CN220437698U - Pipeline leak hunting detects tool - Google Patents

Abstract

The utility model discloses a pipeline leakage detection jig, which belongs to the technical field of automobile pipeline detection and comprises a loading platform I, an inflation device, a pipeline, a detection device and a loading platform II. The problem of among the prior art because the pipeline that the used automobile is different leads to the pipeline detection difficulty is solved. The utility model has the greatest advantages that the utility model can be used for detecting pipelines with different shapes, the original detection device is used for clamping and checking the pipelines in one mould, the complexity of detection is increased, the device directly connects the pipelines with various shapes to the inflation device and the detection device, the inflation device is fixed with the fixing device on the detection device, air is introduced into the inflation device after the fixing, the air pressure of the air flowing through the detection device is detected after the air passes through the pipelines, thereby judging whether the pipelines leak or not, and meanwhile, the detection device and the inflation device can be overturned on the loading platform to meet the detection of pipelines with other shapes.

Description

Pipeline leak hunting detects tool

Technical Field

The utility model relates to the technical field of automobile pipeline detection, in particular to a pipeline leakage detection jig.

Background

In the technical field of automobile pipeline detection, a large number of pipelines are required to be laid in an automobile for water and oil communication, so the pipeline is required to be checked whether leakage occurs or not for the tightness of the pipeline in the automobile, and the pipelines used by the automobile are different in shape, so that the existing device is difficult to detect pipelines in various shapes.

The pipeline detection is crucial to automobile production, and once the pipeline has leakage, the result is not considered, so the utility model adopts a new pipeline detection scheme, and the pipeline detection device is different from the existing detection device in that the pipeline is not placed in the air, is convenient to detect pipelines with various shapes, and solves the problem of difficult detection of pipelines with different shapes.

Disclosure of Invention

Therefore, the utility model provides a pipeline leakage detection jig, which solves the problem of difficult pipeline detection caused by different pipelines used for automobiles in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions:

the utility model discloses a pipeline leakage detection jig, which is connected with a pipeline and comprises a loading platform I, an inflating device, a detection device and a loading platform II, wherein the inflating device is connected above the loading platform I in a transmission way, the rear part of the inflating device is arranged on one side of the pipeline, the detection device is arranged on the other side of the pipeline, the loading platform II is connected below the detection device in a transmission way, and the loading platform II has the same structure as the loading platform I.

Further, loading platform one includes handle, riser, platform, positioning bolt one, arc wall and positioning bolt two, and the platform is installed to handle below spiro union, and two symmetrical risers are installed to platform top spiro union, and open on riser upper portion has the arc wall, and the arc wall slides and sets up positioning bolt two, and positioning bolt two top is provided with positioning bolt one, and positioning bolt one transmission connection is installed on the riser.

Further, the inflation device comprises a clamping groove assembly, a positioning body, a connecting body, a sliding assembly and a clamping assembly, wherein the sliding assembly is installed in front of the positioning body in a screwed mode, the connecting body is installed in front of the sliding assembly in a screwed mode, the clamping assembly is installed in front of the connecting body in a screwed mode, and the clamping groove assembly is installed in front of the connecting body in a screwed mode.

Further, the clamping groove assembly comprises a U-shaped clamping groove, an air inlet and an air inlet valve, the U-shaped clamping groove is arranged in front of the positioning body in a threaded mode, the air inlet valve is arranged in front of the connecting body in a threaded mode, and the air inlet is arranged above the air inlet valve in a threaded mode.

Further, the sliding component comprises a sliding rail and a sliding block, the sliding rail is fixedly connected to the front of the positioning body in a threaded manner, the sliding block is connected to the front of the sliding rail in a sliding manner, and the connecting body is installed in the front of the sliding block in a threaded manner.

Further, the clamping assembly comprises a clamp, a stabilizing body and a connecting block, the stabilizing body is arranged in front of the positioning body in a screwed mode, the clamp is arranged in front of the stabilizing body in a screwed mode, the connecting block is arranged below the clamp in a screwed mode, and the connecting body is arranged behind the connecting block in a screwed mode.

Further, detection device includes chucking device, connecting plate, fly leaf, goes up and down chucking device, slide member and sensor, and the connecting plate is installed to chucking device rear spiro union, and a plurality of sensors are installed to connecting plate rear spiro union, and slide member is installed to connecting plate rear spiro union, and the fly leaf is installed to slide member rear spiro union, and the fly leaf place ahead is equipped with goes up and down chucking device.

Further, the clamping device comprises a pneumatic component, a fixing plate, calipers and a connecting frame, wherein the pneumatic component is installed in front of the connecting plate in a screwed mode, the connecting frame is installed in the right of the pneumatic component in a screwed mode, the calipers are installed below the connecting frame in a screwed mode, and the fixing plate is installed behind the calipers in a screwed mode.

Further, the lifting clamping device comprises a U-shaped groove and a lifting pneumatic assembly, the U-shaped groove is mounted in front of the movable plate in a threaded connection mode, and the lifting pneumatic assembly is connected to the lower portion of the U-shaped groove in a transmission mode.

The utility model uses two loading platforms, the two loading platforms are respectively provided with the air charging device and the detecting device, but the two loading platforms are connected with the air charging device and the detecting device and are not used for placing the pipeline mould in the prior art, but are suspended, and the two ends of the pipeline are respectively connected with the air charging device and the detecting device.

Drawings

In order to more clearly illustrate the embodiments of the present utility model 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. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, changes in proportions, or adjustments of sizes, which do not affect the efficacy or the achievement of the present utility model, should fall within the ambit of the technical disclosure.

FIG. 1 is a perspective view of a pipe leak detection jig provided by the utility model;

FIG. 2 is a perspective view of a loading platform provided by the present utility model;

FIG. 3 is a perspective view of an inflator according to the present utility model;

FIG. 4 is a perspective view of a card slot assembly provided by the present utility model;

FIG. 5 is a perspective view of a slide assembly according to the present utility model;

FIG. 6 is a perspective view of a clamping assembly provided by the present utility model;

FIG. 7 is a perspective view of a detection device according to the present utility model;

FIG. 8 is a perspective view of a clamping device provided by the utility model;

FIG. 9 is a perspective view of the lifting clamping device provided by the utility model;

in the figure: 1, loading a first platform; 11 handles; 12 risers; 13 a platform; 14 positioning a first bolt; 15 arc grooves; 16 positioning bolts II; 2 an inflator; a 21 clamping groove assembly; 211U-shaped clamping grooves; 212 air inlets; 213 inlet valve; 22 positioning bodies; a 23 linker; 24 a slide assembly; 241 slide rail; 242 a slider; 25 a clamping assembly; 251 clamp; 252 stabilizer; 253 connecting block; 3, a pipeline; 4 a detection device; 41 clamping means; 411 pneumatic components; 412 a fixing plate; 413 calipers; 414 a connecting frame; 42 connecting plates; 43 a movable plate; 44 lifting clamping devices; 441U-shaped slots; 442 lifting pneumatic assembly; 45 sliding members; 46 sensors; and 5, loading a second platform.

Detailed Description

Other advantages and advantages of the present utility model will become apparent to those skilled in the art from the following detailed description, which, by way of illustration, is to be read in connection with certain specific embodiments, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-9, the utility model discloses a pipeline leakage detection jig, which is composed of five parts, as shown in fig. 1, and comprises a loading platform 1, an inflating device 2, a pipeline 3, a detecting device 4 and a loading platform 2, wherein the inflating device 2 is connected above the loading platform 1 in a transmission way, the rear part of the inflating device 2 is arranged on one side of the pipeline 3, the detecting device 4 is arranged on the other side of the pipeline 3, the loading platform 5 is connected below the detecting device in a transmission way, and the structure of the loading platform 5 is the same as that of the loading platform 1. The first loading platform 1 is provided with the air charging device 2, the second loading platform 5 which has the same structure as the first loading platform 1 is provided with the detecting device 4, two ends of the pipeline 3 are respectively connected to the front of the air charging device 2 and the rear of the detecting device 4, the air inlet valve 213 discharges air into the pipeline 3 through the air inlet 212, the detecting device 4 detects the air pressure in the pipeline, when the pipeline 3 is broken, the detecting device 4 detects a problem to give an alarm, because the detecting device 4 detects each pipeline independently, the specific pipeline can be known, and if the pipeline is not broken, the air flows out of the whole device after the air flows through the detecting device 4 to detect no problem.

In a specific embodiment, as shown in fig. 2, the loading platform 1 includes a handle 11, a riser 12, a platform 13, a positioning bolt one 14, an arc-shaped groove 15 and a positioning bolt two 16, wherein the handle 11, the riser 12, the positioning bolt one 14, the arc-shaped groove 15 and the positioning bolt two 16 are all located on the platform 13, the platform 13 is installed under the handle 11 in a screwed manner, two symmetrical risers 12 are installed above the platform 13 in a screwed manner, the arc-shaped groove 15 is formed in the upper portion of the riser 12, the positioning bolt two 16 is slidably arranged in the arc-shaped groove 15, the positioning bolt one 14 is arranged above the positioning bolt two 16, and the positioning bolt one 14 is installed on the riser in a transmission connection manner. In the utility model, the air charging device 2 and the detecting device 4 can rotate on the loading platform, the first positioning bolt 14 and the second positioning bolt 16 are connected with the positioning body 22, the first positioning bolt 14 is in transmission connection with the positioning body 22, the second positioning bolt 16 can slide in the arc-shaped groove 15, the positioning body 22 can be driven to overturn at the same time, and some non-bendable pipelines can be detected through the overturn of the positioning body 22.

In a specific embodiment, as shown in fig. 3, the inflator 2 includes a clamping groove assembly 21, a positioning body 22, a connecting body 23, a sliding assembly 24 and a clamping assembly 25, the sliding assembly 24 is screwed in front of the positioning body 22, the connecting body 23 is screwed in front of the sliding assembly 24, the clamping assembly 25 is screwed in front of the connecting body 23, and the clamping groove assembly 21 is screwed in front of the connecting body 23. When one side of the pipeline 3 is placed on the clamping groove assembly 21, the pipeline 3 is clamped by using the clamping assembly 25, because the pipeline mouth diameters are different, the air inlet 212 is inserted into the pipeline mouth at different positions, the clamping assembly 25 is opened before the pipeline 3 is placed, the connecting body 23 is driven to move downwards by the sliding assembly 24, meanwhile, the air inlet 212 in the clamping groove assembly 21 moves downwards, after the pipeline 3 is placed, the clamping assembly 25 is pushed upwards, the sliding assembly 24 drives the connecting body 22 to move upwards, and the connecting body 22 drives the air inlet 212 to be inserted into the pipeline mouth so as to ventilate the pipeline 3 during detection, and simultaneously, the pipeline 3 is clamped.

On the basis of the above embodiment, as shown in fig. 4, the clamping groove assembly 21 includes a U-shaped clamping groove 211, an air inlet 212 and an air inlet valve 213, the front of the positioning body 22 is in threaded connection with the U-shaped clamping groove 211, the front of the connecting body 23 is in threaded connection with the air inlet valve 213, and the air inlet 212 is in threaded connection with the upper side of the air inlet valve 213. After the pipe 3 is placed in the U-shaped clamping groove 211, the air inlet valve 213 inflates the pipe 3 through the air inlet 212.

On the basis of the above embodiment, as shown in fig. 5, the sliding assembly 24 includes a sliding rail 241 and a sliding block 242, the sliding rail 241 is screwed and fixed in front of the positioning body 22, the sliding block 242 is connected in front of the sliding rail 241 in a sliding manner, and the connecting body 23 is screwed and installed in front of the sliding block 242. The sliding device 24 is screwed with the connecting body 23 through a sliding block 242 to control the up-and-down movement of the connecting body 23.

On the basis of the above embodiment, as shown in fig. 6, the clamping assembly 25 includes a clamp 251, a stabilizing body 252 and a connecting block 253, the stabilizing body 252 is screwed in front of the positioning body 22, the clamp 251 is screwed in front of the stabilizing body 252, the connecting block 253 is screwed below the clamp 251, and the connecting body 23 is screwed behind the connecting block 253. The clamp 251 is provided with a pneumatic rod, when the clamp 251 is clamped or unclamped, the pneumatic rod drives the connecting block 253 to move up and down, the connecting body 23 connected with the connecting block 253 moves up and down, and meanwhile, the connecting body 23 drives the air inlet 212 on the connecting body 23 to move up and down, so that the air inlet 212 can be inserted into the pipeline 3.

In a specific embodiment, as shown in fig. 7, the detecting device 4 includes a clamping device 41, a connecting plate 42, a movable plate 43, a lifting clamping device 44, a sliding member 45 and a sensor 46, wherein the connecting plate 42 is mounted on the rear side of the clamping device 41 in a screwed manner, a plurality of sensors 46 are mounted on the rear side of the connecting plate 42 in a screwed manner, the sliding member 45 is mounted on the rear side of the connecting plate 42 in a screwed manner, the movable plate 43 is mounted on the rear side of the sliding member 45 in a screwed manner, and the lifting clamping device 44 is mounted in front of the movable plate 43. The sliding component 45 has similar function to the sliding component 24 in the inflator 2 in the device, but the components connected to the movable plate 43 connected with the sliding component 45 are different, the movable plate 43 is connected with a U-shaped groove 441, the clamping device 41 drives the movable plate 43 to move up and down by moving up and down, the movable plate 43 can drive the U-shaped groove 441 to clamp the pipeline 3, after clamping, ventilation of the pipeline 3 is performed, a sensor 46 in the detecting device 4 is a gas pressure detecting sensor, the sensor 46 can judge whether the gas pressure in the pipeline is normal, and when the pipeline is not damaged, the gas pressure is normal and the sensor 46 does not give an alarm; when the pipe is broken, the gas pressure no longer meets the pressure standard of the pressure sensor, and the sensor 46 gives an alarm.

On the basis of the above embodiment, as shown in fig. 8, the clamping device 41 comprises a pneumatic assembly 411, a fixing plate 412, a caliper 413 and a connecting frame 414, wherein the connecting frame 414 is mounted on the right side of the pneumatic assembly 411 in a screwed manner, the caliper 413 is mounted on the lower side of the connecting frame 414 in a screwed manner, and the fixing plate 412 is mounted on the rear side of the caliper 413 in a screwed manner. The caliper 413 is connected with the movable plate 43, and will drive the movable plate 43 when the caliper 413 moves, but there is the problem that because the heavy and resulting in the caliper 413 of component weight on the movable plate 43 becomes flexible and leads to the clamping state inefficacy, can install a pneumatic component 411 in caliper 413 side, when caliper 413 presss from both sides tightly, pneumatic component 411 can promote to the left, offsets with caliper 413, makes caliper 413 can not appear not hard up gliding problem when detecting.

On the basis of the above embodiment, as shown in fig. 9, the lifting clamping device 44 includes a U-shaped groove 441 and a lifting pneumatic assembly 442, the front of the movable plate 43 is screwed with the U-shaped groove 441, and the lifting pneumatic assembly 442 is connected below the U-shaped groove 441 in a transmission manner. When fixed, the sensor 46 not only can embody the effect of pressure sensing, but also can play a positioning role, the pipeline 3 can be fixed only by completely inserting the pipeline port into the sensor, the lifting clamping device 44 is used for fixing the pipeline 3 connected to the sensor 46 twice, firstly, the U-shaped groove 441 driven by the caliper 413 is used for pushing upwards to fix the pipeline 3 for the first time, after the first time fixing is completed, the lifting pneumatic assembly 442 works, and the lifting pneumatic assembly 442 is used for pushing the fixing pin to be inserted into the pipeline 3 so as to prevent the pipeline 3 from overturning in the detection process.

While the utility model has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the utility model and are intended to be within the scope of the utility model as claimed.

Claims (8)

1. The utility model provides a pipeline leak hunting detects tool, is connected with pipeline (3) on the pipeline leak hunting detects tool, its characterized in that includes loading platform one (1), aerating device (2), detection device (4) and loading platform two (5), loading platform one (1) top transmission is connected with aerating device (2), aerating device (2) rear mounting is in pipeline (3) one side, detection device (4) are installed to pipeline (3) opposite side, detection device (4) below transmission is connected with loading platform two (5), loading platform two (5) structure is the same with loading platform one (1).

The inflatable device (2) comprises a clamping groove assembly (21), a positioning body (22), a connecting body (23), a sliding assembly (24) and a clamping assembly (25), wherein the sliding assembly (24) is installed in front of the positioning body (22) in a screwed mode, the connecting body (23) is installed in front of the sliding assembly (24) in a screwed mode, the clamping assembly (25) is installed in front of the connecting body (23) in a screwed mode, and the clamping groove assembly (21) is installed in front of the connecting body (23) in a screwed mode.

2. The pipe leakage detection jig according to claim 1, wherein the loading platform one (1) comprises a lifting handle (11), a vertical plate (12), a platform (13), a positioning bolt one (14), an arc-shaped groove (15) and a positioning bolt two (16), the platform (13) is installed under the lifting handle (11) in a threaded connection mode, two symmetrical vertical plates (12) are installed above the platform (13) in a threaded connection mode, the arc-shaped groove (15) is formed in the upper portion of the vertical plate (12), the positioning bolt two (16) is arranged in a sliding mode, the positioning bolt one (14) is arranged above the positioning bolt two (16), and the positioning bolt one (14) is installed on the vertical plate (12) in a transmission connection mode.

3. The pipe leakage detection jig according to claim 1, wherein the clamping groove assembly (21) comprises a U-shaped clamping groove (211), an air inlet (212) and an air inlet valve (213), the U-shaped clamping groove (211) is installed in front of the positioning body (22) in a threaded manner, the air inlet valve (213) is installed in front of the connecting body (23) in a threaded manner, and the air inlet (212) is installed in front of the air inlet valve (213) in a threaded manner.

4. The pipe leakage detection jig according to claim 1, wherein the sliding assembly (24) comprises a sliding rail (241) and a sliding block (242), the sliding rail (241) is fixedly connected to the front of the positioning body (22) in a threaded manner, the sliding block (242) is connected to the front of the sliding rail (241) in a sliding manner, and the connecting body (23) is mounted to the front of the sliding block (242) in a threaded manner.

5. The pipe leak detection jig of claim 1, wherein the clamping assembly (25) comprises a clamp (251), a stabilizing body (252) and a connecting block (253), the stabilizing body (252) is mounted in front of the positioning body (22) in a screwed manner, the clamp (251) is mounted in front of the stabilizing body (252) in a screwed manner, the connecting block (253) is mounted in a screwed manner below the clamp (251), and the connecting body (23) is mounted in a screwed manner behind the connecting block (253).

6. The pipe leakage detection jig according to claim 1, wherein the detection device (4) comprises a clamping device (41), a connecting plate (42), a movable plate (43), a lifting clamping device (44), a sliding member (45) and sensors (46), wherein the connecting plate (42) is mounted on the rear side of the clamping device (41) in a screwed manner, a plurality of sensors (46) are mounted on the rear side of the connecting plate (42) in a screwed manner, the sliding member (45) is mounted on the rear side of the connecting plate (42) in a screwed manner, the movable plate (43) is mounted on the rear side of the sliding member (45) in a screwed manner, and the lifting clamping device (44) is mounted in front of the movable plate (43).

7. The pipe leak detection jig of claim 6, wherein the clamping device (41) comprises a pneumatic component (411), a fixing plate (412), a clamp (413) and a connecting frame (414), wherein the pneumatic component (411) is mounted in front of the connecting plate (42) in a screwed manner, the connecting frame (414) is mounted in front of the pneumatic component (411) in a screwed manner, the clamp (413) is mounted in a screwed manner below the connecting frame (414), and the fixing plate (412) is mounted in a screwed manner behind the clamp (413).

8. The pipe leakage detection jig according to claim 6, wherein the lifting clamping device (44) comprises a U-shaped groove (441) and a lifting pneumatic component (442), the U-shaped groove (441) is mounted in front of the movable plate (43) in a threaded connection mode, and the lifting pneumatic component (442) is connected below the U-shaped groove (441) in a transmission mode.