CN219533029U - Seamless steel pipe phased array detects sweeps and looks into device - Google Patents

Abstract

The utility model relates to a seamless steel tube phased array detection scanning device which comprises a phased array imager, and further comprises a shell and an annular detection assembly arranged in the shell, wherein the inner wall of the top of the shell is provided with two first motors, the output shaft of each first motor is connected with a rotating rod, one end of each rotating rod is connected with a chassis, a rubber ring and a clamping plate are sleeved on each rotating rod, the top of each rubber ring is connected with the lower surface of the clamping plate, the bottom of each rubber ring is connected with the upper surface of the chassis, two opposite side surfaces of the shell are respectively provided with a first material opening and a second material opening, the center of the annular detection assembly corresponds to the center of the second material opening, and the annular detection assembly is electrically connected with the phased array imager. Compared with the prior art, the utility model can detect seamless steel pipes with different lengths in an omnibearing and efficient way without manual intervention, and solves the problem that the seamless steel pipes with overlong lengths cannot be scanned in an omnibearing and efficient way in the prior art.

Description

Seamless steel pipe phased array detects sweeps and looks into device

Technical Field

The utility model relates to the technical field of seamless steel pipe detection, in particular to a phased array detection scanning device for a seamless steel pipe.

Background

The seamless steel pipe is made of a whole metal, has no seam on the surface, is mainly used as a petroleum geological drilling pipe, a cracking pipe for petrochemical industry, a boiler pipe, a bearing pipe, an automobile, a tractor and an aviation high-precision structural steel pipe, is widely applied in the current production and life, and needs to be used for a phased array, namely a phase compensation matrix, to be received or transmitted when the seamless steel pipe is detected.

The phased array detection scanning device for the seamless steel pipes in the prior art has the problem that the seamless steel pipes with overlong lengths cannot be scanned in an omnibearing and efficient manner.

For example, the utility model patent with application number 201922217863.5 discloses a phased array detection scanning device for a seamless steel pipe, and the following operations need to be completed when scanning a long seamless steel pipe: the swivelling lever is rotated for press ball breaks away from with seamless steel pipe mutually, and the seamless steel pipe is drawn, makes the inside of seamless steel pipe at through-hole and bearing remove, and then detects another section of longer seamless steel pipe, and the operation is comparatively complicated, and need the manual judgment which section of seamless steel pipe has not scanned, causes easily and can't carry out the problem of all-round scanning to seamless steel pipe because of the manual judgment mistake leads to.

Disclosure of Invention

The utility model aims to overcome the defect that the seamless steel tube with overlong length cannot be scanned in an omnibearing and efficient way in the prior art, and provides a phased array detection scanning device for the seamless steel tube.

The aim of the utility model can be achieved by the following technical scheme:

the utility model provides a seamless steel tube phased array detection scanning device which comprises a phased array imager and is characterized by further comprising a shell and an annular detection assembly arranged in the shell, wherein the inner wall of the top of the shell is provided with two first motors, the output shaft of each first motor is connected with a rotating rod, one end of each rotating rod is connected with a chassis, a rubber ring and a clamping plate are sleeved on each rotating rod, the top of each rubber ring is connected with the lower surface of the corresponding clamping plate, the bottom of each rubber ring is connected with the upper surface of the corresponding chassis, two opposite side surfaces of the shell are respectively provided with a first material opening and a second material opening, the center of each annular detection assembly corresponds to the center of each second material opening, and the annular detection assembly is electrically connected with the phased array imager.

Preferably, the annular detection assembly comprises an annular block, a toothed ring and a gear which are arranged in the annular block and meshed with each other, a connecting plate arranged on the toothed ring, and a scanning head arranged on the connecting plate, wherein the annular block is arranged on the side surface of the inner wall of the shell, the center of the annular block corresponds to the center of the second material port, the gear is connected with a second motor, the second motor is arranged on the shell, and the scanning head is electrically connected with the phased array imager.

Preferably, the inner diameter of the annular block is equal to the diameter of the second material opening.

Preferably, an annular inner cavity is formed in the annular block, and the toothed ring and the gear are both arranged in the annular inner cavity.

Preferably, the spout has all been seted up to the relative both sides of shell inner wall, every all be equipped with two-way threaded rod in the spout, the cover is equipped with two sliding blocks on the two-way threaded rod, every the sliding block all articulates there is the connecting rod, the other end of connecting rod articulates there is the fixed block, the bottom of first motor with the top of fixed block is connected.

Preferably, one end of the bidirectional threaded rod passes through the shell, and a rotary handle is connected with the bidirectional threaded rod.

Preferably, the first motor is slidably coupled to the top inner wall of the housing.

Preferably, a return spring is sleeved on the rotating rod, two ends of the return spring are respectively connected with the top of the chassis and the bottom of the clamping plate, and the rubber ring is sleeved on the outer side of the return spring.

Preferably, a supporting table is arranged in the shell.

Preferably, a sealing plate is arranged at the top of the shell.

Compared with the prior art, the utility model has the following advantages:

according to the seamless steel pipe phased array detection scanning device, the two first motors, the rotating rods, the rubber rings, the clamping plates and the chassis are arranged, so that the first motors drive the chassis to rotate, the seamless steel pipe clamped by the two rubber rings is driven to move towards the direction of the second material port, the annular detection assembly is used for detecting and scanning the surface of the seamless steel pipe, further the seamless steel pipes with different lengths are detected in an omnibearing and efficient manner, manual intervention is not needed, and the problem that the seamless steel pipe with overlong length cannot be scanned in an omnibearing and efficient manner in the prior art is solved.

Drawings

Fig. 1 is a schematic structural diagram of a phased array detection scanning device for a seamless steel pipe according to the embodiment.

Fig. 2 is a schematic side-cut cross-sectional structure of the embodiment shown in fig. 1.

Fig. 3 is a schematic view of the internal structure of the annular block of the embodiment shown in fig. 1.

Fig. 4 is a schematic overall perspective view of the embodiment shown in fig. 1.

Fig. 5 is a schematic view of a partial perspective cross-sectional structure of the embodiment shown in fig. 1.

The figure indicates:

1. a housing; 2. a rolling wheel; 3. a first motor; 4. a rotating lever; 5. a chassis; 6. a rubber ring; 7. a clamping plate; 8. an annular block; 9. a scanning head; 10. a phased array imager; 11. a chute; 12. a sliding block; 13. a two-way threaded rod; 14. rotating the handle; 15. a connecting rod; 16. a fixed block; 17. a return spring; 18. an annular inner cavity; 19. a toothed ring; 20. a connecting plate; 21. a gear; 22. a second motor; 23. a first material port; 24. a second material port; 25. a support table; 26. and (5) sealing the plate.

Detailed Description

The utility model will now be described in detail with reference to the drawings and specific examples.

Examples:

referring to fig. 1 to 5, this embodiment provides a seamless steel pipe phased array detection scanning device, including shell 1, phased array imager 10 and locate the annular detection subassembly in the shell 1, the top inner wall of shell 1 is equipped with two first motors 3, the output shaft of every first motor 3 all is connected with dwang 4, the one end of dwang 4 is connected with chassis 5, the cover is equipped with rubber ring 6 and splint 7 on the dwang 4, the top and the lower surface of splint 7 of rubber ring 6 are connected, the bottom is connected with the upper surface of chassis 5, two sides that shell 1 is relative are equipped with first feed inlet 23 and second feed inlet 24 respectively, annular detection subassembly's center and the center of second feed inlet 24 are corresponding, annular detection subassembly and phased array imager 10 electric connection.

When the seamless steel pipe detection device is used, a seamless steel pipe is placed in a shell 1 from a first material port 23, the seamless steel pipe is inserted between two rubber rings 6, the two rubber rings 6 clamp the seamless steel pipe under the action of a clamping plate 7 and a chassis 5, a first motor 3 is started, an output shaft of the first motor 3 drives a rotating rod 4 to rotate, and then the chassis 5 is driven to rotate, so that the seamless steel pipe moves towards a second material port 24 under the rotation of the chassis 5, an annular detection assembly corresponding to the second material port 24 detects and scans the surface of the seamless steel pipe, and the seamless steel pipe is rotated out from the second material port 24 after detection and scanning. Through the technical scheme, seamless steel pipes with different lengths can be detected in an omnibearing and efficient manner, manual intervention is not needed, and the problem that in the prior art, the seamless steel pipes with overlong lengths cannot be scanned in an omnibearing and efficient manner is solved.

As an alternative embodiment, the annular detection assembly includes an annular block 8, a toothed ring 19 and a gear 21 which are disposed in the annular block 8 and are meshed with each other, a connecting plate 20 disposed on the toothed ring 19, and a scanning head 9 disposed on the connecting plate 20, the annular block 8 is disposed on the side surface of the inner wall of the housing 1, the center of the annular block 8 corresponds to the center of the second material port 24, the gear 21 is connected with a second motor 22, the second motor 22 is disposed on the housing 1, and the scanning head 9 is electrically connected with the phased array imager 10.

Through the technical scheme, the second motor 22 is started, the output shaft of the second motor 22 drives the gear 21 to rotate, and then drives the toothed ring 19 to rotate, so that the connecting plate 20 arranged on the toothed ring 19 and the scanning head 9 arranged on the connecting plate 20 do circular motion by taking the center of the annular block 8 as the center, and before the seamless steel pipe moves to the annular block 8, the scanning head 9 performs omnibearing detection around the surface of the seamless steel pipe.

As an alternative embodiment, the inner diameter of the annular block 8 is equal to the diameter of the second orifice.

As an alternative embodiment, the annular block 8 is provided with an annular cavity 18, and the toothed ring 19 and the toothed wheel 21 are arranged in the annular cavity 18.

As an alternative embodiment, both sides of the opposite inner wall of the casing 1 are provided with sliding grooves 11, each sliding groove 11 is internally provided with a bidirectional threaded rod 13, two sliding blocks 12 are sleeved on each bidirectional threaded rod 13, each sliding block 12 is hinged with a connecting rod 15, the other end of each connecting rod 15 is hinged with a fixed block 16, and the bottom of the first motor 3 is connected with the top of each fixed block 16.

As an alternative embodiment, the first motor 3 is slidingly connected to the top inner wall of the housing 1.

As an alternative embodiment, the rotating rod 4 is sleeved with a return spring 17, two ends of the return spring 17 are respectively connected with the top of the chassis 5 and the bottom of the clamping plate 7, and the rubber ring 6 is sleeved on the outer side of the return spring 17.

As an alternative embodiment, a support stand 25 is provided in the housing 1.

Through the technical scheme, for the seamless steel pipes with different calibers, the seamless steel pipes are arranged on the supporting table 25, the rotary handle 14 is rotated, the two sliding blocks 12 on the bidirectional threaded rod 13 are close to each other, the two fixed blocks 16 are driven to be close to each other, the rubber ring 6 on the upper surface of the chassis 5 is slowly attached to the seamless steel pipes, the rubber ring 6 is extruded, the clamping plate 7 on the upper surface of the rubber ring 6 moves upwards under the action of the reset spring 17, the distance between the chassis 5 and the clamping plate 7 is enlarged, and therefore the seamless steel pipes with different calibers can be clamped.

As an alternative embodiment, one end of the bi-directional threaded rod 13 passes through the housing 1 and is connected with a rotary handle 14.

As an alternative embodiment, the top of the housing 1 is provided with a sealing plate 26.

As an alternative embodiment, the bottom of the housing 1 is hinged with a rolling wheel 2.

The working principle of the seamless steel tube phased array detection scanning device provided by the embodiment is as follows:

the seamless steel pipe is placed into the shell 1 from the first material opening 23, is arranged on the supporting table 25, and rotates the rotary handle 14, so that the two sliding blocks 12 on the bidirectional threaded rod 13 are close to each other, the two fixed blocks 16 are driven to be close to each other, the rubber ring 6 on the upper surface of the chassis 5 is slowly attached to the seamless steel pipe, the rubber ring 6 is extruded, the clamping plate 7 on the upper surface of the rubber ring 6 moves upwards under the action of the reset spring 17, the distance between the chassis 5 and the clamping plate 7 is enlarged, and therefore the seamless steel pipes with different calibers can be clamped.

After clamping is finished, the first motor 3 is started, the output shaft of the first motor 3 drives the rotating rod 4 to rotate, the chassis 5 is driven to rotate, the seamless steel pipe moves towards the direction of the second material port 24 under the rotation of the chassis 5, the second motor 22 is started, the output shaft of the second motor 22 drives the gear 21 to rotate, the toothed ring 19 is driven to rotate, the connecting plate 20 arranged on the toothed ring 19 and the scanning head 9 arranged on the connecting plate 20 do circular motion by taking the center of the annular block 8 as the center, before the seamless steel pipe moves to the annular block 8, the scanning head 9 performs omnibearing detection around the surface of the seamless steel pipe, and after detection scanning, the scanning head rotates out from the second material port 24.

The foregoing describes in detail preferred embodiments of the present utility model. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the utility model by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (10)

1. The utility model provides a seamless steel pipe phased array detects scanning device, includes phased array imager (10), its characterized in that still includes shell (1) and locates annular detection subassembly in shell (1), the top inner wall of shell (1) is equipped with two first motors (3), every the output shaft of first motor (3) all is connected with dwang (4), the one end of dwang (4) is connected with chassis (5), the cover is equipped with rubber ring (6) and splint (7) on dwang (4), the top of rubber ring (6) with the lower surface of splint (7) is connected, the bottom with the upper surface of chassis (5) is connected, two sides that shell (1) are relative are equipped with first material mouth (23) and second material mouth (24) respectively, annular detection subassembly's center with the center of second material mouth (24) is corresponding, annular detection subassembly with phased array imager (10) electric connection.

2. The seamless steel tube phased array detection scanning device according to claim 1, wherein the annular detection assembly comprises an annular block (8), a toothed ring (19) and a gear (21) which are arranged in the annular block (8) and meshed with each other, a connecting plate (20) arranged on the toothed ring (19), and a scanning head (9) arranged on the connecting plate (20), the annular block (8) is arranged on the side surface of the inner wall of the shell (1), the center of the annular block (8) corresponds to the center of the second material opening (24), the gear (21) is connected with a second motor (22), the second motor (22) is arranged on the shell (1), and the scanning head (9) is electrically connected with the phased array imager (10).

3. A seamless steel tube phased array inspection scanning device according to claim 2, characterized in that the inner diameter of the annular block (8) is equal to the diameter of the second feed opening (24).

4. The seamless steel tube phased array detection scanning device according to claim 2, wherein an annular inner cavity (18) is formed in the annular block (8), and the toothed ring (19) and the gear (21) are both arranged in the annular inner cavity (18).

5. The seamless steel tube phased array detection scanning device according to claim 1, wherein sliding grooves (11) are formed in two opposite sides of the inner wall of the outer shell (1), two bidirectional threaded rods (13) are arranged in each sliding groove (11), two sliding blocks (12) are sleeved on the bidirectional threaded rods (13), connecting rods (15) are hinged to the sliding blocks (12), fixing blocks (16) are hinged to the other ends of the connecting rods (15), and the bottoms of the first motors (3) are connected with the tops of the fixing blocks (16).

6. A seamless steel tube phased array detection scanning device according to claim 5, wherein one end of the bi-directional threaded rod (13) passes through the housing (1) and is connected with a rotary handle (14).

7. A seamless steel tube phased array inspection scanning device according to claim 1, characterized in that the first motor (3) is slidingly connected to the top inner wall of the housing (1).

8. The seamless steel tube phased array detection scanning device according to claim 1, wherein a return spring (17) is sleeved on the rotating rod (4), two ends of the return spring (17) are respectively connected with the top of the chassis (5) and the bottom of the clamping plate (7), and the rubber ring (6) is sleeved on the outer side of the return spring (17).

9. A phased array inspection and scanning device for seamless steel pipes as claimed in claim 1 wherein a support table (25) is provided in the housing (1).

10. A phased array inspection and scanning device for seamless steel pipes as claimed in claim 1 wherein the top of the housing (1) is provided with a sealing plate (26).