CN116969120A

CN116969120A - Alloy pipe processing conveying equipment

Info

Publication number: CN116969120A
Application number: CN202311231281.7A
Authority: CN
Inventors: 孙飞
Original assignee: SUZHOU JINCANG ALLOY NEW-MATERIAL CO LTD
Current assignee: SUZHOU JINCANG ALLOY NEW-MATERIAL CO LTD
Priority date: 2023-09-22
Filing date: 2023-09-22
Publication date: 2023-10-31

Abstract

The invention belongs to the technical field of pipe conveying, in particular to alloy pipe processing and conveying equipment, which comprises a pair of supporting frames, wherein conveying belts are arranged on the side surfaces of the supporting frames, and the pair of conveying belts are symmetrical based on the central positions of the pair of supporting frames; a driving roller is arranged in the conveyor belt, and the end part of the driving roller is connected with the output end of the motor; the surface of the conveyor belt is provided with a plurality of mounting holes, and the orifice of each mounting hole is provided with a rubber strip; according to the alloy pipe processing and conveying equipment, the rubber strips are arranged on the conveying belt, the pair of rubber strips limit the pipe to be conveyed, then the conveying belt drives the rubber strips to move, the rubber strips drive the pipe to move, the pipe stops when moving to a specified position, the pipe is limited by the pair of rubber strips, the pipe is unchanged relative to the initial position on the conveying belt, the conveying belt can accurately convey the pipe to the specified position, and the pipe has higher stability when being conveyed; the manipulator is convenient to accurately clamp and transfer.

Description

Alloy pipe processing conveying equipment

Technical Field

The invention belongs to the technical field of pipe conveying, and particularly relates to alloy pipe processing and conveying equipment.

Background

The alloy pipe is prepared from alloy, has the advantages of being capable of being recovered by 100%, and accords with the national strategy of environmental protection, energy conservation and resource conservation; when the pipe fitting is prepared, different pipe fittings are required to be used by different pipe fittings, and the quality of the pipe fittings is directly determined by the quality of the pipe fittings; in actual production, the pipe needs to be conveyed to a designated area for further processing operations after being cut off.

At present, when the cut pipe is conveyed, the pipe is generally conveyed through a chain plate or a belt, however, when the existing chain plate or belt is conveyed, the conveying surface is smooth, when the pipe is conveyed, the pipe is difficult to be limited in position when conveyed on the conveying surface, the position of the pipe on the conveying surface after conveying is difficult to be accurate, and when the pipe is conveyed through a manipulator, the position needs to be adjusted, so that the pipe conveying device is inconvenient.

Therefore, the invention provides alloy pipe processing and conveying equipment.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the alloy pipe processing and conveying equipment comprises a pair of support frames, wherein conveying belts are arranged on the side surfaces of the support frames, and the pair of conveying belts are symmetrical based on the central positions of the pair of support frames; a driving roller is arranged in the conveyor belt, and the end part of the driving roller is connected with the output end of the motor; the surface of the conveyor belt is provided with a plurality of mounting holes, a rubber strip is arranged at the orifice of each mounting hole, an inserting block is arranged on each rubber strip, each inserting block is inserted into each mounting hole, and inclined surfaces are arranged on one side, opposite to each rubber strip, of each pair of rubber strips; when the pipe is conveyed, the pipe is received by the inclined surfaces of the pair of rubber strips.

Preferably, the distance between the pair of rubber strips can be adjusted by adjusting the position of the insertion mounting hole of the insertion block.

Preferably, a receiving cavity is formed in the rubber strip, an air exhaust plate is connected in the receiving cavity in a sliding manner, a supporting pipe is arranged at the top end of the rubber strip, a sucking disc is arranged at the top end of the supporting pipe, the bottom end of the supporting pipe penetrates through the receiving cavity, a receiving rod is inserted into the top end of the rubber strip, and the bottom end of the receiving rod is fixedly connected with the top surface of the air exhaust plate; the air suction plate is connected with the inner bottom wall of the bearing cavity by a supporting spring.

Preferably, a guide plate is arranged on one side of the support frame, which is positioned on the feeding side of the pipe, and a fixing frame is arranged between the guide plate and the support frame; the guide plate has a horizontal portion and an inclined portion, and the bottom end of the inclined portion is located above the conveyor belt.

Preferably, the top surface of the guide plate inclined part is provided with a pair of pressing plates, and the distance between the pressing plates is the same as the length of the conveying pipe; an adjusting component is arranged between the pressing plate and the fixing frame.

Preferably, the adjusting component comprises a first telescopic rod and a connecting frame, the first telescopic rod is installed on the bottom surface of the guide plate, one end of the connecting frame is fixedly connected with the end part of the output end of the first telescopic rod, and the other end of the connecting frame is fixedly connected with the surface of the pressing plate.

Preferably, the top surface of support frame is provided with accepts the frame, accept the top of frame and install the second telescopic link, the bottom of second telescopic link output is provided with the barrier.

Preferably, a plurality of third telescopic rods are arranged between the pair of support frames, the top end of the output end of each third telescopic rod is provided with a supporting strip, and the top surface of each supporting strip is provided with a V-shaped groove; one side of the rubber strip, which is close to the centers of the pair of support frames, is provided with a rubber block, and when the pipe to be conveyed enters the V-shaped groove, the surface centers of the two sides are in extrusion contact with the end parts of the rubber block.

Preferably, one end of the rubber block, which is contacted with the surface of the pipe, is provided with a groove shape, and the groove surface is matched with the surface of the pipe.

Preferably, the top surface of the bearing strip is uniformly and rotatably connected with a plurality of balls.

The beneficial effects of the invention are as follows:

1. according to the alloy pipe processing and conveying equipment, the rubber strips are arranged on the conveying belt, the pair of rubber strips limit the pipe to be conveyed, then the conveying belt drives the rubber strips to move, the rubber strips drive the pipe to move, the pipe stops when moving to a specified position, then the pipe is clamped and transferred through the manipulator, in the process, the pipe is limited by the pair of rubber strips when being driven to move by the conveying belt, so that the pipe is kept unchanged relative to the initial position on the conveying belt, the conveying belt can accurately convey the pipe to the specified position, and the pipe has higher stability when being conveyed; the manipulator is convenient to accurately clamp and transfer.

2. According to the alloy pipe processing and conveying equipment, the guide plate is arranged, when the conveying belt is fed, and when a manipulator structure is not arranged on a construction site, the material is required to be fed manually by a worker, and particularly when the material is fed, the worker places the pipe on the horizontal part of the guide plate and pushes the pipe to the inclined part, the pipe slides downwards on the inclined part of the guide plate and finally falls between a pair of rubber strips, so that the feeding of the pipe is completed, and compared with the process that the pipe is lifted and placed between the pair of rubber strips by the worker, the feeding of the pipe is more convenient.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the structure of the rubber strip of the present invention;

FIG. 4 is a schematic side cross-sectional view of a rubber strip of the present invention;

FIG. 5 is an enlarged schematic view of portion B of FIG. 1 in accordance with the present invention;

FIG. 6 is an enlarged schematic view of portion C of FIG. 1 in accordance with the present invention;

FIG. 7 is a schematic overall side view of the present invention;

fig. 8 is a schematic view of the receiving strip of the present invention.

In the figure: 1. a support frame; 11. a conveyor belt; 12. a mounting hole; 13. a rubber strip; 14. a receiving rod; 15. a suction cup; 16. a support tube; 17. a receiving cavity; 18. an air extraction plate; 2. a guide plate; 21. a fixing frame; 3. a pressing plate; 4. an adjustment assembly; 41. a connecting frame; 42. a first telescopic rod; 5. a bearing frame; 51. a second telescopic rod; 52. a blocking member; 6. a rubber block; 7. a third telescopic rod; 71. and a receiving strip.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 3, the alloy pipe processing and conveying device according to the embodiment of the invention comprises a pair of support frames 1, wherein a conveyor belt 11 is arranged on the side surface of each support frame 1, and the pair of conveyor belts 11 are symmetrical based on the central positions of the pair of support frames 1; a driving roller is arranged in the conveyor belt 11, and the end part of the driving roller is connected with the output end of the motor; the surface of the conveyor belt 11 is provided with a plurality of mounting holes 12, a rubber strip 13 is arranged at the orifice of the mounting holes 12, the rubber strip 13 is provided with an inserting block, the inserting block is inserted into the mounting holes 12, and inclined surfaces are arranged at one side of the pair of rubber strips 13 opposite to each other; when the pipe is conveyed, the pipe is received by the inclined surfaces of the pair of rubber strips 13;

when the pipe conveying device is used, a worker places a pipe to be conveyed on the conveying belt 11, the pipe is embedded between the pair of rubber strips 13, the inclined surfaces of the pair of rubber strips 13 bear the surface of the pipe, then a motor connected with the end part of a driving roller inside the conveying belt 11 is started, the conveying belt 11 drives the rubber strips 13 to move, the rubber strips 13 drive the pipe to move, the pipe stops when the pipe moves to a designated position, then the pipe is clamped and transferred through a manipulator, and in the process, the pipe is limited by the pair of rubber strips 13 when the pipe is driven by the conveying belt 11 to move, so that the pipe is kept unchanged relative to the initial position on the conveying belt 11, the conveying belt 11 can accurately convey the pipe to the designated position, and the pipe has higher stability when being conveyed; the manipulator is convenient to accurately clamp and transfer.

The distance between the pair of rubber strips 13 can be adjusted by adjusting the position of the inserting mounting holes 12 of the inserting blocks; for the pipes with different diameters, the distance between the pair of rubber strips 13 can be adjusted by inserting the inserting blocks into the mounting holes 12, so that the pair of rubber strips 13 can limit the pipes with different diameters, and the size range of the conveying pipe is improved.

As shown in fig. 3 to 4, a receiving cavity 17 is formed in the rubber strip 13, an air exhaust plate 18 is slidably connected in the receiving cavity 17, a supporting pipe 16 is arranged at the top end of the rubber strip 13, a sucking disc 15 is arranged at the top end of the supporting pipe 16, the bottom end of the supporting pipe 16 penetrates through the receiving cavity 17, a receiving rod 14 is inserted into the top end of the rubber strip 13, and a supporting spring is fixedly connected with the bottom end of the receiving rod 14 and the top surface of the air exhaust plate 18; when the pipe is embedded between the pair of rubber strips 13, the surface of the pipe extrudes the opening of the suction cup 15, the opening of the suction cup 15 is deformed and then blocked by the surface of the pipe, then the surface of the pipe extrudes the top surface of the receiving rod 14, the receiving rod 14 drives the air suction plate 18 to move downwards, the movement is stopped when the suction cup 15 cannot deform, in the process, the receiving cavity 17 pumps the support pipe 16 through the movement of the air suction plate 18, and the support pipe 16 pumps the sealed space between the suction cup 15 and the surface of the pipe, so that the suction cup 15 is adsorbed on the surface of the pipe, the pipe is further limited, and the stability of the movement of the pipe is further improved; then when the pipe is clamped and transferred, the pipe moves upwards, the receiving rod 14 is not extruded any more, and the air extraction plate 18 resets and moves under the action of the bottom supporting spring; the suction cup 15 releases the suction to the surface of the pipe.

As shown in fig. 1, a guide plate 2 is arranged on the feeding side of the pipe on the support frame 1, and a fixing frame 21 is arranged between the guide plate 2 and the support frame 1; the guide plate 2 has a horizontal portion and an inclined portion, and the bottom end of the inclined portion is located above the conveyor belt 11; when the conveying belt 11 is fed, when a manipulator structure is not arranged on a construction site, manual feeding is needed by a worker, and in specific feeding, the worker places the pipe on the horizontal part of the guide plate 2, then pushes the pipe to the inclined part, the pipe slides downwards on the inclined part of the guide plate 2 and finally falls between the pair of rubber strips 13, and feeding of the pipe is completed, so that compared with the process that the pipe is lifted and placed between the pair of rubber strips 13 by the worker, the pipe is more convenient; it should be noted that the conveyor belt 11 is opened and closed by a program and outputs, and a pair of rubber strips 13 may be positioned precisely below the inclined portion of the guide plate 2.

As shown in fig. 1 to 5, the top surface of the inclined portion of the guide plate 2 is provided with a pair of pressing plates 3, and the distance between the pressing plates 3 is the same as the length of the conveying pipe; an adjusting component 4 is arranged between the pressing plate 3 and the fixing frame 21; when the pipe slides downwards on the inclined part of the guide plate 2, the two ends of the pipe are limited by the pair of pressing plates 3 arranged on the inclined part, and the distance between the pair of pressing plates 3 is the same as the length of the conveyed pipe; therefore, the two end surfaces of the pipe move parallel to the surface of the pressing plate 3, and the pipe is kept at an ideal angle and falls between a pair of rubber strips 13 when falling off, so that the stability and the accuracy of pipe feeding are ensured.

The adjusting component 4 comprises a first telescopic rod 42 and a connecting frame 41, the first telescopic rod 42 is arranged on the bottom surface of the guide plate 2, one end of the connecting frame 41 is fixedly connected to the end part of the output end of the first telescopic rod 42, and the other end of the connecting frame 41 is fixedly connected to the surface of the pressing plate 3; for the tubular product of different length, when limiting both ends through pressing the board 3, through the adjustable pressing board 3 of first telescopic link 42 cooperation link 41 position on guide board 2, and then adjust the interval between a pair of pressing board 3, so improve the application scope of pressing board 3.

As shown in fig. 1 to 6, the top surface of the supporting frame 1 is provided with a bearing frame 5, the top end of the bearing frame 5 is provided with a second telescopic rod 51, and the bottom end of the output end of the second telescopic rod 51 is provided with a blocking piece 52; when the pipe falls from the guide plate 2, the second telescopic rod 51 is started to drive the blocking piece 52 to move downwards to the top surface of the rubber strip 13 far away from the guide plate 2 in the pair of rubber strips 13; the dropped pipe is blocked by the blocking member 52, preventing the pipe from falling out of the pair of rubber strips 13 beyond the rubber strips 13 at too high a speed when falling out.

As shown in fig. 7 to 8, a plurality of third telescopic rods 7 are arranged between a pair of the supporting frames 1, the top end of the output end of each third telescopic rod 7 is provided with a carrying bar 71, and the top surface of each carrying bar 71 is provided with a V-shaped groove; the rubber strip 13 is provided with a rubber block 6 at one side close to the center of the pair of support frames 1, and when the pipe to be conveyed enters the V-shaped groove, the centers of the surfaces of the two sides are in extrusion contact with the ends of the rubber block 6; for the uncut pipe, when in conveying, the third telescopic rod 7 is started, the third telescopic rod 7 drives the carrying bar 71 to move upwards to the same height as the top surface of the conveyor belt 11, then a worker places the uncut pipe into a V-shaped groove on the top surface of the carrying bar 71, the placing process is performed from top to bottom, when the pipe is placed on the carrying bar 71, the end part of the rubber block 6 at the end part of the rubber bar 13 is propped against the surface of the pipe, along with the movement of the conveyor belt 11, the end part of the rubber bar 13 drives the rubber block 6 to move, the end part of the rubber block 6 is propped against the surface of the pipe and drives the pipe to move on the carrying bar 71 through friction, when the uncut pipe is conveyed to a specified position, the worker takes down the pipe again, and the conveying of the pipe is completed; the range of pipe conveying by the equipment is improved.

One end of the rubber block 6, which is contacted with the surface of the pipe, is provided with a groove shape, and the groove surface is matched with the surface of the pipe; when the end part of the rubber block 6 is propped against the surface of the pipe, the groove shape arranged at the end part of the rubber block 6 is fully attached to the surface of the pipe, so that the rubber block 6 can drive the pipe to move through friction force.

The top surface of the bearing bar 71 is uniformly and rotatably connected with a plurality of balls; when the pipe moves on the bearing strip 71, the pipe is supported by the balls, and when the pipe moves, the friction force applied to the pipe is reduced by rolling of the balls, so that the pipe is prevented from being scratched.

During operation, a worker places a pipe to be conveyed on the conveyor belt 11, the pipe is embedded between the pair of rubber strips 13, the inclined surfaces of the pair of rubber strips 13 bear the surface of the pipe, then a motor connected with the end parts of a driving roller inside the conveyor belt 11 is started, the conveyor belt 11 drives the rubber strips 13 to move, the rubber strips 13 drive the pipe to move, the pipe stops when moving to a designated position, then the pipe is clamped and transferred by a manipulator, and in the process, the pipe is limited in position by the pair of rubber strips 13 when being driven by the conveyor belt 11 to move, so that the pipe is kept unchanged relative to the initial position on the conveyor belt 11, the conveyor belt 11 can accurately convey the pipe to the designated position, and the pipe has higher stability when being conveyed; the accurate clamping and transferring by a mechanical arm are convenient; for pipes with different diameters, the distance between the pair of rubber strips 13 can be adjusted by inserting the inserting blocks into the mounting holes 12, so that the pair of rubber strips 13 can limit the pipes with different diameters, and the size range of the conveying pipe is improved.

When the pipe is embedded between the pair of rubber strips 13, the surface of the pipe extrudes the opening of the suction cup 15, the opening of the suction cup 15 deforms and is blocked by the surface of the pipe, then the surface of the pipe extrudes the top surface of the receiving rod 14, the receiving rod 14 drives the air suction plate 18 to move downwards, the movement is stopped when the suction cup 15 cannot deform, in the process, the receiving cavity 17 pumps the support pipe 16 through the movement of the air suction plate 18, and the support pipe 16 pumps the sealed space between the suction cup 15 and the surface of the pipe, so that the suction cup 15 is adsorbed on the surface of the pipe, the pipe is further limited, and the stability of the movement of the pipe is further improved; when the conveying belt 11 is fed, when a manipulator structure is not arranged on a construction site, the manual feeding is needed by a worker, and in the concrete feeding, the worker places the pipe on the horizontal part of the guide plate 2, then pushes the pipe to the inclined part, the pipe slides downwards on the inclined part of the guide plate 2 and finally falls between a pair of rubber strips 13, and the pipe feeding is completed, so that compared with the process that the pipe is lifted and placed between the pair of rubber strips 13 by the worker, the pipe feeding is more convenient; wherein when the pipe slides downwards on the inclined part of the guide plate 2, a pair of pressing plates 3 arranged on the inclined part limit the two ends of the pipe, and the distance between the pressing plates 3 is the same as the length of the conveyed pipe; therefore, the two end surfaces of the pipe move parallel to the surface of the pressing plate 3, and the pipe is kept at an ideal angle and falls between a pair of rubber strips 13 when falling off, so that the stability and the accuracy of pipe feeding are ensured.

When two ends of the pipe with different lengths are limited by the pressing plates 3, the positions of the pressing plates 3 on the guide plate 2 can be adjusted by matching the first telescopic rods 42 with the connecting frames 41, so that the distance between the pair of pressing plates 3 is adjusted, and the application range of the pressing plates 3 is improved; wherein when the pipe material falls from the guide plate 2, the second telescopic rod 51 is started to drive the blocking piece 52 to move downwards to the top surface of the rubber strip 13 far away from the guide plate 2 in the pair of rubber strips 13; the dropped pipe is blocked by the blocking piece 52, so that the pipe is prevented from falling out of the pair of rubber strips 13 beyond the rubber strips 13 due to excessively high falling speed; when the pipe is conveyed, the third telescopic rod 7 is started, the third telescopic rod 7 drives the carrying bar 71 to move upwards to the same height as the top surface of the conveyor belt 11, then a worker places the pipe which is not cut into a V-shaped groove on the top surface of the carrying bar 71, the placing process is performed from top to bottom, when the pipe is placed on the carrying bar 71, the end part of the rubber block 6 at the end part of the rubber bar 13 is pressed to the surface of the pipe, the end part of the rubber bar 13 drives the rubber block 6 to move along with the movement of the conveyor belt 11, the end part of the rubber block 6 is pressed to the surface of the pipe and drives the pipe to move on the carrying bar 71 through friction, when the pipe which is not cut is conveyed to a designated position, the worker removes the pipe, and the conveying of the pipe is completed; when the end part of the rubber block 6 is propped against the surface of the pipe, the groove shape arranged at the end part of the rubber block 6 is fully attached to the surface of the pipe, so that the rubber block 6 can drive the pipe to move through friction force; when the pipe moves on the bearing strip 71, the pipe is supported by the balls, and when the pipe moves, the friction force applied to the pipe is reduced by rolling of the balls, so that the pipe is prevented from being scratched.

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

Claims

1. An alloy tubular product processing conveying equipment which characterized in that: the device comprises a pair of support frames (1), wherein a conveyor belt (11) is arranged on the side surface of each support frame (1), and the pair of conveyor belts (11) are symmetrical based on the central positions of the pair of support frames (1); a driving roller is arranged in the conveyor belt (11), and the end part of the driving roller is connected with the output end of the motor; the surface of the conveyor belt (11) is provided with a plurality of mounting holes (12), a rubber strip (13) is arranged at the orifice of the mounting holes (12), an inserting block is arranged on the rubber strip (13), the inserting block is inserted into the mounting holes (12), and inclined surfaces are arranged on one side, opposite to the pair of rubber strips (13); when the pipe is conveyed, the pipe is received by the inclined surfaces of the pair of rubber strips (13).

2. The alloy pipe machining and conveying equipment according to claim 1, wherein: the distance between the pair of rubber strips (13) can be adjusted by adjusting the position of the inserting installation holes (12) of the inserting blocks.

3. The alloy pipe machining and conveying equipment according to claim 1, wherein: the inside of the rubber strip (13) is provided with a receiving cavity (17), the inside of the receiving cavity (17) is connected with an air exhaust plate (18) in a sliding manner, the top end of the rubber strip (13) is provided with a supporting pipe (16), the top end of the supporting pipe (16) is provided with a sucking disc (15), the bottom end of the supporting pipe (16) penetrates through the inside of the receiving cavity (17), the top end of the rubber strip (13) is inserted with a receiving rod (14), and the bottom end of the receiving rod (14) is fixedly connected with the top surface of the air exhaust plate (18); the air suction plate (18) and the inner bottom wall of the bearing cavity (17) are connected with supporting springs.

4. The alloy pipe machining and conveying equipment according to claim 1, wherein: a guide plate (2) is arranged on one feeding side of the support frame (1) positioned on the pipe, and a fixing frame (21) is arranged between the guide plate (2) and the support frame (1); the guide plate (2) has a horizontal portion and an inclined portion, and the bottom end of the inclined portion is located above the conveyor belt (11).

5. The alloy pipe machining and conveying equipment according to claim 4, wherein: the top surface of the inclined part of the guide plate (2) is provided with a pair of pressing plates (3), and the distance between the pressing plates (3) is the same as the length of the conveying pipe; an adjusting component (4) is arranged between the pressing plate (3) and the fixing frame (21).

6. The alloy pipe machining and conveying equipment according to claim 5, wherein: the adjusting component (4) comprises a first telescopic rod (42) and a connecting frame (41), the first telescopic rod (42) is installed on the bottom surface of the guide plate (2), one end of the connecting frame (41) is fixedly connected to the end portion of the output end of the first telescopic rod (42), and the other end of the connecting frame is fixedly connected to the surface of the pressing plate (3).

7. The alloy pipe machining and conveying equipment according to claim 1, wherein: the top surface of support frame (1) is provided with and accepts frame (5), the top of accepting frame (5) is installed second telescopic link (51), the bottom of second telescopic link (51) output is provided with blocking piece (52).

8. The alloy pipe machining and conveying equipment according to claim 1, wherein: a plurality of third telescopic rods (7) are arranged between the pair of support frames (1), the top end of the output end of each third telescopic rod (7) is provided with a bearing strip (71), and the top surface of each bearing strip (71) is provided with a V-shaped groove; one side of the rubber strip (13) close to the center of the pair of support frames (1) is provided with a rubber block (6), and when a pipe to be conveyed enters the V-shaped groove, the surface centers of the two sides are in extrusion contact with the ends of the rubber block (6).

9. The alloy pipe machining and conveying equipment according to claim 8, wherein: one end of the rubber block (6) contacted with the surface of the pipe is in a groove shape, and the groove surface is matched with the surface of the pipe.

10. The alloy pipe machining and conveying equipment according to claim 9, wherein: the top surface of the bearing strip (71) is uniformly and rotatably connected with a plurality of balls.