CN216143475U - Low-power consumption pipe network pressure monitoring device - Google Patents

Abstract

The utility model discloses a low-power-consumption pipe network pressure monitoring device, which comprises a base, a group of driving components positioned on the base, a group of detection components arranged on the driving components, and at least two groups of guide components arranged on the base, wherein the driving components are arranged on the base; the driving assembly comprises a driving device fixedly mounted on the base, a transmission device located at the output end of the driving device, a driving sliding rail connected with the transmission device, and a supporting plate connected with the driving sliding rail. The detection assembly in the device can complete real-time monitoring of the pipe network connection, can find out the damaged area of the pipe network in time, and further avoids expansion of the damaged area due to overlarge pressure of the damaged area, and further ensures smooth work of the water supply device.

Description

Low-power consumption pipe network pressure monitoring device

Technical Field

The utility model belongs to the technical field of pipe network pressure detection, and particularly relates to a low-power-consumption pipe network pressure monitoring device.

Background

A large number of various pipe networks, such as domestic sewage pipe networks, industrial sewage pipe networks, drinking water pipe networks, and the like, are distributed in the underground of cities. The management department needs to regularly maintain the managed pipe network to ensure the normal operation of the pipe network, and the water flow detection of the pipe network is an important content of the pipe network maintenance.

But because the length of current single pipe network is limited, and then current water supply system all is formed by a plurality of pipe network installations, when the pipe network live time overlength or do not carry out maintenance work for a long time, and then can lead to the junction of two pipe networks to appear the damage, and then lead to the liquid in the pipe network to appear leaking, and then can lead to the pressure increase of impaired department, and then lead to the area increase of damaged mouth, and then lead to whole water supply system's damage, and if adopt artifical the detection, the work load that detects is too big, extravagant manpower and materials.

Therefore, how to detect the connection of the pipe network is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a low-power consumption pipe network pressure monitoring device to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a low-power consumption pipe network pressure monitoring device includes:

the device comprises a base, a group of driving components positioned on the base, a group of detection components arranged on the driving components, and at least two groups of guide components arranged on the base;

the driving assembly comprises a driving device fixedly mounted on the base, a transmission device positioned at the output end of the driving device, a driving slide rail connected with the transmission device, and a supporting plate used for connecting the driving slide rail;

at least in the working state, the driving device drives the transmission device to move, so that the detection assembly reciprocates in the circumferential direction of the pipe networks, and the detection work of the joint of the two pipe networks is finished;

the guide assembly is abutted with the driving assembly; the detection assembly is located on the support plate.

In a further embodiment, the transmission device comprises a rotating shaft arranged at the output end of the driving device, a driving gear sleeved on the rotating shaft, and a driving rack arranged on the driving slide rail;

the driving gear is meshed with the driving rack; the detection area of the detection assembly can be adjusted, so that the detection work of the pipe network is completed.

In a further embodiment, the guide assembly comprises a support fixedly mounted on the base, a set of limiting wheels positioned on the support, and a limiting slide rail arranged on the driving slide rail; the limit slide rail can be prevented from deviating from a set area.

In a further embodiment, an annular groove matched with the limiting slide rail is formed in the circumferential direction of the limiting wheel; and finishing the limiting work of the device.

In a further embodiment, the detection assembly comprises a set of first connecting seats arranged on the support plate, a connecting frame hinged with the first connecting seats, and at least three sets of detection devices arranged on the connecting frame; whether damaged area appears on detection device can detect the pipe network, and then accomplish the detection achievement to the pipe network.

In a further embodiment, the detection assembly further comprises a group of second connecting seats arranged on the supporting plate, and a telescopic cylinder positioned on the second connecting seats;

the other end of the telescopic cylinder is positioned on the connecting frame to complete the real-time monitoring work of the pipe network.

Has the advantages that: the utility model relates to a low-power-consumption pipe network pressure monitoring device, which is characterized in that a driving assembly is arranged in the device in order to detect the joint of a pipe network, the driving assembly drives a transmission device to move, so that the detection assembly reciprocates in the circumferential direction of the pipe network, the detection of the joint of the two pipe networks is completed, the detection assembly can complete real-time monitoring of the joint of the pipe network, a damaged area of the pipe network can be found in time, the expansion of the damaged area due to overlarge pressure of the damaged area is avoided, and smooth operation of a water supply device is ensured.

Drawings

Fig. 1 is a perspective view of the present invention.

FIG. 2 is a schematic view of a driving assembly according to the present invention.

FIG. 3 is a schematic view of a detection assembly according to the present invention.

The figures are numbered: the device comprises a base 1, a driving component 2, a driving device 21, a rotating shaft 22, a driving gear 23, a driving rack 24, a driving slide rail 25, a supporting plate 26, a guiding component 3, a support 31, a limiting wheel 32, a limiting slide rail 33, a detecting component 4, a detecting device 41, a first connecting seat 42, a second connecting seat 43, a telescopic cylinder 44 and a connecting frame 45.

Detailed Description

Through the research and analysis of the applicant, the reason for the problem (the pressure at the damaged part is increased, and then the area of the damaged opening is increased, and then the whole water supply system is damaged) is that the existing water supply system is formed by installing a plurality of pipe networks, when the pipe networks are too long in service time or are not maintained for a long time, the connection part of the two pipe networks is damaged, and then the liquid in the pipe networks is leaked, the pressure at the damaged part is increased, and then the water supply system is damaged. This device is in order to carry out the detection achievement to the pipe network junction, and then is equipped with drive assembly in this device, and then drive arrangement drives transmission and moves, and then makes detection assembly be reciprocating motion in the circumference of pipe network, and then accomplishes the detection achievement to two pipe network junctions, and then detection assembly can accomplish the real-time supervision to the pipe network junction, can in time discover the damaged area of pipe network, and then avoids too big because of damaged area pressure, and leads to the expansion of damaged area, and then guarantees water supply installation's smooth work.

A low-power consumption pipe network pressure monitoring device includes: the device comprises a base 1, a driving component 2, a driving device 21, a rotating shaft 22, a driving gear 23, a driving rack 24, a driving slide rail 25, a supporting plate 26, a guiding component 3, a support 31, a limiting wheel 32, a limiting slide rail 33, a detecting component 4, a detecting device 41, a first connecting seat 42, a second connecting seat 43, a telescopic cylinder 44 and a connecting frame 45.

The device comprises a base 1, a group of driving components 2 positioned on the base 1, a group of detecting components 4 arranged on the driving components 2, and at least two groups of guiding components 3 arranged on the base 1; the driving assembly 2 comprises a driving device 21 fixedly mounted on the base 1, a transmission device positioned at the output end of the driving device 21, a driving slide rail 25 connected with the transmission device, and a supporting plate 26 used for connecting the driving slide rail 25; at least in a working state, the driving device 21 drives the transmission device to move, so that the detection assembly 4 reciprocates in the circumferential direction of the pipe networks, and the detection work of the joint of the two pipe networks is finished; the guide assembly 3 is abutted with the driving assembly 2; the detection assembly 4 is positioned on the support plate 26; through the drive assembly 2 who sets up, and then can make detection component 4 be reciprocating motion in the pipe network week, and then can realize the real-time supervision work to the pipe network, and then accomplish the detection achievement to the pipe network, when the pipe network appears damaging, operating personnel can in time carry out maintenance work to impaired department, and then avoid the damaged department to make the regional grow of damage because of the pressure of liquid in the pipeline, and then guarantee water supply system's normal work.

The transmission device comprises a rotating shaft 22 arranged at the output end of the driving device 21, a driving gear 23 sleeved on the rotating shaft 22 and a driving rack 24 arranged on the driving slide rail 25; the drive gear 23 meshes with the drive rack 24, when the pipe network needs to be detected, the drive device 21 starts to work, the drive device 21 can drive the rotation shaft 22 to start rotating, the rotation shaft 22 can drive the drive gear 23 to start rotating, the drive gear 23 can drive the drive rack 24 to start working, the drive rack 24 can drive the drive slide rail 25 to move, the detection area of the detection component 4 can be adjusted, and therefore the detection work of the pipe network is completed.

The guide assembly 3 comprises a support 31 fixedly mounted on the base 1, a set of limiting wheels 32 positioned on the support 31, and a limiting slide rail 33 arranged on the driving slide rail 25; the limiting wheel 32 is circumferentially provided with an annular groove matched with the limiting slide rail 33, when the limiting wheel is installed, the limiting slide rail 33 is abutted to the groove, the limiting slide rail 33 can be prevented from deviating from a set area, and the limiting work of the device is completed.

The detection assembly 4 comprises a set of first connecting seats 42 arranged on the support plate 26, a connecting frame 45 hinged with the first connecting seats 42, and at least three sets of detection devices 41 arranged on the connecting frame 45; the detecting assembly 4 further comprises a set of second connecting seats 43 disposed on the supporting plate 26, and a telescopic cylinder 44 located on the second connecting seats 43; the other end of the telescopic cylinder 44 is positioned on the connecting frame 45; when the pipe network needs to be detected, the telescopic cylinder 44 starts to work, and then the movable telescopic cylinder 44 drives the connecting frame 45 to start to move, so that the movable connecting frame 45 can adjust the position of the detection device 41, and then the detection device 41 can detect whether a damaged area appears on the pipe network, and then the detection work of the pipe network is completed, and then the real-time monitoring work of the pipe network is completed.

Description of the working principle: when the pipe network needs to be detected, the driving device 21 starts to work, the moving driving device 21 can drive the rotating shaft 22 to start to rotate, the moving rotating shaft 22 can drive the driving gear 23 to start to rotate, the moving driving gear 23 can drive the driving rack 24 to start to work, the moving driving rack 24 can drive the driving slide rail 25 to move, and the detection area of the detection assembly 4 can be adjusted, so that the detection work of the pipe network is completed; when the pipe network needs to be detected, the telescopic cylinder 44 starts to work, and then the movable telescopic cylinder 44 drives the connecting frame 45 to start to move, so that the movable connecting frame 45 can adjust the position of the detection device 41, and then the detection device 41 can detect whether a damaged area appears on the pipe network, and then the detection work of the pipe network is completed, and then the real-time monitoring work of the pipe network is completed.

As noted above, while the present invention has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. A low-power consumption pipe network pressure monitoring device includes:

the device comprises a base, a group of driving components positioned on the base, a group of detection components arranged on the driving components, and at least two groups of guide components arranged on the base;

the driving assembly comprises a driving device fixedly mounted on the base, a transmission device positioned at the output end of the driving device, a driving slide rail connected with the transmission device, and a supporting plate used for connecting the driving slide rail;

at least in the working state, the driving device drives the transmission device to move, so that the detection assembly reciprocates in the circumferential direction of the pipe networks, and the detection work of the joint of the two pipe networks is finished;

the guide assembly is abutted with the driving assembly; the detection assembly is located on the support plate.

2. The low-power consumption pipe network pressure monitoring device of claim 1, wherein: the transmission device comprises a rotating shaft arranged at the output end of the driving device, a driving gear sleeved on the rotating shaft and a driving rack arranged on the driving slide rail;

the driving gear is meshed with the driving rack.

3. The low-power consumption pipe network pressure monitoring device of claim 1, wherein: the guide assembly comprises a support fixedly mounted on the base, a group of limiting wheels located on the support, and a limiting slide rail arranged on the driving slide rail.

4. The low-power consumption pipe network pressure monitoring device of claim 3, wherein: and the limiting wheel is circumferentially provided with an annular groove matched with the limiting slide rail.

5. The low-power consumption pipe network pressure monitoring device of claim 1, wherein: the detection assembly comprises a group of first connecting seats arranged on the supporting plate, a connecting frame hinged with the first connecting seats and at least three groups of detection devices arranged on the connecting frame.

6. The low-power consumption pipe network pressure monitoring device of claim 5, wherein: the detection assembly further comprises a group of second connecting seats arranged on the supporting plate and a telescopic cylinder positioned on the second connecting seats;

the other end of the telescopic cylinder is positioned on the connecting frame.

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