CN219131852U

CN219131852U - Servo punch polishing machine

Info

Publication number: CN219131852U
Application number: CN202223491462.7U
Authority: CN
Inventors: 王玉伟; 弋康锋; 杜雷; 孟祥龙; 李德超; 刘在峰
Original assignee: Shandong Pharmaceutical Glass Co Ltd
Current assignee: Shandong Pharmaceutical Glass Co Ltd
Priority date: 2022-12-27
Filing date: 2022-12-27
Publication date: 2023-06-06
Anticipated expiration: 2032-12-27

Abstract

The utility model discloses a servo punch polishing machine, which relates to the technical field of polishing machines and comprises a supporting plate, wherein a base is arranged below the supporting plate, a turntable is arranged above a first supporting column, a second supporting column is arranged above the turntable, a beam arm is arranged on one side, far away from a second servo motor, of the second supporting column, a pneumatic guide rail is arranged on one side, far away from the second supporting column, of the beam arm, a sliding plate is arranged on one side, far away from the beam arm, of the pneumatic guide rail, an adjusting component is arranged on one side, far away from the pneumatic guide rail, of the sliding plate, a third supporting column is arranged below the adjusting component, a second motor is arranged on one side of the third supporting column, a chuck is arranged below the third supporting column, and a punch is arranged below the chuck. According to the utility model, the angle can be changed to polish different parts of the die, and the die can be polished rapidly aiming at different dies, and the polishing is finer.

Description

Servo punch polishing machine

Technical Field

The utility model relates to the technical field of polishing machines, in particular to a servo punch polishing machine.

Background

The glass bottle manufacturing industry needs to use various moulds to process, and a polishing machine is a common device in mould processing equipment, and the working principle is as follows: the motor drives the sponge or wool polishing disc arranged on the polishing machine to rotate at high speed, and the polishing disc and the polishing agent act together and rub against the surface to be polished, so that the purposes of removing paint surface pollution, oxide layers and shallow marks can be achieved, and the existing polishing machine technology is also quite large;

the polishing machine for manufacturing the die is reasonable and simple in structure, low in production cost and convenient to install, the die parts are polished in an automatic mode, and the polishing head and the movable seat can relatively move, so that the machining efficiency is improved; the inner side surfaces of the fixed jaw and the movable jaw are provided with openings which can clamp parts with various shapes; the polishing head has a spring, providing a cushioning property.

However, the existing polishing machine has the following defects: the angle of the punch cannot be changed, the adjustment mode is single during polishing, adjustment of various angles cannot be met, and polishing of some positions of the die is not fine enough.

Accordingly, in view of the above, research and improvement on the conventional structure and defects have been made, and a servo punch polishing machine has been proposed.

Disclosure of Invention

The present utility model is directed to a servo punch polisher, which solves the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a servo drift burnishing machine, includes the backup pad, the base is installed to the below of backup pad, and the first support column is installed to one side of the top of backup pad, the carousel is installed to the top of first support column, and one side of carousel installs first steering axle, the second support column is installed to the top of carousel, and one side of second support column installs second servo motor, the crossbeam arm is installed to one side of keeping away from second servo motor of second support column, pneumatic guide rail is installed to one side of keeping away from second support column of crossbeam arm, and pneumatic guide rail installs the slide in one side of keeping away from the crossbeam arm, the slide is installed to one side of keeping away from pneumatic guide rail, and the third support column is installed to the below of adjusting part, the second motor is installed to one side of third support column, and the chuck is installed to the below of third support column, the drift is installed to the below of chuck.

Further, a workbench is welded on one side of the first support column, a grinding head assembly is installed on one side of the upper portion of the workbench, and a clamp is installed on the other side of the upper portion of the workbench.

Further, the bistrique subassembly includes support, first servo motor, first pivot, stand, protective housing, first motor, first rotary rod and the head of polishing, the internally mounted of support has first servo motor, and first pivot is installed to first servo motor's output, the stand is installed to the top of support, and the protective housing is installed to the top of stand, the internally mounted of protective housing has first motor, and the output of first motor installs first rotary rod, the one end of first rotary rod is installed and is polished the head.

Further, the first servo motor and the upright post form a rotating structure through a first rotating shaft, and the first rotating shaft penetrates through the inside of the bracket.

Further, the clamp comprises a clamping plate, a hydraulic telescopic rod and a rubber pad, wherein the hydraulic telescopic rod is installed on one side of the clamping plate, and the rubber pad is installed at one end of the hydraulic telescopic rod.

Furthermore, the clamping plates are of an L-shaped structure, two clamping plates are arranged in parallel, and every three hydraulic telescopic rods are arranged into a group at equal intervals in the vertical direction.

Further, the adjusting part includes first hydraulic telescoping column, first hinge dish, stopper, second hinge dish, second hydraulic telescoping column and third hinge dish, first hinge dish is installed to the one end of first hydraulic telescoping column, and the stopper is installed to the below of first hydraulic telescoping column, the second hinge dish is installed to one side of stopper, and the second hydraulic telescoping column is installed to one side that the stopper was kept away from to the second hinge dish, the third hinge dish is installed to the one end that the second hinge dish was kept away from to the second hydraulic telescoping column.

Further, one end of the first hydraulic telescopic column is connected with one end of the third support column through the first hinge plate to form a rotatable structure, the limiting block forms a rotatable structure with the second hydraulic telescopic column through the second hinge plate, and one end of the second hydraulic telescopic column is connected with the middle part of the third support column through the third hinge plate to form a rotatable structure.

Further, the second steering shaft is installed in the third support column, the second rotating rod is installed below the second steering shaft, and the second motor is rotationally connected with the punch through the second steering shaft, the second rotating rod and the chuck.

The utility model provides a servo punch polishing machine, which has the following beneficial effects: the angle can be changed to polish different places of the die, and the die can be polished rapidly aiming at different dies, and the polishing is finer;

the second motor drives the punch die to carry out machining operation through the second steering shaft, the second rotating rod and the chuck, and the device can adjust the position of the punch through various means in the machining process, specifically comprises the following steps: the second servo motor drives the turntable to rotate through the first steering shaft so that the beam arm and the adjusting component rotate to adjust the rotating position of the punch, and the sliding plate adjusts the heights of the adjusting component and the punch through sliding on the pneumatic guide rail;

because the stopper passes through the second hinge dish and constitutes rotatable architecture with the flexible post of second hydraulic pressure, but the one end of the flexible post of second hydraulic pressure passes through the middle part of third hinge dish and third support column and is connected and constitute rotatable architecture, can adjust the left and right displacement of third support column and drift through the flexible of first hydraulic pressure flexible post and the flexible post of second hydraulic pressure when using, and simultaneously first hydraulic pressure flexible post and second hydraulic pressure flexible post can be respectively through the rotation of first hinge dish, second hinge dish and third hinge dish and adjust the angle of third support column and drift.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a servo punch polisher according to the present utility model;

FIG. 2 is a schematic view of a grinding head assembly of a servo punch polisher according to the present utility model;

FIG. 3 is a schematic view of a fixture of a servo punch polisher according to the present utility model;

FIG. 4 is a schematic view of the adjusting assembly of a servo punch polisher according to the present utility model;

fig. 5 is a schematic diagram of the internal structure of a third support column of the servo punch polishing machine according to the present utility model.

In the figure: 1. a support plate; 2. a base; 3. a first support column; 4. a work table; 5. a grinding head assembly; 501. a bracket; 502. a first servo motor; 503. a first rotating shaft; 504. a column; 505. a protective shell; 506. a first motor; 507. a first rotating lever; 508. polishing head; 6. a clamp; 601. a clamping plate; 602. a hydraulic telescopic rod; 603. a rubber pad; 7. a turntable; 8. a first steering shaft; 9. a second servo motor; 10. a second support column; 11. a beam arm; 12. a pneumatic guide rail; 13. a slide plate; 14. an adjustment assembly; 1401. a first hydraulic telescoping column; 1402. a first hinge plate; 1403. a limiting block; 1404. a second hinge plate; 1405. a second hydraulic telescoping column; 1406. a third hinge plate; 15. a third support column; 16. a second motor; 17. a chuck; 18. a punch; 19. a second steering shaft; 20. and a second rotating lever.

Detailed Description

Referring to fig. 1 to 5, the present utility model provides the following technical solutions: the utility model provides a servo drift burnishing machine, includes backup pad 1, base 2 is installed to backup pad 1's below, and the top one side of backup pad 1 installs first support column 3, carousel 7 is installed to the top of first support column 3, and one side of carousel 7 installs first steering shaft 8, second support column 10 is installed to the top of carousel 7, and one side of second support column 10 installs second servo motor 9, one side of second support column 10 that keeps away from second servo motor 9 installs crossbeam arm 11, and second servo motor 9 drives carousel 7 through first steering shaft 8 and makes crossbeam arm 11 and adjusting part 14 rotate so that adjust the rotation position of drift 18, crossbeam arm 11 is kept away from one side of second support column 10 and is installed pneumatic rail 12, and one side that pneumatic rail 12 kept away from crossbeam arm 11 installs slide 13, one side that pneumatic rail 12 was kept away from to slide 13 installs adjusting part 14, and the below of adjusting part 14 installs third support column 15, one side of third support column 15 installs second motor 16, and the below chuck 15 installs 17, and the below chuck 17 installs work head 4 on one side of 4, work head 4 is installed to one side of chuck 17, and work head 4 is installed to one side of the work head 4.

Referring to fig. 1 and 2, specifically, the grinding head assembly 5 includes a bracket 501, a first servo motor 502, a first rotating shaft 503, a stand 504, a protective shell 505, a first motor 506, a first rotating shaft 507 and a grinding head 508, wherein the first servo motor 502 is installed in the bracket 501, the first rotating shaft 503 is installed at the output end of the first servo motor 502, the stand 504 is installed above the bracket 501, the protective shell 505 is installed above the stand 504, the first motor 506 is installed in the protective shell 505, the first rotating shaft 507 is installed at the output end of the first motor 506, the grinding head 508 is installed at one end of the first rotating shaft 507, the first servo motor 502 forms a rotating structure with the stand 504 through the first rotating shaft 503, and the first rotating shaft 503 penetrates through the bracket 501, when the grinding is needed, the first servo motor 502 drives the stand 504 to rotate through the first rotating shaft 503 so as to adjust the angle of the protective shell 505 and the grinding head 508 to grind the die, and the first motor 506 drives the grinding head 508 to rotate through the first rotating shaft 507 to grind the die.

Please refer to fig. 1 and fig. 3, specifically, the fixture 6 includes a clamping plate 601, a hydraulic telescopic rod 602 and a rubber pad 603, the hydraulic telescopic rod 602 is installed on one side of the clamping plate 601, the rubber pad 603 is installed on one end of the hydraulic telescopic rod 602, the clamping plate 601 is of an L-shaped structure, the clamping plates 601 are arranged in parallel, every three hydraulic telescopic rods 602 are arranged in a group at equal intervals in the vertical direction, a mold is placed between the two clamping plates 601, and the hydraulic telescopic rod 602 stretches to enable the rubber pad 603 to prop against the mold to clamp the mold.

Referring to fig. 1 and 4, specifically, the adjusting assembly 14 includes a first hydraulic telescopic column 1401, a first hinge plate 1402, a limiting block 1403, a second hinge plate 1404, a second hydraulic telescopic column 1405 and a third hinge plate 1406, wherein the first hinge plate 1402 is installed at one end of the first hydraulic telescopic column 1401, the limiting block 1403 is installed below the first hydraulic telescopic column 1401, the second hinge plate 1404 is installed at one side of the limiting block 1403, the second hydraulic telescopic column 1405 is installed at one side of the second hinge plate 1404 far from the limiting block 1403, the third hinge plate 1406 is installed at one end of the second hydraulic telescopic column 1405 far from the second hinge plate 1404, one end of the first hydraulic telescopic column 1401 is connected with one end of the third support column 15 through the first hinge plate 1402 to form a rotatable structure, one end of the second hydraulic telescopic column 1405 is connected with the middle part of the third support column 15 through the third hinge plate 1406 to form a rotatable structure, and the first hydraulic telescopic column 1406 can be simultaneously adjusted through the first hydraulic telescopic column 1402 and the second hinge plate 1402 and the third hinge plate 1406 to form a rotatable structure through the first hydraulic telescopic column 18 and the second hinge plate 1406, and the second telescopic column 15 can be simultaneously displaced through the first hinge plate 1406 and the second hinge plate 1406 and the third hinge plate 15.

The second steering shaft 19 is installed in the third support column 15, the second rotating rod 20 is installed below the second steering shaft 19, the second motor 16 is rotationally connected with the punch 18 through the second steering shaft 19, the second rotating rod 20 and the chuck 17, and in the actual use process, the second motor 16 drives the punch 18 to carry out machining operation on the die through the second steering shaft 19, the second rotating rod 20 and the chuck 17.

In summary, when the servo punch polishing machine is used, firstly, a die to be polished is placed on a clamp 6 for clamping, and as the clamping plates 601 are of an L-shaped structure, two clamping plates 601 are arranged in parallel, every three hydraulic telescopic rods 602 are arranged in a group at equal intervals in the vertical direction, the die is placed between the two clamping plates 601, and the hydraulic telescopic rods 602 stretch to enable the rubber pad 603 to prop against the die to clamp the die;

in the actual use process, the second motor 16 drives the punch 18 to process the die through the second steering shaft 19, the second rotating rod 20 and the chuck 17, and in the process of processing, the device can adjust the position of the punch 18 through various means, specifically: the second servo motor 9 drives the turntable 7 to rotate through the first steering shaft 8 to enable the beam arm 11 and the adjusting component 14 to rotate so as to adjust the rotating position of the punch 18, and the sliding plate 13 is used for adjusting the heights of the adjusting component 14 and the punch 18 through sliding on the pneumatic guide rail 12;

because the limiting block 1403 and the second hydraulic telescopic column 1405 form a rotatable structure through the second hinge plate 1404, one end of the second hydraulic telescopic column 1405 is connected with the middle part of the third support column 15 through the third hinge plate 1406 to form a rotatable structure, when in use, the left-right displacement of the third support column 15 and the punch 18 can be adjusted through the expansion and contraction of the first hydraulic telescopic column 1401 and the second hydraulic telescopic column 1405, and meanwhile, the angles of the third support column 15 and the punch 18 can be adjusted through the rotation of the first hinge plate 1402, the second hinge plate 1404 and the third hinge plate 1406 respectively;

when polishing is needed, the first servo motor 502 drives the upright post 504 to rotate through the first rotating shaft 503 so as to adjust the angles of the protective shell 505 and the polishing head 508 to polish the die, and the first motor 506 drives the polishing head 508 to rotate through the first rotating rod 507 so as to polish the die.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a servo drift burnishing machine, its characterized in that, including backup pad (1), base (2) are installed to the below of backup pad (1), and first support column (3) are installed to the top one side of backup pad (1), carousel (7) are installed to the top of first support column (3), and first steering shaft (8) are installed to one side of carousel (7), second support column (10) are installed to the top of carousel (7), and second servo motor (9) are installed to one side of second support column (10), crossbeam arm (11) are installed to one side of keeping away from second servo motor (9) of second support column (10), pneumatic rail (12) are installed to one side of keeping away from second support column (10), and pneumatic rail (12) are installed slide (13) in one side of keeping away from pneumatic rail (12), and the below of adjusting component (14) installs third support column (15), the chuck (17) are installed to one side of third support column (15), and chuck (17) are installed to the below of third support column (15).

2. A servo punch polishing machine according to claim 1, wherein one side of the first support column (3) is welded with a workbench (4), a grinding head assembly (5) is mounted on one side above the workbench (4), and a clamp (6) is mounted on the other side above the workbench (4).

3. The servo punch polishing machine according to claim 2, wherein the grinding head assembly (5) comprises a bracket (501), a first servo motor (502), a first rotating shaft (503), a stand column (504), a protective shell (505), a first motor (506), a first rotating rod (507) and a polishing head (508), the first servo motor (502) is installed in the interior of the bracket (501), the first rotating shaft (503) is installed at the output end of the first servo motor (502), the stand column (504) is installed above the bracket (501), the protective shell (505) is installed above the stand column (504), the first motor (506) is installed in the interior of the protective shell (505), the first rotating rod (507) is installed at the output end of the first motor (506), and the polishing head (508) is installed at one end of the first rotating rod (507).

4. A servo ram polishing machine as claimed in claim 3, characterized in that the first servo motor (502) and the upright (504) form a rotating structure by means of a first rotating shaft (503), and the first rotating shaft (503) penetrates from the inside of the bracket (501).

5. The servo punch polishing machine according to claim 2, wherein the clamp (6) comprises a clamping plate (601), a hydraulic telescopic rod (602) and a rubber pad (603), the hydraulic telescopic rod (602) is mounted on one side of the clamping plate (601), and the rubber pad (603) is mounted on one end of the hydraulic telescopic rod (602).

6. The servo punch polishing machine according to claim 5, wherein the clamping plates (601) are of an L-shaped structure, two clamping plates (601) are arranged in parallel, and the hydraulic telescopic rods (602) are arranged in groups of every three in the vertical direction at equal intervals.

7. The servo punch polishing machine according to claim 1, wherein the adjusting assembly (14) comprises a first hydraulic telescopic column (1401), a first hinge plate (1402), a limiting block (1403), a second hinge plate (1404), a second hydraulic telescopic column (1405) and a third hinge plate (1406), the first hinge plate (1402) is mounted at one end of the first hydraulic telescopic column (1401), the limiting block (1403) is mounted below the first hydraulic telescopic column (1401), the second hinge plate (1404) is mounted at one side of the limiting block (1403), the second hydraulic telescopic column (1405) is mounted at one side of the second hinge plate (1404) away from the limiting block (1403), and the third hinge plate (1406) is mounted at one end of the second hydraulic telescopic column (1405) away from the second hinge plate (1404).

8. The servo punch polishing machine according to claim 7, wherein one end of the first hydraulic telescopic column (1401) is connected with one end of the third support column (15) through a first hinge plate (1402) to form a rotatable structure, the limit block (1403) is connected with the second hydraulic telescopic column (1405) through a second hinge plate (1404) to form a rotatable structure, and one end of the second hydraulic telescopic column (1405) is connected with the middle part of the third support column (15) through a third hinge plate (1406) to form a rotatable structure.

9. A servo ram polishing machine as claimed in claim 1, wherein a second steering shaft (19) is mounted in the third support column (15), and a second rotating rod (20) is mounted below the second steering shaft (19), and the second motor (16) is rotatably connected with the ram (18) through the second steering shaft (19), the second rotating rod (20) and the chuck (17).