CN209116992U - A kind of Pipeline joint anticorrosion layer non-destructive testing device - Google Patents

Abstract

The utility model discloses a kind of Pipeline joint anticorrosion layer non-destructive testing devices, including pipeline, detection device ontology and the first anchor ear, the first anchor ear is symmetrically arranged at left and right sides of the detection device ontology, first anchor ear upper end is equipped with buttcover plate, and buttcover plate is equipped with threaded hole, first anchor ear lower end is equipped with groove, first anchor ear is symmetrically arranged with the second anchor ear, and first anchor ear and the second anchor ear upper end be fixedly connected by stud, in the utility model, detection can be completed by the circular motion of one-time detection device noumenon, improve working efficiency, present apparatus middle clamp plate is bonded pipeline outer wall, support rod is slided along fixed frame, the elastic force of spring plays the role of supporting and fixing, this design structure is simple, clamping plate uses rubber material simultaneously, clamping plate passes through deformation, the pipeline of multiple diameter can be suitble to use, when construction, nothing The original erosion resistant coating of pipeline need to be destroyed, is played a protective role to pipeline outer wall.

Description

A kind of Pipeline joint anticorrosion layer non-destructive testing device

Technical field

The utility model relates to detection device technology field, specifically a kind of Pipeline joint anticorrosion layer non-destructive testing device.

Background technique

It is anti-that the description corrosion of corrosive pipeline phenomenon can be understood as a kind of chemistry that material occurs in the environment locating for it It answers, which will cause the loss of pipeline material and lead to the even entire pipeline system failure of line member.In pipeline system, The definition of corrosion is: being based on specific pipeline environments, the chemistry occurred in all metals of pipeline system and nonmetallic materials Reaction, the erosion of electrochemical reaction and microorganism, the reaction can lead to the damage and loss of pipeline architecture and other materials.It removes Corrosiveness is outer to directly destroying for material, and the Pipeline damage as caused by corrosion product also can be considered corrosion failure.Pipeline Whether corrosion can spread, and range of scatter has the corrosion resistant of much agents of erosion for depending primarily on corrosive medium and existing pipeline material Corrosion energy.Temperature, the concentration of corrosive medium and stress state can all influence the degree of corrosive pipeline.

Pipeline corrosion protection refers to slowing down or prevent pipeline under the chemistry of inside and outside medium, electrochemical action or by microorganism Metabolic activity and the measure that is etched and goes bad, because affected by various factors, erosion resistant coating will appear aging and breakage, and pipeline is mended The erosion resistant coating detection of mouth is particularly important, and pipe joint can be directly wrapped in sponge heat-insulating by traditional connect to hood type pipeline In layer, whole section of insulating layer need to be stripped when finding pipe joint, not only destroy insulating layer, it is complicated for operation.Therefore, art technology Personnel provide a kind of Pipeline joint anticorrosion layer non-destructive testing device, to solve the problems mentioned in the above background technology.

Summary of the invention

The purpose of this utility model is to provide a kind of Pipeline joint anticorrosion layer non-destructive testing devices, to solve above-mentioned background The problem of being proposed in technology.

To achieve the above object, the utility model provides the following technical solutions:

A kind of Pipeline joint anticorrosion layer non-destructive testing device, including pipeline, detection device ontology and the first anchor ear, the inspection It surveys at left and right sides of device noumenon and is symmetrically arranged with the first anchor ear, first anchor ear upper end is equipped with buttcover plate, and buttcover plate is equipped with Threaded hole, first anchor ear lower end are equipped with groove, and first anchor ear is symmetrically arranged with the second anchor ear, and the first anchor ear and second Anchor ear upper end is fixedly connected by stud, and sliding slot, first anchor ear are equipped on first anchor ear and the second anchor ear It is fixedly connected with fixed frame with the second anchor ear inner wall, and fixed frame is slidably connected support rod, and spring is equipped with inside fixed frame, it is described The other end of support rod is fixedly connected with clamping plate；

The detection device ontology includes calibrator, and calibrator lower end is equipped with several detecting heads, and right on the outside of detecting head Title is set there are two pulley, and the calibrator upper end is equipped with handle, and handle is set with rubber sleeve, and the calibrator both ends are symmetrically arranged with Sliding block, and sliding block is slidably connected fixed plate, one end of the separate sliding block of the fixed plate passes through connection axis connection idler wheel.

As a further solution of the present invention: the idler wheel is embedded in the first anchor ear, and idler wheel is slided by sliding slot Connect the first anchor ear.

Second anchor ear lower end is equipped with convex block as a further solution of the present invention, and convex block passes through shaft It is rotatablely connected groove, and groove is located at the first anchor ear lower end.

First anchor ear and the rotation connection of the second anchor ear lower end as a further solution of the present invention, and the One anchor ear and the second anchor ear are located at erosion resistant coating two sides.

The fixed plate corresponds to sliding block equipped with sliding rail as a further solution of the present invention, and sliding rail is equipped with Several fixation holes.

The fixed frame, support rod, spring and clamping plate are symmetrically arranged with four as a further solution of the present invention, It is a, and clamping plate is set as arc, and clamping plate is bonded pipeline outer wall.

Compared with prior art, the utility model has the beneficial effects that

1, in the utility model, the first anchor ear and the second anchor ear are stuck on pipeline, and by stud by first armful Hoop and the second anchor ear are fixed, and detection device ontology is adjusted, and sliding block is slided along sliding rail, so that pulley is bonded pipe surface, are passed through bolt Insertion fixation hole will test device noumenon and fix, and detecting head is located at pipe surface at this time, and pull handle makes idler wheel along the first anchor ear With the sliding slot sliding in the second anchor ear, detection device ontology moves in a circle around pipeline, to realize to erosion resistant coating on pipeline Detection can be completed detection by the circular motion of one-time detection device noumenon, improve working efficiency.

2, present apparatus middle clamp plate is bonded pipeline outer wall, and support rod is slided along fixed frame, and the elastic force of spring plays support and consolidates It is set for using, this design structure is simple, while clamping plate uses rubber material, and clamping plate can be suitble to the pipeline of multiple diameter by deformation It uses, when construction, without destroying the original erosion resistant coating of pipeline, plays a protective role to pipeline outer wall.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of Pipeline joint anticorrosion layer non-destructive testing device.

Fig. 2 is a kind of side view of Pipeline joint anticorrosion layer non-destructive testing device.

Fig. 3 is a kind of structural schematic diagram of detection device ontology in Pipeline joint anticorrosion layer non-destructive testing device.

In figure: 1- pipeline, 2- detection device ontology, the first anchor ear of 3-, 4- erosion resistant coating, 5- groove, 6- convex block, 7- docking Plate, 8- threaded hole, 9- idler wheel, 10- fixed plate, the second anchor ear of 11-, 12- stud, 13- sliding slot, 14- fixed frame, 15- branch Strut, 16- spring, 17- clamping plate, 18- calibrator, 19- detecting head, 20- handle, 21- rubber sleeve, 22- sliding block, 23- sliding rail, 24- fixation hole, 25- connecting shaft, 26- pulley.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Please refer to Fig. 1~3, in the utility model embodiment, a kind of Pipeline joint anticorrosion layer non-destructive testing device, including pipe Road 1, detection device ontology 2 and the first anchor ear 3 are symmetrically arranged with the first anchor ear 3 at left and right sides of the detection device ontology 2, described First anchor ear, 3 upper end is equipped with buttcover plate 7, and buttcover plate 7 is equipped with threaded hole 8, and 3 lower end of the first anchor ear is equipped with groove 5, First anchor ear 3 is symmetrically arranged with the second anchor ear 11, and the first anchor ear 3 and 11 upper end of the second anchor ear are fixed by stud 12 It connects, sliding slot 13 is equipped on first anchor ear 3 and the second anchor ear 11, first anchor ear 3 and 11 inner wall of the second anchor ear are solid Determine Connection Bracket 14, and fixed frame 14 is slidably connected support rod 15, and spring 16, the support rod are equipped with inside fixed frame 14 15 other end is fixedly connected with clamping plate 17；

The detection device ontology 2 includes calibrator 18, and 18 lower end of calibrator is equipped with several detecting heads 19, and detecting head 19 outsides are symmetrically arranged with two pulleys 26, and 18 upper end of calibrator is equipped with handle 20, and handle 20 is set with rubber sleeve 21, described 18 both ends of calibrator are symmetrically arranged with sliding block 22, and sliding block 22 is slidably connected fixed plate 10, the separate sliding block 22 of the fixed plate 10 One end by connecting shaft 25 connect idler wheel 9.

The idler wheel 9 is embedded in the first anchor ear 3, and idler wheel 9 is slidably connected the first anchor ear 3 by sliding slot 13.

Second anchor ear, 11 lower end is equipped with convex block 6, and convex block 6 is rotatablely connected groove 5 by shaft, and groove 5 is located at First anchor ear, 3 lower end.

First anchor ear 3 and the rotation connection of 11 lower end of the second anchor ear, and the first anchor ear 3 and the second anchor ear 11 are positioned at anti- Rotten 4 two sides of layer.

The corresponding sliding block 22 of the fixed plate 10 is equipped with sliding rail 23, and sliding rail 23 is equipped with several fixation holes 24.

The fixed frame 14, support rod 15, spring 16 and clamping plate 17 are symmetrically arranged with four, and clamping plate 17 is set as arc, and Clamping plate 17 is bonded 1 outer wall of pipeline.

The working principle of the utility model is:

In the utility model, the first anchor ear 3 and the second anchor ear 11 are stuck on pipeline 1, and by stud 12 by the One anchor ear 3 and the second anchor ear 11 are fixed, adjust detection device ontology 2, and sliding block 22 is slided along sliding rail 23, make the fitting pipe of pulley 26 1 surface of road will test device noumenon 2 by bolt insertion fixation hole 24 and fix, and detecting head 19 is located at 1 surface of pipeline at this time, draws Dynamic handle 20 slides sliding slot 13 of the idler wheel 9 in the first anchor ear 3 and the second anchor ear 11, and detection device ontology 2 is done around pipeline 1 Circular motion, thus realize the detection to erosion resistant coating 4 on pipeline 1, it can be complete by the circular motion of one-time detection device noumenon 2 At detection, working efficiency is improved, present apparatus middle clamp plate 17 is bonded 1 outer wall of pipeline, and support rod 15 is slided along fixed frame 14, spring 16 Elastic force play the role of supporting and fixing, this design structure is simple, while clamping plate 17 uses rubber material, and clamping plate 17 passes through shape Become, the pipeline of multiple diameter can be suitble to use, when construction, without destroying the original erosion resistant coating of pipeline, guarantor is played to pipeline outer wall Shield effect.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. a kind of Pipeline joint anticorrosion layer non-destructive testing device, including pipeline (1), detection device ontology (2) and the first anchor ear (3), which is characterized in that be symmetrically arranged with the first anchor ear (3) at left and right sides of the detection device ontology (2), first anchor ear (3) Upper end is equipped with buttcover plate (7), and buttcover plate (7) is equipped with threaded hole (8), and the first anchor ear (3) lower end is equipped with groove (5), First anchor ear (3) is symmetrically arranged with the second anchor ear (11), and the first anchor ear (3) and the second anchor ear (11) upper end pass through double end spiral shell Bolt (12) is fixedly connected, and is equipped with sliding slot (13) on first anchor ear (3) and the second anchor ear (11), first anchor ear (3) It is fixedly connected fixed frame (14) with the second anchor ear (11) inner wall, and fixed frame (14) is slidably connected support rod (15), and fixed frame (14) internal to be equipped with spring (16), the other end of the support rod (15) is fixedly connected with clamping plate (17)；

The detection device ontology (2) includes calibrator (18), and calibrator (18) lower end is equipped with several detecting heads (19), and is visited Two pulleys (26) are symmetrically arranged on the outside of gauge head (19), calibrator (18) upper end is equipped with handle (20), and handle (20) covers It filling rubber sleeve (21), calibrator (18) both ends are symmetrically arranged with sliding block (22), and sliding block (22) is slidably connected fixed plate (10), One end of the separate sliding block (22) of the fixed plate (10) passes through connecting shaft (25) connection idler wheel (9).

2. a kind of Pipeline joint anticorrosion layer non-destructive testing device according to claim 1, which is characterized in that the idler wheel (9) it is embedded in the first anchor ear (3), and idler wheel (9) is slidably connected the first anchor ear (3) by sliding slot (13).

3. a kind of Pipeline joint anticorrosion layer non-destructive testing device according to claim 1, which is characterized in that described second armful It binds round (11) lower end and is equipped with convex block (6), and convex block (6) is rotatablely connected groove (5) by shaft, and groove (5) is located at the first anchor ear (3) lower end.

4. a kind of Pipeline joint anticorrosion layer non-destructive testing device according to claim 1, which is characterized in that described first armful (3) and the rotation connection of the second anchor ear (11) lower end are bound round, and the first anchor ear (3) and the second anchor ear (11) are located at erosion resistant coating (4) two sides.

5. a kind of Pipeline joint anticorrosion layer non-destructive testing device according to claim 1, which is characterized in that the fixed plate (10) corresponding sliding block (22) are equipped with sliding rail (23), and sliding rail (23) is equipped with several fixation holes (24).

6. a kind of Pipeline joint anticorrosion layer non-destructive testing device according to claim 1, which is characterized in that the fixed frame (14), support rod (15), spring (16) and clamping plate (17) are symmetrically arranged with four, and clamping plate (17) is set as arc, and clamping plate (17) It is bonded pipeline (1) outer wall.