CN212071712U - Pipeline radiographic inspection fixing device - Google Patents

Abstract

The utility model discloses a pipeline ray detection fixing device belongs to the pipeline detection area. A pipeline radiographic testing fixing device comprises a base, wherein vertical plates are symmetrically fixed to the top of the base, a top plate is arranged above the base, the tops of the vertical plates are fixedly connected with the bottom of the top plate, supporting plates are symmetrically fixed to the top of the base, rotating shafts penetrate through one side walls of the vertical plates, the rotating shafts are rotatably connected with the vertical plates through bearings, a box body is fixed to one end of each rotating shaft, and a servo motor is fixed to the inner wall of one side of the box body; the utility model discloses a set up box, servo motor, threaded rod, slide, horizontal pole and splint, can convenient and fast fix the pipeline centre gripping, through setting up driven bevel gear, steadying plate, bull stick, initiative bevel gear, driven flat gear, gear motor, initiative flat gear and belt, can convenient and fast make the pipeline take place to rotate, so comparatively laborsaving, efficiency is higher.

Description

Pipeline radiographic inspection fixing device

Technical Field

The utility model relates to a pipeline inspection technical field especially relates to a pipeline radiographic testing fixing device.

Background

The welding seam of pipeline adopts the ray machine to detect usually, when detecting the pipeline welding seam at present, generally places the pipeline on the support frame, then rotates the mode of pipeline through the manpower, utilizes the ray machine to detect the welding seam, when rotating the pipeline, comparatively difficultly, and efficiency is lower, therefore we have proposed a pipeline radiographic inspection fixing device and have solved above-mentioned problem.

Disclosure of Invention

The utility model aims at solving among the prior art when detecting the pipeline welding seam, inconvenient carrying out the pivoted problem to the pipeline, and a pipeline radiographic inspection fixing device who provides.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a pipeline radiographic testing fixing device comprises a base, risers are symmetrically fixed at the top of the base, a top plate is arranged above the base, the tops of the risers are fixedly connected with the bottom of the top plate, supporting plates are symmetrically fixed at the top of the base, a rotating shaft penetrates through one side wall of each riser, the rotating shaft is rotatably connected with the risers through bearings, a box body is fixed at one end of each rotating shaft, a servo motor is fixed on the inner wall of one side of the box body, a threaded rod is fixed on an output shaft of the servo motor, one end of each threaded rod is rotatably connected with the inner wall of one side adjacent to the box body through a bearing, a sliding plate is connected with the outer side wall of each threaded rod through threads, the sliding plate is slidably connected in the box body, cross rods are symmetrically fixed on one side wall of the sliding plate, and one end of each cross rod slidably penetrates through one side, one side of the box body is provided with a clamping plate, one end of the cross rod is fixedly connected with one side wall of the adjacent clamping plate, one end of the rotating shaft far away from the box body is fixedly sleeved with a driven bevel gear, one side wall of the vertical plate is fixedly provided with a stabilizing plate, the upper part of the base is symmetrically provided with rotating rods which sequentially penetrate through the top plate and the stabilizing plate, both ends of the rotating rods are respectively rotatably connected with the top plate and the stabilizing plate through bearings, the bottom ends of the rotating rods are respectively sleeved and fixed with a driving bevel gear which is meshed and connected with a corresponding driven bevel gear, the top ends of the rotating rods are respectively sleeved and fixed with a driven flat gear, the top of the top plate is fixed with a speed reducing motor, and an output shaft of the speed reducing motor is fixedly provided with a driving flat gear, a belt is arranged above the top plate, and the driving flat gear is in transmission connection with the two driven flat gears through the belt.

Preferably, universal auto-lock wheels are installed at four corners of the bottom of the base.

Preferably, a threaded hole is formed in one side wall of the sliding plate, the threaded rod is in threaded connection with the threaded hole, sliding blocks are fixed to the top and the bottom of the sliding plate, sliding grooves are formed in the inner wall of the top and the inner wall of the bottom of the box body, and the sliding blocks are respectively in sliding connection with the corresponding sliding grooves.

Preferably, slide holes are symmetrically formed in one side wall of the box body, and the cross rods penetrate through the corresponding slide holes respectively.

Preferably, the anti-skidding rubber pads are fixed on one side wall of the clamping plate, which is far away from the cross rod.

Compared with the prior art, the utility model provides a pipeline ray detection fixing device possesses following beneficial effect:

this pipeline ray detection fixing device through setting up box, servo motor, threaded rod, slide, horizontal pole and splint, can convenient and fast fix the pipeline centre gripping, through setting up driven bevel gear, steadying plate, bull stick, initiative bevel gear, driven flat gear, gear motor, initiative flat gear and belt, can convenient and fast make the pipeline take place to rotate, so comparatively laborsaving, efficiency is higher.

Drawings

Fig. 1 is a schematic view of the overall structure of a pipeline radiographic inspection fixing device provided by the present invention;

fig. 2 is an enlarged schematic structural view of an area a of the pipeline radiographic testing fixture apparatus provided by the present invention;

fig. 3 is the utility model provides a pipeline radiographic inspection fixing device's layer board looks sideways at the structural sketch map.

In the figure: 1. a base; 2. a vertical plate; 3. a top plate; 4. a support plate; 5. a rotating shaft; 6. a box body; 7. a servo motor; 8. a threaded rod; 9. a slide plate; 10. a cross bar; 11. a splint; 12. a driven bevel gear; 13. a stabilizing plate; 14. a rotating rod; 15. a drive bevel gear; 16. a driven flat gear; 17. a reduction motor; 18. a driving flat gear; 19. a belt; 20. a universal self-locking wheel; 21. a threaded hole; 22. a slider; 23. a chute; 24. a slide hole; 25. anti-skid rubber pad.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-3, a pipeline radiographic testing fixing device comprises a base 1, risers 2 are symmetrically fixed on the top of the base 1, a top plate 3 is arranged above the base 1, the tops of the risers 2 are fixedly connected with the bottom of the top plate 3, support plates 4 are symmetrically fixed on the top of the base 1, a rotating shaft 5 penetrates through one side wall of each riser 2, each rotating shaft 5 is rotatably connected with each riser 2 through a bearing, a box body 6 is fixed at one end of each rotating shaft 5, a servo motor 7 is fixed on the inner wall of one side of each box body 6, a threaded rod 8 is fixed on the output shaft of each servo motor 7, one end of each threaded rod 8 is rotatably connected with the inner wall of the adjacent side of each box body 6 through a bearing, a sliding plate 9 is connected with the outer side wall of each threaded rod 8 through a thread, the sliding plate 9 is slidably connected in each box body 6, a cross rod 10 is symmetrically fixed on one side wall of, one side of box 6 all is provided with splint 11, the one end of horizontal pole 10 and a lateral wall fixed connection of adjacent splint 11, the one end that box 6 was kept away from to pivot 5 all overlaps and is established and be fixed with driven bevel gear 12, a lateral wall of riser 2 all is fixed with steadying plate 13, the top symmetry of base 1 is provided with bull stick 14, bull stick 14 runs through roof 3 and steadying plate 13 in proper order, roof 3 and steadying plate 13 rotate the connection respectively through the bearing in the both ends of bull stick 14, the bottom of bull stick 14 all overlaps and is established and is fixed with drive bevel gear 15, drive bevel gear 15 is connected with corresponding driven bevel gear 12 meshing, the top of bull stick 14 all overlaps and is established and is fixed with driven flat gear 16, the top of roof 3 is fixed with gear reduction motor 17, gear reduction motor 17's output shaft is fixed with drive flat gear 18, the top of roof 3 is provided with belt 19, drive flat gear 18 is connected with two driven flat gear 16 transmissions.

Specifically, universal self-locking wheels 20 are mounted at four corners of the bottom of the base 1.

In this embodiment, the four corners of the bottom of the base 1 are provided with the universal self-locking wheels 20, so that the device can be moved conveniently.

Specifically, threaded hole 21 has all been seted up to one side wall of slide 9, and threaded rod 8 passes through threaded connection with threaded hole 21, and slide 9's top and bottom all are fixed with slider 22, and spout 23 has all been seted up to the top inner wall and the bottom inner wall of box 6, and slider 22 is sliding connection respectively at corresponding spout 23.

In this embodiment, a screw hole 21 is formed in one side wall of the slide plate 9 so as to be engaged with the screw rod 8, and the slide plate 9 can be slid stably by fixing the slide blocks 22 to the top and bottom of the slide plate 9 and forming the slide grooves 23 in the top and bottom inner walls of the case 6.

Specifically, sliding holes 24 are symmetrically formed in one side wall of the box body 6, and the cross rods 10 penetrate through the corresponding sliding holes 24 respectively.

In this embodiment, the sliding holes 24 are symmetrically formed in one side wall of the box 6, so that the cross bar 10 can smoothly pass through one side wall of the box 6.

Specifically, an anti-skid rubber pad 25 is fixed on one side wall of the clamping plate 11 far away from the cross bar 10.

In this embodiment, the anti-slip rubber pad 25 is fixed on one side wall of the clamping plate 11, so that a better anti-slip effect can be achieved, and the pipeline can be clamped more stably.

The working principle is that when in use, two ends of the pipeline to be detected are placed in the grooves of the two supporting plates 4, then the servo motor 7 is started, the servo motor 7 drives the threaded rod 8 to rotate, the threaded rod 8 drives the sliding plate 9 to move towards the middle, the sliding plate 9 can drive the cross rod 10 to move towards the middle, thereby driving the clamping plate 11 to clamp and fix the pipeline to be detected, then the gear motor 17 is started, the gear motor 17 drives the driving flat gear 18 to rotate, the driving flat gear 18 can drive the two driven flat gears 16 to rotate through the belt 19, the driven flat gears 16 can drive the corresponding rotating rods 14 to rotate, the rotating rods 14 can drive the corresponding driving bevel gears 15 to rotate, the driving bevel gears 15 can drive the corresponding driven bevel gears 12 to rotate, and the driven bevel gears 12 can drive the corresponding rotating shafts 5 to rotate, so that the pipeline to be detected can be driven to rotate.

In conclusion, the box body 6, the servo motor 7, the threaded rod 8, the sliding plate 9, the cross rod 10 and the clamping plate 11 are arranged, so that the pipeline can be clamped and fixed conveniently and quickly, and the driven bevel gear 12, the stabilizing plate 13, the rotating rod 14, the driving bevel gear 15, the driven flat gear 16, the reducing motor 17, the driving flat gear 18 and the belt 19 are arranged, so that the pipeline can be rotated conveniently and quickly, labor is saved, and the efficiency is high.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The pipeline radiographic testing fixing device comprises a base (1) and is characterized in that a vertical plate (2) is symmetrically fixed at the top of the base (1), a top plate (3) is arranged above the base (1), the top of the vertical plate (2) is fixedly connected with the bottom of the top plate (3), supporting plates (4) are symmetrically fixed at the top of the base (1), a rotating shaft (5) penetrates through one side wall of the vertical plate (2), the rotating shaft (5) is rotatably connected with the vertical plate (2) through a bearing, a box body (6) is fixed at one end of the rotating shaft (5), a servo motor (7) is fixed on the inner wall of one side of the box body (6), a threaded rod (8) is fixed at the output shaft of the servo motor (7), one end of the threaded rod (8) is rotatably connected with the inner wall of one side adjacent to the box body (6) through a bearing, the outer side wall of the threaded rod (8) is connected with a sliding plate (9) through threads, the sliding plate (9) is connected in the box body (6) in a sliding mode, transverse rods (10) are symmetrically fixed on one side wall of the sliding plate (9), one end of each transverse rod (10) penetrates through one side wall of the box body (6) in a sliding mode, a clamping plate (11) is arranged on one side of each box body (6), one end of each transverse rod (10) is fixedly connected with one side wall of the adjacent clamping plate (11), one end, far away from the box body (6), of the rotating shaft (5) is fixedly sleeved with a driven bevel gear (12), one side wall of each vertical plate (2) is fixedly provided with a stabilizing plate (13), rotating rods (14) are symmetrically arranged above the base (1), the rotating rods (14) sequentially penetrate through the top plate (3) and the stabilizing plate (13), two ends of each rotating rod (14) are rotatably connected with the top plate (3) and the stabilizing plate (, the bottom of bull stick (14) all overlaps to be established and is fixed with drive bevel gear (15), drive bevel gear (15) and corresponding driven bevel gear (12) meshing connection, the top of bull stick (14) all overlaps to be established and is fixed with driven flat gear (16), the top of roof (3) is fixed with gear motor (17), the output shaft of gear motor (17) is fixed with drive flat gear (18), the top of roof (3) is provided with belt (19), drive flat gear (18) are connected with two driven flat gear (16) transmission through belt (19).

2. The pipeline radiographic testing fixing device of claim 1, wherein four corners of the bottom of the base (1) are provided with universal self-locking wheels (20).

3. The pipeline radiographic testing fixing device of claim 2, wherein a threaded hole (21) is formed in one side wall of the sliding plate (9), the threaded rod (8) is in threaded connection with the threaded hole (21), sliding blocks (22) are fixed to the top and the bottom of the sliding plate (9), sliding grooves (23) are formed in the inner wall of the top and the inner wall of the bottom of the box body (6), and the sliding blocks (22) are respectively in sliding connection with the corresponding sliding grooves (23).

4. The pipeline radiographic testing fixing device of claim 2, wherein sliding holes (24) are symmetrically formed in one side wall of the box body (6), and the cross rods (10) penetrate through the corresponding sliding holes (24) respectively.

5. The pipeline radiographic testing fixture device of claim 1, wherein a side wall of the clamping plate (11) away from the cross bar (10) is fixed with an anti-skid rubber pad (25).

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