CN213779738U

CN213779738U - Pressure pipeline pressure-bearing detection device capable of monitoring deformation

Info

Publication number: CN213779738U
Application number: CN202022758902.5U
Authority: CN
Inventors: 徐晶林; 奚梦靖
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-25
Filing date: 2020-11-25
Publication date: 2021-07-23
Anticipated expiration: 2030-11-25

Abstract

The utility model discloses a pipeline under pressure bearing detection device that can monitor deformation, including base, interim support frame, pipeline main part and first fixing base, the last surface mosaic of base has interim support frame, and the top of interim support frame is provided with pipeline main part to pipeline main part's right side is provided with first fixing base, first fixing base bolt fastening is at the upper surface of base, and the inside of first fixing base runs through there is the gas tube, and the left side of first fixing base is provided with the sliding seat. This can carry out pressure pipeline pressure-bearing detection device who monitors deformation is provided with pick-up plate and measuring column, and the position of pick-up plate is adjusted to the two-way threaded rod of accessible, makes its and pipeline main body's surface laminating, will promote the pick-up plate to remove when follow-up pipeline main body takes place deformation, can detect its deformation volume through the measurement to measuring column position change, improves the accuracy that detects, increases the functionality of device.

Description

Pressure pipeline pressure-bearing detection device capable of monitoring deformation

Technical Field

The utility model relates to a special equipment inspection technical field specifically is a pipeline under pressure detection device that can monitor deformation.

Background

The special equipment is a general name of equipment with high life safety and danger, such as a boiler, an elevator, a pressure pipeline, a cableway and the like are common, before the pressure pipeline is installed and used, the pressure bearing capacity of the pipeline needs to be detected so as to ensure that the pipeline can bear normal working pressure, but the existing pressure pipeline pressure bearing detection device has some defects when in use:

1. the existing pressure pipeline pressure-bearing detection device does not have the function of monitoring the deformation quantity of the pipeline when detecting the pipeline, and generally, the appearance of the pipeline is observed manually, so that the judgment error of the device on the deformation quantity of the pipeline is large, the subsequent evaluation on the comprehensive performance of the pipeline is inconvenient, and the functionality of the device is reduced;

2. the existing pressure pipeline pressure-bearing detection device is complex to operate when the pipeline is fixedly installed, the pipeline which cannot be detected quickly is fixedly installed, meanwhile, the pipeline is inconvenient to take, and the use convenience and the work efficiency of the device are reduced.

Aiming at the problems, innovative design is urgently needed on the basis of the original pressure pipeline bearing detection device.

Disclosure of Invention

An object of the utility model is to provide a can carry out pipeline under pressure detection device who monitors deformation, current pipeline under pressure detection device does not possess the function to the deformation volume monitoring of pipeline when detecting the pipeline on the existing market that the above-mentioned background art provided to solve, generally observe the pipeline appearance through the manual work, it is great to the misjudgment of pipeline deformation volume to lead to the device, and current pipeline under pressure detection device operates comparatively complicatedly when installing fixedly to the pipeline, the pipeline that will wait to detect that can not be quick installs fixed problem.

In order to achieve the above object, the utility model provides a following technical scheme: a pressure pipeline bearing detection device capable of monitoring deformation comprises a base, a temporary support frame, a pipeline main body and a first fixing seat, wherein the temporary support frame is inlaid on the upper surface of the base, the pipeline main body is arranged above the temporary support frame, the right side of the pipeline main body is provided with the first fixing seat, the first fixing seat is fixed on the upper surface of the base through a bolt, an inflation tube penetrates through the first fixing seat, the left side of the first fixing seat is provided with a movable seat, the inner side surface of the movable seat and the inner side surface of the first fixing seat are both inlaid with sealing gaskets, the left side surface of the movable seat is connected with an adjusting rod, the left side of the adjusting rod penetrates through a second fixing seat, mounting shells are arranged on the front side and the rear side of the pipeline main body, a bidirectional threaded rod is arranged below the mounting shells, and the bidirectional threaded rod is mounted in the base, the inboard of installation shell is provided with the pick-up plate, and the outer end of pick-up plate inlays and has the connecting block to the outer end of connecting block is inlayed and is had the fly leaf, the fly leaf sets up the inside at the installation shell, and the outside of fly leaf is provided with infrared distance measuring sensor.

Preferably, the lower extreme of sliding seat is inlayed and is had the guide block, and the side view cross-section of guide block is "T" shape structural design to constitute the side-to-side sliding structure between guide block and the base.

Preferably, the left end of the adjusting rod is inlaid with a rotating handle, the adjusting rod is in threaded connection with the second fixed seat, and the adjusting rod is in bearing connection with the movable seat.

Preferably, the lower surface of the mounting shell is inlaid with a connecting plate, the mounting shell is symmetrically arranged in front and back directions relative to the central line of the pipeline main body, and the connecting plate is in threaded connection with the bidirectional threaded rod.

Preferably, the side-view cross section of the detection plate is in an arc-shaped structural design, an integrated structural design is formed between the detection plate and the connecting block, and a front-back sliding structure is formed between the connecting block and the mounting shell.

Preferably, the outer side surface of the movable plate is inlaid with a measuring column, a return spring is arranged on the outer side surface of the movable plate, the horizontal center line of the measuring column and the horizontal center line of the infrared distance measuring sensor are overlapped, and meanwhile a front-back sliding structure is formed between the movable plate and the mounting shell.

Compared with the prior art, the beneficial effects of the utility model are that: the pressure pipeline bearing detection device capable of monitoring deformation;

(1) the detection plate and the measuring column are arranged, the position of the detection plate can be adjusted through the bidirectional threaded rod to be attached to the outer surface of the pipeline main body, the detection plate is pushed to move when the subsequent pipeline main body deforms, the deformation quantity of the measuring column can be detected through measuring the position change of the measuring column, the detection accuracy is improved, and the functionality of the device is improved;

(2) be provided with the sliding seat and adjust the pole, the accessible is changeed and is rotated the rotation regulation pole, promotes the sliding seat through adjusting the pole and removes, cooperates first fixing base to carry out the centre gripping with pipeline main part, seals the both ends of pipeline main part, convenient subsequent detection, convenient operation improves the work efficiency and the use convenience of device.

Drawings

FIG. 1 is a schematic view of the main sectional structure of the present invention;

FIG. 2 is a schematic view of the structure of the present invention;

FIG. 3 is a schematic side sectional view of the movable seat of the present invention;

FIG. 4 is a schematic view of the installation shell of the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 4 according to the present invention;

fig. 6 is a schematic view of the side-cut structure of the installation shell of the present invention.

In the figure: 1. a base; 2. a temporary support frame; 3. a pipe body; 4. a first fixed seat; 5. an inflation tube; 6. a gasket; 7. a movable seat; 701. a guide block; 8. a second fixed seat; 9. adjusting a rod; 901. turning a handle; 10. mounting a shell; 1001. a connecting plate; 11. a bidirectional threaded rod; 12. detecting a plate; 13. connecting blocks; 14. a movable plate; 1401. a measuring column; 1402. a return spring; 15. an infrared distance measuring sensor.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a pressure pipeline bearing detection device capable of monitoring deformation comprises a base 1, a temporary support frame 2, a pipeline main body 3, a first fixed seat 4, an inflation tube 5, a sealing gasket 6, a movable seat 7, a second fixed seat 8, an adjusting rod 9, a mounting shell 10, a bidirectional threaded rod 11, a detection plate 12, a connecting block 13, a movable plate 14 and an infrared distance measuring sensor 15, wherein the temporary support frame 2 is embedded on the upper surface of the base 1, the pipeline main body 3 is arranged above the temporary support frame 2, the first fixed seat 4 is arranged on the right side of the pipeline main body 3, the first fixed seat 4 is fixed on the upper surface of the base 1 through bolts, the inflation tube 5 penetrates through the first fixed seat 4, the movable seat 7 is arranged on the left side of the first fixed seat 4, the sealing gasket 6 is embedded on the inner side surface of the movable seat 7 and the inner side surface of the first fixed seat 4, and the adjusting rod 9 is connected on the left side surface of the movable seat 7, a second fixed seat 8 penetrates through the left side of the adjusting rod 9, mounting shells 10 are arranged on the front side and the rear side of the pipeline main body 3, a bidirectional threaded rod 11 is arranged below the mounting shells 10, the bidirectional threaded rod 11 is mounted inside the base 1, a detection plate 12 is arranged on the inner side of the mounting shells 10, a connecting block 13 is embedded in the outer end of the detection plate 12, a movable plate 14 is embedded in the outer end of the connecting block 13, the movable plate 14 is arranged inside the mounting shell 10, and an infrared distance measuring sensor 15 is arranged on the outer side of the movable plate 14;

the lower end of the movable seat 7 is inlaid with a guide block 701, the side-view section of the guide block 701 is designed into a T-shaped structure, a left-right sliding structure is formed between the guide block 701 and the base 1, and the guide block 701 can guide the movable seat 7 through the structural design, so that the movable seat can stably move subsequently;

the left end of the adjusting rod 9 is embedded with a rotating handle 901, the adjusting rod 9 is in threaded connection with the second fixed seat 8, the adjusting rod 9 is in bearing connection with the movable seat 7, and the structural design can push the movable seat 7 to move through the rotation of the subsequent adjusting rod 9 so as to seal the end part of the pipeline main body 3;

the lower surface of the mounting shell 10 is inlaid with a connecting plate 1001, the mounting shell 10 is symmetrically arranged in front and back directions about the central line of the pipeline main body 3, the connecting plate 1001 and the bidirectional threaded rod 11 form threaded connection, and the structural design can control the position of the connecting plate 1001 through the subsequent rotation of the bidirectional threaded rod 11, so that the position of the mounting shell 10 can be adjusted;

the side-view cross section of the detection plate 12 is in an arc-shaped structural design, an integrated structural design is formed between the detection plate 12 and the connecting block 13, a front-back sliding structure is formed between the connecting block 13 and the mounting shell 10, the structural design enables the detection plate 12 to be attached to the surface of the pipeline main body 3 subsequently, and the deformation of the pipeline main body 3 can be reflected through the moving distance of the detection plate 12;

the outer side surface of the movable plate 14 is embedded with a measuring column 1401, the outer side surface of the movable plate 14 is provided with a return spring 1402, the horizontal center line of the measuring column 1401 is overlapped with the horizontal center line of the infrared distance measuring sensor 15, and a front-back sliding structure is formed between the movable plate 14 and the mounting shell 10, and the structural design can monitor the position change of the measuring column 1401 through the infrared distance measuring sensor 15, so that the deformation quantity of the pipeline main body 3 can be indirectly measured.

The working principle is as follows: when the pressure pipeline pressure-bearing detection device capable of monitoring deformation is used, firstly, as shown in fig. 1 and fig. 2, a pipeline main body 3 to be detected can be placed above a temporary support frame 2, the right end of the pipeline main body is attached to a sealing gasket 6 on the surface of a first fixed seat 4, then an adjusting rod 9 can be rotated through a rotating handle 901, and as shown in fig. 3, the adjusting rod 9 pushes a movable seat 7 to move through threaded connection between the adjusting rod 9 and a second fixed seat 8 and bearing connection between the movable seat 7 and moves, and slides in the base 1 through a guide block 701, so that the movable seat 7 moves towards the left end of the pipeline main body 3, the sealing gasket 6 on the surface of the movable seat 7 is attached to the left end of the pipeline main body 3, the pipeline main body 3 is clamped and fixed, and the two ends of the pipeline main body 3 are kept in a sealing state;

referring to fig. 4 and 6, the bidirectional threaded rod 11 may be rotated to drive the mounting shell 10 to move through the connecting plate 1001, so that the detection plate 12 is attached to the outer surface of the pipeline main body 3, and then the pipeline main body 3 may be inflated through the inflation tube 5 to make the inside enter a pressure-bearing state, referring to fig. 5, when the pipeline main body 3 deforms, the detection plate 12 may be driven to move, the detection plate 12 may push the movable plate 14 to move through the connecting block 13, and the measuring column 1401 may move along with the movable plate, the position change of the measuring column 1401 may be monitored through the infrared distance measuring sensor 15, the deformation amount of the pipeline main body 3 may be indirectly obtained through the position change amount of the measuring column 1401, so as to facilitate subsequent evaluation of the comprehensive performance of the pipeline, improve the accuracy of detecting the deformation amount of the pipeline, and increase the functionality of the device.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a can carry out pressure pipeline pressure-bearing detection device that monitors to deformation, includes base (1), interim support frame (2), pipeline main part (3) and first fixing base (4), its characterized in that: the upper surface of the base (1) is inlaid with a temporary support frame (2), a pipeline main body (3) is arranged above the temporary support frame (2), a first fixing seat (4) is arranged on the right side of the pipeline main body (3), the first fixing seat (4) is fixed on the upper surface of the base (1) through bolts, an inflation tube (5) penetrates through the first fixing seat (4), a movable seat (7) is arranged on the left side of the first fixing seat (4), sealing gaskets (6) are inlaid on the inner side surface of the movable seat (7) and the inner side surface of the first fixing seat (4), an adjusting rod (9) is connected to the left side surface of the movable seat (7), a second fixing seat (8) penetrates through the left side of the adjusting rod (9), installation shells (10) are arranged on the front side and the back of the pipeline main body (3), and a bidirectional threaded rod (11) is arranged below the installation shells (10), and two-way threaded rod (11) are installed in base (1), the inboard of installation shell (10) is provided with pick-up plate (12), and the outer end of pick-up plate (12) inlays and has connecting block (13) to the outer end of connecting block (13) is inlayed and is had fly leaf (14), fly leaf (14) set up in the inside of installation shell (10), and the outside of fly leaf (14) is provided with infrared distance measuring sensor (15).

2. The pressure-bearing detection device for the pressure pipeline capable of monitoring the deformation according to claim 1, characterized in that: the lower end of the movable seat (7) is inlaid with a guide block (701), the side-view section of the guide block (701) is in a T-shaped structural design, and a left-right sliding structure is formed between the guide block (701) and the base (1).

3. The pressure-bearing detection device for the pressure pipeline capable of monitoring the deformation according to claim 1, characterized in that: the left end of the adjusting rod (9) is embedded with a rotating handle (901), the adjusting rod (9) is in threaded connection with the second fixed seat (8), and the adjusting rod (9) is in bearing connection with the movable seat (7).

4. The pressure-bearing detection device for the pressure pipeline capable of monitoring the deformation according to claim 1, characterized in that: the lower surface of the mounting shell (10) is inlaid with a connecting plate (1001), the mounting shell (10) is symmetrically arranged around the center line of the pipeline main body (3), and the connecting plate (1001) and the bidirectional threaded rod (11) are in threaded connection.

5. The pressure-bearing detection device for the pressure pipeline capable of monitoring the deformation according to claim 1, characterized in that: the side-view cross section of the detection plate (12) is in an arc-shaped structural design, an integrated structural design is formed between the detection plate (12) and the connecting block (13), and a front-back sliding structure is formed between the connecting block (13) and the mounting shell (10).

6. The pressure-bearing detection device for the pressure pipeline capable of monitoring the deformation according to claim 1, characterized in that: the outer side surface of the movable plate (14) is embedded with a measuring column (1401), the outer side surface of the movable plate (14) is provided with a return spring (1402), the horizontal center line of the measuring column (1401) and the horizontal center line of the infrared distance measuring sensor (15) are overlapped, and meanwhile, a front-back sliding structure is formed between the movable plate (14) and the mounting shell (10).