CN215338133U

CN215338133U - Universal pipeline inspection device

Info

Publication number: CN215338133U
Application number: CN202121614954.3U
Authority: CN
Inventors: 江巍
Original assignee: Shanghai Sany Heavy Machinery Co Ltd
Current assignee: Shanghai Sany Heavy Machinery Co Ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2021-12-28
Anticipated expiration: 2031-07-15

Abstract

The utility model relates to the technical field of detection tools, in particular to a universal pipeline detection tool. The utensil is examined to generalized pipeline includes: the X-axis guide rail is provided with scales along the X-axis direction and is suitable for measuring the X coordinate of the preset point of the pipeline; the Y-axis guide rail is vertical to the X-axis guide rail, is suitable for sliding along the X-axis guide rail, is provided with scales along the Y-axis direction, and is suitable for measuring the Y coordinate of the preset point of the pipeline; z axle pole setting assembly, with Y axle guide rail sliding connection, Z axle pole setting assembly includes: the upright stanchion is arranged along the Z-axis direction; the top end of the vertical rod along the Z-axis direction is provided with a clamping jaw suitable for clamping a pipeline, the clamping jaw rotates around the Z-axis, and the vertical rod is suitable for measuring an included angle A between the projection of a straight line section of the pipeline on an XY plane and an X axis. The utility model provides a universal pipeline inspection device capable of directly detecting an angle between a straight line section where any point on a pipeline is located and a space coordinate system.

Description

Universal pipeline inspection device

Technical Field

The utility model relates to the technical field of detection tools, in particular to a universal pipeline detection tool.

Background

Engineering machinery and automobile power systems all have a lot of shaping pipelines, including nylon pipe and rubber tube etc. if the shape of pipeline is not right, then probably take place to interfere, long-term use can wear and tear the pipeline, causes safety problems such as oil leak, consequently to the qualified detection of pipeline shape especially important. For the forming pipeline of volume production, most suppliers have a one-to-one special check tool to control the shape requirement of the pipeline, but in the product development stage, the pipeline trend is often changed, and the corresponding check tool is not provided at the moment. In the prior art, a detection tool for detecting the spatial shape of a pipeline can only detect the spatial coordinate of the pipeline, and cannot directly detect the angle between a straight line segment where any point on the pipeline is located and a spatial coordinate system, so that whether the pipeline shape is qualified or not cannot be quickly detected.

SUMMERY OF THE UTILITY MODEL

Therefore, the technical problem to be solved by the present invention is to overcome the defect that the angle between the linear segment where any point on the pipeline is located and the spatial coordinate system cannot be directly detected in the prior art, so as to provide a universal pipeline inspection device capable of directly detecting the angle between the linear segment where any point on the pipeline is located and the spatial coordinate system.

In order to solve the technical problem, the utility model provides a universal pipeline inspection device, which comprises:

the X-axis guide rail is provided with scales along the X-axis direction and is suitable for measuring the X coordinate of the preset point of the pipeline;

the Y-axis guide rail is perpendicular to the X-axis guide rail, is suitable for sliding along the X-axis guide rail, is provided with scales along the Y-axis direction, and is suitable for measuring the Y coordinate of the preset point of the pipeline;

z axle pole setting assembly, with Y axle guide rail sliding connection, Z axle pole setting assembly includes: the upright stanchion is arranged along the Z-axis direction;

the top end of the vertical rod in the Z-axis direction is provided with a clamping jaw suitable for clamping a pipeline, the clamping jaw rotates around the Z axis and is suitable for measuring an included angle A between the projection of a straight line section of the pipeline on an XY plane and an X axis.

Optionally, the vertical rod is a telescopic rod suitable for stretching along the Z-axis direction, and scales are arranged on the telescopic rod and suitable for measuring a Z coordinate of the pipeline preset point.

Optionally, the clamping jaw with pole setting fixed connection, the pole setting is suitable for around Z axle rotation and drive the clamping jaw rotates.

Optionally, the Z-axis vertical rod assembly further includes:

the first angle disc is fixedly arranged around the outer peripheral side of the vertical rod and provided with angle scales;

the first pointer is fixedly connected with the vertical rod and is suitable for rotating along with the vertical rod and moving relative to the first angle disc, and the size of an included angle A between the projection of the straight line section of the pipeline on the XY plane and the X axis is measured.

Optionally, the Z-axis vertical rod assembly further includes: the rotating block is rotatably connected with the clamping jaw and is suitable for supporting the straight line section of the pipeline, the rotating block is provided with a rotating shaft perpendicular to the Z-axis direction, and the rotating block is suitable for rotating around the rotating shaft and measuring an included angle B between the axis of the straight line section of the pipeline and an XY plane.

Optionally, the Z-axis vertical rod assembly further includes:

the second angle scale surrounds the rotating shaft, is fixedly connected with the clamping jaw and is provided with angle scales;

and the second pointer is fixedly connected with the rotating shaft, is suitable for rotating along with the rotating shaft and moves relative to the second angle scale, and measures the size of an included angle B between the axis of the straight line section of the pipeline and the XY plane.

Optionally, the generalized pipeline testing fixture further includes:

the first sliding block is fixedly connected with the Y-axis guide rail and is suitable for sliding along the X-axis guide rail;

and the second sliding block is fixedly arranged at the bottom of the Z-axis upright rod assembly and is suitable for sliding along the Y-axis guide rail.

Optionally, the number of the Y-axis guide rails is at least two; and each Y-axis guide rail is provided with at least one Z-axis upright rod assembly.

Optionally, the turning block is adapted to be replaced according to the diameter of the pipeline.

Optionally, the generalized pipeline testing fixture further includes: and the platform is suitable for supporting the X-axis guide rail, the Y-axis guide rail and the Z-axis upright rod assembly.

The technical scheme of the utility model has the following advantages:

1. the universal pipeline checking fixture provided by the utility model is provided with the X-axis guide rail and the Y-axis guide rail which are respectively provided with scales, so that the X coordinate and the Y coordinate of a preset point of a pipeline can be measured; the pipeline clamping device is characterized in that a vertical rod of a Z-axis vertical rod assembly is arranged, and a clamping jaw suitable for clamping a pipeline is arranged at the top end of the vertical rod along the Z-axis direction, so that the pipeline is clamped; through setting up the clamping jaw rotates around the Z axle, realize the angular direction of clamping jaw suits with the trend of the straightway of pipeline to the realization measures the straight way of pipeline at the projection of XY plane and the contained angle A of X axle.

2. The universal pipeline inspection device provided by the utility model has the advantages that the upright rod is the telescopic rod suitable for being telescopic along the Z-axis direction, and the telescopic rod is provided with scales, so that the length of the upright rod can be adjusted through telescopic action, and the Z coordinate of the preset point of the pipeline can be measured.

3. The universal pipeline detection tool provided by the utility model has the advantages that the first angle disc and the first pointer fixedly connected with the vertical rod are fixedly arranged around the outer peripheral side of the vertical rod, so that when the vertical rod rotates around the Z axis, the first pointer rotates along with the vertical rod and moves relative to the first angle disc, and the first pointer points out the rotation angle on the first angle disc, so that the size of an included angle A between the projection of a straight line section of the pipeline on an XY plane and the X axis is measured.

4. The universal pipeline inspection device provided by the utility model is characterized in that the rotating block is rotatably connected with the clamping jaw, the rotating block can rotate around a rotating shaft vertical to the Z-axis direction, and when the linear section of the pipeline is not parallel to the XY plane, the rotating block rotates to a corresponding angle to be adapted to the linear section of the pipeline, so that the included angle B between the axis of the linear section of the pipeline and the XY plane is measured.

5. According to the universal pipeline detection tool provided by the utility model, the second angle scale and the second pointer fixedly connected with the rotating shaft are arranged around the rotating shaft, so that when the rotating block rotates around the rotating shaft, the second pointer rotates along with the rotating shaft and moves relative to the second angle scale, and the second pointer points out the rotating angle on the second angle scale, so that the measurement of the included angle B between the axis of the straight line section of the pipeline and the XY plane is realized.

6. The universal pipeline checking fixture provided by the utility model is suitable for being replaced according to different diameters of pipelines by arranging the rotating block, so that pipelines with different diameters can be detected by the pipeline checking fixture, the rotating block is convenient to replace, and the pipeline checking fixture is high in universality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of a generalized pipeline inspection tool of the present invention;

FIG. 2 is a schematic diagram of an included angle A between the projection of the straight line segment of the pipeline on the XY plane and the X axis and an included angle B between the straight line segment of the pipeline and the XY plane according to the present invention;

FIG. 3 is a schematic view of the construction of the Z-axis vertical rod assembly of the present invention.

Description of reference numerals:

1. an X-axis guide rail; 2. a Y-axis guide rail; 21. a first slider; 3. a Z-axis vertical rod assembly; 31. erecting a rod; 311. a first pointer; 32. rotating the block; 321. a rotating shaft; 322. a second pointer; 33. a clamping jaw; 34. a second slider; 35. a first angle dial; 36. a second angle scale; 10. a platform.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "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, but do not indicate or imply that the device or element being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Referring to fig. 1 to fig. 3, the generalized pipeline testing fixture provided in this embodiment includes:

the X-axis guide rail 1 is provided with scales along the X-axis direction and is suitable for measuring the X coordinate of a preset point of the pipeline;

the Y-axis guide rail 2 is perpendicular to the X-axis guide rail 1, is suitable for sliding along the X-axis guide rail 1, is provided with scales along the Y-axis direction, and is suitable for measuring the Y coordinate of the preset point of the pipeline;

z axle pole setting assembly 3, with Y axle guide rail 2 sliding connection, Z axle pole setting assembly 3 includes: a vertical rod 31 arranged along the Z-axis direction;

the top end of the vertical rod 31 in the Z-axis direction is provided with a clamping jaw 33 suitable for clamping a pipeline, the clamping jaw 33 rotates around the Z axis and is suitable for measuring an included angle A between the projection of a straight line section of the pipeline on an XY plane and an X axis.

The pipeline is divided into a plurality of sections, including straight sections and/or non-straight sections; the pipeline preset point refers to any point on a specified pipeline.

Preferably, the number of the X-axis guide rails 1 is two, and the X-axis guide rails are suitable for providing support and guidance for the Y-axis guide rails 2.

Preferably, the clamping jaw 33 clamps the straight line section of the pipeline, the clamping jaw 33 rotates by a proper angle around the Z axis to adapt to the trend of the straight line section of the pipeline, and an included angle A between the projection of the straight line section of the pipeline on the XY plane and the X axis is measured according to the rotating angle of the clamping jaw 33.

The universal pipeline inspection device provided by the embodiment is provided with the X-axis guide rail 1 and the Y-axis guide rail 2, and scales are respectively arranged, so that the X coordinate and the Y coordinate of a preset point of a pipeline can be measured; the pipeline clamping is realized by arranging the vertical rod 31 of the Z-axis vertical rod assembly 3 and arranging the clamping jaw 33 suitable for clamping the pipeline at the top end of the vertical rod along the Z-axis direction; the clamping jaw 33 is arranged to rotate around the Z axis, so that the angle direction of the clamping jaw 33 is matched with the trend of the straight line section of the pipeline, and the included angle A between the projection of the straight line section of the pipeline on the XY plane and the X axis is measured.

Specifically, the upright rod 31 is a telescopic rod suitable for extending along the Z-axis direction, and scales are arranged on the telescopic rod and suitable for measuring the Z coordinate of the pipeline preset point.

Preferably, when the line segments of the pipeline are not located on the same XY plane, the vertical rod 31 extends and retracts along the Z-axis direction to adjust the length thereof, so that the clamping jaw clamps the pipeline, and the Z coordinate of the preset point of the pipeline is measured through the scale on the telescopic rod.

In the generalized pipeline inspection device provided by this embodiment, the upright rod 31 is a telescopic rod adapted to extend and retract along the Z-axis direction, and scales are provided on the telescopic rod, so that the upright rod 31 can adjust the length thereof by extending and retracting, and the measurement of the Z coordinate of the preset point of the pipeline is realized.

Specifically, the clamping jaw 33 is fixedly connected with the vertical rod 31, and the vertical rod 31 is suitable for rotating around the Z axis and driving the clamping jaw 33 to rotate.

In one implementation form, the vertical rod 31 is fixedly arranged, and the clamping jaw 33 can rotate around the axis of the vertical rod 31, so as to measure the included angle a between the projection of the straight line section of the pipeline on the XY plane and the X axis. In other implementation forms, the clamping jaw 33 and the upright rod 31 are integrally formed or fixedly connected, the upright rod 31 is suitable for rotating around the axis of the upright rod to drive the clamping jaw 33 to rotate, and the purpose of measuring the included angle a between the projection of the straight line section of the pipeline on the XY plane and the X axis can be achieved; the axis of the upright rod 31 is the axis of the Z-axis.

Specifically, the Z-axis vertical rod assembly 3 further includes:

the first angle disc 35 is fixedly arranged around the outer periphery of the upright rod 31 and is provided with angle scales;

the first pointer 311 is fixedly connected with the vertical rod 31, and the first pointer 311 is suitable for rotating along with the vertical rod 31 and moving relative to the first angle disc 35 to measure the size of an included angle a between the projection of the preset point of the pipeline on the XY plane and the X axis.

Preferably, the first angle dial 35 is provided at the bottom of the upright 31, and the upright 31 is rotatable with respect to the first angle dial 35. Furthermore, the first angle disc 35 may be fixedly connected to a second sliding block 34, and the upright 31 may be rotatable relative to the second sliding block 34.

According to the universal pipeline inspection device provided by the embodiment, the first angle disc 35 and the first pointer 311 fixedly connected with the vertical rod 31 are fixedly arranged around the outer peripheral side of the vertical rod 31, so that when the vertical rod 31 rotates around the Z axis, the first pointer 311 rotates along with the vertical rod 31 and moves relative to the first angle disc 35, the first pointer 311 indicates the size of the rotation angle on the first angle disc 35, and the size of the included angle A between the projection of the straight line segment of the pipeline on the XY plane and the X axis is measured.

Specifically, the Z-axis vertical rod assembly 3 further includes: the rotating block 32 is rotatably connected with the clamping jaw 33 and is suitable for supporting the straight line section of the pipeline, a rotating shaft 321 perpendicular to the Z-axis direction is arranged on the rotating block 32, and the rotating block 32 is suitable for rotating around the rotating shaft 321 and measuring an included angle B between the axis of the straight line section of the pipeline and an XY plane.

Preferably, the rotating block 32 is provided with a contact surface matched with the shape of the pipeline, and when the straight line section of the pipeline is not parallel to the XY plane, the rotating block 32 rotates along the rotating shaft 321, so that the contact surface of the rotating block 32 is attached to the shape of the pipeline, and the included angle B between the axis of the straight line section of the pipeline and the XY plane is determined according to the rotating angle of the rotating block 32 around the rotating shaft 321.

Preferably, the clamping jaw 33 is configured as a U-shaped structure, the rotating block 32 is disposed in the clamping jaw 33, and two side walls of the clamping jaw 33 are adapted to support the rotating shaft 321 of the rotating block 32.

Preferably, the turning block 32 is likewise of U-shaped design.

Preferably, the connection mode of the rotating block 32 and the clamping jaw 33 is bolt connection.

The generalized pipeline inspection device provided by this embodiment is rotationally connected with the clamping jaw 33 through the rotating block 32, the rotating block 32 can rotate around the rotating shaft 321 perpendicular to the Z-axis direction, and when the straight line segment of the pipeline is not parallel to the XY plane, the rotating block 32 rotates to a corresponding angle to be adapted to the straight line segment of the pipeline, so as to measure the included angle B between the axis of the straight line segment of the pipeline and the XY plane.

Specifically, the Z-axis vertical rod assembly 3 further includes:

a second angle scale 36 surrounding the rotation shaft 321 and fixedly connected to the clamping jaw 33, and having angle scales;

and the second pointer 322 is fixedly connected with the rotating shaft 321, and the second pointer 322 is suitable for rotating along the rotating shaft 321 and moving relative to the second angle scale 36, and measures the size of an included angle B between the axis of the straight line segment of the pipeline and the XY plane.

Preferably, when the clamping jaw 33 is configured in a U-shaped structure, the second angle plate 36 is fixedly arranged on the outer side wall of the clamping jaw 33.

In the generalized pipeline testing fixture provided by this embodiment, by arranging the second angle scale 36 around the rotation axis 321 and the second pointer 322 fixedly connected to the rotation axis 321, when the rotation block 32 rotates around the rotation axis 321, the second pointer 322 rotates along with the rotation axis 321 and moves relative to the second angle scale 36, and the second pointer 322 points out the size of the rotation angle on the second angle scale 36, so as to measure the size of the included angle B between the axis of the straight line segment of the pipeline and the XY plane

Specifically, the generalized pipeline testing fixture further comprises:

the first sliding block 21 is fixedly connected with the Y-axis guide rail 2 and is suitable for sliding along the X-axis guide rail 1;

and the second sliding block 34 is fixedly arranged at the bottom of the Z-axis vertical rod assembly 3 and is suitable for sliding along the Y-axis guide rail 2.

The first sliding block 21 is suitable for driving the Y-axis guide rail 2 to slide to the preset point of the pipeline along the X-axis guide rail 1, so as to determine the X coordinate of the preset point of the pipeline; the second sliding block 34 is adapted to drive the Z-axis vertical rod assembly 3 to slide along the Y-axis guide rail 2 to the preset point of the pipeline, so as to determine the Y coordinate of the preset point of the pipeline.

Specifically, the number of the Y-axis guide rails 2 is at least two; and each Y-axis guide rail 2 is provided with at least one Z-axis vertical rod assembly 3.

Preferably, the number of the Y-axis guide rails 2 is multiple, preferably 3, and at least one Z-axis vertical rod assembly 3 is correspondingly arranged on each Y-axis guide rail 2, and at least 3Z-axis vertical rod assemblies 3 are respectively used for measuring the Z coordinate, the angle a and the angle B of any point on 3 straight-line segments of the pipeline.

In particular, the turning block 32 is adapted to be replaced according to the diameter of the pipeline.

The generalized pipeline inspection device provided by the embodiment is suitable for replacement according to different diameters of pipelines by arranging the rotating block 32, so that pipelines with different diameters can be detected by the pipeline inspection device, the rotating block 32 is convenient to replace, and the universality is high.

Specifically, the generalized pipeline testing fixture further comprises: and the platform 10 is suitable for supporting the X-axis guide rail 1, the Y-axis guide rail 2 and the Z-axis upright rod assembly 3.

Most of molding pipeline suppliers for mass production have a one-to-one special check tool to control the shape requirement of the pipeline, but in the product development stage, the pipeline trend is often changed, and the check tool is not provided, so that the detection of the sample pipeline is difficult, and in order to solve the above difficulty, the working principle of the generalized pipeline check tool of the embodiment is described in detail as follows:

firstly, introducing a model of a pipeline into 3D software, placing the pipeline at a reasonable position on a platform model, extracting any point of 3 straight-line segments of the pipeline, namely a preset point, from the 3D software, wherein X, Y, Z coordinates of the preset point, an angle B between the straight-line segment and an XY plane and an angle A between the projection of the straight-line segment on the XY plane and an X axis can be obtained from the 3D software; then, according to X, Y, Z coordinate values, angle A and angle B values obtained by the 3D software, the positions of the first sliding block 21 and the second sliding block 34, the length of the upright rod 31, the angle of the clamping jaw 33 and the rotating angle of the rotating block 32 of the pipeline checking fixture are adjusted, so that the X, Y, Z coordinate value, the angle A value and the angle B value of the pipeline checking fixture are the same as the values extracted by the 3D software, and the setting of the pipeline checking fixture is completed; finally, with the preset point as the basis, place the pipeline on the pipeline that has set up examines the utensil, if the pipeline can be put into just, then state the pipeline qualified, if the pipeline can not examine utensil with the pipeline and laminate completely, then state the pipeline unqualified.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the utility model.

Claims

1. The utility model provides a utensil is examined to pipeline of universalization which characterized in that includes:

the X-axis guide rail (1) is provided with scales along the X-axis direction and is suitable for measuring the X coordinate of a preset point of the pipeline;

the Y-axis guide rail (2) is perpendicular to the X-axis guide rail (1), is suitable for sliding along the X-axis guide rail (1), is provided with scales along the Y-axis direction, and is suitable for measuring the Y coordinate of the preset point of the pipeline;

z axle pole setting assembly (3), with Y axle guide rail (2) sliding connection, Z axle pole setting assembly (3) include: a vertical rod (31) arranged along the Z-axis direction;

the top end of the vertical rod (31) in the Z-axis direction is provided with a clamping jaw (33) suitable for clamping a pipeline, the clamping jaw (33) rotates around the Z axis and is suitable for measuring an included angle A between the projection of a straight line section of the pipeline on an XY plane and an X axis.

2. The universal pipeline inspection device according to claim 1, wherein the upright rod (31) is a telescopic rod adapted to extend and retract along the Z-axis direction, and the telescopic rod is provided with scales adapted to measure the Z-coordinate of the preset point of the pipeline.

3. The universal pipeline inspection device according to claim 1, wherein the clamping jaw (33) is fixedly connected with the upright (31), and the upright (31) is adapted to rotate around the Z axis and drive the clamping jaw (33) to rotate.

4. The universal pipeline inspection fixture according to claim 3, wherein the Z-axis vertical rod assembly (3) further comprises:

the first angle disc (35) is fixedly arranged around the outer periphery of the upright rod (31) and is provided with angle scales;

the first pointer (311) is fixedly connected with the vertical rod (31), the first pointer (311) is suitable for rotating along with the vertical rod (31) and moving relative to the first angle disc (35), and the size of an included angle A between the projection of the straight line section of the pipeline on the XY plane and the X axis is measured.

5. The universal pipeline inspection fixture according to claim 1, wherein the Z-axis vertical rod assembly (3) further comprises: the rotating block (32) is rotatably connected with the clamping jaw (33) and is suitable for supporting the straight line section of the pipeline, a rotating shaft (321) perpendicular to the Z-axis direction is arranged on the rotating block (32), and the rotating block (32) is suitable for rotating around the rotating shaft (321) and measuring the included angle B between the axis of the straight line section of the pipeline and the XY plane.

6. The universal pipeline inspection fixture according to claim 5, wherein the Z-axis vertical rod assembly (3) further comprises:

the second angle scale (36) surrounds the rotating shaft (321), is fixedly connected with the clamping jaw (33), and is provided with angle scales;

and the second pointer (322) is fixedly connected with the rotating shaft (321), the second pointer (322) is suitable for rotating along with the rotating shaft (321) and moving relative to the second angle scale (36), and the size of an included angle B between the axis of the straight line section of the pipeline and the XY plane is measured.

7. The universal pipeline gauge according to any one of claims 1-6, further comprising:

the first sliding block (21) is fixedly connected with the Y-axis guide rail (2) and is suitable for sliding along the X-axis guide rail (1);

and the second sliding block (34) is fixedly arranged at the bottom of the Z-axis vertical rod assembly (3) and is suitable for sliding along the Y-axis guide rail (2).

8. The universal pipeline gauge according to any one of claims 1 to 6, wherein the number of the Y-axis guide rails (2) is at least two; and each Y-axis guide rail (2) is provided with at least one Z-axis upright rod assembly (3).

9. The universal tubing gauge of any of claims 5-6, wherein the rotary block (32) is adapted to be replaced according to a diameter of the tubing.

10. The universal pipeline gauge according to any one of claims 1-6, further comprising: the platform (10) is suitable for supporting the X-axis guide rail (1), the Y-axis guide rail (2) and the Z-axis upright rod assembly (3).