CN214023769U

CN214023769U - Titanium pipe production facility

Info

Publication number: CN214023769U
Application number: CN202022820071.XU
Authority: CN
Inventors: 王昱丰
Original assignee: Changshu Oudi Pipe Industry Co ltd
Current assignee: Changshu Oudi Pipe Industry Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-08-24
Anticipated expiration: 2030-11-30

Abstract

The utility model discloses a titanium pipe production facility belongs to tubular product production field, the on-line screen storage device comprises a base, base left side front end outer wall fixed mounting has switch A, inside the opening in the left and right sides of base middle part is equipped with spout A, the inside smooth slider A that is equipped with of spout A, the inside fixed mounting of slider A outer end spout A has the spring, slider A upper end runs through spout A fixed mounting and links the board, link inboard outer wall fixed mounting in board upper end has the pipe clamp, both ends upper end outer wall fixed mounting has the curb plate about the base, base left side curb plate upper end outer wall fixed mounting has motor A, the motor A lower extreme runs through the inside commentaries on classics of curb plate and is equipped with the screw rod, the screw rod outer wall rotates and has cup jointed the swivel nut, both sides fixed mounting has the spacing ring about the swivel nut outer wall. Through setting up rotation, elastic expansion structure and embedded fixed knot structure, improved production facility's practicality.

Description

Titanium pipe production facility

Technical Field

The utility model relates to a tubular product production technical field especially relates to a titanium pipe production facility.

Background

The titanium tube has light weight, high strength and excellent mechanical performance. The heat exchanger is widely applied to heat exchange equipment, such as a shell and tube heat exchanger, a coil heat exchanger, a coiled tube heat exchanger, a condenser, an evaporator, a conveying pipeline and the like. In many nuclear power industries, titanium pipes are used as standard pipes of the nuclear power plants, and need to be cut into required length and size in the production process.

Patent CN200820158134.6 discloses a novel production facility of titanium and titanium alloy pipe, this equipment is to the main production technology of present production titanium pipe-generally adopt seamless drawing forming and cold rolling titanium area extrusion to weld into the pipe again, seamless pipe manufacturing cost is about 30% higher than the welded tube, also has certain pollution to the environment, through making the inherent crystalline grain of welding seam department even, the outward appearance is smooth and level, nearly seamless, the intensity of welding seam department is unanimous with other positions of pipe, welding seam department can not the scale deposit and easily wash in the pipe simultaneously. Meets the industrial application of titanium and titanium alloy pipes.

The production equipment has the following defects: 1. the production equipment is not convenient for adjusting the processing position according to the requirement, and meanwhile, the processing equipment is unstable, so that the processing process consumes time and labor, and the practicability of the production equipment is reduced. 2. The production equipment has an unobvious fixing effect on the pipe, and the pipe is easy to shake randomly in the processing process, so that normal processing is influenced, and the practicability of the equipment is reduced. 3. The processing equipment can only carry out the same process on one piece of equipment, and can only use other equipment if different processes need to be carried out, so that the time is consumed, the cost is increased, and the practicability of the equipment is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a titanium tube production facility, aim at adopting rotating-structure and embedded sliding structure, when the position that needs to adjust processing, press switch A and pass through controller control motor A operation, it has screw thread and screw sleeve inner wall to cut screw thread intermeshing to drive the screw rod to rotate through the outer wall, make the screw sleeve rotate at the screw rod outer wall and move down, the screw sleeve moves down and drives the rotating sleeve at the middle part of outer wall spacing ring to move down, the rotating sleeve moves down and drives the diaphragm of right end fixed mounting to move down in the spacing groove, the diaphragm moves down and drives the sliding sleeve of right end fixed mounting to vertically and steadily move down at the outer wall of the sliding rod, thereby drive the processing equipment of diaphragm lower extreme installation to move down and adjust the position, after adjusting the position, at the height that needs to process, the hand pulls about the arm-tie to drive the slider B of lower extreme fixed mounting to slide left and right in the spout B, thereby driving the lower end processing equipment to move left and right stably, enabling the processing process to be more stable and improving the practicability of the equipment.

Through elastic expansion structure and anti-skidding mechanism, when needs are fixed to the titanium pipe, the manual slider A that drives lower extreme fixed mounting to both sides pulling link the board and outwards slides in spout A inside, slider A outwards removes the extrusion spring, the spring receives extrusion contraction deformation and converts kinetic energy into elastic potential energy, make the pipe clamp move to the outside, place the titanium pipe in the middle of the pipe clamp, loosen the pulling force to linking the board, the spring converts elastic potential energy into kinetic energy and promotes slider A to the center simultaneously and makes it remove in spout A, it moves to the center to drive link the board, make the inner wall move the titanium pipe centre gripping to the center simultaneously for the pipe clamp of dull polish material, the dull polish material has increased and has managed between the static friction power with the titanium, thereby the antiskid effect has been improved, the practicality of production facility has been improved.

The embedded fixing structure is adopted, when different processes are needed to be processed on one device, a wrench is used for rotating the bolt towards the outer parts of two sides, the bolt is cut with threads through the outer wall and is meshed with the threads cut on the inner walls of the thread groove A and the thread groove B, the bolt is taken out by rotating outwards, the insert block is pulled downwards to be taken out by moving downwards from the inside of the slot, the cutting wheel can be disassembled, the insert block arranged on the corresponding device is selected according to needs to be upwards inserted into the slot, the thread groove A and the thread groove B are aligned and are entered by rotating the bolt, the installation can be completed, the switch B is pressed to control the motor B to operate, the corresponding device is driven to operate, and the processing efficiency is improved.

The utility model provides a specific technical scheme as follows:

the utility model provides a titanium tube production facility which comprises a base, wherein the outer wall of the front end of the left side of the base is fixedly provided with a switch A, the inner parts of the left and right sides of the middle part of the base are provided with a chute A, the inner part of the chute A is slidably provided with a slide block A, the inner part of the chute A at the outer end of the slide block A is fixedly provided with a spring, the upper end of the slide block A is fixedly provided with a connecting plate through the chute A, the inner outer wall of the upper end of the connecting plate is fixedly provided with a pipe clamp, the outer wall of the upper end of the left and right ends of the base is fixedly provided with a side plate, the outer wall of the upper end of the side plate of the left side of the base is fixedly provided with a motor A, the lower end of the motor A is rotatably provided with a screw rod through the inner part of the side plate, the outer wall of the screw rod is rotatably sleeved with a screw sleeve, the upper and lower sides of the outer wall of the screw sleeve are fixedly provided with limiting rings, the middle part of the screw sleeve is movably sleeved with a rotating sleeve, the sliding rod is fixedly provided in the right side plate of the base, the outer wall of the slide bar is movably sleeved with a sliding sleeve, the side wall of the transverse inner end of the side plate is provided with a limit groove, the inner ends of the sliding sleeve and the rotating sleeve are fixedly provided with transverse plates through limiting grooves, the inner parts of the transverse plates are provided with sliding grooves B, a slide block B is slidably arranged in the slide groove B, a pull plate is fixedly arranged at the upper end of the slide block B through the slide groove B, the lower end of the sliding block B is fixedly provided with a fixed block through the sliding chute B, the inner part of the lower end of the fixed block is provided with a slot, the inserting block is inserted in the inserting slot, the screw grooves A are arranged in the left side and the right side of the inserting block, the screw grooves B are arranged in the left side and the right side of the fixing block outside the inserting slot, bolts are rotatably arranged in the screw grooves A and B, a switch B is fixedly arranged on the outer wall of the front side of the middle part of the fixing block, and a motor B is fixedly arranged on the outer wall of the front side of the lower end of the fixed block, and the rear end of the motor B penetrates through the fixed block and is rotatably provided with a cutting wheel.

Optionally, the outer wall of the screw rod is provided with threads, and the inner wall of the screw sleeve is provided with threads, which are meshed with each other to form a rotating structure.

Optionally, the pipe clamp surface is a rough frosted material.

Optionally, the sliding block a is fixedly connected with one end of the spring, and the other end of the spring is fixedly connected with the side wall of the sliding groove a to form an elastic telescopic structure.

Optionally, the size of the sliding block B is matched with the size of the sliding chute B to form an embedded sliding structure.

Optionally, the size of the slot is matched with the size of the insert block to form an embedded fixing structure.

Optionally, the input ends of the switch a and the switch B are electrically connected with an external power supply through a wire, the output end of the switch a is electrically connected with the input end of the motor a through a wire, and the output end of the switch B is electrically connected with the input end of the motor B through a wire.

The utility model has the advantages as follows:

1. the embodiment of the utility model provides a titanium tube production facility, through rotating-structure and embedded sliding structure, when the position of processing needs to be adjusted, press switch A and pass through controller control motor A operation, drive screw rod rotation and have screw thread through outer wall cut screw thread and screw sleeve inner wall cut screw thread intermeshing, make the screw sleeve rotate at the screw rod outer wall and move down, the screw sleeve moves down and drives the rotating sleeve at outer wall spacing ring middle part to move down, the rotating sleeve moves down and drives the diaphragm of right end fixed mounting to move down in the spacing groove, the diaphragm moves down and drives the sliding sleeve of right end fixed mounting to vertically and steadily move down at the slide bar outer wall, thereby drive the processing equipment of diaphragm lower extreme installation to move down and adjust the position, after adjusting the position, at the height that needs to process, the hand pulls the arm-tie to drive the slider B of lower extreme fixed mounting to slide left and right in spout B, thereby driving the lower end processing equipment to move left and right stably, enabling the processing process to be more stable and improving the practicability of the equipment.

2. Through elastic expansion structure and anti-skidding mechanism, when needs are fixed to the titanium pipe, the manual slider A that drives lower extreme fixed mounting to both sides pulling link the board and outwards slides in spout A inside, slider A outwards removes the extrusion spring, the spring receives extrusion contraction deformation and converts kinetic energy into elastic potential energy, make the pipe clamp move to the outside, place the titanium pipe in the middle of the pipe clamp, loosen the pulling force to linking the board, the spring converts elastic potential energy into kinetic energy and promotes slider A to the center simultaneously and makes it remove in spout A, it moves to the center to drive link the board, make the inner wall move the titanium pipe centre gripping to the center simultaneously for the pipe clamp of dull polish material, the dull polish material has increased and has managed between the static friction power with the titanium, thereby the antiskid effect has been improved, the practicality of production facility has been improved.

3. The embedded fixing structure is adopted, when different processes are needed to be processed on one device, a wrench is used for rotating the bolt towards the outer parts of two sides, the bolt is cut with threads through the outer wall and is meshed with the threads cut on the inner walls of the thread groove A and the thread groove B, the bolt is taken out by rotating outwards, the insert block is pulled downwards to be taken out by moving downwards from the inside of the slot, the cutting wheel can be disassembled, the insert block arranged on the corresponding device is selected according to needs to be upwards inserted into the slot, the thread groove A and the thread groove B are aligned and are entered by rotating the bolt, the installation can be completed, the switch B is pressed to control the motor B to operate, the corresponding device is driven to operate, and the processing efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of a front cross-sectional structure of a titanium pipe production apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of a partially enlarged structure A in FIG. 1 of a titanium tube production apparatus according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a partially enlarged structure B in fig. 1 of a titanium tube production apparatus according to an embodiment of the present invention.

In the figure: 1. a base; 2. a switch A; 3. a chute A; 4. a slide block A; 5. a spring; 6. connecting plates; 7. a pipe clamp; 8. a side plate; 9. a motor A; 10. a screw; 11. a threaded sleeve; 12. a limiting ring; 13. rotating the sleeve; 14. a slide bar; 15. a sliding sleeve; 16. a limiting groove; 17. a transverse plate; 18. a chute B; 19. a slide block B; 20. pulling a plate; 21. a fixed block; 22. a slot; 23. inserting a block; 24. a thread groove A; 25. a thread groove B; 26. a bolt; 27. a switch B; 28. a motor B; 29. and (4) cutting wheels.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The titanium tube production equipment according to the embodiment of the present invention will be described in detail with reference to fig. 1 to 3.

Referring to fig. 1, 2 and 3, a titanium tube production apparatus provided by an embodiment of the present invention includes a base 1, a switch a2 is fixedly installed on the outer wall of the front end of the left side of the base 1, a sliding chute A3 is installed inside the left and right sides of the middle portion of the base 1, a sliding chute a4 is slidably installed inside the sliding chute A3, a spring 5 is fixedly installed inside a sliding chute A3 at the outer end of the sliding chute a4, a connecting plate 6 is fixedly installed at the upper end of the sliding chute a4 by penetrating through the sliding chute A3, a pipe clamp 7 is fixedly installed on the inner outer wall of the upper end of the connecting plate 6, a side plate 8 is fixedly installed on the outer wall of the upper end of the left and right ends of the base 1, a motor a9 is fixedly installed on the outer wall of the upper end of the left side plate 8 of the base 1, a screw 10 is rotatably installed by penetrating through the inner portion of the side plate 8 by the lower end of the motor a9, a screw sleeve 11 is rotatably sleeved with a screw sleeve 11, a limiting ring 12 is fixedly installed on the upper and lower side of the outer wall of the screw sleeve 11, a rotating sleeve 13 is movably sleeved on the outer wall of the middle portion of the rotating sleeve 11, a sliding chute 14, a sliding rod 14 is fixedly installed on the inner side plate 14, a sliding sleeve 15 is movably sleeved on the outer wall of the sliding rod 14, a limiting groove 16 is formed in the side wall of the inner transverse end of the side plate 8, a transverse plate 17 is fixedly installed at the inner ends of the sliding sleeve 15 and the rotating sleeve 13 in a penetrating mode through the limiting groove 16, a sliding groove B18 is formed in the transverse plate 17, a sliding block B19 is slidably installed in the sliding groove B18, a pulling plate 20 is fixedly installed at the upper end of the sliding block B19 in a penetrating mode through a sliding groove B18, a fixed block 21 is fixedly installed at the lower end of a sliding block B19 in a penetrating mode through a sliding groove B18, a slot 22 is formed in the lower end of the fixed block 21 in an opening mode, an inserting block 23 is inserted in the slot 22, screw grooves A24 are formed in the left side and the right side of the fixed block 21, screw grooves B25 are formed in the left side and right side of the fixed block 21 in an opening mode, bolts 26 are rotatably installed in the screw grooves A24 and B25, a switch B27 is fixedly installed on the outer wall of the front side of the middle of the fixed block 21, a front side of the fixed block 21, a motor B28 is fixedly installed on the outer wall of the front side of the fixed block 21, and a rotary cutting wheel 29 is installed in a rear end of the fixed block 28.

Referring to fig. 1, when the position to be processed needs to be adjusted, a switch a2 is pressed to control a motor a9 to operate through a controller, the screw 10 is driven to rotate, the screw is driven to be meshed with the screw cut on the inner wall of the screw 11 through the screw cut on the outer wall, the screw 11 moves downwards on the outer wall of the screw 10, the screw 11 moves downwards to drive a rotating sleeve 13 in the middle of an outer wall limiting ring 12 to move downwards, the rotating sleeve 13 moves downwards to drive a transverse plate 17 fixedly installed at the right end to move downwards in a limiting groove 16, the transverse plate 17 moves downwards to drive a sliding sleeve 15 fixedly installed at the right end to vertically and stably move downwards on the outer wall of a sliding rod 14, so as to drive processing equipment installed at the lower end of the transverse plate 17 to move downwards to adjust the position, after the position is adjusted, a pull the pull plate 20 to drive a sliding block B19 fixedly installed at the lower end to slide left and right in a sliding groove B18 manually, thereby driving the lower end processing equipment to move left and right stably, enabling the processing process to be more stable and improving the practicability of the equipment.

Referring to fig. 1, the surface of the pipe clamp 7 is made of rough frosted material, when the titanium pipe needs to be fixed, the connecting plate 6 is pulled to both sides manually to drive the sliding block a4 of the lower end fixed installation to slide outwards inside the sliding groove A3, the sliding block a4 moves outwards to extrude the spring 5, the spring 5 is extruded and contracted to deform to convert kinetic energy into elastic potential energy, the pipe clamp 7 is moved outwards, the titanium pipe is placed in the middle of the pipe clamp 7, the pulling force on the connecting plate 6 is released, the spring 5 converts the elastic potential energy into the kinetic energy and pushes the sliding block a4 to move in the sliding groove A3, the connecting plate 6 is driven to move towards the center, the pipe clamp 7 with the inner wall made of frosted material is moved towards the center to clamp the titanium pipe, the frosted material increases the static friction force between the frosted material and the titanium pipe, so that the anti-skid effect is improved, and the practicability of the production equipment is improved.

Referring to fig. 1 and 2, a slider a4 is fixedly connected to one end of a spring 5, the other end of the spring 5 is fixedly connected to a side wall of a chute A3 to form an elastic telescopic structure, when a titanium tube needs to be fixed, a link plate 6 is manually pulled to both sides to drive a slider a4 fixedly installed at the lower end to slide outwards in the chute A3, the slider a4 moves outwards to extrude the spring 5, the spring 5 is extruded and contracted to change kinetic energy into elastic potential energy, so that the tube clamp 7 moves outwards, the titanium tube is placed in the middle of the tube clamp 7, the pulling force on the link plate 6 is released, the spring 5 converts the elastic potential energy into kinetic energy and simultaneously pushes the slider a4 towards the center to move in the chute A3, the link plate 6 is driven to move towards the center, the tube clamp 7 with the inner wall made of frosted material moves towards the center to clamp the titanium tube, the frosted material increases the static friction force between the titanium tube, thereby improving the anti-skid effect, the practicability of the production equipment is improved.

Referring to fig. 1, the size of the sliding block B19 is matched with the size of the sliding slot B18 to form an embedded sliding structure, when the position to be processed needs to be adjusted, the switch a2 is pressed to control the motor a9 to operate through the controller, the screw 10 is driven to rotate, the screw is driven to rotate, the outer wall of the screw 11 is cut with threads to be meshed with the threads cut on the inner wall of the screw sleeve 11, the screw sleeve 11 rotates and moves downwards on the outer wall of the screw 10, the screw sleeve 11 moves downwards to drive the rotating sleeve 13 in the middle of the outer wall limiting ring 12 to move downwards, the rotating sleeve 13 moves downwards to drive the transverse plate 17 fixedly installed at the right end to move downwards in the limiting groove 16, the transverse plate 17 moves downwards to drive the sliding sleeve 15 fixedly installed at the right end to vertically and stably move downwards on the outer wall of the sliding rod 14, thereby driving the processing equipment installed at the lower end of the transverse plate 17 to move downwards to adjust the position, after the position is adjusted, the height to be processed, the pulling plate 20 is manually and left and right to drive the sliding block B19 fixedly installed at the lower end to slide left in the sliding slot B18, thereby driving the lower end processing equipment to move left and right stably, enabling the processing process to be more stable and improving the practicability of the equipment.

Referring to fig. 1 and 3, the size of the slot 22 is matched with the size of the insert block 23 to form an embedded fixing structure, when different processes are required to be performed on one device, the bolt 26 is rotated towards the outside of two sides by a wrench, and the bolt 26 is engaged with the threads cut on the inner walls of the thread groove a24 and the thread groove B25 through the threads cut on the outer walls, so that the bolt 26 is rotated outwards to be taken out, the insert block 23 is pulled downwards to be moved downwards from the slot 22 to be taken out, so that the cutting wheel 29 can be disassembled, the insert block 23 installed on the corresponding device is selected to be upwards inserted into the slot 22 according to requirements, so that the thread groove a24 and the thread groove B25 are aligned with the bolt 26 to be rotated to enter, and then the installation can be completed, the switch B27 is pressed to control the motor B28 to operate, so as to drive the corresponding device to operate, and improve the processing efficiency.

Referring to fig. 1, the input terminals of the switch a2 and the switch B27 are electrically connected with an external power source through conducting wires, the output terminal of the switch a2 is electrically connected with the input terminal of the motor a9 through conducting wires, and the output terminal of the switch B27 is electrically connected with the input terminal of the motor B28 through conducting wires.

The switch A2, the switch B27, the motor A9 and the motor B28 are products in the prior art, the models of the motor A9 and the motor B28 are HD2401-24, the manufacturer is Anchuan, the models of the switch A2 and the switch B27 are LA38-11DN, the manufacturer is Mixi, and details are not repeated here.

The embodiment of the utility model provides a titanium pipe production facility, when needs carry out the processing of different technologies on an equipment, use the spanner to both sides outside rotation bolt 26 through the outer wall cut have the screw thread with spiral groove A24 and spiral groove B25 inner wall cut have the screw thread intermeshing, make bolt 26 outwards rotate and take out, pulling down inserted block 23 makes it move downwards from slot 22 and take out, can dismantle cutting wheel 29, the inserted block 23 that selects corresponding equipment to be equipped with as required upwards injects in slot 22, make spiral groove A24 and spiral groove B25 align and use bolt 26 to rotate and get into, can accomplish the installation, when needs fix the titanium pipe, manual to both sides pulling link 6 drives slider A4 of lower extreme fixed mounting outwards slides in spout A3, slider A4 outwards removes extrusion spring 5, spring 5 receives extrusion contraction deformation and converts kinetic energy into elastic potential energy, make pipe clamp 7 move to the outside, the titanium tube is placed in the middle of the tube clamp 7, the pulling force to the connecting plate 6 is loosened, the spring 5 converts the elastic potential energy into kinetic energy and simultaneously pushes the slide block A4 towards the center to move in the chute A3, the connecting plate 6 is driven to move towards the center, the tube clamp 7 with the inner wall made of frosted material moves towards the center to clamp the titanium tube, when the position to be adjusted is processed, the switch A2 is pressed to control the motor A9 to operate through the controller, the screw rod 10 is driven to rotate and is meshed with the thread cut on the inner wall of the screw sleeve 11 through the thread cut on the outer wall, the screw sleeve 11 rotates downwards on the outer wall of the screw rod 10, the screw sleeve 11 moves downwards to drive the rotating sleeve 13 in the middle of the outer wall limiting ring 12 to move downwards, the rotating sleeve 13 moves downwards to drive the transverse plate 17 fixedly arranged at the right end to move downwards in the limiting groove 16, the transverse plate 17 moves downwards to drive the sliding sleeve 15 fixedly arranged at the right end to vertically and stably move downwards on the outer wall of the sliding rod 14, thereby drive the processing equipment of diaphragm 17 lower extreme installation to remove the regulation position downwards, behind the regulation position, at the height that needs the processing, the manual pulling about 20 draws slider B19 that the lower extreme fixed mounting drove left and right sides slip in spout B18 to drive lower extreme processing equipment and control steady movement.

It should be noted that, the utility model relates to a titanium pipe production facility, including switch A2, switch B27, motor A9, motor B28, the part is general standard component or the part that technical staff in the field knows, and its structure and principle all can all be known or can be known through conventional experimental methods for this technical staff through the technical manual.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The titanium tube production equipment is characterized by comprising a base (1), wherein a switch A (2) is fixedly mounted on the outer wall of the front end of the left side of the base (1), a sliding chute A (3) is formed in the inner portion of the left side and the right side of the middle of the base (1), a sliding block A (4) is arranged in the sliding chute A (3) in a sliding manner, a spring (5) is fixedly mounted in the sliding chute A (3) at the outer end of the sliding block A (4), a connecting plate (6) is fixedly mounted at the upper end of the sliding block A (4) in a penetrating manner through the sliding chute A (3), a pipe clamp (7) is fixedly mounted on the inner outer wall of the upper end of the connecting plate (6), a side plate (8) is fixedly mounted on the outer wall of the upper end of the left side and the right side of the base (1), a motor A (9) is fixedly mounted on the outer wall of the upper end of the base (1) in a penetrating manner, a screw rod (10) is rotatably mounted in a penetrating manner inside the side plate (8), the outer wall of the screw rod (10) is rotatably sleeved with a threaded sleeve (11), the upper side and the lower side of the outer wall of the threaded sleeve (11) are fixedly provided with limit rings (12), the outer wall of the threaded sleeve (11) in the middle of the limit rings (12) is movably sleeved with a rotating sleeve (13), a sliding rod (14) is fixedly arranged inside a side plate (8) on the right side of the base (1), a sliding sleeve (15) is movably sleeved on the outer wall of the sliding rod (14), a limit groove (16) is formed in the side wall of the transverse inner end of the side plate (8), a transverse plate (17) is fixedly arranged at the inner end of the sliding sleeve (15) and the inner end of the rotating sleeve (13) in a manner of penetrating through the limit groove (16), a sliding groove B (18) is formed in the transverse plate (17), a sliding block B (19) is slidably arranged inside the sliding groove B (18), the upper end of the sliding block B (19) is fixedly provided with a pulling plate (20) in a manner of penetrating through the sliding groove B (18), and a fixed block (21) is fixedly arranged at the lower end of the sliding groove B (18), the inside opening of fixed block (21) lower extreme is equipped with slot (22), the inside cartridge of slot (22) has inserted block (23), the inside spiral shell groove A (24) of being equipped with of opening of inserted block (23) left and right sides, the inside spiral shell groove B (25) of being equipped with of opening of slot (22) outside fixed block (21) left and right sides, the inside bolt (26) of being equipped with of changeing of spiral shell groove A (24) and spiral shell groove B (25), fixed block (21) middle part front side outer wall fixed mounting has switch B (27), fixed block (21) lower extreme front side outer wall fixed mounting has motor B (28), motor B (28) rear end runs through fixed block (21) and changes and is equipped with cutting wheel (29).

2. The titanium tube production equipment according to claim 1, wherein the outer wall of the screw (10) is cut with threads and the inner wall of the screw sleeve (11) is cut with threads to be meshed with each other to form a rotating structure.

3. The titanium tube production apparatus according to claim 1, wherein the surface of the tube clamp (7) is rough and frosted.

4. The titanium tube production equipment according to claim 1, wherein the sliding block A (4) is fixedly connected with one end of a spring (5), and the other end of the spring (5) is fixedly connected with the side wall of the sliding chute A (3) to form an elastic telescopic structure.

5. The titanium tube production equipment according to claim 1, wherein the size of the sliding block B (19) and the size of the sliding chute B (18) are matched with each other to form an embedded sliding structure.

6. The titanium tube production equipment according to claim 1, wherein the size of the slot (22) is matched with the size of the insert block (23) to form an embedded fixing structure.

7. The titanium tube production equipment according to claim 1, wherein the input ends of the switch A (2) and the switch B (27) are electrically connected with an external power supply through a conducting wire, the output end of the switch A (2) is electrically connected with the input end of the motor A (9) through a conducting wire, and the output end of the switch B (27) is electrically connected with the input end of the motor B (28) through a conducting wire.