CN108160849B

CN108160849B - Automatic embossing device

Info

Publication number: CN108160849B
Application number: CN201810083420.9A
Authority: CN
Inventors: 沈凡
Original assignee: Jiashan Aoying Hardware Products Factory
Current assignee: Jiashan Aoying Hardware Products Factory
Priority date: 2018-01-29
Filing date: 2018-01-29
Publication date: 2020-05-22
Anticipated expiration: 2038-01-29
Also published as: CN108160849A

Abstract

The invention discloses an automatic embossing device.A feeding mechanism comprises a base fixed on a workbench, wherein a conveying belt is erected in a feeding groove formed in the top surface of the base; the embossing mechanism comprises an embossing base and an embossing cylinder, wherein the movable end of the embossing cylinder is detachably connected with an embossing block, and the bottom of the embossing block is detachably provided with a concave-convex circuit board; the discharging mechanism comprises a discharging cylinder, a first discharging groove, a second discharging groove, a material collecting hopper and an induction probe, wherein the movable end of the discharging cylinder is fixedly connected with the first discharging groove and can drive the first discharging groove to horizontally move back and forth, the second discharging groove is arranged on the right side of the first discharging groove, and the high end of the second discharging groove is fixedly connected with the high-end side part of the first discharging groove; the inductive probe is arranged at the discharge end of the feeding groove. The invention has compact structure and convenient use, can effectively convey materials, can well cooperate with a processing device to operate, and greatly improves the precision of assembly line processing.

Description

Automatic embossing device

Technical Field

The invention relates to the field of mechanical equipment, in particular to an automatic embossing device.

Background

The in-process of mechanical production processing often needs carry out the impressed watermark processing to the accessory, and traditional mode is earlier with the accessory place flatten on the workstation that flattens, then shifts to carry out the impressed watermark operation on the impressed watermark workstation, complex operation wastes time and energy. Some parts are conveyed to the embossing motor or the pressing motor through the conveying belt to be processed, however, most of the devices are complex in structure, large in size and high in cost, and the conveying distance of the parts is difficult to accurately control. Meanwhile, when the conveying belt is processed, the conveying belt is easy to be sunken due to processing stress, so that the conveying belt is easy to damage and normal processing operation is influenced.

Disclosure of Invention

The present invention is directed to solving the above-mentioned problems by providing an automatic embossing apparatus.

The technical problem solved by the invention can be realized by adopting the following technical scheme:

an automatic embossing device comprises a workbench, a feeding mechanism, an embossing mechanism and a discharging mechanism, wherein the feeding mechanism comprises a base fixed on the workbench, a feeding groove is formed in the top surface of the base along the length direction of the base, and a conveying belt is erected in the feeding groove;

the embossing mechanism comprises an embossing base and an embossing cylinder, the embossing base is fixed on a workbench on one side of the base, the embossing cylinder is fixed on the embossing base, the movable end of the embossing cylinder is detachably connected with an embossing block, and the bottom of the embossing block is detachably provided with a concave-convex circuit board;

the discharging mechanism is arranged on the right side of the machine base and comprises a discharging cylinder, a first discharging groove, a second discharging groove, a receiving hopper and an induction probe, the discharging cylinder and the receiving hopper are fixed on the workbench, the movable end of the discharging cylinder is fixedly connected with the first discharging groove and can drive the first discharging groove to horizontally move back and forth, the second discharging groove is arranged on the right side of the first discharging groove, the high end of the second discharging groove is fixedly connected with the high-end side part of the first discharging groove, and a feeding notch is formed in the high end of the second discharging groove; the induction probe is arranged at the discharge end of the feeding groove;

and a controller is also arranged on one side of the workbench and is respectively and electrically connected with the induction probe, the discharging cylinder and the embossing cylinder.

Furthermore, the embossing block is of an inverted herringbone structure, a T-shaped clamping groove is formed in the top of the embossing block, and a clamping block matched with the clamping groove is connected to the movable end of the embossing cylinder; the bottom of the embossing block comprises an embossing part and guide rods symmetrically arranged on two sides of the embossing part, and the concave-convex pattern board is arranged at the bottom of the embossing part through a bolt piece; the right side cover of the top surface of the machine base is provided with a top cover, and the top cover is provided with a guide hole and an extending through hole which are respectively matched with the shapes of the guide rod and the embossing part.

The device comprises a base, a fixed mechanism and a base, wherein the fixed mechanism comprises a propelling cylinder, a clamping cylinder, a translation plate and two clamping arms which are oppositely arranged; the clamping cylinder is fixed on the translation plate, the clamping cylinder is a bidirectional cylinder, two movable ends of the clamping cylinder are respectively connected with the two clamping arms, an extension hole is formed in the side portion of the base, and the width of the extension hole is not smaller than the farthest distance of the two clamping arms; the propulsion cylinder and the clamping cylinder are respectively electrically connected with the controller.

Further, the embossing mechanism comprises a flattening mechanism, the flattening mechanism is arranged on the left side of the embossing mechanism, the flattening mechanism comprises a flattening base, a flattening cylinder and a flattening block, and the flattening base, the flattening cylinder and the flattening block are the same as the embossing base, the embossing cylinder and the embossing block in structure.

Furthermore, the inner side of the conveying belt is provided with a base plate, and two ends of the base plate are detachably connected with the base.

Compared with the prior art, the invention has the following beneficial effects:

the bottom detachably of knurling piece installs the raised grain circuit board, chooses the raised grain circuit board of required line for use according to actual need, pushes down the corresponding line of formation through the raised grain circuit board to the material. The embossing block horizontally slides into the clamping block through the clamping groove and can be quickly connected with the embossing cylinder; the guide rod plays a guiding role in the embossing part during use, and the embossing block moves up and down during operation, so that the influence on the connection reliability of the activities of the embossing block and the embossing cylinder is avoided, the embossing block can be prevented from sliding out of the fixture block, and the use reliability is improved.

By arranging a corresponding detection probe at the discharge end of the feeding groove, for example, arranging a defective product detection probe, the processed defective product and the good product are respectively sent out from the first discharge chute and the second discharge chute; or set up the color sensor, send out the material of different colors from first blowpit and second blowpit respectively, improved conveyor's application range greatly.

The base plate can effectively prevent the conveyer belt from sinking due to stress in the processing process.

Carry the material from left to right through the conveyer belt, suspend when carrying the knurling piece or flattening piece below and carry, the centre gripping cylinder drives two centre gripping arms and opens, impels the cylinder and drives centre gripping cylinder and move to frame one side until the centre gripping arm stretches into the pay-off recess, and then the centre gripping arm folds and fixes the material, also plays the adjustment effect to the position of material simultaneously. The material is pressed by the pressing blocks driven by the pressing cylinders to be pressed, and then the material is moved to the lower side of the pressing blocks through the conveying belt to be pressed. After the materials are processed, the materials are conveyed to the discharging mechanism to be discharged, and the use is very convenient.

The invention has compact structure and convenient use, can effectively convey materials, can well cooperate with a processing device to operate, and greatly improves the precision of assembly line processing.

Drawings

Fig. 1 is a schematic structural diagram of an automated embossing apparatus according to the present invention.

Fig. 2 is a partial structural schematic view of an automated embossing apparatus according to the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 and 2, the automatic embossing device of the present invention includes a worktable 10, a feeding mechanism, an embossing mechanism, and a discharging mechanism. The feeding mechanism comprises a base 21 fixed on the workbench 10, a feeding groove 211 is arranged on the top surface of the base 21 along the length direction, and a conveying belt is erected in the feeding groove 211. The conveyor belt is driven by a stepping motor on one side of the machine base 21.

The embossing mechanism comprises an embossing base 31 and an embossing cylinder 32, wherein the embossing base 31 is fixed on the workbench 10 at one side of the machine base 21. The embossing cylinder 32 is fixed on the embossing base 31, and the movable end of the embossing cylinder 32 is detachably connected with the embossing block 33. Unsmooth line board is installed to emboss piece 33's bottom detachably, chooses for use the unsmooth line board of required line according to actual need, pushes down the material through unsmooth line board and forms corresponding line.

The discharging mechanism is arranged on the right side of the base 21 and comprises a discharging cylinder 41, a first discharging groove 42, a second discharging groove 43, a receiving hopper 44 and an inductive probe. The discharge cylinder 41 and the receiving hopper 44 are fixed to the table 10. The movable end of the discharging cylinder 41 is fixed with the first discharging chute 42 and can drive the first discharging chute 42 to move horizontally back and forth. The second discharging chute 43 is arranged at the right side of the first discharging chute 42, and the high end of the second discharging chute is fixedly connected with the side part of the high end of the first discharging chute 42. A feeding notch is formed at the high end of the second discharging chute 43. The induction probe is arranged at the discharge end of the feeding groove 211.

A controller is arranged on one side of the working table 10, and the controller is electrically connected with the induction probe, the discharging air cylinder 41 and the embossing air cylinder 32 respectively. The inductive probe can be set according to the actual use requirement, for example, a defective product detection probe is set, and the processed defective product and the good product are respectively sent out from the first discharge chute 42 and the second discharge chute 43; or a color sensor is arranged to send out materials with different colors from the first discharge chute 42 and the second discharge chute 43 respectively.

The embossing block 33 is of an inverted chevron-shaped structure, a T-shaped clamping groove is formed in the top of the embossing block 33, and a clamping block 321 matched with the clamping groove is connected to the movable end of the embossing cylinder 32. The bottom of the embossing block 33 includes an embossing portion 331 and guide bars 332 symmetrically disposed on both sides of the embossing portion 331, and the embossed pattern plate is mounted on the bottom of the embossing portion 331 by a bolt. The right side of the top surface of the machine base 21 is covered with a top cover 70, and the top cover 70 is provided with a guide hole 71 and an extending through hole 72 which are respectively matched with the shapes of the guide rod 332 and the embossing part 331. The embossing block 33 horizontally slides into the fixture block 321 through the clamping groove to be quickly connected with the embossing cylinder 32; when the embossing device is used, the guide rod 332 plays a role in guiding the embossing part 331, and the embossing block 33 moves up and down during operation, so that the movable connection reliability of the embossing block 33 and the embossing cylinder 32 is not affected, the embossing block 33 can be prevented from sliding out of the fixture block 321, and the use reliability is improved.

The device further comprises a fixing mechanism, wherein the fixing mechanism comprises a propulsion cylinder 51, a clamping cylinder, a translation plate 52 and two clamping arms 53 which are oppositely arranged. The propulsion cylinder 51 is mounted on the table 10 on one side of the frame 21 through a cylinder block 511, and a horizontal guide rail is mounted on the cylinder block 511. The translation plate 52 is arranged on the horizontal guide rail, and the movable end of the propulsion cylinder 51 is connected with the translation plate 52 and can drive the translation plate 52 to move back and forth along the extension direction of the horizontal guide rail. The clamping cylinder is fixed on the translation plate 52, the clamping cylinder is a bidirectional cylinder, and two movable ends of the clamping cylinder are respectively connected with the two clamping arms 53. An extending hole is formed in the side of the base 21, and the width of the extending hole is not less than the farthest distance between the two clamping arms 53. The propulsion cylinder 51 and the clamp cylinder are electrically connected to the controller, respectively.

The two fixing mechanisms are respectively arranged on the front sides of the flattening mechanism and the embossing mechanism and used for clamping and fixing materials during flattening operation and embossing operation. The distance between the two fixing means is the same as the distance between the embossing block 33 and the flattening block 62. The distance between two adjacent materials on the conveyor belt is the same as the distance between the embossing block 33 and the flattening block 62.

The embossing mechanism further comprises a flattening mechanism, the flattening mechanism is arranged on the left side of the embossing mechanism, and the flattening mechanism comprises a flattening base, a flattening cylinder 61 and a flattening block 62. The flattening base, the flattening cylinder 61 and the flattening block 62 are respectively identical in structure to the embossing base 31, the embossing cylinder 32 and the embossing block 33.

The inner side of the conveying belt is provided with a backing plate, the two ends of the backing plate are detachably connected with the base 21, and the phenomenon that the conveying belt is sunken due to stress in the machining process can be effectively prevented through the backing plate.

When the material conveying device is used, materials are placed on the conveying belt and conveyed from left to right, sensors for detecting the positions of the materials are arranged on one sides of the pressing block 62 and the pressing block 33 respectively, conveying is suspended when the materials are conveyed to the position below the pressing block 33 or the pressing block 62, the clamping cylinder drives the two clamping arms 53 to open, the pushing cylinder 51 drives the clamping cylinder to move towards one side of the machine base 21 until the clamping arms 53 extend into the feeding groove 211, then the clamping arms 53 are folded to fix the materials, and meanwhile, the position of the materials is adjusted. The flattening cylinder 61 drives the embossing block 33 to flatten the material, and then the conveying belt moves to the lower part of the embossing block 33 to emboss the material. After the materials are processed, the materials are conveyed to the discharging mechanism to be discharged, and the use is very convenient.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An automatic change embossing apparatus, includes the workstation, its characterized in that: the automatic embossing machine is characterized by also comprising a feeding mechanism, an embossing mechanism and a discharging mechanism, wherein the feeding mechanism comprises a base fixed on the workbench, a feeding groove is formed in the top surface of the base along the length direction of the base, and a conveying belt is erected in the feeding groove;

a controller is also arranged on one side of the workbench and is respectively and electrically connected with the induction probe, the discharging cylinder and the embossing cylinder;

the embossing block is of an inverted herringbone structure, a T-shaped clamping groove is formed in the top of the embossing block, and a clamping block matched with the clamping groove is connected to the movable end of the embossing cylinder; the bottom of the embossing block comprises an embossing part and guide rods symmetrically arranged on two sides of the embossing part, and the concave-convex pattern board is arranged at the bottom of the embossing part through a bolt piece; a top cover is covered on the right side of the top surface of the machine base, and a guide hole and an extending through hole which are matched with the shapes of the guide rod and the embossing part respectively are formed in the top cover;

the device comprises a base, a fixed mechanism and a support, wherein the fixed mechanism comprises a propelling cylinder, a clamping cylinder, a translation plate and two clamping arms which are oppositely arranged; the clamping cylinder is fixed on the translation plate, the clamping cylinder is a bidirectional cylinder, two movable ends of the clamping cylinder are respectively connected with the two clamping arms, an extension hole is formed in the side portion of the base, and the width of the extension hole is not smaller than the farthest distance of the two clamping arms; the propulsion cylinder and the clamping cylinder are respectively and electrically connected with the controller;

the embossing mechanism comprises an embossing mechanism, a flattening mechanism and a pressing mechanism, wherein the embossing mechanism is arranged on the left side of the embossing mechanism, the flattening mechanism comprises a flattening base, a flattening cylinder and a flattening block, and the flattening base, the flattening cylinder and the flattening block are respectively identical to the embossing base, the embossing cylinder and the embossing block in structure;

a base plate is arranged on the inner side of the conveying belt, and two ends of the base plate are detachably connected with the base;

when the material conveying device is used, materials are placed on a conveying belt and conveyed from left to right, sensors for detecting the positions of the materials are arranged on one sides of a flattening block and an embossing block respectively, conveying is suspended when the materials are conveyed to the lower portion of the embossing block or the flattening block, a clamping cylinder drives two clamping arms to open, a pushing cylinder drives the clamping cylinder to move towards one side of a machine base until the clamping arms extend into a feeding groove, then the clamping arms are folded to fix the materials, and meanwhile, the position of the materials is adjusted; the material is flattened by the flattening cylinder to drive the embossing block, and then the material is moved to the lower part of the embossing block by the conveying belt to be embossed; after the materials are processed, the materials are conveyed to a discharging mechanism and are sent out.