CN213148250U - Wall body detection device based on architectural design - Google Patents

Abstract

The utility model discloses a wall body detection device based on architectural design, including outer pipeline, manometer, conversion structure, adjustable ring, solid fixed ring, conversion piece, valve, first conversion hole, second conversion hole, pivot, fixation nut, seal structure, gasbag, first gas pocket, spout, second gas pocket and interior pipeline. The utility model has the advantages that: fill in the inside back of wall body hidden pipe in the device, the one end access air pump that is close to in the manometer with outer pipeline, gas gets into a pair of gasbag, after the inside saturation of gasbag, the manometer can be in certain pressure value, a pair of gasbag and pipe inner wall will form certain enclosure space, rotate the adjustable ring, it rotates to drive the conversion piece, it rotates to drive the valve, with the inside intercommunication of outer pipeline and interior pipeline, gas will get into the enclosure space that a pair of gasbag and pipe inner wall formed, the manometer is in a definite value after the space saturation, if the manometer diminishes again after reacing a definite value, show the regional seepage between a pair of gasbag.

Description

Wall body detection device based on architectural design

Technical Field

The utility model relates to a detection device specifically is a wall body detection device based on architectural design belongs to indoor hidden pipe leakage detection technical field.

Background

The development of building design is more and more inclined to be beautiful and practical, some pipelines installed indoors are often designed and installed in walls in order to make the pipelines beautiful, also called concealed pipes, and the detection is not easy to be carried out when the concealed pipes leak, so that a wall concealed pipe leakage detection device is needed.

However, the conventional wall hidden pipe detection device is complex in operation process of road section detection equipment for detecting hidden pipe leakage, slow in operation and not beneficial to quickly detecting the leakage position of the pipeline.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wall body detection device based on architectural design just for solving above-mentioned problem, through stretch into the hidden pipe with this equipment after, insert the air pump, rotate the adjustable ring, observe the manometer just can the indoor hidden pipe's of short-term test seepage highway section.

The utility model realizes the above purpose by the following technical proposal, a wall body detection device based on architectural design, which comprises an outer pipeline and a pressure gauge which is arranged at one end of the outer pipeline and is fixedly connected, one end of the outer pipeline close to the pressure gauge is connected with a conversion structure, the conversion structure comprises an adjusting ring, a fixed ring, a conversion block, an air valve, a first conversion hole and a second conversion hole, one end of the outer pipeline close to the pressure gauge is fixedly connected with the fixed ring, one end of the fixed ring is rotationally connected with the adjusting ring, the adjusting ring is rotationally connected with the outer pipeline, one end of the adjusting ring is fixedly connected with the conversion block, one end of the conversion block is provided with the air valve, one end of the outer pipeline, which is far away from the pressure gauge, is sleeved with an inner pipeline, one end of the inner pipeline is fixedly connected with one end of the outer, one end of the fixing ring is provided with the first switching hole and the second switching hole, one end of the inner pipeline is connected with the second switching hole, and the outer pipeline is connected with the inner pipeline through the first switching hole; the end, deviating from the pressure gauge, of the outer pipeline is connected with a sealing structure, the sealing structure comprises an air bag and a first air hole, one end, deviating from the pressure gauge, of the outer pipeline is fixedly connected with a pair of air bags, a second air hole is formed between the pair of air bags, the second air hole is connected with the inner pipeline in an internal mode, and the interiors of the pair of air bags are connected with the outer pipeline in an internal mode through the first air hole.

Preferably, in order to make outer pipeline with it is more firm to fix between the solid fixed ring, transform structure still includes pivot and fixation nut, gu fixed ring's one end fixedly connected with the pivot, the pivot with the one end fixed connection of outer pipeline, the one end threaded connection of pivot has fixation nut.

Preferably, in order to strengthen the gas tightness, conversion structure still includes the rubber pad, gu fixed ring be close to in the one end fixedly connected with of conversion piece the rubber pad, deviating from of rubber pad gu fixed ring's one end with the adjustable ring is contradicted.

Preferably, in order to facilitate the supporting of the airbag, the sealing structure further includes a sliding ring, one end of each of the pair of airbags close to the second air hole is fixedly connected with the sliding ring, and the pair of sliding rings are slidably connected with the outer pipeline.

Preferably, in order to prevent the pressure from being too high when the air bags are inflated, the sealing structure further comprises springs, and the springs are fixedly connected inside the pair of air bags.

Preferably, in order to facilitate the sliding of one end of the airbag, the sealing structure further comprises a sliding groove, and the sliding grooves are formed in the bottom ends of the pair of airbags.

Preferably, in order to facilitate the rotation of the adjusting ring, the surfaces of the fixing ring and the adjusting ring are wavy, and the diameter of the fixing ring is the same as the diameter of the adjusting ring.

The utility model has the advantages that: after the device is plugged into the concealed pipe, one end of the outer pipeline close to the pressure gauge is connected with an air pump, air enters the first conversion hole to reach between the outer pipeline and the inner pipeline through the air valves on the outer pipeline and the conversion block, because one end of the outer pipeline, which is far away from the pressure gauge, is fixedly connected with a pair of air bags, the interiors of the pair of air bags are connected with the interior of the outer pipeline through the first air holes, the air between the outer pipeline and the inner pipeline respectively enters the pair of air bags through the pair of first air holes, so that the air bags are inflated and expanded, the outer walls of the pair of air bags are in close contact with the interior of the pipeline, after the interior of the air bags is saturated, the pressure gauge is in a certain pressure value, the pair of air bags and the inner wall of the pipeline form a certain closed space, the adjusting ring is rotated to drive the conversion block to rotate, so that the air valves are driven to, with the inside intercommunication of outer pipeline and interior conduit, the inside gas of outer pipeline will get into the interior conduit, again because of being equipped with the second gas pocket between a pair of gasbag, second gas pocket and interior conduit internal connection, so gaseous second gas pocket discharge will be followed, get into the enclosure space that a pair of gasbag and pipeline inner wall formed, the manometer is in a definite value after the space saturation, if the manometer diminishes again after reacing a definite value, show the regional seepage between a pair of gasbag, be favorable to through stretching into the hidden pipe with this equipment after, insert the air pump, rotate the adjustable ring, observe the seepage highway section that the manometer just can the indoor hidden pipe of short-term test.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the seal structure shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

fig. 4 is an enlarged schematic view of a portion B shown in fig. 2.

In the figure: 1. the gas-liquid separator comprises an outer pipeline, 2, a pressure gauge, 3, a conversion structure, 31, an adjusting ring, 32, a fixing ring, 33, a conversion block, 34, a rubber pad, 35, a valve, 36, a first conversion hole, 37, a second conversion hole, 38, a rotating shaft, 39, a fixing nut, 4, a sealing structure, 41, a gas bag, 42, a first gas hole, 43, a sliding ring, 44, a spring, 45, a sliding chute, 5, a second gas hole, 6 and an inner pipeline.

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. 1-4, a wall detection device based on building design includes an outer pipe 1 and a pressure gauge 2 fixedly connected to an end of the outer pipe 1, a conversion structure 3 is connected to an end of the outer pipe 1 close to the pressure gauge 2, the conversion structure 3 includes an adjusting ring 31, a fixing ring 32, a conversion block 33, an air valve 35, a first conversion hole 36 and a second conversion hole 37, the fixing ring 32 is fixedly connected to an end of the outer pipe 1 close to the pressure gauge 2, the adjusting ring 31 is rotatably connected to an end of the fixing ring 32, the adjusting ring 31 is rotatably connected to the outer pipe 1, the conversion block 33 is fixedly connected to an end of the adjusting ring 31, the air valve 35 is disposed at an end of the conversion block 33, an inner pipe 6 is sleeved to an end of the outer pipe 1 away from the pressure gauge 2, one end of the inner pipeline 6 is fixedly connected with one end of the outer pipeline 1, one end of the fixing ring 32 is provided with the first switching hole 36 and the second switching hole 37, one end of the inner pipeline 6 is connected with the second switching hole 37, and the outer pipeline 1 is connected with the inner pipeline 6 through the first switching hole 36; one end of the outer pipeline 1, which is far away from the pressure gauge 2, is connected with a sealing structure 4, the sealing structure 4 comprises an air bag 41 and a first air hole 42, one end of the outer pipeline 1, which is far away from the pressure gauge 2, is fixedly connected with a pair of air bags 41, a second air hole 5 is arranged between the pair of air bags 41, the second air hole 5 is connected with the inner pipeline 6, and the interiors of the pair of air bags 41 are connected with the inner pipeline 1 through the first air hole 42.

As a technical optimization scheme of the utility model, conversion structure 3 still includes pivot 38 and fixation nut 39, the one end fixedly connected with of solid fixed ring 32 pivot 38, pivot 38 with the one end fixed connection of outer pipeline 1, the one end threaded connection of pivot 38 has fixation nut 39.

As a technical optimization scheme of the utility model, conversion structure 3 still includes rubber pad 34, gu fixed ring 32 be close to the one end fixedly connected with of conversion piece 33 rubber pad 34, deviating from of rubber pad 34 gu fixed ring 32's one end with adjustable ring 31 is contradicted.

As a technical optimization scheme of the utility model, seal structure 4 still includes slip ring 43, and is a pair of gasbag 41 be close to in the equal fixedly connected with of one end of second gas pocket 5 slip ring 43, it is a pair of slip ring 43 all with outer pipeline 1 sliding connection.

As a technical optimization scheme of the utility model, seal structure 4 still includes spring 44, and is a pair of the inside equal fixedly connected with of gasbag 41 spring 44.

As a technical optimization scheme of the utility model, seal structure 4 still includes spout 45, and is a pair of the bottom of gasbag 41 all is equipped with spout 45.

As a technical optimization scheme of the utility model, fixed ring 32 with the surface of adjustable ring 31 all is wavy, fixed ring 32's diameter with the diameter of adjustable ring 31 is the same.

When the utility model is used, the device is plugged into the concealed conduit, one end of the outer conduit 1 close to the pressure gauge 2 is connected with the air pump, air enters the first conversion hole 36 through the air valve 35 on the outer conduit 1 and the conversion block 33 and reaches between the outer conduit 1 and the inner conduit 6, because one end of the outer conduit 1 deviating from the pressure gauge 2 is fixedly connected with a pair of air bags 41, the interiors of the pair of air bags 41 are connected with the interior of the outer conduit 1 through the first air hole 42, so that the air between the outer conduit 1 and the inner conduit 6 respectively enters the pair of air bags 41 through the pair of first air holes 42, the air bags 41 are inflated and expanded, the outer walls of the pair of air bags 41 are in close contact with the interior of the conduits, after the interior of the air bags 41 is saturated, the air pump valve is closed, the pressure gauge 2 is at a certain pressure value, a certain closed space is formed by the pair of air, one end of the fixed ring 32 is fixedly connected with a rotating shaft 38, the rotating shaft 38 is fixedly connected with one end of the outer pipeline 1, one end of the rotating shaft 38 is in threaded connection with a fixed nut 39, so that the outer pipeline 1 close to the end of the pressure gauge 2 is more firmly fixed with the fixed ring 32 and is prevented from rotating along with the rotation of the adjusting ring 31, the adjusting ring 31 drives the conversion block 33 to rotate and drives the air valve 35 to rotate, thereby blocking the gas flow between the first conversion hole 36 and the outer pipeline 1, one end of the fixed ring 32 close to the conversion block 33 is fixedly connected with a rubber pad 34, one end of the rubber pad 34 away from the fixed ring 32 is abutted against the adjusting ring 31, so that the air is not easy to leak, when the air valve 35 rotates to the second conversion hole 37, the inner part of the outer pipeline 1 and the inner pipeline 6 are communicated, the gas in the outer pipeline 1 enters the inner pipeline 6, and the second air hole 5, the gas is discharged from the second gas holes 5, and enters a closed space formed by the pair of air bags 41 and the inner wall of the duct, when the space is saturated, the pressure gauge 2 is at a certain value, if the pressure gauge 2 is reduced after reaching the certain value, the leakage of the area between the pair of air bags 41 is shown, the device is beneficial to extending into the hidden pipe, the air pump is connected in, the adjusting ring 31 is rotated, the leakage road section of the indoor hidden pipe can be quickly detected by observing the pressure gauge 2, the air pump is closed, the adjusting ring 31 is rotated to discharge the gas in the air bag 41, the device can be taken out from the hidden pipe, one ends of the pair of air bags 41 close to the second air hole 5 are fixedly connected with a sliding ring 43, the pair of sliding rings 43 are slidably connected with the outer pipeline 1, the springs 44 are fixedly connected inside the pair of air bags 41, the air bag 41 can be in a relaxation state under the action of the spring 44, so that the air bag is more convenient to inflate, and plays a role in buffering when the air bag is inflated excessively.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a wall body detection device based on architectural design, includes outer pipeline (1) and locates outer pipeline (1) one end fixed connection's manometer (2), its characterized in that: one end of the outer pipeline (1) close to the pressure gauge (2) is connected with a conversion structure (3), the conversion structure (3) comprises an adjusting ring (31), a fixing ring (32), a conversion block (33), an air valve (35), a first conversion hole (36) and a second conversion hole (37), one end of the outer pipeline (1) close to the pressure gauge (2) is fixedly connected with the fixing ring (32), one end of the fixing ring (32) is rotatably connected with the adjusting ring (31), the adjusting ring (31) is rotatably connected with the outer pipeline (1), one end of the adjusting ring (31) is fixedly connected with the conversion block (33), one end of the conversion block (33) is provided with the air valve (35), one end of the outer pipeline (1) far away from the pressure gauge (2) is sleeved with an inner pipeline (6), one end of the inner pipeline (6) is fixedly connected with one end of the outer pipeline (1), one end of the fixing ring (32) is provided with the first switching hole (36) and the second switching hole (37), one end of the inner pipeline (6) is connected with the second switching hole (37), and the outer pipeline (1) is connected with the inner pipeline (6) through the first switching hole (36); the one end that deviates from of outer pipeline (1) manometer (2) is connected with seal structure (4), seal structure (4) are including gasbag (41) and first gas pocket (42), the one end fixedly connected with that deviates from of outer pipeline (1) manometer (2) is a pair of gasbag (41), and is a pair of be equipped with second gas pocket (5) between gasbag (41), second gas pocket (5) with interior conduit (6) internal connection, it is a pair of the inside of gasbag (41) all passes through first gas pocket (42) with outer pipeline (1) internal connection.

2. The wall detection device based on building design of claim 1, wherein: conversion structure (3) still include pivot (38) and fixation nut (39), the one end fixedly connected with of solid fixed ring (32) pivot (38), pivot (38) with the one end fixed connection of outer pipeline (1), the one end threaded connection of pivot (38) has fixation nut (39).

3. The wall detection device based on building design of claim 1, wherein: conversion structure (3) still include rubber pad (34), gu being close to of fixed ring (32) the one end fixedly connected with of conversion piece (33) rubber pad (34), deviating from of rubber pad (34) the one end of fixed ring (32) with adjustable ring (31) are contradicted.

4. The wall detection device based on building design of claim 1, wherein: the sealing structure (4) further comprises a sliding ring (43), one end of the pair of air bags (41) close to the second air hole (5) is fixedly connected with the sliding ring (43), and the pair of sliding rings (43) are slidably connected with the outer pipeline (1).

5. The wall detection device based on building design of claim 1, wherein: the sealing structure (4) further comprises a spring (44), and the springs (44) are fixedly connected inside the pair of air bags (41).

6. The wall detection device based on building design of claim 1, wherein: the sealing structure (4) further comprises a sliding groove (45), and the sliding groove (45) is formed in the bottom end of each air bag (41).

7. The wall detection device based on building design of claim 1, wherein: the surface of the fixed ring (32) and the surface of the adjusting ring (31) are both wavy, and the diameter of the fixed ring (32) is the same as that of the adjusting ring (31).

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