CN221734980U - Steel pipe fine cutting adjusting tool - Google Patents

Abstract

The utility model relates to the technical field of steel pipe fine cutting adjustment, in particular to a steel pipe fine cutting adjustment tool, which is provided with a slag removal mechanism and a rotating mechanism, so that dust generated in the cutting process can be absorbed and cleaned in the steel pipe fine cutting adjustment process, and materials can be cut at any angle; comprises a cutting mechanism; the device also comprises a slag removing mechanism, a filtering mechanism, a rotating mechanism, a limiting mechanism and two groups of clamping mechanisms, wherein the filtering mechanism is arranged in the slag removing mechanism, the cutting mechanism is arranged at the upper end of the slag removing mechanism, the rotating mechanism is arranged on the slag removing mechanism, the limiting mechanism is arranged on the rotating mechanism, and the two groups of clamping mechanisms are arranged on the limiting mechanism; the slag removing mechanism is used for absorbing dust, the filtering mechanism is used for filtering, the cutting mechanism is used for cutting, the rotating mechanism is used for rotating, the limiting mechanism is used for limiting, and the clamping mechanism is used for clamping.

Description

Steel pipe fine cutting adjusting tool

Technical Field

The utility model relates to the technical field of steel pipe precise cutting adjustment, in particular to a steel pipe precise cutting adjustment tool.

Background

The steel pipe is a steel material having a hollow section and a length far greater than a diameter or a circumference, and is classified into a carbon structural steel pipe, a low alloy structural steel pipe, an alloy steel pipe and a composite steel pipe according to materials, and is classified into a seamless steel pipe and a welded steel pipe according to production processes.

Among the present steel pipe finish cutting regulation frock, for example, the steel pipe finish cutting regulation frock that is disclosed in the patent of the utility model of application number 201922298036.3, through the cooperation of bottom plate, stabilizer blade and fixed subassembly for the device can carry out the centre gripping to the steel pipe when cutting and fix, and firm degree is higher, and then promotes cutting accuracy, simultaneously through the setting of rubber pad, makes steel pipe self vibrations when cutter and steel pipe contact diluted absorption, and then plays the cushioning effect, further promotes cutting accuracy.

But in the steel pipe fine cutting adjustment process, accurate fixing cannot be achieved when oblique angle cutting is needed during material cutting.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the steel pipe fine cutting adjusting tool which is provided with the slag removing mechanism and the rotating mechanism, so that dust generated in the cutting process can be absorbed and cleaned in the steel pipe fine cutting adjusting process, and materials can be cut at any angle.

The utility model relates to a steel pipe fine cutting adjusting tool, which comprises a cutting mechanism; the device also comprises a slag removing mechanism, a filtering mechanism, a rotating mechanism, a limiting mechanism and two groups of clamping mechanisms, wherein the filtering mechanism is arranged in the slag removing mechanism, the cutting mechanism is arranged at the upper end of the slag removing mechanism, the rotating mechanism is arranged on the slag removing mechanism, the limiting mechanism is arranged on the rotating mechanism, and the two groups of clamping mechanisms are arranged on the limiting mechanism;

the slag removing mechanism is used for absorbing dust, the filtering mechanism is used for filtering, the cutting mechanism is used for cutting, the rotating mechanism is used for rotating, the limiting mechanism is used for limiting, and the clamping mechanism is used for clamping; the steel pipe fine cutting device has the advantages that the limiting mechanism is opened to limit materials, the clamping mechanism is opened to clamp the materials, the cutting mechanism is opened to cut the materials, meanwhile, the impurity generated in cutting is absorbed by the slag removing mechanism, the impurity is filtered by the filtering mechanism, the rotating mechanism is opened to enable the materials to rotate to change the cutting angle, and therefore dust generated in the cutting process can be absorbed and cleaned in the fine cutting adjusting process of the steel pipe, and the materials can be cut at any angle.

Preferably, the slag removing mechanism comprises an equipment box and a fan, and the fan is arranged at the rear end of the equipment box; dust is sucked into the equipment box by opening the blower.

Preferably, the filtering mechanism comprises a filtering box and a handle, the filtering box is slidably arranged in the equipment box, and the handle is arranged at the right end of the filtering box; dust is absorbed by the filter box, and impurities are poured by pulling the handle.

Preferably, the cutting mechanism comprises a connecting rod, a saw blade and a motor I, wherein the connecting rod is rotatably arranged at the upper end of the equipment box, the saw blade is rotatably arranged at the right end of the connecting rod, the input end of the saw blade extends to the left side of the connecting rod, the motor I is arranged at the left end of the connecting rod, and the output end of the motor I is connected with the input end of the saw blade; the saw blade is driven to rotate by opening the motor to drive the saw blade, and the material is cut by pressing the connecting rod downwards.

Preferably, the rotating mechanism comprises a turntable, a worm wheel, a motor II and a worm I, the turntable is rotatably arranged on the equipment box, the input end of the turntable extends into the equipment box, the worm wheel is connected with the input end of the turntable, the motor II is arranged in the equipment box, the worm I is connected with the output end of the motor II, and the worm I is in threaded fit with the worm wheel; the first worm is driven to rotate by opening the motor II, and the first worm rotates and is in threaded fit with the worm wheel to rotate, so that the worm wheel drives the turntable to rotate.

Preferably, the limiting mechanism comprises a bidirectional screw rod, two groups of sliding tables and a motor III, wherein the bidirectional screw rod is rotatably arranged on the rotary table, the input end of the bidirectional screw rod extends to the right side of the rotary table, the two groups of sliding tables are slidably arranged at the upper end of the rotary table, the two groups of sliding tables are in threaded fit with the bidirectional screw rod, the motor III is arranged at the right end of the rotary table, and the output end of the motor III is connected with the input end of the bidirectional screw rod; the three pairs of bidirectional screw rods of the motor are turned on to drive the bidirectional screw rods to rotate, and the bidirectional screw rods are in threaded fit with the sliding table while rotating so that the sliding table moves to limit materials.

Preferably, the clamping mechanism comprises a worm wheel ring, a worm II, three groups of clamping rods and three groups of clamping blocks, the worm wheel ring is rotatably arranged in the sliding table, the worm II is rotatably arranged on the sliding table, the worm II is in threaded fit with the worm wheel ring, the three groups of clamping rods are rotatably arranged on the sliding table, each group of clamping rods are in sliding fit with the worm wheel ring, and each group of clamping rods is provided with one group of clamping blocks; the worm wheel ring rotates through threaded fit between the second rotating worm and the worm wheel ring, and the worm wheel ring drives the clamping rod to be in sliding fit with the sliding table while rotating so that the clamping block clamps materials.

Compared with the prior art, the utility model has the beneficial effects that: the steel pipe fine cutting device has the advantages that the limiting mechanism is opened to limit materials, the clamping mechanism is opened to clamp the materials, the cutting mechanism is opened to cut the materials, meanwhile, the impurity generated in cutting is absorbed by the slag removing mechanism, the impurity is filtered by the filtering mechanism, the rotating mechanism is opened to enable the materials to rotate to change the cutting angle, and therefore dust generated in the cutting process can be absorbed and cleaned in the fine cutting adjusting process of the steel pipe, and the materials can be cut at any angle.

Drawings

FIG. 1 is a schematic view of a first axial structure of the present utility model;

FIG. 2 is a schematic view of a second axial structure of the present utility model;

FIG. 3 is a schematic view of a right-side cross-sectional axially-measured structure of the present utility model;

FIG. 4 is a schematic view of a left-hand cross-sectional axially-measured structure of the present utility model;

FIG. 5 is a schematic view of a cross-sectional down-view of the present utility model;

The reference numerals in the drawings: 1. a slag removing mechanism; 11. an equipment box; 12. a blower; 2. a filtering mechanism; 21. a filter box; 22. a handle; 3. a cutting mechanism; 31. a connecting rod; 32. a saw blade; 33. a first motor; 4. a rotating mechanism; 41. a turntable; 42. a worm wheel; 43. a second motor; 44. a first worm; 5. a limiting mechanism; 51. a bidirectional screw rod; 52. a sliding table; 53. a third motor; 6. a clamping mechanism; 61. a worm gear ring; 62. a second worm; 63. a clamping rod; 64. and clamping blocks.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example 1

As shown in fig. 1 to 5, the device comprises a cutting mechanism 3, a slag removing mechanism 1, a filtering mechanism 2, a rotating mechanism 4, a limiting mechanism 5 and two groups of clamping mechanisms 6, wherein the filtering mechanism 2 is arranged in the slag removing mechanism 1, the cutting mechanism 3 is arranged at the upper end of the slag removing mechanism 1, the rotating mechanism 4 is arranged on the slag removing mechanism 1, the limiting mechanism 5 is arranged on the rotating mechanism 4, and the two groups of clamping mechanisms 6 are arranged on the limiting mechanism 5;

The slag removing mechanism 1 is used for absorbing dust, the filtering mechanism 2 is used for filtering, the cutting mechanism 3 is used for cutting, the rotating mechanism 4 is used for rotating, the limiting mechanism 5 is used for limiting, and the clamping mechanism 6 is used for clamping;

The slag removing mechanism 1 comprises an equipment box 11 and a fan 12, and the fan 12 is arranged at the rear end of the equipment box 11;

The filtering mechanism 2 comprises a filtering box 21 and a handle 22, wherein the filtering box 21 is slidably arranged in the equipment box 11, and the handle 22 is arranged at the right end of the filtering box 21;

the cutting mechanism 3 comprises a connecting rod 31, a saw blade 32 and a motor I33, wherein the connecting rod 31 is rotatably arranged at the upper end of the equipment box 11, the saw blade 32 is rotatably arranged at the right end of the connecting rod 31, the input end of the saw blade 32 extends to the left side of the connecting rod 31, the motor I33 is arranged at the left end of the connecting rod 31, and the output end of the motor I33 is connected with the input end of the saw blade 32;

The rotating mechanism 4 comprises a rotary table 41, a worm wheel 42, a motor II 43 and a worm I44, the rotary table 41 is rotatably installed on the equipment box 11, the input end of the rotary table 41 extends into the equipment box 11, the worm wheel 42 is connected with the input end of the rotary table 41, the motor II 43 is installed in the equipment box 11, the worm I44 is connected with the output end of the motor II 43, and the worm I44 is in threaded fit with the worm wheel 42;

The limiting mechanism 5 comprises a bidirectional screw rod 51, two groups of sliding tables 52 and a motor III 53, the bidirectional screw rod 51 is rotatably arranged on the rotary table 41, the input end of the bidirectional screw rod 51 extends to the right side of the rotary table 41, the two groups of sliding tables 52 are slidably arranged at the upper end of the rotary table 41, the two groups of sliding tables 52 are in threaded fit with the bidirectional screw rod 51, the motor III 53 is arranged at the right end of the rotary table 41, and the output end of the motor III 53 is connected with the input end of the bidirectional screw rod 51;

The clamping mechanism 6 comprises a worm wheel ring 61, a worm II 62, three groups of clamping rods 63 and three groups of clamping blocks 64, wherein the worm wheel ring 61 is rotatably installed in the sliding table 52, the worm II 62 is rotatably installed on the sliding table 52, the worm II 62 is in threaded fit with the worm wheel ring 61, the three groups of clamping rods 63 are rotatably installed on the sliding table 52, each group of clamping rods 63 is in sliding fit with the worm wheel ring 61, and each group of clamping rods 63 is provided with one group of clamping blocks 64;

the three motors 53 are turned on to drive the two-way screw rods 51 to rotate, the two-way screw rods 51 rotate and are in threaded fit with the sliding table 52 to enable the sliding table 52 to move to limit materials, the two-way screw rods 62 are in threaded fit with the worm wheel ring 61 to enable the worm wheel ring 61 to rotate, the worm wheel ring 61 rotates and drives the clamping rods 63 to be in sliding fit with the sliding table 52 to enable the clamping blocks 64 to clamp the materials, the first motors 33 are turned on to drive the saw blade 32 to enable the saw blade 32 to rotate, the connecting rods 31 are pressed down to enable the saw blade 32 to cut the materials, meanwhile, the fan 12 is turned on to enable dust to be sucked into the equipment box 11, the dust is absorbed through the filter box 21, the handle 22 is pulled to dump impurities, and therefore dust generated in the cutting process can be absorbed and cleaned in the steel pipe fine cutting adjustment process.

Example 2

As shown in fig. 1 to 5, the device comprises a cutting mechanism 3, a slag removing mechanism 1, a filtering mechanism 2, a rotating mechanism 4, a limiting mechanism 5 and two groups of clamping mechanisms 6, wherein the filtering mechanism 2 is arranged in the slag removing mechanism 1, the cutting mechanism 3 is arranged at the upper end of the slag removing mechanism 1, the rotating mechanism 4 is arranged on the slag removing mechanism 1, the limiting mechanism 5 is arranged on the rotating mechanism 4, and the two groups of clamping mechanisms 6 are arranged on the limiting mechanism 5;

The slag removing mechanism 1 is used for absorbing dust, the filtering mechanism 2 is used for filtering, the cutting mechanism 3 is used for cutting, the rotating mechanism 4 is used for rotating, the limiting mechanism 5 is used for limiting, and the clamping mechanism 6 is used for clamping;

The slag removing mechanism 1 comprises an equipment box 11 and a fan 12, and the fan 12 is arranged at the rear end of the equipment box 11;

the cutting mechanism 3 comprises a connecting rod 31, a saw blade 32 and a motor I33, wherein the connecting rod 31 is rotatably arranged at the upper end of the equipment box 11, the saw blade 32 is rotatably arranged at the right end of the connecting rod 31, the input end of the saw blade 32 extends to the left side of the connecting rod 31, the motor I33 is arranged at the left end of the connecting rod 31, and the output end of the motor I33 is connected with the input end of the saw blade 32;

The rotating mechanism 4 comprises a rotary table 41, a worm wheel 42, a motor II 43 and a worm I44, the rotary table 41 is rotatably installed on the equipment box 11, the input end of the rotary table 41 extends into the equipment box 11, the worm wheel 42 is connected with the input end of the rotary table 41, the motor II 43 is installed in the equipment box 11, the worm I44 is connected with the output end of the motor II 43, and the worm I44 is in threaded fit with the worm wheel 42;

The limiting mechanism 5 comprises a bidirectional screw rod 51, two groups of sliding tables 52 and a motor III 53, the bidirectional screw rod 51 is rotatably arranged on the rotary table 41, the input end of the bidirectional screw rod 51 extends to the right side of the rotary table 41, the two groups of sliding tables 52 are slidably arranged at the upper end of the rotary table 41, the two groups of sliding tables 52 are in threaded fit with the bidirectional screw rod 51, the motor III 53 is arranged at the right end of the rotary table 41, and the output end of the motor III 53 is connected with the input end of the bidirectional screw rod 51;

The clamping mechanism 6 comprises a worm wheel ring 61, a worm II 62, three groups of clamping rods 63 and three groups of clamping blocks 64, wherein the worm wheel ring 61 is rotatably installed in the sliding table 52, the worm II 62 is rotatably installed on the sliding table 52, the worm II 62 is in threaded fit with the worm wheel ring 61, the three groups of clamping rods 63 are rotatably installed on the sliding table 52, each group of clamping rods 63 is in sliding fit with the worm wheel ring 61, and each group of clamping rods 63 is provided with one group of clamping blocks 64;

The motor III 53 is turned on to drive the bidirectional screw rod 51 to rotate, the bidirectional screw rod 51 rotates and is in threaded fit with the sliding table 52 to enable the sliding table 52 to move to limit materials, the worm wheel ring 61 rotates by means of threaded fit between the rotating worm II 62 and the worm wheel ring 61, the worm wheel ring 61 rotates and drives the clamping rod 63 to be in sliding fit with the sliding table 52 to enable the clamping block 64 to clamp the materials, the motor I33 is turned on to drive the saw blade 32 to rotate, the connecting rod 31 is pressed down to enable the saw blade 32 to cut the materials, the motor II 43 is turned on to drive the worm I44 to rotate, the worm I44 rotates and is in threaded fit with the worm wheel 42 to enable the worm wheel 42 to rotate, the rotating table 41 is driven to rotate to enable the materials to change the cutting angle, and therefore the materials can be cut at any angle in the steel pipe finish cutting adjustment process.

As shown in fig. 1 to 5, in the steel pipe fine cutting adjustment tool, when the steel pipe fine cutting adjustment tool works, a motor III 53 is turned on to drive a bidirectional screw 51 to rotate the bidirectional screw 51, the bidirectional screw 51 rotates and is in threaded fit with a sliding table 52 to enable the sliding table 52 to move to limit materials, a worm ring 61 is enabled to rotate through threaded fit of a rotating worm II 62 and a worm ring 61, a clamping rod 63 is driven to be in sliding fit with the sliding table 52 to clamp materials while the worm ring 61 rotates, a saw blade 32 is enabled to rotate through turning on a motor I33 to drive a saw blade 32, the saw blade 32 is enabled to cut materials through pressing down a connecting rod 31, dust is sucked into a device box 11 through turning on a fan 12, dust is absorbed through a filter box 21, impurities are dumped through pulling a handle 22, a motor II 43 is turned on to drive a worm I44 to rotate, a worm I44 rotates and is enabled to be in threaded fit with a worm wheel 42, and accordingly the worm wheel 42 drives the rotating table 41 to rotate to enable the materials to change cutting angles.

The fan 12, the first motor 33, the second motor 43 and the third motor 53 of the present utility model are purchased on the market, and those skilled in the art only need to install and operate according to the attached instructions without the need for creative efforts of those skilled in the art.

The main functions realized by the utility model are as follows: in the steel pipe fine cutting and adjusting working process, the slag removing mechanism and the rotating mechanism are arranged, so that dust generated in the cutting process can be absorbed and cleaned in the steel pipe fine cutting and adjusting process, and materials can be cut at any angle.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (7)

1. A steel pipe fine cutting adjusting tool comprises a cutting mechanism (3); the device is characterized by further comprising a slag removing mechanism (1), a filtering mechanism (2), a rotating mechanism (4), a limiting mechanism (5) and two groups of clamping mechanisms (6), wherein the filtering mechanism (2) is arranged in the slag removing mechanism (1), the cutting mechanism (3) is arranged at the upper end of the slag removing mechanism (1), the rotating mechanism (4) is arranged on the slag removing mechanism (1), the limiting mechanism (5) is arranged on the rotating mechanism (4), and the two groups of clamping mechanisms (6) are arranged on the limiting mechanism (5);

The slag removing mechanism (1) is used for absorbing dust, the filtering mechanism (2) is used for filtering, the cutting mechanism (3) is used for cutting, the rotating mechanism (4) is used for rotating, the limiting mechanism (5) is used for limiting, and the clamping mechanism (6) is used for clamping.

2. The steel pipe fine cutting adjustment tool according to claim 1, wherein the slag removal mechanism (1) comprises an equipment box (11) and a fan (12), and the fan (12) is arranged at the rear end of the equipment box (11).

3. The steel pipe fine cutting adjustment tool according to claim 2, wherein the filtering mechanism (2) comprises a filter box (21) and a handle (22), the filter box (21) is slidably mounted in the equipment box (11), and the handle (22) is mounted at the right end of the filter box (21).

4. The steel pipe fine cutting adjustment tool according to claim 2, wherein the cutting mechanism (3) comprises a connecting rod (31), a saw blade (32) and a motor I (33), the connecting rod (31) is rotatably installed at the upper end of the equipment box (11), the saw blade (32) is rotatably installed at the right end of the connecting rod (31), the input end of the saw blade (32) extends to the left side of the connecting rod (31), the motor I (33) is installed at the left end of the connecting rod (31), and the output end of the motor I (33) is connected with the input end of the saw blade (32).

5. A steel pipe finish cutting adjustment tool as claimed in claim 2, characterized in that the rotation mechanism (4) comprises a turntable (41), a worm wheel (42), a motor II (43) and a worm I (44), the turntable (41) is rotatably mounted on the equipment box (11), the input end of the turntable (41) extends into the equipment box (11), the worm wheel (42) is connected with the input end of the turntable (41), the motor II (43) is mounted in the equipment box (11), the worm I (44) is connected with the output end of the motor II (43), and the worm I (44) is in threaded fit with the worm wheel (42).

6. The steel pipe fine cutting adjustment tool according to claim 5, wherein the limiting mechanism (5) comprises a bidirectional screw rod (51), two groups of sliding tables (52) and a motor III (53), the bidirectional screw rod (51) is rotatably installed on the rotary table (41), the input end of the bidirectional screw rod (51) extends to the right side of the rotary table (41), the two groups of sliding tables (52) are slidably installed at the upper end of the rotary table (41), the two groups of sliding tables (52) are in threaded fit with the bidirectional screw rod (51), the motor III (53) is installed at the right end of the rotary table (41), and the output end of the motor III (53) is connected with the input end of the bidirectional screw rod (51).

7. The steel pipe fine cutting adjustment tool according to claim 6, wherein the clamping mechanism (6) comprises a worm wheel ring (61), a worm two (62), three groups of clamping rods (63) and three groups of clamping blocks (64), the worm wheel ring (61) is rotatably mounted in the sliding table (52), the worm two (62) is rotatably mounted on the sliding table (52), the worm two (62) is in threaded fit with the worm wheel ring (61), the three groups of clamping rods (63) are rotatably mounted on the sliding table (52), each group of clamping rods (63) is in sliding fit with the worm wheel ring (61), and each group of clamping rods (63) is provided with one group of clamping blocks (64).