CN212350058U

CN212350058U - Full-automatic punching mechanism for rotating shaft cover

Info

Publication number: CN212350058U
Application number: CN202021133972.5U
Authority: CN
Inventors: 刘红军
Original assignee: Jiangsu Special Technology Co ltd
Current assignee: Jiangsu Special Technology Co ltd
Priority date: 2020-06-18
Filing date: 2020-06-18
Publication date: 2021-01-15
Anticipated expiration: 2030-06-18

Abstract

The utility model discloses a full-automatic die-cutting mechanism for pivot lid, include: the feeding and discharging unit is arranged at the top of the frame and moves back and forth on the frame, the punching unit is arranged on the frame, and the loading unit is movably arranged on the frame. In this way, the utility model relates to a full-automatic die-cutting mechanism for pivot lid improves the accurate nature of each position motion through location and guide structure to improve the unloading and die-cut accurate nature on the product through a plurality of profile modeling structures, improved work efficiency greatly.

Description

Full-automatic punching mechanism for rotating shaft cover

Technical Field

The utility model relates to a die-cut equipment field especially relates to a full-automatic die-cut mechanism for pivot lid.

Background

When the pivot lid adds man-hour, not only need utilize the manual work to go up the unloading, it is very big to go up the material position error, does not have in addition now with pivot lid complex die-cut equipment, needs manual unnecessary material piece to be amputated on the pivot lid, and not only work efficiency is low, and die-cut precision is very poor moreover.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a full-automatic die-cutting mechanism for pivot lid, has advantages such as reliable performance height, location accuracy, compact structure, has extensive market prospect in the application of die-cut equipment and popularizing simultaneously.

In order to solve the technical problem, the utility model discloses a technical scheme be:

there is provided a full automatic die cutting mechanism for a shaft cover, comprising: the blanking device comprises a frame, a feeding and discharging unit, a loading unit and a punching unit, wherein the feeding and discharging unit is arranged at the top of the frame and moves back and forth on the frame, the punching unit is arranged on the frame, the loading unit is movably arranged on the frame,

the feeding and discharging unit comprises a mechanical arm, an X-axis beam, a Y-axis beam and a vacuum suction nozzle for sucking products, the mechanical arm is movably arranged at the top of the frame, the Y-axis beam is movably arranged at the bottom of the mechanical arm, the X-axis beam is movably arranged at the bottom of the Y-axis beam, the vacuum suction nozzle is movably arranged on the X-axis beam,

the material loading unit comprises a material loading platform, an upper baffle, a profiling jig, a positioning guide groove, wing plates, guide sleeves, guide shafts, linear rails, a translation driving device and a position sensor for detecting the position of the material loading platform, the linear rails, the guide shafts and the position sensor are arranged on the rack, the guide shafts are arranged on the side surfaces of the linear rails, the guide sleeves are movably arranged on each guide shaft, the material loading platform is connected with the linear rails, one wing plate is arranged on the side surface of the material loading platform and fixedly connected with the upper parts of the guide sleeves, the translation driving device drives the material loading platform to move back and forth along the linear rails and the guide shafts, the upper baffle is arranged at the top of the material loading platform, the profiling jig for placing and fixing products is arranged on the upper baffle, and the positioning guide groove for positioning the punching unit is arranged on the outer side of the profiling jig, the middle part of the profiling jig is provided with a punching edge matched with the product structure and the punching knife,

the punching unit comprises a top plate, a moving guide pillar, a shaft sleeve, an upper pressure plate, a tool apron, a punching tool, a profiling punching opening, a lower pressure plate, a pressing block, a punching guide pillar, a return spring and a positioning guide pillar, wherein two ends of the moving guide pillar are respectively connected with the frame and the top plate, the output end of a pneumatic device is connected with the upper pressure plate and drives the upper pressure plate to move up and down along the moving guide pillar, the bottom surface of the upper pressure plate is also provided with the positioning guide pillar and the tool apron which are matched with a positioning guide groove, the top of the punching guide pillar is fixedly connected with the upper pressure plate, the bottom of the punching guide pillar is movably connected with the lower pressure plate, the return spring for driving the lower pressure plate to reset downwards is wound on the punching guide pillar, the profiling opening matched with a product waste structure is arranged on the lower pressure plate, and the top, the lower part of the pressing block is movably arranged in the square punch, and the pressing block for pressing the product is arranged on the bottom surface of the lower pressing plate.

In a preferred embodiment of the present invention, the vacuum suction nozzle is connected to the vacuum generating device through an air pipe.

In a preferred embodiment of the present invention, the shaft seat is disposed on the frame, and two ends of the guiding shaft are respectively connected to one of the shaft seats.

In a preferred embodiment of the present invention, the guide shaft is located at one side or both sides of the linear rail, and the linear rail and the guide shaft both extend to below the punching unit.

In a preferred embodiment of the present invention, a bearing movably connected to the guide shaft is disposed in the through hole of the guide sleeve.

In a preferred embodiment of the present invention, a waste material charging chute is disposed below the punching blade.

In a preferred embodiment of the present invention, the shaft sleeve is movably disposed on the moving guide pillar, and the upper pressing plate is connected to the shaft sleeve.

In a preferred embodiment of the present invention, the positioning guide pillar is movably connected to the positioning guide groove.

In a preferred embodiment of the present invention, the return spring is disposed on a portion of the die-cut guide post opposite to the portion of the return spring.

In a preferred embodiment of the present invention, the tool rest is located between two rows of the punching guide pillars, and the pressing blocks are uniformly distributed outside the profiling punch.

The utility model has the advantages that: improve the accurate nature of each position motion through location and guide structure to go up unloading and die-cut accurate nature through a plurality of profile modeling structures improvement product, improved work efficiency greatly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic top view of a preferred embodiment of a full-automatic punching mechanism for a shaft cover according to the present invention;

fig. 2 is a schematic structural view of a profiling jig in the full-automatic punching mechanism for the shaft cover according to the present invention;

fig. 3 is a schematic side view of a profiling jig in the full-automatic punching mechanism for the shaft cover according to the present invention;

fig. 4 is a schematic bottom view of the lower pressing plate of the full-automatic punching mechanism for the shaft cover of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention includes:

a full-automatic die-cutting mechanism for a rotating shaft cover structurally comprises: frame 1, material loading and unloading unit, year material unit, die-cut unit, go up the material loading unit set up in the top of frame, and be in back and forth movement in the frame, die-cut unit set up in the frame, carry the material unit activity set up in the frame, just it can move extremely to carry the below of material unit to transport the die-cut position with the product.

Go up the unloading unit and include manipulator 23, X axle crossbeam 24, Y axle crossbeam 25, vacuum suction nozzle 26, trachea, vacuum generating device, the manipulator activity set up in the top of frame, Y axle crossbeam activity set up in the bottom of manipulator, X axle crossbeam activity set up in the bottom of Y axle crossbeam, the vacuum suction nozzle activity set up in on the X axle crossbeam, the vacuum suction nozzle pass through the trachea with vacuum generating device is connected.

X axle crossbeam, Y axle crossbeam can change and remove according to the processing demand, and vacuum nozzle also can adjust the position on X axle crossbeam, can adjust the distance between every vacuum nozzle according to the specification size of product like this to satisfy different user demands, provide the practicality. In addition, in order to improve the stability of feeding and discharging of the product, one product can be sucked by matching every two vacuum suction nozzles.

The material loading unit comprises a material loading platform 2, an upper baffle 3, a profiling jig 4, a positioning guide groove 5, a wing plate 6, a guide sleeve 7, a guide shaft 8, a shaft seat 9, a linear rail 10, a translation driving device 11 and a position sensor.

The line rail with be used for detecting and carry the material platform position the position sensor set up in the frame, the die-cut below of unit of position sensor, perhaps be located the outside of die-cut unit, carry the bottom of material platform with the line rail is connected, translation drive arrangement drives carry the material platform and be in the back and forth movement on the line rail. The axle bed set up in the frame, the both ends of guiding axle respectively are connected with one the axle bed, the line rail with the guiding axle all extends to die-cut unit's below, when position sensor senses and carries the material platform and move to die-cut position, die-cut unit just can descend and die-cut, has improved the security and the accurate nature of mechanism.

Every the activity is provided with on the guiding axle the uide bushing, be provided with in the through-hole of uide bushing with guiding axle swing joint's bearing, promptly the uide bushing can the last round trip movement of guiding axle, one side an organic whole of carrying the material platform is provided with one the pterygoid lamina, the pterygoid lamina with the upper portion fixed connection of uide bushing makes carry the material platform can along the guiding axle round trip movement improves the stability and the accurate nature of motion.

The upper baffle plate is arranged at the top of the material carrying table, a profiling jig used for placing and fixing products is arranged on the upper baffle plate, and a positioning guide groove used for positioning the punching unit is further formed in the outer side of the profiling jig. The middle part of the profiling jig is provided with a punching edge 27 matched with the product structure and the punching knife, a waste material charging chute can be further arranged below the punching edge, and the waste material can fall out of the charging chute after being punched.

The punching unit comprises a pneumatic device 12, a top plate 13, a moving guide post 14, a shaft sleeve, an upper pressure plate 15, a tool apron 16, a punching tool 17, a profiling punching opening, a lower pressure plate 18, a material pressing block 19, a punching guide post 20, a return spring 21 and a positioning guide post 22.

The bottom of the moving guide column is arranged on the rack, the top of the moving guide column is connected with the top plate, and the pneumatic device is arranged on the top plate. The shaft sleeve is movably arranged on the moving guide pillar, the upper pressure plate is connected with the shaft sleeve, and the output end of the pneumatic device penetrates through the top plate to be connected with the upper pressure plate and drives the upper pressure plate to move up and down along the moving guide pillar. The bottom surface of the upper pressure plate is also provided with a positioning guide pillar matched with the positioning guide groove, and the positioning guide pillar is movably connected with the positioning guide groove.

The top of die-cut guide pillar with top board fixed connection, the bottom of die-cut guide pillar with lower clamp plate swing joint, the top board with be provided with return spring between the lower clamp plate, just return spring surround in on the die-cut guide pillar, and return spring can only set up in partial, the position is relative on the die-cut guide pillar, so not only can guarantee that the atress of lower clamp plate is even, prevents product displacement or warpage, improves die-cut precision and stability, can practice thrift the cost moreover, easy to assemble maintenance.

The lower pressing plate is provided with the profiling punching opening 28 matched with the product waste structure, the tool apron is arranged on the bottom surface of the upper pressing plate and located between two rows of punching guide pillars, the top of the punching tool is fixedly arranged on the tool apron, and the lower portion of the punching tool is movably arranged in the square punching opening. When the spring is in a natural state, the spring presses the lower pressing plate downwards, the bottom of the punching knife is positioned in the profiling punching opening, and when the spring is in a compressed state, the punching knife protrudes from the square punching opening and is matched with the punching knife edge to punch a product.

The bottom surface of holding down plate is provided with a plurality of be used for compressing tightly the product press the material piece, press the material piece evenly distributed and the profile modeling towards the outside of mouthful, prevent that the product from removing or warping at die-cut in-process.

When the profiling fixture is used, the manipulator moves to the position above a product and then descends, the vacuum suction nozzle sucks the product, and the manipulator brings the product to the position above the profiling fixture; descending the manipulator, and placing the product in the profiling jig; the material loading platform drives the product to move to a punching position below the punching unit; the pneumatic device drives the upper pressure plate to descend, and the positioning guide column and the positioning guide groove are used for positioning; the upper pressing plate continues to descend, so that the pressing blocks compact the product; the pneumatic device continues to drive the upper pressure plate to move downwards, and the lower pressure plate cannot continue to move downwards, so that the return spring is pressed, the spring enters a compressed state, and meanwhile, the punching knife gradually extends out of the square punching opening to punch off the joint of the product and the waste material to complete punching; the pneumatic device drives the upper pressure plate to ascend, and the punching knife retracts into the profiling punch; the nip plate leaves the product; the loading platform drives the product to return to the loading position; and lowering the manipulator to suck the product for blanking.

The utility model relates to a full-automatic die-cut mechanism for pivot lid's beneficial effect is: improve the accurate nature of each position motion through location and guide structure to go up unloading and die-cut accurate nature through a plurality of profile modeling structures improvement product, improved work efficiency greatly.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all of which utilize the equivalent structure or equivalent flow transformation made by the content of the specification of the present invention, or directly or indirectly applied to other related technical fields, all included in the same way in the patent protection scope of the present invention.

Claims

1. A full-automatic die-cutting mechanism for a rotary shaft cover, comprising: the blanking device comprises a frame, a feeding and discharging unit, a loading unit and a punching unit, wherein the feeding and discharging unit is arranged at the top of the frame and moves back and forth on the frame, the punching unit is arranged on the frame, the loading unit is movably arranged on the frame,

the material loading unit comprises a material loading platform, an upper baffle, a profiling jig, a positioning guide groove, wing plates, guide sleeves, guide shafts, linear rails, a translation driving device and a position sensor for detecting the position of the material loading platform, the linear rails, the guide shafts and the position sensor are arranged on the rack, the guide shafts are arranged on the side surfaces of the linear rails, the guide sleeves are movably arranged on each guide shaft, the material loading platform is connected with the linear rails, the wing plates are arranged on the side surfaces of the material loading platform and fixedly connected with the upper parts of the guide sleeves, the translation driving device drives the material loading platform to move back and forth along the linear rails and the guide shafts, the upper baffle is arranged at the top of the material loading platform, the profiling jig for placing and fixing products is arranged on the upper baffle, and the positioning guide groove for positioning the punching unit is arranged on the outer side of the profiling jig, the middle part of the profiling jig is provided with a punching edge matched with the product structure and the punching knife,

the punching unit comprises a top plate, a moving guide pillar, a shaft sleeve, an upper pressure plate, a tool apron, a punching tool, a profiling punching opening, a lower pressure plate, a pressing block, a punching guide pillar, a return spring and a positioning guide pillar, wherein two ends of the moving guide pillar are respectively connected with the frame and the top plate, the output end of a pneumatic device is connected with the upper pressure plate and drives the upper pressure plate to move up and down along the moving guide pillar, the bottom surface of the upper pressure plate is also provided with the positioning guide pillar and the tool apron which are matched with a positioning guide groove, the top of the punching guide pillar is fixedly connected with the upper pressure plate, the bottom of the punching guide pillar is movably connected with the lower pressure plate, the return spring for driving the lower pressure plate to reset downwards is wound on the punching guide pillar, the profiling opening matched with a product waste structure is arranged on the lower pressure plate, and the top, the lower part of the lower pressing plate is movably arranged in the profiling punch, and the bottom surface of the lower pressing plate is provided with the material pressing block for pressing the product.

2. The full-automatic die-cutting mechanism for the shaft cover as claimed in claim 1, wherein the vacuum suction nozzle is connected with a vacuum generating device through an air pipe.

3. The full automatic die cutting mechanism for the shaft cover as claimed in claim 1, wherein a shaft seat is provided on the frame, and one shaft seat is connected to each of both ends of the guide shaft.

4. The fully automatic punch mechanism for a spindle cover according to claim 1, wherein the guide shaft is located on one or both sides of the linear rail, and the linear rail and the guide shaft each extend below the punch unit.

5. The full-automatic punching mechanism for the rotating shaft cover according to claim 1, wherein a bearing movably connected with the guide shaft is arranged in the through hole of the guide sleeve.

6. The fully automatic die-cutting mechanism for a shaft cover according to claim 1, wherein a scrap chute is provided below the die-cutting edge.

7. The full-automatic punching mechanism for the shaft cover according to claim 1, wherein a bushing is movably disposed on the moving guide post, and the upper pressing plate is connected to the bushing.

8. The full-automatic punching mechanism for the shaft cover according to claim 1, wherein the positioning guide pillar is movably connected with the positioning guide groove.

9. The fully automatic punch mechanism for a shaft cap according to claim 1, wherein the return spring is disposed on a portion of the punch guide post that is located opposite to the punch guide post.

10. The full-automatic punching mechanism for the shaft cover according to claim 1, wherein the tool apron is positioned between two rows of punching guide pillars, and the material pressing blocks are uniformly distributed on the outer side of the profiling punching opening.