CN219854802U

CN219854802U - Annular groove machining device

Info

Publication number: CN219854802U
Application number: CN202320641733.8U
Authority: CN
Inventors: 陈军磊
Original assignee: Shandong Longao Plastic Rubber Co ltd
Current assignee: Shandong Longao Plastic Rubber Co ltd
Priority date: 2023-03-28
Filing date: 2023-03-28
Publication date: 2023-10-20
Anticipated expiration: 2033-03-28

Abstract

The utility model discloses an annular groove machining device which comprises a machine table, wherein a supporting component for placing a rubber fender is arranged at the upper end of the machine table, a translation component for driving a cutter to move is arranged at the front side of the supporting component, a feeding component for driving the cutter to move forwards and backwards is arranged at the upper end of the translation component, and a depth adjusting component is arranged at the upper end of the feeding component. The beneficial effects are that: after the U-shaped cutter contacts with the surface of the rubber fender, an annular groove is formed, the U-shaped cutter continuously penetrates into the rubber fender, the guide wheel contacts with the surface of the rubber fender, the fourth sliding block slides relative to the third sliding block, the connecting plate contacts with the micro switch, the second driving motor is stopped at the moment, the U-shaped cutter is reset after the U-shaped cutter keeps a fixed cutting depth for a period of time, the third screw rod is rotated through the manual rotating wheel, the distance between the micro switch and the connecting plate is adjusted, the cutting depth is adjusted before cutting, the maximum cutting depth is kept at a set value during cutting, and the operation difficulty is reduced.

Description

Annular groove machining device

Technical Field

The utility model belongs to the field of rubber fender processing, and particularly relates to an annular groove processing device.

Background

When carrying out machining, some work pieces need to carry out ring channel processing on the surface, small-size ring channel processing can use numerical control milling machine to process, adorn the work piece on the graduated disk, fixed milling cutter, rotate the work piece and obtain the ring channel, but rubber fender volume is generally great, when processing, need process out the ring channel on the circumference, need use ring channel processingequipment, solid rubber fender has higher energy-absorbing and counter-force, possess simultaneously with low costs, long service life, install and maintain advantages such as simple, be pier, dock install protector more, rubber fender can divide into two general categories according to the structure generally: the solid rubber fender and the floating rubber fender can be divided into a D type, a cone shape, a drum type, a fan shape, a rectangle, a cylindrical fender and the like according to the structure of the fender, such as a Chinese patent with the bulletin number of CN210208904U for an annular groove processing device of the large rubber fender, the U-shaped cutter can be pushed to move forward step by step to the annular groove processing device in the self-rotation process of the rubber fender, the processing position of the annular groove on the outer wall of the rubber fender can be randomly adjusted according to the requirement, the operation is convenient, the method is simple, the width, the depth and the distance of each annular groove on the rubber fender can be kept consistent, the processing efficiency is improved, the production quality of the rubber fender is ensured, time and labor are saved, the production cost is reduced, the rotation speed of a rotary handle is required to be manually controlled, the cutting processing of the annular groove is required, and the cutting depth is required to be manually controlled, and the operation difficulty of personnel is increased.

Disclosure of Invention

The present utility model has been made to solve the above-mentioned problems, and an object of the present utility model is to provide an annular groove processing device.

The utility model realizes the above purpose through the following technical scheme:

the utility model provides an annular groove processingequipment, includes the board, the board upper end is equipped with the supporting component who is used for placing the rubber fender, the supporting component front side is equipped with the translation subassembly that is used for driving the cutter and removes, the translation subassembly upper end is equipped with the feed subassembly that is used for driving the cutter and reciprocates, the feed subassembly upper end is equipped with the degree of depth adjustment subassembly that is used for controlling the cutting depth.

Preferably, the support assembly comprises a fixed block, the fixed block is fixedly arranged at the upper end of the machine table, a first sliding block is slidably arranged at the rear side of the fixed block, a first telescopic rod is fixedly arranged between the first sliding block and the machine table, chamfering is arranged on one side, close to the first sliding block, of the fixed block, and a plurality of support wheels are rotatably arranged at the positions of the chamfering.

Preferably, the translation assembly comprises a second slider, the second slider is slidably mounted at the upper end of the machine table, a first lead screw is rotatably mounted at the upper end of the machine table, the first lead screw is in threaded connection with the second slider, one end of the first lead screw is connected with a first driving motor, and a second telescopic rod is fixedly mounted at the upper end of the second slider.

Preferably, the feeding assembly comprises a mounting plate, the mounting plate is fixedly mounted at the upper end of the second telescopic rod, a third sliding block is slidably mounted at the upper end of the mounting plate, a second lead screw is rotatably mounted at the upper end of the mounting plate and is in threaded connection with the third sliding block, one end of the second lead screw is connected with a second driving motor, and a U-shaped cutter is fixedly mounted at the front end of the third sliding block.

Preferably, the depth adjusting assembly comprises four sliding blocks, the four sliding blocks are symmetrically distributed on two sides of the U-shaped cutter, the four sliding blocks are slidably mounted on the upper ends of the third sliding blocks, V-shaped plates are rotatably mounted at the front ends of the fourth sliding blocks, guide wheels are rotatably mounted at the two ends of the V-shaped plates, springs are arranged between the fourth sliding blocks and the third sliding blocks, third lead screws are mounted at the upper ends of the third sliding blocks through threads, mounting discs are fixedly mounted at one ends of the third lead screws, close to the fourth sliding blocks, of the third lead screws, microswitches are fixedly mounted at the upper ends of the mounting discs, and connecting plates are fixedly mounted at the upper ends of the fourth sliding blocks.

Preferably, a manual rotating wheel is fixedly arranged at one end of the third screw rod far away from the third sliding block.

The beneficial effects are that: the second driving motor drives the second lead screw to rotate, the third slider slides towards the rear side relative to the mounting plate, the U-shaped cutter contacts with the surface of the rubber fender, the annular groove is machined, the annular groove continuously penetrates into the rubber fender, the guide wheel contacts with the surface of the rubber fender, the fourth slider slides relative to the third slider until the connecting plate contacts with the micro switch, the second driving motor is stopped at the moment, the position of the U-shaped cutter is fixed, the second driving motor is reversely rotated after the fixed cutting depth is kept for a period of time, the U-shaped cutter is reset, the fourth slider is reset under the action of a spring, the third lead screw is rotated through the manual rotating wheel, the distance between the micro switch and the connecting plate is adjusted, the maximum cutting depth is adjusted before cutting, and the maximum cutting depth is kept at a set value during cutting, so that the operation difficulty is reduced.

Drawings

FIG. 1 is a schematic view of an annular groove processing device according to the present utility model;

FIG. 2 is a schematic view of a support assembly of an annular groove machining apparatus according to the present utility model;

FIG. 3 is a schematic view of a translation assembly of an annular groove machining apparatus according to the present utility model;

fig. 4 is a schematic view of a feed assembly and a depth adjustment assembly of an annular groove machining apparatus according to the present utility model.

The reference numerals are explained as follows:

101. a machine table; 200. a support assembly; 201. a fixed block; 202. a first slider; 203. a first telescopic rod; 204. a support wheel; 300. a translation assembly; 301. a second slider; 302. a first lead screw; 303. a first driving motor; 304. a second telescopic rod; 400. a feed assembly; 401. a mounting plate; 402. a third slider; 403. a second lead screw; 404. a second driving motor; 405. a U-shaped cutter; 500. a depth adjustment assembly; 501. a fourth slider; 502. a V-shaped plate; 503. a guide wheel; 504. a third lead screw; 505. a mounting plate; 506. a micro-switch; 507. and (5) connecting a plate.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-4, an annular groove processing device comprises a machine 101, wherein a supporting component 200 for placing a rubber fender is arranged at the upper end of the machine 101, a translation component 300 for driving a cutter to move is arranged at the front side of the supporting component 200, a feeding component 400 for driving the cutter to move back and forth is arranged at the upper end of the translation component 300, a depth adjusting component 500 for controlling cutting depth is arranged at the upper end of the feeding component 400, the cutting position is adjusted through the translation component 300, the maximum cutting depth is adjusted before cutting through the depth adjusting component 500, and the maximum cutting depth is kept at a set value during cutting, so that the operation difficulty is reduced.

Preferably, the supporting assembly 200 comprises a fixed block 201, the fixed block 201 is fixedly mounted at the upper end of the machine table 101 through bolts, a first sliding block 202 is slidably mounted at the rear side of the fixed block 201, a first telescopic rod 203 is fixedly mounted between the first sliding block 202 and the machine table 101 through bolts, chamfers are formed on one sides, close to each other, of the fixed block 201 and the first sliding block 202, a plurality of supporting wheels 204 are rotatably mounted at positions of the chamfers through bearings, the distance between the fixed block 201 and the first sliding block 202 is changed through adjusting the first telescopic rod 203, and rubber fenders with different diameters are used.

Preferably, the translation assembly 300 comprises a second slide block 301, the second slide block 301 is slidably mounted at the upper end of the machine 101, a first lead screw 302 is rotatably mounted at the upper end of the machine 101 through a bearing, the first lead screw 302 is in threaded connection with the second slide block 301, one end of the first lead screw 302 is connected with a first driving motor 303 through a coupling, a second telescopic rod 304 is fixedly mounted at the upper end of the second slide block 301 through a bolt, the first driving motor 303 is started to drive the first lead screw 302 to rotate, the second slide block 301 is enabled to move along two side directions, and the U-shaped cutter 405 is enabled to move to a position to be processed.

Preferably, the feeding assembly 400 comprises a mounting plate 401, the mounting plate 401 is fixedly mounted at the upper end of the second telescopic rod 304 through bolts, a third sliding block 402 is slidably mounted at the upper end of the mounting plate 401 through sliding rails, a second lead screw 403 is rotatably mounted at the upper end of the mounting plate 401 through bearings, the second lead screw 403 is in threaded connection with the third sliding block 402, one end of the second lead screw 403 is connected with a second driving motor 404 through a coupler, a U-shaped cutter 405 is fixedly mounted at the front end of the third sliding block 402 through bolts, and the second driving motor 404 is started to drive the second lead screw 403 to rotate, so that the third sliding block 402 slides towards the rear side relative to the mounting plate 401.

Preferably, the depth adjusting assembly 500 includes a fourth slider 501, two fourth sliders 501 are symmetrically distributed on two sides of the U-shaped cutter 405, the fourth slider 501 is slidably mounted on the upper end of the third slider 402 through a sliding rail, a V-shaped plate 502 is rotatably mounted on the front end of the fourth slider 501 through a bearing, a guide wheel 503 is rotatably mounted on two ends of the V-shaped plate 502, a spring is arranged between the fourth slider 501 and the third slider 402, a third lead screw 504 is mounted on the upper end of the third slider 402 through threads, a mounting plate 505 is fixedly mounted on one end of the third lead screw 504, which is close to the fourth slider 501, a micro switch 506 is fixedly mounted on the upper end of the mounting plate 505 through a bolt, a connecting plate 507 is fixedly mounted on the upper end of the fourth slider 501 through a bolt, the guide wheel 503 is firstly contacted with the surface of the rubber fender, the fourth slider 501 slides relative to the third slider 402, and the connecting plate 507 is contacted with the micro switch 506.

Preferably, a manual turning wheel is fixedly mounted at the end of the third screw 504 away from the third slider 402, and the distance between the mounting plate 505 and the third slider 402 is changed by turning the third screw 504 through the manual turning wheel.

In the above structure, when the annular groove processing device is used, the rubber fender is placed on the supporting wheel 204, the distance between the fixed block 201 and the first sliding block 202 is changed by adjusting the first telescopic rod 203, rubber fenders with different diameters are used, the first driving motor 303 is started to drive the first lead screw 302 to rotate, the second sliding block 301 moves along two side directions, the second telescopic rod 304 is adjusted to enable the height of the mounting plate 401 to be suitable, the U-shaped cutter 405 moves to a position to be processed, the third lead screw 504 is rotated through the manual rotating wheel, the distance between the mounting plate 505 and the third sliding block 402 is changed, the distance between the micro switch 506 and the connecting plate 507 is adjusted, the rubber fender is driven to rotate through external driving, the second driving motor 404 is started to drive the second lead screw 403 to rotate, the third sliding block 402 slides towards the rear side relative to the mounting plate 401, the guide wheel 503 is firstly contacted with the surface of the rubber fender, the third sliding block 402 is enabled to move through the rotation of the V-shaped plate 502, the fourth sliding block is enabled to slide relative to the third sliding block 402, the U-shaped cutter 405 slides relative to the position of the third sliding block 402, the U-shaped cutter 405 is enabled to contact with the rubber fender surface, the second sliding block 405 is driven to move along the second side surface, the second sliding block is enabled to keep the second sliding block 404 to move along the groove 405, the depth is enabled to move along the second sliding block, and the second sliding block is enabled to keep the depth of the second sliding block is enabled to move along the groove 405, and the second sliding block is enabled to move along the side, the depth, and the second sliding block is kept to move along the position, and the second sliding block is kept in contact with the position, and the position is kept in contact with the position of the side, and the cutter has a depth of the cutter, and is kept in a cutter, and has a cutter is kept in a mode.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and their equivalents.

Claims

1. An annular groove processingequipment, its characterized in that: the automatic cutting machine comprises a machine table (101), wherein a supporting component (200) for placing a rubber fender is arranged at the upper end of the machine table (101), a translation component (300) for driving a cutter to move is arranged at the front side of the supporting component (200), a feeding component (400) for driving the cutter to move back and forth is arranged at the upper end of the translation component (300), and a depth adjusting component (500) for controlling the cutting depth is arranged at the upper end of the feeding component (400).

2. An annular groove processing apparatus as defined in claim 1, wherein: the supporting component (200) comprises a fixed block (201), the fixed block (201) is fixedly installed at the upper end of the machine table (101), a first sliding block (202) is slidably installed at the rear side of the fixed block (201), a first telescopic rod (203) is fixedly installed between the first sliding block (202) and the machine table (101), chamfers are arranged on one sides, close to each other, of the fixed block (201) and the first sliding block (202), and a plurality of supporting wheels (204) are rotatably installed at the positions of the chamfers.

3. An annular groove processing apparatus as defined in claim 1, wherein: the translation assembly (300) comprises a second sliding block (301), the second sliding block (301) is slidably mounted at the upper end of the machine table (101), a first lead screw (302) is rotatably mounted at the upper end of the machine table (101), the first lead screw (302) is in threaded connection with the second sliding block (301), one end of the first lead screw (302) is connected with a first driving motor (303), and a second telescopic rod (304) is fixedly mounted at the upper end of the second sliding block (301).

4. An annular groove processing apparatus according to claim 3, wherein: the feeding assembly (400) comprises a mounting plate (401), the mounting plate (401) is fixedly mounted at the upper end of the second telescopic rod (304), a third sliding block (402) is slidably mounted at the upper end of the mounting plate (401), a second lead screw (403) is rotatably mounted at the upper end of the mounting plate (401), the second lead screw (403) is in threaded connection with the third sliding block (402), one end of the second lead screw (403) is connected with a second driving motor (404), and a U-shaped cutter (405) is fixedly mounted at the front end of the third sliding block (402).

5. An annular groove processing apparatus as defined in claim 4, wherein: the depth adjusting assembly (500) comprises four sliding blocks (501), the four sliding blocks (501) are symmetrically distributed on two sides of the U-shaped cutter (405), the four sliding blocks (501) are slidably mounted on the upper end of the third sliding block (402), a V-shaped plate (502) is rotatably mounted at the front end of each of the four sliding blocks (501), guide wheels (503) are rotatably mounted at the two ends of each of the V-shaped plates (502), springs are arranged between the four sliding blocks (501) and the third sliding blocks (402), a third lead screw (504) is mounted at the upper end of each of the third sliding blocks (402) through threads, a mounting disc (505) is fixedly mounted at one end of each of the third lead screws (504) close to each of the fourth sliding blocks (501), a microswitch (506) is fixedly mounted at the upper end of each of the mounting disc (505), and a connecting plate (507) is fixedly mounted at the upper end of each of the fourth sliding blocks (501).

6. An annular groove processing apparatus as defined in claim 5, wherein: and a manual rotating wheel is fixedly arranged at one end of the third screw rod (504) far away from the third sliding block (402).