CN118438202B - Stainless steel round tube processing equipment - Google Patents

Abstract

The invention discloses stainless steel round tube processing equipment, and particularly relates to the technical field of stainless steel processing, which mainly comprises a chute plate, a rectangular frame and a screw rod, wherein the rectangular frame is fixed at the top end of the chute plate, the screw rod is rotationally connected to the inner wall of the rectangular frame, and the outer wall of the screw rod is connected with a bending adjusting mechanism; wherein, crooked adjustment mechanism includes two extrusion cover pieces of threaded connection at the screw rod outer wall. According to the invention, stainless steel round pipes with different diameters are placed between two adjacent limiting clamping blocks through the bending adjusting mechanism, the driving motor drives in the extrusion sleeve blocks, the two extrusion sleeve blocks respectively carry the two bending plates to be close to each other, the arc-shaped pressing plate can be firmly extruded above the outer wall of the stainless steel round pipe, the stainless steel round pipes with different diameters can be extruded and attached in the arc-shaped gap between the two bending plates, bending operation is realized after attachment is finished, then drilling is directly adjusted, and the stainless steel round pipe bending machine is suitable for combined machining of the stainless steel round pipes with different sizes.

Description

Stainless steel round tube processing equipment

Technical Field

The invention relates to the technical field of stainless steel processing, in particular to stainless steel round tube processing equipment.

Background

The stainless steel round tube equipment mainly has the functions of combined processing, and the application of the equipment is mainly embodied in processing and manufacturing, and the equipment can efficiently and accurately perform other processing operations such as cutting, bending, welding and the like on the stainless steel round tube, so that a stainless steel round tube assembly or structure meeting various application requirements is manufactured.

According to the technical literature disclosed in the prior art, the patent of Chinese patent publication No. CN113579752A discloses an intelligent production system and intelligent production equipment for processing stainless steel pipes, steel billets can be gradually extruded into round pipes in the stainless steel pipe production process in a gradual bending extrusion mode through an extrusion device, the stainless steel pipes can be simpler and more convenient in the production process, extruded gaps on the surfaces of the stainless steel pipes can be welded in the conveying process through a welding device, even after welding, the surfaces are cooled, and the surfaces are polished to be smooth through friction rollers 84, so that the qualification rate of the stainless steel pipes is improved. The stainless steel tube has the following defects in the processing process:

When stainless steel pipe carries out the combination processing, because stainless steel pipe size diameter is different, and crooked to different stainless steel pipes, need use the frock of appointed size model to extrude crooked, and the side punches because equipment space is less in addition, still need take out again and place on professional frock, carry out the side and punch the processing, consequently be difficult to be applicable to not unidimensional stainless steel pipe and carry out the combination processing, consequently provide a stainless steel pipe processing equipment.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides stainless steel round tube processing equipment.

In order to achieve the above purpose, the present invention provides the following technical solutions: the stainless steel round tube processing equipment comprises a chute plate, a rectangular frame and a screw rod, wherein the rectangular frame is fixed at the top end of the chute plate, the screw rod is rotationally connected to the inner wall of the rectangular frame, and the outer wall of the screw rod is connected with a bending adjusting mechanism; the bending adjusting mechanism comprises two extrusion sleeve blocks which are connected with the outer wall of the screw rod in a threaded manner, and a driving motor for driving the screw rod to rotate is fixedly arranged on one side of the inner wall of the rectangular frame; the top end of each extrusion sleeve block is welded with a bending plate, the opposite sides of the two bending plates are fixedly provided with arc-shaped groove plates, and the top end of each arc-shaped groove plate is welded with two limiting clamping blocks; a stainless steel round tube is arranged between two adjacent limiting clamping blocks; and a drilling adjusting mechanism is arranged in the chute plate.

Preferably, the two bending plates are both in sliding connection with the rectangular frame, and the two bending plates are both in sliding connection with the chute plates; the two threads on the outer wall of the screw rod are opposite and symmetrically arranged, the two arc-shaped groove plates are symmetrically arranged about the center point of the stainless steel round pipe, the vertical section of each arc-shaped groove plate is arc-shaped, sliding blocks are arranged on two sides of each rectangular frame, and the bottom ends of the two sliding blocks are welded with the top ends of the corresponding sliding groove plates; the top ends of the two sliding blocks are in sliding connection with the arc-shaped groove plates, the bottom ends of the sliding groove plates are welded with bases, and one side of each base is fixedly connected with a controller; an arc-shaped pressing plate is arranged above the stainless steel round tube and used for extruding the stainless steel round tube to bend, and a hydraulic cylinder is fixedly arranged at the top end of the arc-shaped pressing plate; the output outer wall sliding connection of pneumatic cylinder has the sleeve board, just fixed connection between sleeve board and the pneumatic cylinder the bottom of sleeve board is equipped with the extension board, welding between sleeve board and base and the extension board.

According to the upper structure when using, place the stainless steel pipe of different diameters between two adjacent spacing clamp splice, the controller starts driving motor, driving motor at the inside drive of extrusion cover piece, driving motor drive screw rod is at the inside rotation of rectangle frame simultaneously, and the screw rod drives two extrusion cover pieces and is close to each other under the effect of screw thread transmission force, and two crooked boards carry two arc frid boards respectively and are close to each other. The arc-shaped groove plate slides along the outer wall of the sliding cylinder, so that the arc-shaped groove plate drives the two limiting clamping blocks to extrude at one side of the stainless steel circular tube, and the other arc-shaped groove plate carries the other two limiting clamping blocks to extrude at the other side of the stainless steel circular tube, thereby realizing locking of the stainless steel circular tubes with different diameters.

Preferably, the drilling adjusting mechanism comprises a drive screw rotatably mounted inside the chute plate; the outer wall of the transmission screw is in threaded connection with a sleeving sliding block, the outer wall of the sleeving sliding block is in sliding connection with a sliding groove plate, and one side of the sliding groove plate is fixedly provided with a speed reducing motor for driving the transmission screw to rotate; connecting plates are welded on two sides of the sleeving sliding block, a sliding frame is welded on the top end of each connecting plate, a sliding cylinder is connected to the inner wall of the sliding frame in a sliding manner, and the outer wall of the sliding cylinder is connected with the inner wall of the arc-shaped groove plate in a sliding manner; the two sides of the sliding frame are both connected with limiting rings in a sliding manner, the inner walls of the two limiting rings are fixedly connected with the outer wall of the sliding barrel, the inner wall of the sliding barrel is connected with a rotating motor in a sliding manner, a sleeving block is fixedly arranged at one end part of the rotating motor, the inner wall of the sleeving block is connected with a guide post in a sliding manner, the output end of the rotating motor is connected with a drill bit in a coaxial transmission manner, and the drill bit is used for drilling a stainless steel round pipe;

An extrusion adjusting component is arranged on one side of each connecting plate, the transmission screw is coaxially connected with the output end of the speed reducing motor in a transmission way, the transmission screw and the sleeving sliding blocks are made of stainless steel materials, the two connecting plates are symmetrically arranged relative to the sleeving sliding blocks, and the outer wall of each sleeving sliding block is a smooth surface; the guide post has a top end cross-sectional area that is greater than a bottom end cross-sectional area.

When the upper section structure is used, the gear motor drives the transmission screw to rotate in the sliding groove plate, and the transmission screw carries the sleeved sliding block to move right under the action of the thread transmission force. The connecting plate drives the concave frame plate to move right, simultaneously two connecting plates respectively carry two sliding frames to move right, the sliding frames drive sliding drums to move, the sliding drums drive two limiting rings to move down to slide bars, the two limiting rings move down along the limiting of the outer wall of the sliding frames, the sliding drums drive a rotating motor to move down, and the rotating motor drives a sleeve joint block to move down. The sleeving blocks move downwards along the outer walls of the guide posts to slide, and two drill bits can realize arc-shaped adjustment drilling according to the bending positions of stainless steel round tubes with different diameters.

Preferably, the extrusion adjusting assembly includes a concave frame plate fixedly installed at one side of the connection plate; the inner wall of the concave frame plate is rotationally connected with a linkage screw rod, the outer wall of the linkage screw rod is in threaded connection with two thread sleeve blocks, and one side of the concave frame plate is fixedly provided with a linkage motor for driving the linkage screw rod to rotate; the top ends of the two thread sleeve blocks are welded with extrusion strips, one end part of each extrusion strip is welded with the guide post, the two thread sleeve blocks are connected with the concave frame plate in a sliding manner, and two threads on the outer wall of the linkage screw rod are oppositely and symmetrically arranged;

A gap is formed between the extrusion strip and the concave frame plate.

When the upper structure is used, the two rotary motors respectively drive the two drill bits to rotate, and the drill bits realize rotary operation on the inner wall of the sliding cylinder. The linkage motor drives the linkage screw to drive, and the linkage screw drives in the inside of spill frame, and the linkage screw carries two thread bush pieces simultaneously and is close to each other under the effect of thread drive power, and two thread bush pieces remove along the spill frame inner wall and be close to. The extrusion strip drives the guide post to move, and the guide post carries the bridging piece to be close to stainless steel pipe, and the bridging piece drives the rotating electrical machines and removes, and two drill bits can extrude to be close to in stainless steel pipe's both sides position, and the drill bit high-speed rotation realizes extrusion drilling to stainless steel pipe, can realize both sides to the stainless steel pipe of different diameter sizes and adjust extrusion drilling.

The invention has the technical effects and advantages that:

1. according to the invention, stainless steel round pipes with different diameters are placed between two adjacent limiting clamping blocks through the bending adjusting mechanism, the driving motor is started, the driving motor drives in the extrusion sleeve blocks, the two extrusion sleeve blocks respectively carry two bending plates to be close to each other, the two limiting clamping blocks are extruded at one side part of the stainless steel round pipe, the other arc-shaped groove plate carries the other two limiting clamping blocks to be extruded at the other side part of the stainless steel round pipe, the starting hydraulic cylinder drives the arc-shaped pressing plate to move downwards, the arc-shaped pressing plate can be firmly extruded above the outer wall of the stainless steel round pipe, the stainless steel round pipes with different diameters can be extruded and attached in an arc-shaped gap between the two bending plates, bending operation is realized after attachment is finished, and then drilling holes are directly adjusted, so that the stainless steel round pipe bending machine is applicable to combination machining of stainless steel round pipes with different sizes.

2. According to the invention, the drilling adjusting mechanism is utilized, the transmission screw is driven to rotate in the chute plate through the gear motor, the concave frame plate is driven to move right by the connecting plate, the sliding frame drives the sliding barrel to move right, the sliding barrel slides along the arc-shaped groove on the inner wall of the arc-shaped chute plate, the two limiting rings move downwards along the limit of the outer wall of the sliding frame, the rotating motor drives the sleeving block to move downwards, the sleeving block moves downwards along the outer wall of the guide post, and the two drill bits can realize arc-shaped adjustment drilling according to the bending positions of stainless steel round pipes with different diameters, so that the drilling adjusting mechanism is suitable for combined machining of the stainless steel round pipes with different sizes.

3. According to the invention, the extrusion adjusting assembly is adopted, the two drill bits are respectively driven to rotate by the two rotating motors, the linkage motor drives the linkage screw rod to drive, the linkage screw rod drives in the concave frame plate, the two thread sleeve blocks move close along the inner wall of the concave frame plate, the two thread sleeve blocks respectively drive the two extrusion strips to mutually close, the sleeve blocks drive the rotating motors to move, the rotating motors drive the drill bits to approach the stainless steel circular tube, the two drill bits rotate at a high speed, extrusion adjustment is realized on two sides of the stainless steel circular tube with different diameters, and the punching operation is performed, so that the application range is wider.

Through the mutual influence of a plurality of effects, two spacing clamp splice extrudees in one side position of stainless steel pipe earlier, and the stainless steel pipe extrusion laminating of different diameters is in the arc space between two crooked boards, carries out bending formation, adjusts two drill bits according to the stainless steel pipe bending position of different diameters again, and two last drill bits high-speed rotations realize extrusion regulation to the stainless steel pipe both sides of different diameters, realize drilling operation, can be applicable to not unidimensional stainless steel pipe and crooked to carry out both sides drilling operation in the bending process, be applicable to the stainless steel pipe of different sizes like this and carry out combined processing.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a stainless steel round tube processing device of the present invention.

Fig. 2 is a schematic view of a part of the vertical section of the joint of the runner plate and the rectangular frame according to the present invention.

Fig. 3 is a schematic view of a vertical section cut-off partial structure of a connection part of a rectangular frame and a driving motor.

Fig. 4 is a schematic view of a truncated partial structure of a connection between a support plate and a sleeve plate according to the present invention.

Fig. 5 is an enlarged schematic view of the structure of fig. 2a according to the present invention.

Fig. 6 is a schematic diagram of a partial structure of a joint between a drive screw and a gear motor according to the present invention.

Fig. 7 is a schematic view of a cut-off partial structure of a connection between an arc-shaped slot plate and a slide cylinder according to the present invention.

FIG. 8 is a schematic view of a part of the vertical section of the joint of the slide cylinder and the limiting ring.

FIG. 9 is a schematic top view of a partial structure of the squeeze adjustment assembly of the present invention.

The reference numerals are: 1. a chute plate; 2. a rectangular frame; 3. a screw; 4. extruding the sleeve block; 5. a driving motor; 6. bending the plate; 7. arc-shaped grooved plates; 8. limiting clamping blocks; 9. stainless steel round tube; 10. a slide block; 11. a base; 12. a controller; 13. an arc-shaped pressing plate; 14. a hydraulic cylinder; 15. a sleeve plate; 16. a support plate; 17. a drive screw; 18. a speed reducing motor; 19. sleeving a sliding block; 20. a connecting plate; 21. a sliding frame; 22. a slide cylinder; 23. a limiting ring; 24. a rotating electric machine; 25. a sleeve joint block; 26. a guide post; 27. a drill bit; 28. extruding the strip; 29. a concave frame plate; 30. a threaded sleeve block; 31. a linkage screw; 32. and a linkage motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The stainless steel circular tube processing equipment is provided with a bending adjusting mechanism, a drilling adjusting mechanism and an extrusion adjusting component, wherein the bending adjusting mechanism, the drilling adjusting mechanism and the extrusion adjusting component are arranged on the stainless steel circular tube processing equipment, the stainless steel circular tube processing equipment can be suitable for bending stainless steel circular tubes 9 with different sizes, drilling operations are carried out on two sides in the bending process, and the stainless steel circular tube processing equipment is suitable for combined processing of the stainless steel circular tubes 9 with different sizes.

In the technical scheme, as shown in figures 1-3, the bending adjustment mechanism comprises two extrusion sleeve blocks 4 which are connected with the outer wall of a screw rod 3 in a threaded manner, and a driving motor 5 for driving the screw rod 3 to rotate is fixedly arranged on one side of the inner wall of a rectangular frame 2; the top end of each extrusion sleeve block 4 is welded with a bending plate 6, the opposite sides of the two bending plates 6 are fixedly provided with arc-shaped groove plates 7, and the top end of each arc-shaped groove plate 7 is welded with two limiting clamping blocks 8; a stainless steel round tube 9 is arranged between two adjacent limiting clamping blocks 8; the inside of the chute plate 1 is provided with a drilling adjusting mechanism.

In the technical scheme, as shown in figures 1-4, slide blocks 10 are arranged on two sides of a rectangular frame 2, and the bottom ends of the two slide blocks 10 are welded with the top end of a chute plate 1; the top ends of the two sliding blocks 10 are both in sliding connection with the arc-shaped groove plates 7. So that arc frid 7 can slide on slider 10 to slider 10 can provide sliding support power, avoids arc frid 7 deformation, and arc frid 7 can realize crooked extrusion to stainless steel pipe 9, realizes that stainless steel pipe 9 of different diameters carries out the processing operation.

A base 11 is welded at the bottom end of the chute plate 1, and a controller 12 is fixedly connected to one side of the base 11; an arc-shaped pressing plate 13 is arranged above the stainless steel round tube 9, the arc-shaped pressing plate 13 is used for extruding the stainless steel round tube 9 to bend, and a hydraulic cylinder 14 is fixedly arranged at the top end of the arc-shaped pressing plate 13; the outer wall of the output end of the hydraulic cylinder 14 is slidably connected with a sleeve plate 15, the sleeve plate 15 is fixedly connected with the hydraulic cylinder 14, a support plate 16 is arranged at the bottom end of the sleeve plate 15, and the sleeve plate 15, the base 11 and the support plate 16 are welded. So that the controller 12 starts driving motor 5, driving motor 5 is at the inside drive of extrusion cover piece 4, screw rod 3 drives two extrusion cover pieces 4 and is close to each other under the effect of screw drive power, two extrusion cover pieces 4 carry two crooked boards 6 respectively and are close to each other, start pneumatic cylinder 14 drives arc clamp plate 13 and moves down, the output of pneumatic cylinder 14 is along the gliding of cover board 15 inner wall, arc clamp plate 13 can firmly extrude in stainless steel pipe 9 outer wall top, stainless steel pipe 9 extrusion laminating is in the arc space between two crooked boards 6, can realize adjustable bending to different diameters stainless steel pipe 9.

In this technical solution, as shown in fig. 5-8, the drilling adjusting mechanism comprises a drive screw 17 rotatably mounted inside the chute plate 1; the outer wall of the transmission screw 17 is in threaded connection with a sleeving sliding block 19, the outer wall of the sleeving sliding block 19 is in sliding connection with the chute plate 1, and one side of the chute plate 1 is fixedly provided with a speed reducing motor 18 for driving the transmission screw 17 to rotate; connecting plates 20 are welded on two sides of the sleeving sliding block 19, a sliding frame 21 is welded on the top end of each connecting plate 20, a sliding cylinder 22 is connected on the inner wall of the sliding frame 21 in a sliding manner, and the outer wall of the sliding cylinder 22 is connected with the inner wall of the arc-shaped groove plate 7 in a sliding manner; both sides of the sliding frame 21 are both connected with limiting rings 23 in a sliding manner, the inner walls of the two limiting rings 23 are fixedly connected with the outer wall of the sliding cylinder 22, the inner wall of the sliding cylinder 22 is connected with a rotating motor 24 in a sliding manner, one end part of the rotating motor 24 is fixedly provided with a sleeving block 25, and the inner wall of the sleeving block 25 is connected with a guide post 26 in a sliding manner.

The output end of the rotary motor 24 is coaxially connected with a drill bit 27 in a transmission way, and the drill bit 27 is used for drilling the stainless steel round tube 9; an extrusion adjusting component is arranged on one side of each connecting plate 20, the transmission screw 17 is coaxially connected with the output end of the speed reducing motor 18 in a transmission way, the transmission screw 17 and the sleeving sliding block 19 are made of stainless steel materials, the two connecting plates 20 are symmetrically arranged about the sleeving sliding block 19, and the outer wall of the sleeving sliding block 19 is a smooth surface; the guide post 26 has a larger top cross-sectional area than its bottom cross-sectional area.

In this embodiment, as shown in fig. 6 to 9, the squeeze adjustment assembly includes a concave frame plate 29 fixedly installed at one side of the connection plate 20; the inner wall of the concave frame plate 29 is rotatably connected with a linkage screw 31, the outer wall of the linkage screw 31 is in threaded connection with two thread bushing blocks 30, and one side of the concave frame plate 29 is fixedly provided with a linkage motor 32 for driving the linkage screw 31 to rotate; the top ends of the two thread bushing blocks 30 are welded with extrusion bars 28, and one end part of each extrusion bar 28 is welded with the guide post 26. The two thread sleeve blocks 30 are in sliding connection with the concave frame plate 29, and the two threads on the outer wall of the linkage screw 31 are opposite and symmetrically arranged; a gap is arranged between the extrusion strip 28 and the concave frame plate 29.

The combined processing method of the stainless steel round tube processing equipment in the embodiment is as follows:

Firstly, when the bending adjustment is carried out, stainless steel round pipes 9 with different diameters are placed between two adjacent limiting clamping blocks 8. The bottom of arc frid 7 top can provide holding power to the bottom of stainless steel pipe 9, supports the frid 1 bottom through base 11, starts driving motor 5 by controller 12, driving motor 5 is at the inside drive of extrusion cover piece 4, driving motor 5 drive screw rod 3 is at the inside rotation of rectangle frame 2 simultaneously, screw rod 3 drives two extrusion cover pieces 4 and is close to each other under the effect of screw thread transmission, two extrusion cover pieces 4 carry respectively and two crooked boards 6 are close to each other, two crooked boards 6 carry respectively and two arc frid 7 are close to each other. The arc-shaped groove plate 7 slides along the outer wall of the sliding cylinder 22, so that the arc-shaped groove plate 7 drives two limiting clamping blocks 8 to extrude at one side of the stainless steel round tube 9, and the other arc-shaped groove plate 7 carries the other two limiting clamping blocks 8 to extrude at the other side of the stainless steel round tube 9, thereby realizing locking of the stainless steel round tubes 9 with different diameters.

The controller 12 starts the hydraulic cylinder 14 to drive the arc-shaped pressing plate 13 to move downwards, and the output end of the hydraulic cylinder 14 slides downwards along the inner wall of the sleeve plate 15. The chute board 1 firmly supports the supporting plate 16, the supporting plate 16 firmly supports the sleeve plate 15, the sleeve plate 15 supports the hydraulic cylinder 14, the arc pressing plate 13 can firmly extrude above the outer wall of the stainless steel round tube 9, the stainless steel round tube 9 is extruded and attached in an arc gap between the two bending plates 6, and the bending operation of the stainless steel round tube 9 is realized.

Secondly, in the drilling adjustment of the present invention, the gear motor 18 is started by the controller 12, and the chute plate 1 supports the gear motor 18. The gear motor 18 drives the drive screw 17 to rotate inside the chute plate 1, and the drive screw 17 carries the socket slide 19 to move right under the action of the screw drive force. The sleeving sliding block 19 drives the two connecting plates 20 to move right, the connecting plates 20 drive the concave frame plates 29 to move right, meanwhile, the two connecting plates 20 respectively carry the two sliding frames 21 to move right, the sliding frames 21 drive the sliding cylinders 22 to move, the sliding cylinders 22 slide along the arc grooves on the inner walls of the arc groove plates 7 in a right moving manner, the sliding cylinders 22 drive the two limiting rings 23 to move down to slide rods, the two limiting rings 23 move down along the limiting walls of the sliding frames 21 in a limiting manner, the sliding cylinders 22 drive the rotating motor 24 to move down, and the rotating motor 24 drives the sleeving blocks 25 to move down. The sleeving blocks 25 move downwards along the outer walls of the guide posts 26 to slide, the rotary motor 24 drives the drill bits 27 to move in the arc grooves in the arc groove plates 7, after the two drill bits 27 move to the designated positions, the speed reduction motor 18 is turned off through the controller 12, and the two drill bits 27 can realize arc adjustment drilling according to the bending positions of the stainless steel round tubes 9 with different diameters.

Finally, when the extrusion adjustment is performed, the controller 12 starts the two rotary motors 24, and the two rotary motors 24 respectively drive the two drill bits 27 to rotate, so that the drill bits 27 realize rotation operation on the inner wall of the slide cylinder 22. The controller 12 starts the linkage motor 32 to drive, the linkage motor 32 drives the linkage screw 31 to drive, the linkage screw 31 drives inside the concave frame plate 29, and simultaneously the linkage screw 31 carries two thread sleeve blocks 30 to approach each other under the action of the thread drive force, and the two thread sleeve blocks 30 move closer along the inner wall of the concave frame plate 29. The two thread bushing blocks 30 respectively drive the two extrusion bars 28 to be close to each other, the extrusion bars 28 drive the guide columns 26 to move, the guide columns 26 carry the bushing blocks 25 to be close to the stainless steel round tubes 9, the bushing blocks 25 drive the rotating motor 24 to move, the rotating motor 24 drives the drill bits 27 to be close to the stainless steel round tubes 9, the two drill bits 27 can extrude to be close to the two side positions of the stainless steel round tubes 9, so that the drill bits 27 can extrude and punch the stainless steel round tubes 9 at a high speed, two sides of the stainless steel round tubes 9 with different diameters can be extruded in an adjusting mode, and drilling operation is realized in the extrusion process.

The details not described in detail in the specification belong to the prior art known to those skilled in the art, and model parameters of each electric appliance are not specifically limited, and conventional equipment is used.

The foregoing is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as various modifications, equivalent arrangements, improvements, etc., within the spirit and principles of the present invention.

Claims (7)

1. The utility model provides a stainless steel pipe processing equipment, includes draw runner plate (1), rectangle frame (2) and screw rod (3), rectangle frame (2) are fixed on draw runner plate (1) top, screw rod (3) rotate and connect at rectangle frame (2) inner wall, its characterized in that: the outer wall of the screw (3) is connected with a bending adjusting mechanism;

The bending adjusting mechanism comprises two extrusion sleeve blocks (4) which are connected with the outer wall of the screw rod (3) in a threaded manner, and a driving motor (5) for driving the screw rod (3) to rotate is fixedly arranged on one side of the inner wall of the rectangular frame (2);

the top end of each extrusion sleeve block (4) is welded with a bending plate (6), the opposite sides of the two bending plates (6) are fixedly provided with arc-shaped groove plates (7), and the top end of each arc-shaped groove plate (7) is welded with two limiting clamp blocks (8);

a stainless steel round tube (9) is arranged between two adjacent limiting clamping blocks (8);

A drilling adjusting mechanism is arranged in the sliding groove plate (1), a base (11) is welded at the bottom end of the sliding groove plate (1), and a controller (12) is fixedly connected to one side of the base (11);

an arc-shaped pressing plate (13) is arranged above the stainless steel round tube (9), the arc-shaped pressing plate (13) is used for extruding the stainless steel round tube (9) to bend, and a hydraulic cylinder (14) is fixedly arranged at the top end of the arc-shaped pressing plate (13);

The outer wall of the output end of the hydraulic cylinder (14) is slidably connected with a sleeve plate (15), the sleeve plate (15) is fixedly connected with the hydraulic cylinder (14), a support plate (16) is arranged at the bottom end of the sleeve plate (15), the sleeve plate (15) and the base (11) are welded with the support plate (16), and the drilling adjusting mechanism comprises a transmission screw (17) rotatably arranged in the chute plate (1);

The outer wall of the transmission screw (17) is in threaded connection with a sleeving sliding block (19), the outer wall of the sleeving sliding block (19) is in sliding connection with the sliding groove plate (1), and one side of the sliding groove plate (1) is fixedly provided with a speed reducing motor (18) for driving the transmission screw (17) to rotate;

Connecting plates (20) are welded on two sides of the sleeving sliding blocks (19), sliding frames (21) are welded on the top ends of the connecting plates (20), sliding barrels (22) are connected to the inner walls of the sliding frames (21) in a sliding mode, and the outer walls of the sliding barrels (22) are connected with the inner walls of the arc-shaped groove plates (7) in a sliding mode;

Both sides of the sliding frame (21) are both in sliding connection with limiting rings (23), the inner walls of the two limiting rings (23) are fixedly connected with the outer wall of the sliding cylinder (22), the inner wall of the sliding cylinder (22) is in sliding connection with a rotating motor (24), one end part of the rotating motor (24) is fixedly provided with a sleeving block (25), and the inner wall of the sleeving block (25) is in sliding connection with a guide post (26);

the output end of the rotary motor (24) is coaxially connected with a drill bit (27) in a transmission way, and the drill bit (27) is used for drilling the stainless steel round tube (9);

an extrusion adjusting assembly is arranged on one side of the connecting plate (20), and comprises a concave frame plate (29) fixedly arranged on one side of the connecting plate (20);

the inner wall of the concave frame plate (29) is rotationally connected with a linkage screw rod (31), the outer wall of the linkage screw rod (31) is in threaded connection with two threaded sleeve blocks (30), and one side of the concave frame plate (29) is fixedly provided with a linkage motor (32) for driving the linkage screw rod (31) to rotate;

The top ends of the two thread sleeve blocks (30) are welded with extrusion strips (28), and one end part of each extrusion strip (28) is welded with the guide post (26).

2. The stainless steel round tube machining apparatus according to claim 1, wherein: the two bending plates (6) are both in sliding connection with the rectangular frame (2), and the two bending plates (6) are both in sliding connection with the chute plate (1);

The two threads on the outer wall of the screw rod (3) are opposite and symmetrically arranged.

3. The stainless steel round tube machining apparatus according to claim 1, wherein: the two arc-shaped groove plates (7) are symmetrically arranged about the center point of the stainless steel round tube (9), and the vertical section of each arc-shaped groove plate (7) is arc-shaped.

4. The stainless steel round tube machining apparatus according to claim 1, wherein: the two sides of the rectangular frame (2) are provided with sliding blocks (10), and the bottom ends of the two sliding blocks (10) are welded with the top ends of the chute plates (1);

the top ends of the two sliding blocks (10) are both in sliding connection with the arc-shaped groove plates (7).

5. The stainless steel round tube machining apparatus according to claim 1, wherein: the transmission screw (17) is coaxially connected with the output end of the speed reducing motor (18) in a transmission way, and the transmission screw (17) and the sleeving sliding block (19) are both made of stainless steel materials.

6. The stainless steel round tube machining apparatus according to claim 1, wherein: the two connecting plates (20) are symmetrically arranged about the sleeving sliding block (19), and the outer wall of the sleeving sliding block (19) is a smooth surface;

The guide post (26) has a top end cross-sectional area that is greater than a bottom end cross-sectional area thereof.

7. The stainless steel round tube machining apparatus according to claim 1, wherein: the two thread sleeve blocks (30) are both in sliding connection with the concave frame plate (29), and two threads on the outer wall of the linkage screw rod (31) are opposite and symmetrically arranged;

a gap is arranged between the extrusion strip (28) and the concave frame plate (29).