CN220407500U - Turning and pressure welding integrated device of laser pipe cutting machine - Google Patents

Abstract

The utility model discloses a turning and pressure welding integrated device of a laser pipe cutting machine, which is applied to the technical field of the laser pipe cutting machine and aims at the problem of low efficiency from a manually transferred and cut stainless steel round pipe to a pressure welding seam station, and the technical scheme is as follows: the stainless steel pipe cutting machine comprises a frame, a pressure welding seam device arranged on the frame and a material turning assembly used for transferring the cut stainless steel pipe to the pressure welding seam device, wherein the material turning assembly comprises a material turning seat, a material turning shaft hinged to the material turning seat, a material turning motor arranged on the side surface of the material turning seat and a material turning arm plate arranged on the material turning shaft, the two groups of material turning arm plates can slide along the length direction of the material turning shaft, the material turning motor controls the material turning shaft to rotate along a horizontal axis, and a plurality of material turning clamping assemblies used for clamping the stainless steel pipe are arranged on the material turning arm plate; the method has the technical effects that the cut stainless steel round tube is automatically moved to the pressure welding seam station, and the integrated continuous production of cutting and pressure welding seams is realized.

Description

Turning and pressure welding integrated device of laser pipe cutting machine

Technical Field

The utility model relates to the technical field of laser pipe cutting machines, in particular to a turning and pressure welding integrated device of a laser pipe cutting machine.

Background

The stainless steel circular tube is a raw material for manufacturing the inner container of the thermos cup, the long stainless steel circular tube is firstly required to be cut into short stainless steel circular tubes for manufacturing the inner container of the thermos cup, and the fixed-length accurate cutting is usually realized by utilizing a laser pipe cutting machine in the prior art.

The existing laser pipe cutting machine cuts the stainless steel round pipe to a fixed length, and the short stainless steel round pipe formed by cutting is uniformly collected by the conveying device and then transferred to the pressure welding seam station. After being uniformly collected, the stainless steel round tubes are manually transferred to the press-welding seam station for press-welding seam processing, so that the degree of automation is low, and continuous automatic production is not facilitated. Therefore, a turning and pressure welding integrated device of a laser pipe cutting machine is required to be provided, and the cut stainless steel round pipe is automatically transferred to a pressure welding seam station, so that automatic continuous production is realized.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a turning and pressure welding integrated device of a laser pipe cutting machine, which has the advantages that the cut stainless steel round pipe is automatically moved to a pressure welding seam station, and the integrated continuous production of cutting and pressure welding seams is realized.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a laser pipe cutting machine's stirring, integrative device of pressure welding, includes the frame, set up in pressure welding seam device in the frame and be used for transferring the stainless steel pipe after the cutting to pressure welding seam device's stirring subassembly, stirring subassembly including the stirring seat, articulated set up in stirring axle on the stirring seat, set up in stirring motor of stirring seat side and set up in the epaxial stirring arm board of stirring, two sets of stirring arm boards can slide along the length direction of stirring axle, stirring motor control stirring axle rotates along the horizontal axis, be provided with the stirring clamping assembly that a plurality of groups are used for pressing from both sides tight stainless steel pipe on the stirring arm board.

Further, the pressure welding seam device comprises a correcting device and an oil pressure device, wherein the correcting device is arranged on the side surface of the turning shaft and used for correcting the position of the turned stainless steel round pipe, the oil pressure device is arranged on the side surface of the correcting device and used for pressing welding seams of the turned stainless steel round pipe, and the two groups of oil pressure devices are symmetrically arranged relative to the correcting device.

Further, the material turning clamping assembly comprises two groups of clamping plates which are arranged on the material turning arm plate in a sliding manner and a material turning clamping cylinder which controls the clamping plates to slide along the length direction of the material turning arm plate.

Further, one side of the material turning shaft, which is close to the material turning arm plate, is provided with a first sliding rail, and one side of the material turning arm plate, which is close to the first sliding rail, is provided with a first sliding block which is in sliding fit with the first sliding rail.

Further, one end of the material turning shaft, which is close to the material turning motor, is provided with a material turning damping plate, one end of the material turning damping plate, which is far away from the material turning shaft, is provided with a vertical damping cylinder, and the damping cylinder controls one end of the material turning damping plate, which is far away from the material turning shaft, to rotate in the same direction with the material turning shaft.

Further, orthotic devices is including setting up the correction bottom plate in the frame, setting up the correction top plate in the correction bottom plate top, rotate the main wheelset and the vice wheelset of correcting of setting in the correction top plate top along the horizontal axis, the below of correcting the bottom plate is provided with elevator motor, correct top plate length direction's both ends and be provided with first curb plate and the second respectively and correct the curb plate, main wheelset, vice wheelset of correcting set up respectively on first curb plate, the second are corrected, main wheelset and the coaxial setting of vice wheelset of correcting, stainless steel pipe length direction's both ends are arranged in main wheelset, vice respectively correct on the wheelset, the side of main wheelset of correcting is provided with the wheelset, the side of wheelset is provided with the correction motor, it rotates along the horizontal axis to correct motor control wheelset.

Further, the main correction wheelset includes two sets of main correction wheels that set up side by side, vice correction wheelset includes two sets of vice correction wheels that set up side by side, the band pulley group is including coaxial setting up in the last band pulley of main correction wheel side and set up the lower band pulley under last band pulley, be provided with driving belt between last band pulley and the lower band pulley, lower band pulley is connected to the output of correcting the motor.

Further, the oil pressure device comprises an oil pressure bottom plate arranged along the axial sliding of the stainless steel round pipe, a pressing joint shaft arranged above the oil pressure bottom plate and an oil pressure wheel arranged right above the pressing joint shaft along the axial sliding of the stainless steel round pipe, the pressing joint shaft is coaxial with the stainless steel round pipe, the outer peripheral surface of the oil pressure wheel is attached to the outer side of the stainless steel round pipe, the outer peripheral surface of the pressing joint shaft is attached to the inner side of the stainless steel round pipe, the oil pressure wheel rotates along the horizontal axis, and the vertical distance of the oil pressure wheel from the stainless steel round pipe is adjustable.

In summary, the utility model has the following beneficial effects:

1. according to the utility model, the automatic transfer of the cut stainless steel round tube is realized by arranging the turning component, and compared with belt conveying, the automatic transfer device has a simple structure and small occupied space;

2. this scheme is provided with orthotic devices and oil pressure device, turns over the material subassembly with stainless steel pipe automatic transfer to orthotic devices on, orthotic devices adjustment stainless steel pipe's position makes the welding seam remove automatic pressure welding seam process of carrying out behind when directly over, has improved machining efficiency.

Drawings

Fig. 1 is a schematic overall structure of the present embodiment;

FIG. 2 is a schematic structural view of the material turning assembly of the present embodiment;

FIG. 3 is a schematic view of the orthotic device according to the present embodiment;

fig. 4 is a schematic overall structure of the oil pressure device of the present embodiment;

fig. 5 is a schematic diagram of the structure of the inside of the hydraulic device of the present embodiment.

Reference numerals: 1. a frame; 2. a welding seam pressing device; 21. a corrective device; 211. correcting the bottom plate; 212. correcting the upper plate; 22. an oil pressure device; 221. an oil pressure base plate; 222. a joint pressing shaft; 223. an oil pinch roller; 3. a material turning component; 31. a material turning seat; 32. a turning shaft; 33. a turning motor; 34. a turning arm plate; 4. a turning clamping assembly; 41. a clamping plate; 42. a clamping cylinder; 5. stainless steel round tube; 6. a first slide rail; 7. a first slider; 8. a material turning damping plate; 9. a damping cylinder; 10. a lifting motor; 11. a first correcting side plate; 12. a second correcting side plate; 13. a belt pulley group; 131. an upper belt wheel; 132. a lower belt wheel; 14. correcting the motor; 15. correcting the lower plate; 16. correcting the guide rod; 17. correcting the screw rod; 18. a main correcting wheel; 19. an auxiliary correcting wheel; 20. a drive belt; 23. a side seam photoelectric sensor; 24. a second slide rail; 25. a second slider; 26. a first oil pressure motor; 27. a hydraulic top plate; 28. a third slide rail; 29. an oil pressure slide plate; 30. a second oil pressure motor; 50. an oil pressure screw rod; 51. an oil pressure vertical plate; 52. an oil pressure wheel plate; 53. and a fourth slide rail.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Examples:

referring to fig. 1 and 2, a material turning and pressure welding integrated device of a laser pipe cutting machine comprises a frame 1, a pressure welding seam device 2 arranged on the frame 1, and a material turning component 3 for transferring a cut stainless steel round pipe 5 to the pressure welding seam device 2; the material turning assembly 3 comprises a material turning seat 31, a material turning shaft 32 hinged to the material turning seat 31, a material turning motor 33 arranged on the side surface of the material turning seat 31 and a material turning arm plate 34 arranged on the material turning shaft 32, wherein two groups of material turning arm plates 34 can slide along the length direction of the material turning shaft 32, the material turning motor 33 controls the material turning shaft 32 to rotate along a horizontal axis, and a plurality of groups of material turning clamping assemblies 4 used for clamping the stainless steel round tubes 5 are arranged on the material turning arm plate 34;

the turning clamping assembly 4 comprises two groups of clamping plates 41 which are slidably arranged on the turning arm plate 34 and a turning clamping cylinder 42 for controlling the clamping plates 41 to slide along the length direction of the turning arm plate 34; a first sliding rail 6 is arranged on one side of the material turning shaft 32, which is close to the material turning arm plate 34, and a first sliding block 7 which is in sliding fit with the first sliding rail 6 is arranged on one side of the material turning arm plate 34, which is close to the first sliding rail 6; the cut stainless steel round tube 5 falls on the turning arm plate 34, the clamping plates 41 are close to each other to clamp the stainless steel round tube 5, and the turning motor 33 controls the turning shaft 32 to turn over along the horizontal axis to move the stainless steel round tube 5 to the pressure welding seam station;

one end of the material turning shaft 32, which is close to the material turning motor 33, is provided with a material turning damping plate 8, one end of the material turning damping plate 8, which is far away from the material turning shaft 32, is provided with a vertical damping cylinder 9, the damping cylinder 9 controls one end of the material turning damping plate 8, which is far away from the material turning shaft 32, to rotate in the same direction as the material turning shaft 32, and the damping cylinder 9 operates to provide turning force compensation for the material turning motor 33, so that the material turning difficulty is reduced, the stability of material turning is improved, and the service life of the material turning motor 33 is prolonged.

Referring to fig. 1, 2 and 3, the pressure welding seam device 2 comprises a correction device 21 and an oil pressure device 22 which are arranged on the side face of a turning shaft 32, the correction device 21 is used for adjusting the position of the turned stainless steel round tube 5, so that the welding seam on the stainless steel round tube 5 is adjusted to a position right above, the oil pressure device 22 is used for polishing and flattening the welding seam on the stainless steel round tube 5, the two sets of oil pressure devices 22 are symmetrically arranged relative to the correction device 21, and can respectively press the welding seam at two ends of the stainless steel round tube 5 simultaneously, so that the processing efficiency is improved.

Referring to fig. 1 and 3, the correction device 21 includes a correction bottom plate 211 disposed on the frame 1, a correction top plate 212 disposed above the correction bottom plate 211, a main correction wheel set and a sub correction wheel set rotatably disposed above the correction top plate 212 along a horizontal axis, a lifting motor 10 is disposed below the correction bottom plate 211, two ends of the correction top plate 212 in a length direction are respectively provided with a first correction side plate 11 and a second correction side plate 12, the main correction wheel set and the sub correction wheel set are respectively disposed on the first correction side plate 11 and the second correction side plate 12, the main correction wheel set and the sub correction wheel set are coaxially disposed, two ends of the stainless steel round tube 5 in a length direction are respectively disposed on the main correction wheel set and the sub correction wheel set, a belt wheel set 13 is disposed on a side surface of the main correction wheel set, a correction motor 14 is disposed on a side surface of the belt wheel set 13, and the correction motor 14 controls the belt wheel set 13 to rotate along the horizontal axis; in the scheme, a correction lower plate 15 is arranged right below a correction bottom plate 211, correction guide rods 16 vertically penetrating through the correction bottom plate 211 are arranged at four included angles of the correction bottom plate 211, the correction guide rods 16 are in pin hole clearance fit with the correction bottom plate 211, the upper end and the lower end of each correction guide rod 16 are respectively abutted to the correction upper plate 212 and the correction lower plate 15, a lifting motor 10 is arranged on the lower side of the correction lower plate 15, a vertical correction screw rod 17 is arranged in the middle of the correction bottom plate 211, the correction screw rod 17 penetrates through the correction bottom plate 211 and the correction lower plate 15, and the upper end and the lower end of each correction screw rod 17 are respectively connected with the correction upper plate 212 and the output end of the lifting motor 10; the lifting motor 10 operates to drive the correction screw rod 17 to rotate, the correction upper plate 212 and the correction lower plate 15 acquire driving force for upward movement, and the correction guide rod 16 moves upward on the correction bottom plate 211, so that the correction upper plate 212 moves upward;

the main correcting wheel set comprises two sets of main correcting wheels 18 which are arranged in parallel, the auxiliary correcting wheel set comprises two sets of auxiliary correcting wheels 19 which are arranged in parallel, the belt wheel set 13 comprises an upper belt wheel 131 and a lower belt wheel 132, the upper belt wheel 131 and the lower belt wheel 132 are coaxially arranged on the side surface of the main correcting wheel 18, a transmission belt 20 is arranged between the upper belt wheel 131 and the lower belt wheel 132, and the output end of the correcting motor 14 is connected with the lower belt wheel 132; when the straightening motor 14 works, the lower belt pulley 132 is controlled to rotate, the transmission belt 20 runs and drives the upper belt pulley 131 to rotate, and the upper belt pulley 131 is connected with the main straightening wheel 18 to drive the main straightening wheel 18 to synchronously rotate, so that the stainless steel round tube 5 and the auxiliary straightening wheel 19 synchronously rotate along the horizontal axis.

Referring to fig. 1, 4 and 5, the hydraulic device 22 includes a hydraulic bottom plate 221 slidably disposed along an axial direction of the stainless steel round tube 5, a pinch shaft 222 disposed above the hydraulic bottom plate 221, and a hydraulic wheel 223 slidably disposed along the axial direction of the stainless steel round tube 5 and directly above the pinch shaft 222, wherein the pinch shaft 222 is coaxial with the stainless steel round tube 5 on the straightening device 21, an outer circumferential surface of the hydraulic wheel 223 is bonded to an outer side of the stainless steel round tube 5, an outer circumferential surface of the pinch shaft 222 is bonded to an inner side of the stainless steel round tube 5, and the hydraulic wheel 223 rotates along a horizontal axis; a side seam photoelectric sensor 23 is arranged above the oil pinch roller 223 and is used for detecting a welding seam on the stainless steel round tube 5; the specific structure of the sliding connection of the oil pressure bottom plate 221 in this embodiment is: a second sliding rail 24 is arranged below the oil pressure bottom plate 221 along the length direction of the stainless steel round pipe 5, a second sliding block 25 which is in sliding fit with the second sliding rail 24 is arranged on the lower side of the oil pressure bottom plate 221, a first oil pressure motor 26 which drives the second sliding block 25 to slide along the second sliding rail 24 is arranged on the oil pressure bottom plate 221, and the second sliding block 25 is controlled by the first oil pressure motor 26 to drive the oil pressure bottom plate 221 to slide along the second sliding rail 24; a hydraulic top plate 27 is arranged right above the hydraulic bottom plate 221, a third sliding rail 28 is arranged on the lower side of the hydraulic top plate 27 along the length direction of the stainless steel round pipe 5, a hydraulic sliding plate 29 is arranged on the third sliding rail 28 in a sliding manner, a second hydraulic motor 30 is arranged on one side, away from the hydraulic pressing wheel 223, of the hydraulic top plate 27, a hydraulic screw 50 is arranged on the output end of the second hydraulic motor 30, the hydraulic screw 50 is arranged on the side surface of the hydraulic sliding plate 29 along the length direction of the stainless steel round pipe 5, a hydraulic vertical plate 51 is arranged on the lower side of the hydraulic sliding plate 29, a hydraulic wheel plate 52 is arranged on one side, close to the hydraulic pressing wheel 223, of the hydraulic vertical plate 51, the hydraulic pressing wheel 223 is arranged on the hydraulic wheel plate 52, and the second hydraulic motor 30 drives the hydraulic screw 50 to rotate, so that the hydraulic sliding plate 29 can be controlled to slide along the third sliding rail 28; a vertical fourth sliding rail 53 is arranged on one side, close to the hydraulic wheel plate 52, of the hydraulic vertical plate 51, the hydraulic wheel plate 52 is slidably arranged on the fourth sliding rail 53, a hydraulic cylinder (not shown in the figure) is arranged on the upper side of the hydraulic wheel plate 52, and the hydraulic cylinder controls the hydraulic wheel plate 52 to slidably move along the fourth sliding rail 53.

The use process is briefly described: during operation, the turning component 3 clamps the stainless steel round tube 5 and transfers the stainless steel round tube to the main correcting wheel 18 of the correcting device 21; then, the lifting motor 10 operates to drive the correcting upper plate 212 to move upwards, and stops when the stainless steel round tube 5 rises to be coaxial with the joint pressing shaft 222; next, the hydraulic devices 22 on both sides of the correction device 21 slide along the second slide rail 24 to the edge of the correction device 21, and at this time, the joint pressing shaft 222 extends into the stainless steel round tube 5, and the hydraulic wheel 223 is located right above the stainless steel round tube 5; subsequently, the main correcting wheel 18 rotates and drives the stainless steel round tube 5 to rotate, and when the side seam photoelectric sensor 23 detects a welding seam on the surface of the stainless steel round tube 5, the main correcting wheel 18 stops rotating; next, the oil pressure cylinder above the joint pressing shaft 222 drives the oil pressure wheel plate 52 to drive the oil pressure wheel 223 to move downwards and to be attached to the outer side of the stainless steel round tube 5, after attaching, the second oil pressure motor 30 controls the oil pressure screw 50 to rotate, the oil pressure wheel 29 is driven to drive the oil pressure wheel 223 to move left and right along the length direction of the stainless steel round tube 5, the oil pressure wheel 223 rolls and polishes the surface of the stainless steel round tube 5, and the stainless steel round tube 5 presses the welding seam to flatten under the extrusion between the oil pressure wheel 223 and the joint pressing shaft 222.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (8)

1. The utility model provides a stirring, integrative device of pressure welding of laser pipe cutting machine, its characterized in that, including frame (1), set up in pressure welding seam device (2) on frame (1) and be used for transferring the stainless steel pipe (5) after cutting to pressure welding seam device (2) stirring subassembly (3), stirring subassembly (3) including stirring seat (31), articulated set up in stirring axle (32) on stirring seat (31), set up in stirring motor (33) of stirring seat (31) side and stirring arm board (34) set up on stirring axle (32), two sets of stirring arm boards (34) can slide along the length direction of stirring axle (32), stirring motor (33) control stirring axle (32) rotate along the horizontal axis, be provided with on stirring arm board (34) a plurality of groups and be used for pressing from both sides tight subassembly (4) of stirring of pressing from both sides of tight stainless steel pipe (5).

2. The integral turning and pressure welding device of the laser pipe cutting machine according to claim 1, wherein the pressure welding seam device (2) comprises a correcting device (21) arranged on the side surface of a turning shaft (32) and used for correcting the position of the turned stainless steel round pipe (5) and an oil pressure device (22) arranged on the side surface of the correcting device (21) and used for pressing welding seams of the turned stainless steel round pipe (5), and the two groups of oil pressure devices (22) are symmetrically arranged relative to the correcting device (21).

3. The integrated turning and pressure welding device of the laser pipe cutting machine according to claim 1, wherein the turning clamping assembly (4) comprises two groups of clamping plates (41) which are slidably arranged on the turning arm plate (34) and a turning clamping cylinder (42) which controls the clamping plates (41) to slide along the length direction of the turning arm plate (34).

4. A turning and pressure welding integrated device of a laser pipe cutting machine according to claim 3, characterized in that a first sliding rail (6) is arranged on one side of the turning shaft (32) close to the turning arm plate (34), and a first sliding block (7) in sliding fit with the first sliding rail (6) is arranged on one side of the turning arm plate (34) close to the first sliding rail (6).

5. The integrated device for turning and pressure welding of the laser pipe cutting machine according to claim 1, wherein one end of the turning shaft (32) close to the turning motor (33) is provided with a turning damping plate (8), one end of the turning damping plate (8) far away from the turning shaft (32) is provided with a vertical damping cylinder (9), and the damping cylinder (9) controls one end of the turning damping plate (8) far away from the turning shaft (32) to rotate in the same direction with the turning shaft (32).

6. The turning and pressure welding integrated device of the laser pipe cutting machine according to claim 2, characterized in that the correcting device (21) comprises a correcting bottom plate (211) arranged on the frame (1), a correcting upper plate (212) arranged above the correcting bottom plate (211), a main correcting wheel set and a secondary correcting wheel set which are arranged above the correcting upper plate (212) along the rotation of a horizontal axis, a lifting motor (10) is arranged below the correcting bottom plate (211), a first correcting side plate (11) and a second correcting side plate (12) are respectively arranged at two ends of the length direction of the correcting upper plate (212), the main correcting wheel set and the secondary correcting wheel set are respectively arranged on the first correcting side plate (11) and the second correcting side plate (12), two ends of the length direction of the stainless steel round pipe (5) are respectively arranged on the main correcting wheel set and the secondary correcting wheel set, a belt wheel set (13) is arranged on the side face of the main correcting wheel set, a correcting motor (14) is arranged on the side face of the belt wheel set (13), and the belt motor (14) is controlled to rotate along the horizontal axis.

7. The turning and pressure welding integrated device of the laser pipe cutting machine according to claim 6, wherein the main correcting wheel set comprises two sets of main correcting wheels (18) which are arranged in parallel, the auxiliary correcting wheel set comprises two sets of auxiliary correcting wheels (19) which are arranged in parallel, the belt wheel set (13) comprises an upper belt wheel (131) coaxially arranged on the side surface of the main correcting wheels (18) and a lower belt wheel (132) arranged under the upper belt wheel (131), a transmission belt (20) is arranged between the upper belt wheel (131) and the lower belt wheel (132), and the output end of the correcting motor (14) is connected with the lower belt wheel (132).

8. The turning and pressure welding integrated device of the laser pipe cutting machine according to claim 2, wherein the oil pressure device (22) comprises an oil pressure bottom plate (221) which is arranged along the axial sliding of the stainless steel round pipe (5), a pressure seam shaft (222) which is arranged above the oil pressure bottom plate (221) and an oil pressure wheel (223) which is arranged right above the pressure seam shaft (222) along the axial sliding of the stainless steel round pipe (5), the pressure seam shaft (222) is coaxial with the stainless steel round pipe (5), the outer peripheral surface of the oil pressure wheel (223) is attached to the outer side of the stainless steel round pipe (5), the outer peripheral surface of the pressure seam shaft (222) is attached to the inner side of the stainless steel round pipe (5), the oil pressure wheel (223) rotates along a horizontal axis, and the vertical distance between the oil pressure wheel (223) and the stainless steel round pipe (5) is adjustable.