CN114383048A - Intelligent energy-saving monitoring equipment for urban domestic water delivery pipe - Google Patents

Abstract

The invention discloses an intelligent energy-saving monitoring device for an urban domestic water delivery pipe, which comprises: the device comprises a conveying pipeline body, a pressure regulating mechanism, a sampling mechanism and a pressure measuring mechanism; a pair of widening openings are cut on the conveying pipeline body; the pressure regulating mechanism is arranged on the conveying pipeline body and comprises a pair of covering frames, plugging plates matched with the widened openings are arranged in the covering frames, and pressurizing blocks are arranged on the plugging plates; the sampling mechanism is arranged on the conveying pipeline body and is used for conveying a water source sample in the conveying pipeline body; the pressure measuring mechanism is arranged in the conveying pipeline body and comprises a supporting barrel frame, a supporting shaft is arranged on the supporting barrel frame, and a driving beating wheel is rotatably connected to the supporting shaft. According to the invention, through the arrangement of the corresponding mechanism of the urban domestic water conveying pipe, the water source sample collection of the conveying pipe in the pressure detection process is facilitated, the operation difficulty and time consumption of workers are reduced, and unnecessary troubles are reduced for the workers.

Description

Intelligent energy-saving monitoring equipment for urban domestic water delivery pipe

Technical Field

The invention belongs to the technical field of domestic water monitoring, and particularly relates to intelligent energy-saving monitoring equipment for an urban domestic water delivery pipe.

Background

Water is a life source, people cannot necessarily leave water resources in daily life, urban water supply means that drinking water sources are treated and then are transported to each household of a city through pipelines for residents to use, and in order to guarantee the safety of daily life water utilization and water source utilization of the residents, the water pressure and the water source in a water conveying pipe need to be detected. However, in the prior art, when the water pressure in the conveying water pipe is detected, the water source sample is not conveniently taken by the conveying water pipe, so that the operation difficulty of workers is high, time and labor are wasted, and unnecessary troubles are brought to the workers.

Therefore, in order to solve the above technical problems, it is necessary to provide an intelligent energy-saving monitoring device for an urban domestic water delivery pipe.

Disclosure of Invention

The invention aims to provide intelligent energy-saving monitoring equipment for an urban domestic water delivery pipe, which solves the problem that a water source sample is inconvenient to take during pressure detection of the delivery pipe in the prior art.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides an energy-conserving monitoring facilities of city domestic water conveyer pipe intelligence, includes: the device comprises a conveying pipeline body, a pressure regulating mechanism, a sampling mechanism and a pressure measuring mechanism;

a pair of widening openings are cut on the conveying pipeline body;

the pressure regulating mechanism is arranged on the conveying pipeline body and comprises a pair of covering frames, the covering frames are symmetrically arranged relative to the conveying pipeline body, a plugging plate matched with the widened opening is arranged in each covering frame, and a pressurizing block is arranged on each plugging plate;

the sampling mechanism is arranged on the conveying pipeline body and is used for conveying water source samples in the conveying pipeline body, so that the operation and the collection are convenient;

the pressure measuring mechanism is installed in the conveying pipeline body and used for detecting the pressure of a conveying water source in the conveying pipeline body and facilitating observation and recording, the pressure measuring mechanism comprises a supporting barrel frame, a supporting shaft is arranged on the supporting barrel frame, and a driving beating wheel is rotatably connected to the supporting shaft.

Furthermore, an auxiliary pushing block is arranged on the covering frame and used for supporting the pushing screw rod and enabling the pushing screw rod to drive the supporting bearing to move when rotating, so that the effect of driving the plugging plate to move is achieved, and the pushing screw rod is in threaded connection with the auxiliary pushing block and used for pushing and driving the plugging plate to move, so that the plugging plate can be attached to the conveying pipeline body;

one end of the propelling screw is inserted into the covering frame, so that the plugging plate is conveniently pushed to move, and the propelling screw is arranged at one end outside the covering frame and is provided with a rotating wheel for rotating the propelling screw so as to facilitate the operation of workers.

Furthermore, a supporting bearing is arranged on one side, close to the pushing screw, of the blocking plate and used for supporting the pushing screw, so that the pushing screw is prevented from inclining, the pushing screw can rotate freely, the blocking plate cannot be influenced, and the supporting bearing is sleeved at one end, arranged in the covering frame, of the pushing screw;

the sealing plate is sleeved with the first sealing ring, so that the sealing plate can not leak when being attached to the conveying pipeline body, and the sealing performance of the conveying pipeline body is improved.

Furthermore, a plurality of supporting slide bars are arranged in the covering frame and used for supporting the plugging slide block to enable the plugging slide block to slide, and the plugging slide block cannot incline when sliding, so that leakage cannot occur;

the tensioning spring is connected between the plugging sliding block and the covering frame and used for tensioning the plugging sliding block, so that the plugging plate is tensioned through the plugging sliding block, the fixing effect of the pushing screw rod is improved, the situation that the plugging plate shakes or shakes cannot occur, and the tensioning spring is sleeved on the supporting sliding rod.

Furthermore, a limiting groove is formed in the blocking sliding block and used for clamping the limiting block, the limiting block matched with the limiting groove is arranged in the covering frame and used for blocking the blocking sliding block, the blocking plate and the blocking sliding block can only be far away from the conveying pipeline body by a distance, and therefore the probability that the blocking plate and the blocking sliding block are damaged is reduced.

Furthermore, a second sealing ring is connected between the pressurizing block and the plugging plate and used for improving the sealing effect and preventing water flow from leaking, and a supporting sealing cover plate is connected to one side, close to the conveying pipeline body, of the pressurizing block and used for supporting the left attaching buckle or the right attaching buckle and has the function of driving the left attaching buckle or the right attaching buckle to move;

it is a pair of support is installed the left laminating buckle and the right laminating buckle that match each other on the apron respectively, makes left laminating buckle and right laminating buckle can laminate each other to improve a pair of fixed effect who adds the briquetting, and then reach the purpose that blocks rivers.

Furthermore, one end of the pressurizing block, which is far away from the supporting and sealing cover plate, penetrates through the covering frame, and one end of the pressurizing block, which is arranged outside the covering frame, is connected with a driving cylinder and is used for pushing the pressurizing block to move, so that the pair of pressurizing block, the left attaching buckle and the right attaching buckle can block water flow, the water pressure in the conveying pipeline body is further improved, and samples are convenient to take;

drive and overlap on the actuating cylinder and be equipped with fixed cover for the fixed actuating cylinder that drives avoids driving the condition that actuating cylinder appears rocking, be connected with the dead lever on the fixed cover for fixed cover, and then the improvement drives the stability that actuating cylinder.

Further, sampling mechanism includes the sampling tube for carry the rivers, conveniently takes the water source sample, be connected with the pressure valve between sampling tube and the pipeline body for set for certain pressure value, when this internal water pressure of pipeline is less than the setting value, the pressure valve then closes, and when this internal water pressure of pipeline is higher than the setting value, the pressure valve then can open, the other end of sampling tube is connected with and deposits a kind jar for collect the water source sample.

Furthermore, a fixed pipe is sleeved on the supporting barrel frame and used for supporting the supporting barrel frame and avoiding the supporting barrel frame from falling off, so that the effect of supporting and driving the beating wheel is achieved, the fixed pipe is fixedly connected with the conveying pipeline body, the fixed pipe cannot shake, and a pressure display is arranged on the fixed pipe and used for displaying the water pressure in the conveying pipeline body;

pressure display and last contact block electric connection, when last contact block and contact block contact down, go up the contact block and can send the signal to pressure display to calculate this internal water pressure of conveying pipeline through the frequency of sending the signal, and show through pressure display.

Furthermore, a trigger groove is drilled on the support barrel frame, a lifting trigger block is arranged in the trigger groove and used for pushing the lower contact block to enable the lower contact block to be in contact with the upper contact block, a lower contact block and an upper contact block are arranged on one side of the lifting trigger block, when the lower contact block is in contact with the upper contact block, the upper contact block can send a signal to the pressure display, the lower contact block is fixedly connected with the lifting trigger block, and the upper contact block is fixedly connected with the support barrel frame;

a reset spring is connected between the lifting trigger block and the supporting barrel frame and used for pushing the lifting trigger block to reset, so that the knocking wheel is conveniently driven to push the lifting trigger block again.

Compared with the prior art, the invention has the following advantages:

according to the invention, through the arrangement of the corresponding mechanism of the urban domestic water conveying pipe, the water source sample collection of the conveying pipe in the pressure detection process is facilitated, the operation difficulty and time consumption of workers are reduced, and unnecessary troubles are reduced for the workers.

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, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a side sectional view of an intelligent energy-saving monitoring device for an urban domestic water delivery pipe in an embodiment of the invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure at B in FIG. 1;

fig. 4 is a perspective view of an intelligent energy-saving monitoring device for an urban domestic water delivery pipe in an embodiment of the invention;

FIG. 5 is a schematic view of the structure of FIG. 4 at C;

fig. 6 is a side sectional view of an intelligent energy-saving monitoring device for an urban domestic water delivery pipe according to an embodiment of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 6 at D;

FIG. 8 is a schematic view of the structure at E in FIG. 6;

FIG. 9 is a schematic diagram of a pair of pressurizing blocks according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a pressure measurement mechanism according to an embodiment of the present invention;

FIG. 11 is a cross-sectional view of a load cell according to an embodiment of the present invention;

fig. 12 is a schematic view of the structure at F in fig. 11.

In the figure: 1. the automatic sampling device comprises a conveying pipeline body, 101, a widening port, 2, a pressure regulating mechanism, 201, a covering frame, 202, a blocking plate, 203, a pressing block, 204, an auxiliary pushing block, 205, a pushing screw rod, 206, a rotating wheel, 207, a supporting bearing, 208, a first sealing ring, 209, a supporting sliding rod, 210, a blocking sliding block, 211, a tensioning spring, 212, a limiting block, 213, a second sealing ring, 214, a supporting blocking cover plate, 215, a left attaching buckle, 216, a right attaching buckle, 217, a driving cylinder, 218, a fixing sleeve, 219, a fixing rod, 3, a sampling mechanism, 301, a sampling pipe, 302, a pressure valve, 303, a sample storage tank, 4, a pressure measuring mechanism, 401, a supporting cylinder frame, 402, a supporting shaft, 403, a driving knocking wheel, 404, a fixing pipe, 405, a pressure display, 406, a lifting trigger block, 407, a lower contact block, 408, an upper contact block, 409 and a reset spring.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses an intelligent energy-saving monitoring device for an urban domestic water delivery pipe, which is shown in a reference figure 1-12 and comprises: the pipeline pressure regulating device comprises a conveying pipeline body 1, a pressure regulating mechanism 2, a sampling mechanism 3 and a pressure measuring mechanism 4.

Referring to fig. 1, a pair of widening openings 101 is cut on the conveying pipeline body 1, so that water flow can flow into the covering frame 201, thereby increasing the water flow space, reducing the water pressure in the conveying pipeline body 1, and facilitating the water pressure to take water source samples.

Referring to fig. 1-6, the pressure regulating mechanism 2 is installed on the conveying pipeline body 1, the pressure regulating mechanism 2 includes a pair of covering frames 201 for blocking water flow and preventing water flow leakage, the pair of covering frames 201 are symmetrically arranged with respect to the conveying pipeline body 1, and a blocking plate 202 matched with the widened opening 101 is arranged in the covering frame 201 and is used for being clamped in the widened opening 101, so as to achieve the purpose of controlling the increase and decrease of water pressure in the conveying pipeline body 1.

Referring to fig. 9, a pressurizing block 203 is installed on the blocking plate 202 to block water flow, so as to further reduce the flow space of the water source, further increase the water pressure in the conveying pipeline body 1, and further facilitate the sampling of the water source.

Referring to fig. 1-2, an auxiliary pushing block 204 is installed on the cover frame 201, and is used for supporting the pushing screw 205, and driving the supporting bearing 207 to move when the pushing screw 205 rotates, so as to achieve the effect of driving the plugging plate 202 to move, and the pushing screw 205 is connected to the auxiliary pushing block 204 in a threaded manner and is used for pushing and driving the plugging plate 202 to move, so that the plugging plate 202 can be attached to the conveying pipeline body 1.

Referring to fig. 1 to 5, one end of the pushing screw 205 is inserted into the covering frame 201 to facilitate pushing the plugging plate 202 to move, and a rotating wheel 206 is installed at one end of the pushing screw 205 outside the covering frame 201 to rotate the pushing screw 205, thereby facilitating the operation of the worker.

Referring to fig. 1-2, a support bearing 207 is installed on a side of the blocking plate 202 close to the pushing screw 205, and is used for supporting the pushing screw 205, preventing the pushing screw 205 from tilting, and enabling the pushing screw 205 to rotate freely without affecting the blocking plate 202, and the support bearing 207 is sleeved on one end of the pushing screw 205, which is disposed in the blocking frame 201.

Wherein, the cover is equipped with first sealing washer 208 on the shutoff board 202, the condition that can not appear leaking when making the shutoff board 202 laminating on pipeline body 1 improves the leakproofness to pipeline body 1.

Referring to fig. 3, a plurality of supporting sliding rods 209 are arranged in the covering frame 201 and used for supporting the blocking slider 210, so that the blocking slider 210 can slide, and the situation that the blocking slider 210 inclines cannot occur when sliding, so that the situation of leakage cannot occur, the blocking slider 210 is connected to the supporting sliding rods 209 in a sliding manner, one side of the blocking slider 210 is fixedly connected with the blocking plate 202 and used for being matched with the blocking plate 202 to block water flow, so that the water flow cannot flow into the side, far away from the conveying pipeline body 1, of the blocking plate 202, and therefore the probability of damage of the supporting bearing 207 is reduced, and the situation of leakage is reduced.

Referring to fig. 1 to 8, a tension spring 211 is connected between the plugging slider 210 and the covering frame 201 for tensioning the plugging slider 210, so that the plugging plate 202 is tensioned by the plugging slider 210, the fixing effect of the pushing screw 205 is further improved, the plugging plate 202 does not shake or shake, and the tension spring 211 is sleeved on the supporting slide bar 209.

Referring to fig. 3, a limiting groove is formed in the blocking slider 210 for engaging with the limiting block 212, and a limiting block 212 matched with the limiting groove is arranged in the covering frame 201 for blocking the blocking slider 210, so that the blocking plate 202 and the blocking slider 210 can only be away from the conveying pipeline body 1 by a certain distance, thereby reducing the probability of damage to the blocking plate 202 and the blocking slider 210.

Referring to fig. 7, a second sealing ring 213 is connected between the pressure block 203 and the blocking plate 202 for improving the sealing effect and preventing water from leaking, and a supporting blocking plate 214 is connected to one side of the pressure block 203 close to the conveying pipe body 1 for supporting the left attaching buckle 215 or the right attaching buckle 216 and driving the left attaching buckle 215 or the right attaching buckle 216 to move.

Referring to fig. 9, a pair of supporting cover plates 214 are respectively provided with a left attaching buckle 215 and a right attaching buckle 216 which are matched with each other, so that the left attaching buckle 215 and the right attaching buckle 216 can be attached to each other, thereby improving the fixing effect of the pair of pressurizing blocks 203 and further achieving the purpose of blocking water flow.

Referring to fig. 5, the pressing block 203 is far away from the one end of the supporting cover plate 214 and penetrates through the cover frame 201, the pressing block 203 is connected with the driving cylinder 217 which is used for pushing the pressing block 203 to move, so that the pair of pressing blocks 203, the left attaching buckle 215 and the right attaching buckle 216 can block water flow, the water pressure in the conveying pipeline body 1 is improved, and samples can be conveniently taken.

Wherein, it is equipped with fixed cover 218 to drive the cover on the actuating cylinder 217 for the fixed actuating cylinder 217 that drives, avoid driving the condition that actuating cylinder 217 appears rocking, be connected with dead lever 219 on the fixed cover 218, be used for fixed cover 218, and then improve the stability that drives actuating cylinder 217.

Referring to fig. 1, sampling mechanism 3 is located on pipeline body 1, sampling mechanism 3 is used for taking and carrying the water source sample in pipeline body 1, be convenient for operate and collect, sampling mechanism 3 includes sampling tube 301, be used for carrying the rivers, conveniently take the water source sample, be connected with pressure valve 302 between sampling tube 301 and the pipeline body 1, be used for setting for certain pressure value, when the water pressure in pipeline body 1 is less than the setting value, pressure valve 302 then closes, and when the water pressure in pipeline body 1 is higher than the setting value, pressure valve 302 then can open, the other end of sampling tube 301 is connected with sample storage tank 303, be used for collecting the water source sample.

Referring to fig. 10-12, the pressure measuring mechanism 4 is installed in the conveying pipe body 1, and is used for detecting the pressure of the conveying water source in the conveying pipe body 1, so as to facilitate observation and recording, the pressure measuring mechanism 4 includes a supporting barrel frame 401 for supporting a driving tapping wheel 403, so as to prevent the driving tapping wheel 403 from falling off, a supporting shaft 402 is provided on the supporting barrel frame 401, so that the driving tapping wheel 403 can rotate freely, so as to facilitate pushing of a lifting trigger block 406, and the driving tapping wheel 403 is rotatably connected to the supporting shaft 402, so as to push of the lifting trigger block 406, so as to push of a lower contact block 407 through the lifting trigger block 406.

Referring to fig. 10 to 12, a fixed pipe 404 is sleeved on the supporting barrel frame 401 to support the supporting barrel frame 401 and prevent the supporting barrel frame 401 from falling off, so as to achieve the effect of supporting the driving tapping wheel 403, the fixed pipe 404 is fixedly connected with the conveying pipeline body 1, so that the fixed pipe 404 does not shake, and a pressure display 405 is arranged on the fixed pipe 404 and is used for displaying the water pressure in the conveying pipeline body 1.

Referring to fig. 11 to 12, the pressure display 405 is electrically connected to the upper contact block 408, and when the upper contact block 408 contacts the lower contact block 407, the upper contact block 408 sends a signal to the pressure display 405, so that the water pressure in the conveying pipe body 1 is calculated by the frequency of the sent signal and displayed by the pressure display 405.

Referring to fig. 12, a trigger slot is drilled on the support barrel 401, a lifting trigger block 406 is arranged in the trigger slot and used for pushing a lower contact block 407 to make the lower contact block 407 contact with an upper contact block 408, the lower contact block 407 and the upper contact block 408 are arranged on one side of the lifting trigger block 406, when the lower contact block 407 contacts with the upper contact block 408, the upper contact block 408 sends a signal to the pressure display 405, the lower contact block 407 is fixedly connected with the lifting trigger block 406, and the upper contact block 408 is fixedly connected with the support barrel 401.

A return spring 409 is connected between the lifting trigger block 406 and the support barrel frame 401, and is used for pushing the lifting trigger block 406 to return, so that the knocking wheel 403 can be driven to push the lifting trigger block 406 again.

The working process is as follows: through setting up a pair of shutoff frame 201, increase the interior water source flow space of pipeline body 1, thereby reach the effect that reduces hydraulic pressure in the pipeline body 1, then through setting up a pair of shutoff board 202, make a pair of shutoff frame 201 can remove and block up a pair of widening 101, realize that the water pressure in the pipeline body 1 increases, secondly through setting up pressure valve 302, make a pair of shutoff board 202 with widening mouthful 101 shutoff back, pressure valve 302 can open, and a pair of shutoff board 202 withdrawal is to the back in the shutoff frame 201, pressure valve 302 can close, and then make things convenient for the staff to take the water source sample.

When the water source quality and the water pressure in the conveying pipeline body 1 need to be detected, a worker firstly takes down the plug on the sampling tube 301, then the sample storage tank 303 is installed on the sampling tube 301, then the rotating wheel 206 is rotated, the rotating wheel 206 can push the plugging plates 202 to approach the conveying pipeline body 1 through the pushing screw 205 in a rotating mode, and finally the plugging plates 202 can be clamped in the widening ports 101, so that water flow in the conveying pipeline body 1 cannot flow into the covering frame 201 any more, and therefore the flow space of the water flow is reduced;

after the water flow space is reduced, the water pressure is increased, and after the water pressure is increased to a set value of the pressure valve 302, the pressure valve 302 is opened to release the pressure, so that the water flow enters the sample storage tank 303 from the sampling pipe 301, a water source sample is sampled, the water source flow drives the driving tapping wheel 403 to rotate, the driving tapping wheel 403 continuously pushes the lifting trigger block 406 to rotate, the lower contact block 407 and the upper contact block 408 are continuously contacted and disconnected, and the water pressure can be calculated through the contact frequency of the lower contact block 407 and the upper contact block 408;

when the water pressure in the conveying pipeline body 1 is low, even if the pair of blocking plates 202 are attached to the conveying pipeline body 1, when the water pressure in the conveying pipeline body 1 can not reach the set value of the pressure valve 302, the pair of driving cylinders 217 are started, the pair of driving cylinders 217 push the pair of pressurizing blocks 203 to approach each other, and finally the left attaching buckle 215 and the right attaching buckle 216 are attached to each other, so that the water source is prevented from flowing, the water source pressure is increased, the water pressure can reach the set value of the pressure valve 302, and a water source sample can be conveniently taken.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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 (10)

1. The utility model provides an energy-conserving monitoring facilities of city domestic water conveyer pipe intelligence which characterized in that includes:

the pipeline conveying device comprises a conveying pipeline body (1), wherein a pair of widening openings (101) are formed in the conveying pipeline body (1);

the pressure regulating mechanism (2) is arranged on the conveying pipeline body (1), the pressure regulating mechanism (2) comprises a pair of covering frames (201), the pair of covering frames (201) are symmetrically arranged relative to the conveying pipeline body (1), a plugging plate (202) matched with the widening port (101) is arranged in each covering frame (201), and a pressing block (203) is arranged on each plugging plate (202);

the sampling mechanism (3) is arranged on the conveying pipeline body (1), and the sampling mechanism (3) is used for conveying a water source sample in the conveying pipeline body (1) so as to be convenient to operate and collect;

pressure measurement mechanism (4), install in pipeline body (1) for detect the pressure of carrying the water source in pipeline body (1), be convenient for observe and the record, pressure measurement mechanism (4) are including supporting barrel holder (401), be equipped with back shaft (402) on supporting barrel holder (401), it beats wheel (403) to rotate to be connected with the drive on back shaft (402).

2. The intelligent energy-saving monitoring equipment for the urban domestic water conveying pipe according to claim 1, wherein an auxiliary propelling block (204) is installed on the covering frame (201), a propelling screw (205) is connected to the auxiliary propelling block (204) through threads, one end of the propelling screw (205) is inserted into the covering frame (201), and a rotating wheel (206) is installed at one end of the propelling screw (205) outside the covering frame (201).

3. The intelligent energy-saving monitoring equipment for the urban domestic water conveying pipe according to claim 2, wherein a supporting bearing (207) is installed on one side of the blocking plate (202) close to the pushing screw (205), the supporting bearing (207) is sleeved at one end of the pushing screw (205) in the covering frame (201), and a first sealing ring (208) is sleeved on the blocking plate (202).

4. The intelligent energy-saving monitoring equipment for the urban domestic water delivery pipe according to claim 1, wherein a plurality of supporting slide bars (209) are arranged in the covering frame (201), the supporting slide bars (209) are connected with blocking sliders (210) in a sliding manner, one sides of the blocking sliders (210) are fixedly connected with the blocking plate (202), tensioning springs (211) are connected between the blocking sliders (210) and the covering frame (201), and the supporting slide bars (209) are sleeved with the tensioning springs (211).

5. The intelligent energy-saving monitoring equipment for the urban domestic water delivery pipe according to claim 4, wherein a limiting groove is formed in the blocking slider (210), and a limiting block (212) matched with the limiting groove is arranged in the covering frame (201).

6. The intelligent energy-saving monitoring equipment for the urban domestic water delivery pipe according to claim 1, wherein a second sealing ring (213) is connected between the pressurizing block (203) and the blocking plate (202), one side of the pressurizing block (203) close to the delivery pipe body (1) is connected with a supporting blocking plate (214), and a pair of the supporting blocking plates (214) are respectively provided with a left attaching buckle (215) and a right attaching buckle (216) which are matched with each other.

7. The intelligent energy-saving monitoring device for the urban domestic water delivery pipe according to claim 1, wherein one end of the pressurizing block (203), which is far away from the supporting sealing cover plate (214), penetrates through the covering frame (201) to be arranged, one end of the pressurizing block (203), which is arranged outside the covering frame (201), is connected with a driving cylinder (217), the driving cylinder (217) is sleeved with a fixing sleeve (218), and the fixing sleeve (218) is connected with a fixing rod (219).

8. The intelligent energy-saving monitoring device for the urban domestic water delivery pipe according to claim 1, wherein the sampling mechanism (3) comprises a sampling pipe (301), a pressure valve (302) is connected between the sampling pipe (301) and the delivery pipe body (1), and the other end of the sampling pipe (301) is connected with a sample storage tank (303).

9. The intelligent energy-saving monitoring equipment for the urban domestic water delivery pipe according to claim 1, wherein a fixed pipe (404) is sleeved on the supporting barrel frame (401), the fixed pipe (404) is fixedly connected with the delivery pipe body (1), and a pressure display (405) is arranged on the fixed pipe (404).

10. The intelligent energy-saving monitoring device for the urban domestic water delivery pipe according to claim 1, wherein a trigger groove is formed in the supporting barrel frame (401), a lifting trigger block (406) is arranged in the trigger groove, a lower contact block (407) and an upper contact block (408) are arranged on one side of the lifting trigger block (406), the lower contact block (407) is fixedly connected with the lifting trigger block (406), the upper contact block (408) is fixedly connected with the supporting barrel frame (401), and a return spring (409) is connected between the lifting trigger block (406) and the supporting barrel frame (401).

Images