jig discharging part are also arranged on the base; the processing workbench is used for placing a processing jig; the jig stamping part is used for stamping the jig and at least comprises a stamping head and a stamping motion driving system which drives the stamping head to horizontally move horizontally and vertically to lift and move so that the stamping head can stamp towards the jig or leave the jig after the stamping work is finished; the tool rust removing part is used for carrying out rust removing processing on the tool and comprises a rust remover storage part, a rotatable rust removing part and a rust removing motion driving system which drives the rotatable rust removing part to transversely and horizontally move and vertically move so that the rotatable rust removing part leans against the tool for rust removing work or leaves the tool after the rust removing work is finished and enables the rotatable rust removing part to enter the rust remover storage part, and the rotatable rust removing part can enter the rust remover storage part so that the rust removing agent covers the rotatable rust removing part; the jig discharge part is used for pulling the jig out of the machining workbench.

In a further improvement, the stamping motion driving system comprises a vertically arranged stamping conveying cylinder, a guide pillar is connected to the lower end of the stamping conveying cylinder, a pressing cylinder is fixed to the lower end of the guide pillar, a stamping head is fixedly connected to the lower end of the pressing cylinder, the pressing cylinder can drive the stamping head to act on the jig or leave the jig, and the stamping conveying cylinder can drive the guide pillar to vertically move up and down so that the pressing cylinder approaches the jig or leaves the jig.

In a further improvement, the stamping motion driving system further comprises a groove cylinder support vertically installed on the base, a groove cylinder is arranged on the groove cylinder support, a horizontal cylinder is transversely arranged in the groove cylinder, the end part of the horizontal cylinder is connected with the printing feeding cylinder through a support, and the horizontal cylinder can drive the printing feeding cylinder to move in the horizontal direction.

In a further improvement scheme, the rotatable derusting part comprises a vertically arranged rotating motor, and the lower end of the rotating motor is connected with a hairbrush.

In a further improvement, the rust remover storage part is a rust remover storage barrel.

In a further improvement scheme, the rust removing motion driving system comprises a brush cylinder, the lower end of the brush cylinder is fixedly connected with a rotating motor and drives the rotating motor to descend for rotating rust removing operation/rotating and dipping rust remover or ascend; the upper part of the brush cylinder is fixedly connected with a transverse support, the base is provided with a brush upright post, the brush upright post is connected with a rotary swing rod, the rotary swing rod can swing in a left-right rotating mode by taking the joint as a center, and the end part of the inner side of the transverse support is fixedly connected to the rotary swing rod so that the brush cylinder can just face a rust remover storage barrel or a processing workbench below.

In a further improvement, tool discharge part is including discharge chute and rotatory striking gear, the upper end and the machining workbench butt of discharge chute fall into wherein in order to accept the tool, rotatory striking gear is including toggle motor and the driving lever of being connected with toggle motor, the driving lever with place the tool parallel and level on the machining workbench and can dial the tool on the machining workbench into discharge chute under the drive of toggle motor.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the jig is placed on the processing workbench, then the jig is subjected to stamping processing and rust removal processing through the jig stamping part and the jig rust removal part in sequence, and the jig is discharged out of the processing workbench through the jig discharge part after the processing is finished, so that the whole process is automatically controlled, the operation is continuously and uninterruptedly finished, the speed and the efficiency are high, and the production cost and the labor intensity are greatly reduced.

The invention is described in further detail below with reference to the following detailed description and accompanying drawings:

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a stamping portion of a fixture according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a rust removing part of the jig in the embodiment of the invention.

[ detailed description ] embodiments

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout.

The orientation shown in the drawings is not to be construed as limiting the specific scope of the invention, but is for the best understanding of the preferred embodiments only, and changes in location or addition of numbers or structural simplifications may be made to the product parts shown in the drawings.

The relation of "connected" between the components shown in the drawings and described in the specification can be understood as fixedly connected or detachably connected or integrally connected; the connecting elements can be directly connected or connected through an intermediate medium, and persons skilled in the art can understand the connecting relation according to specific conditions, and can use the connecting elements in a screwed connection or riveting connection or welding connection or clamping connection or embedding connection mode to replace different embodiments in a proper mode.

The terms of orientation such as up, down, left, right, top, bottom, and the like in the description and the orientation shown in the drawings, may be used for direct contact or contact with each other through another feature therebetween; above may be directly above and obliquely above, or it simply means above the other; other orientations may be understood by analogy.

The material for manufacturing the solid-shaped component shown in the specification and the drawings can be a metal material or a non-metal material or other composite materials; the machining processes used for components having solid shapes can be stamping, forging, casting, wire cutting, laser cutting, casting, injection molding, digital milling, three-dimensional printing, machining, and the like; one skilled in the art can select the materials and the manufacturing process adaptively or in combination according to different processing conditions, cost and precision.

The invention provides an antirust stamping machine, which comprises a base 10, wherein a processing workbench 20 is arranged on the base 10, and a jig stamping part, a jig derusting part and a jig discharging part are also arranged on the base 10, as shown in figures 1, 2 and 3; the processing workbench 20 is used for placing a processing jig; the jig stamping part is used for stamping the jig and at least comprises a stamping head 30 and a stamping motion driving system which drives the stamping head 30 to horizontally move and vertically lift so that the stamping head 30 leans against the jig for stamping work or leaves the jig after the stamping work is finished; the tool rust removing part is used for carrying out rust removing processing on the tool and comprises a rust remover storage part, a rotatable rust removing part and a rust removing motion driving system which drives the rotatable rust removing part to transversely and horizontally move and vertically move so that the rotatable rust removing part leans against the tool for rust removing work or leaves the tool after the rust removing work is finished and enables the rotatable rust removing part to enter the rust remover storage part, and the rotatable rust removing part can enter the rust remover storage part so that the rust removing agent covers the rotatable rust removing part; the jig discharge portion is used to pull the jig out of the machining table 20.

During processing, the jig is placed on a processing workbench 20 (which can be manually added and placed or can be conveyed in place by a conveying device), then the stamping head 30 moves to the upper part of the jig under the action of a stamping motion driving system and presses downwards to carry out stamping work, then the stamping head 30 moves away under the action of the stamping motion driving system, then the rotatable rust removing piece is immersed in the rust removing agent storage piece and then moves out under the action of the rust removing motion driving system, then the rotatable rust removing piece rotates to throw off excessive rust removing agent, then the rotatable rust removing piece leans against and contacts the jig to carry out rust removing work under the action of the rust removing motion driving system, then the rotatable rust removing piece moves away under the action of the rust removing motion driving system, and after stamping and rust removing are completed, the jig discharging part discharges the jig on the processing workbench 20, so that the next jig to be processed is put into the processing table 20.

According to the invention, the jig is placed on the processing workbench 20, then the jig is subjected to stamping processing and rust removal processing through the jig stamping part and the jig rust removal part in sequence, and after the processing is finished, the jig is discharged out of the processing workbench 20 through the jig discharge part, so that the whole process is automatically controlled, the operation is continuously and uninterruptedly finished, the operation is rapid and efficient, and the production cost and the labor intensity are greatly reduced.

In an embodiment, as shown in fig. 1 and 2, the stamping motion driving system includes a vertically disposed print feeding cylinder 40, a guide pillar 50 is connected to a lower end of the print feeding cylinder 40, a press cylinder 60 is fixed to a lower end of the guide pillar 50, a stamping head 30 is fixedly connected to a lower end of the press cylinder 60, the press cylinder 60 can drive the stamping head 30 to act on or leave the jig, and the print feeding cylinder 40 can drive the guide pillar 50 to vertically move up and down so that the press cylinder 60 approaches or leaves the jig.

In an embodiment, as shown in fig. 1 and 2, the stamping motion driving system further includes a groove cylinder support 70 vertically mounted on the base 10, a groove cylinder 80 is disposed on the groove cylinder support 70, a horizontal cylinder 90 is transversely disposed in the groove cylinder 80, an end of the horizontal cylinder 90 is connected to the printing feed cylinder 40 through a bracket 100, and the horizontal cylinder 90 can drive the printing feed cylinder 40 to move in a horizontal direction for adjustment.

In the embodiment, as shown in fig. 1 and 3, the rotatable derusting part comprises a vertically arranged rotating motor 110, and a brush 120 is connected to the lower end of the rotating motor 110; the rust remover storage part is a rust remover storage barrel 130; the rust removing motion driving system comprises a brush cylinder 140, wherein the lower end of the brush cylinder 140 is fixedly connected with the rotating motor 110 and drives the rotating motor 110 to descend for rotating rust removing operation/rotating and dipping rust remover or ascend; a transverse bracket 150 is fixedly connected above the brush cylinder 140, a brush column 160 is arranged on the base 10, a rotary swing rod 170 is connected on the brush column 160, the rotary swing rod 170 can swing left and right around the joint, and the end part of the inner side of the transverse bracket 150 is fixedly connected on the rotary swing rod 170 so that the brush cylinder 140 is opposite to the rust remover storage barrel 130 or the processing workbench 20 below.

In the embodiment, as shown in fig. 1 and 2, the jig discharging part includes a discharging chute 180 and a rotary shifting device, the upper end of the discharging chute 180 abuts against the processing workbench 20 to receive the jig falling therein, the rotary shifting device includes a shifting motor 190 and a shifting lever 200 connected to the shifting motor 190, the shifting lever 200 is flush with the jig placed on the processing workbench 20 and can shift the jig on the processing workbench 20 into the discharging chute 180 under the driving of the shifting motor 190.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims

1. An antirust stamping machine is characterized by comprising a base, wherein a processing workbench is arranged on the base, and a jig stamping part, a jig derusting part and a jig discharging part are also arranged on the base; the processing workbench is used for placing a processing jig; the jig stamping part is used for stamping the jig and at least comprises a stamping head and a stamping motion driving system which drives the stamping head to horizontally move horizontally and vertically to lift and move so that the stamping head can stamp towards the jig or leave the jig after the stamping work is finished; the tool rust removing part is used for carrying out rust removing processing on the tool and comprises a rust remover storage part, a rotatable rust removing part and a rust removing motion driving system which drives the rotatable rust removing part to transversely and horizontally move and vertically move so that the rotatable rust removing part leans against the tool for rust removing work or leaves the tool after the rust removing work is finished and enables the rotatable rust removing part to enter the rust remover storage part, and the rotatable rust removing part can enter the rust remover storage part so that the rust removing agent covers the rotatable rust removing part; the jig discharge part is used for pulling the jig out of the machining workbench.

2. The rust-proof stamping machine as claimed in claim 1, wherein the stamping motion driving system comprises a vertically arranged feeding cylinder, a guide post is connected to the lower end of the feeding cylinder, a pressing cylinder is fixed to the lower end of the guide post, a stamping head is fixedly connected to the lower end of the pressing cylinder, the pressing cylinder can drive the stamping head to act on or leave the jig, and the feeding cylinder can drive the guide post to vertically move up and down to enable the pressing cylinder to approach or leave the jig.

3. The rust-resistant stamping machine as claimed in claim 2, wherein the stamping motion driving system further comprises a groove cylinder support vertically mounted on the base, a groove cylinder is arranged on the groove cylinder support, a horizontal cylinder is transversely arranged in the groove cylinder, the end of the horizontal cylinder is connected with the printing feed cylinder through a bracket, and the horizontal cylinder can drive the printing feed cylinder to move in the horizontal direction.

4. The rust resistant stamping machine as recited in claim 3, wherein the rotatable rust removing member includes a vertically disposed rotary motor having a brush attached to a lower end thereof.

5. The rust resistant stamping machine as recited in claim 4, wherein the rust inhibitor storage member is a rust inhibitor storage tub.

6. The rust-proofing stamping machine according to claim 5, wherein the rust-removing motion driving system comprises a brush cylinder, the lower end of the brush cylinder is fixedly connected with a rotating motor and drives the rotating motor to descend for rotating rust-removing operation/rotating rust-removing agent-soaking operation or ascend; the upper part of the brush cylinder is fixedly connected with a transverse support, the base is provided with a brush upright post, the brush upright post is connected with a rotary swing rod, the rotary swing rod can swing in a left-right rotating mode by taking the joint as a center, and the end part of the inner side of the transverse support is fixedly connected to the rotary swing rod so that the brush cylinder can just face a rust remover storage barrel or a processing workbench below.

7. The anti-rust stamping machine according to claim 6, wherein the jig discharging part comprises a discharging chute and a rotary shifting device, the upper end of the discharging chute is abutted with the processing workbench to receive the jig to fall into the discharging chute, the rotary shifting device comprises a shifting motor and a shifting rod connected with the shifting motor, and the shifting rod is flush with the jig placed on the processing workbench and can shift the jig on the processing workbench into the discharging chute under the driving of the shifting motor.