CN115419840A - Heat exchange station detection system that leaks - Google Patents

Abstract

The invention relates to the technical field of heat exchange stations, in particular to a water leakage detection system of a heat exchange station; including the water logging detector, central processing module, power module, communication module, wisdom heat supply dispatch center and mounting structure, install a plurality of water logging detectors on the installed part of the installation mechanism that corresponds, establish first installation semi-ring and second installation semi-ring cover in the outside of pipeline after, under the effect of the restoring force of first elastic component and second elastic component, make the laminating of corresponding first centre gripping semi-ring and second centre gripping semi-ring in the outside of pipeline, it is fixed with first installation semi-ring and second installation semi-ring to utilize the bolt, thereby install the outside at the pipeline of difference with a plurality of water logging detectors through a plurality of mounting structure, adopt above-mentioned structure, compare in installing the mode on the wall with the water logging detector, when the pipeline leaks, need not rivers to wall department, can detect the signal that leaks through the water logging detector, it is more timely to the detection of the signal that leaks.

Description

Heat exchange station detection system that leaks

Technical Field

The invention relates to the technical field of heat exchange stations, in particular to a heat exchange station water leakage detection system.

Background

The heat exchange station has a primary loop, a secondary loop, a water replenishing loop and various instruments in the unattended heat exchange station, and due to the fact that the number of pipelines is large, the situation of pipeline water leakage is easy to occur after long-term operation, and once water leakage occurs, measures are not taken timely, damage and corresponding potential safety hazards of equipment such as a motor and a distribution box are easily caused.

For solving above problem, current patent publication (CN 207529206U) discloses a heat exchange station detection system that leaks, including water logging detector, central processing module, power module, communication module and wisdom heat supply dispatch center, power module is water logging detector, central processing module and communication module power supply respectively, water logging detector output links to each other with central processing module input, central processing module passes through communication module and wisdom heat supply dispatch center communication connection. The utility model discloses a water logging detector detects the inside situation of leaking that whether exists in heat transfer station, when detecting the situation of leaking, the water logging detector is to central processing module output alarm signal, and central processing module is outputting alarm signal to wisdom heat supply dispatch center, reminds the staff to notice, avoids the heat transfer station internal plant to damage because of leaking.

However, most of water immersion detectors in the existing heat exchange station water leakage detection system are fixed on the wall through bolts and cannot be directly installed on the pipeline, when the pipeline leaks water, the water leakage signal can be detected through the water immersion detectors when the water flow of the water leakage position reaches the wall, and the detection of the water leakage signal is not timely enough.

Disclosure of Invention

The invention aims to provide a heat exchange station water leakage detection system, which solves the problems that most water immersion detectors in the heat exchange station water leakage detection system in the prior art are fixed on a wall surface through bolts and cannot be directly installed on a pipeline, when water leaks from the pipeline, a water leakage signal can be detected through the water immersion detectors only when the water at the water leakage position flows to the wall surface, and the water leakage signal is not detected timely enough.

In order to achieve the purpose, the invention provides a heat exchange station water leakage detection system which comprises a water immersion detector, a central processing module, a power module, a communication module, a smart heat supply dispatching center and an installation structure, wherein the power module is used for supplying power to the water immersion detector, the central processing module and the communication module respectively;

the mounting structure comprises a first mounting semi-ring, a second mounting semi-ring, a plurality of first elastic pieces, a plurality of second elastic pieces, a first clamping semi-ring, a second clamping semi-ring and a mounting piece, wherein the inner side of the first mounting semi-ring is provided with the first clamping semi-ring, the inner side of the second mounting semi-ring is provided with the second clamping semi-ring, a plurality of first elastic pieces are arranged between the first mounting semi-ring and the first clamping semi-ring, a plurality of second elastic pieces are arranged between the second mounting semi-ring and the second clamping semi-ring, connecting blocks are arranged at two ends of the first mounting semi-ring and at two ends of the second mounting semi-ring, the connecting blocks on the first mounting semi-ring are in bolted connection with the connecting blocks on the second mounting semi-ring, the mounting piece is in detached connection with the first mounting semi-ring and is located at the outer side of the first mounting semi-ring, and the mounting piece is used for mounting the water logging detector.

Each first elastic part comprises a first spring, a first arc-shaped block and a second arc-shaped block, the first arc-shaped block is arranged at one end of the first spring, the second arc-shaped block is arranged at the other end of the first spring, the first arc-shaped block is detachably connected with the first installation semi-ring, and the second arc-shaped block is detachably connected with the first clamping semi-ring.

Each second elastic part comprises a second spring, a third arc-shaped block and a fourth arc-shaped block, the third arc-shaped block is arranged at one end of the second spring, the fourth arc-shaped block is arranged at the other end of the second spring, the third arc-shaped block is detachably connected with the second installation semi-ring, and the fourth arc-shaped block is detachably connected with the second clamping semi-ring.

The mounting piece comprises a wing ring and a mounting plate, the wing ring is detachably connected with the first mounting semi-ring, the mounting plate is fixedly connected with the wing ring, and the water immersion detector is mounted on the mounting plate.

The heat exchange station water leakage detection system further comprises a user side alarm unit, the user side alarm unit is in communication connection with the intelligent heat supply dispatching center, and the user side alarm unit is used for sending alarm information to a user side of the current heat exchange station when the intelligent heat supply dispatching center receives water leakage information of a certain heat exchange station, so that the current user side is reminded of timely processing the water leakage condition of the heat exchange station.

The user side alarm unit comprises a buzzer and a warning lamp, and the buzzer and the warning lamp are installed in the duty area of the user side.

The heat exchange station water leakage detection system further comprises a main valve control module, the main valve control module is electrically connected with the central processing unit, and the main valve control module is used for controlling the opening and closing of the main valve.

The invention discloses a heat exchange station water leakage detection system which comprises a water immersion detector, a central processing module, a power supply module, a communication module, a smart heat supply dispatching center and a mounting structure, wherein the mounting structure comprises a first mounting semi-ring, a second mounting semi-ring, a plurality of first elastic members, a plurality of second elastic members, a first clamping semi-ring, a second clamping semi-ring and a mounting member, the plurality of water immersion detectors are mounted on the mounting member of the corresponding mounting mechanism, the first mounting semi-ring and the second mounting semi-ring are sleeved outside pipelines with different sizes, and then the corresponding first clamping semi-ring and the corresponding second clamping semi-ring are attached to the outside of the pipelines with different sizes under the action of restoring force of the first elastic member and the second elastic member, and a connecting block on the first mounting semi-ring and a connecting block on the corresponding second mounting semi-ring are fixed through bolts, so that the plurality of water immersion detectors are mounted outside the pipelines with different sizes through the mounting structure, and when the water immersion detectors are mounted on a wall surface, water leakage signals can be detected in time.

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 of 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 schematic block diagram of a water leakage detection system of a heat exchange station according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a mounting structure in the first embodiment of the present invention.

Fig. 3 is a partial structural schematic view of the mounting structure in the first embodiment of the present invention.

Fig. 4 is a schematic view of a partial structure at a of fig. 3 according to the present invention.

Fig. 5 is a schematic block diagram of a water leakage detection system of a heat exchange station according to a second embodiment of the present invention.

Fig. 6 is a partial structural view of a mounting structure in a third embodiment of the invention.

Fig. 7 is a schematic view of a partial structure at B of fig. 6 according to the present invention.

101-water immersion detector, 102-central processing module, 103-power supply module, 104-communication module, 105-intelligent heat supply dispatching center, 106-first installation semi-ring, 107-second installation semi-ring, 108-first elastic member, 109-second elastic member, 110-first clamping semi-ring, 111-second clamping semi-ring, 112-installation member, 113-first spring, 114-first arc block, 115-second arc block, 116-second spring, 117-third arc block, 118-fourth arc block, 119-wing ring, 120-installation plate, 121-connection block, 122-main valve control module, 201-user end alarm unit, 202-buzzer, 203-warning lamp, 301-protection sleeve, 302-rubber capsule, 303-first installation block and 304-second installation block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

The first embodiment:

referring to fig. 1 to 4, fig. 1 is a schematic block diagram of a water leakage detection system of a heat exchange station according to a first embodiment, fig. 2 is a schematic structural diagram of an installation structure according to the first embodiment, fig. 3 is a schematic partial structural diagram of the installation structure according to the first embodiment, and fig. 4 is a schematic partial structural diagram of a point a in fig. 3. The invention provides a heat exchange station water leakage detection system which comprises a water immersion detector 101, a central processing module 102, a power supply module 103, a communication module 104, a smart heat supply dispatching center 105 and a mounting structure, wherein the mounting structure comprises a first mounting half ring 106, a second mounting half ring 107, a plurality of first elastic members 108, a plurality of second elastic members 109, a first clamping half ring 110, a second clamping half ring 111 and a mounting member 112, each first elastic member 108 comprises a first spring 113, a first arc-shaped block 114 and a second arc-shaped block 115, each second elastic member 109 comprises a second spring 116, a third arc-shaped block 117 and a fourth arc-shaped block 118, and the mounting member 112 comprises a wing ring 119 and a mounting plate 120.

To this embodiment, power module 103 does respectively the water logging detector 101 central processing module 102 with communication module 104 supplies power, water logging detector 101 output links to each other with central processing module 102 input, central processing module 102 passes through communication module 104 with wisdom heat supply dispatch center 105 communication connection, through water logging detector 101 detects the inside situation of leaking that exists of heat exchange station, when detecting the situation of leaking, water logging detector 101 to central processing module 102 output alarm signal, central processing module 102 to wisdom heat supply dispatch center 105 output alarm signal reminds the staff in time to handle the heat exchange station that the situation of leaking appears to avoid appearing in time taking measures, cause the damage of equipment such as motor, block terminal in the heat exchange station.

Wherein the first clamping half ring 110 is disposed on the inner side of the first installation half ring 106, the second clamping half ring 111 is disposed on the inner side of the second installation half ring 107, a plurality of first elastic members 108 are disposed between the first installation half ring 106 and the first clamping half ring 110, a plurality of second elastic members 109 are disposed between the second installation half ring 107 and the second clamping half ring 111, connecting blocks 121 are disposed on both ends of the first installation half ring 106 and the second installation half ring 107, the connecting blocks 121 on the first installation half ring 106 are bolted to the connecting blocks 121 on the second installation half ring 107, the mounting members 112 are detachably connected to the first installation half ring 106 and are located on the outer side of the first installation half ring 106, and the mounting members 112 are used for mounting the water logging probe 101, the plurality of water logging detectors 101 are mounted on the mounting members 112 of the corresponding mounting mechanisms, after the first mounting half ring 106 and the second mounting half ring 107 are sleeved on the exterior of the pipes with different sizes, the corresponding first clamping half ring 110 and the second clamping half ring 111 are attached to the exterior of the pipes with different sizes under the restoring force of the first elastic member 108 and the second elastic member 109, the connecting block 121 on the first mounting half ring 106 and the connecting block 121 on the corresponding second mounting half ring 107 are fixed by using bolts, so that the plurality of water logging detectors 101 are mounted on the exterior of the different pipes by the plurality of mounting structures, and compared with the way of mounting the water logging detectors 101 on the wall, when the pipe leaks, the water logging signals can be detected by the water logging detectors 101 without flowing to the wall, the detection of the water leakage signal is more timely.

Secondly, the first arc-shaped block 114 is arranged at one end of the first spring 113, the second arc-shaped block 115 is arranged at the other end of the first spring 113, the first arc-shaped block 114 is detachably connected with the first installation half ring 106, the second arc-shaped block 115 is detachably connected with the first clamping half ring 110, the first arc-shaped block 114 is fixed on the first installation half ring 106 by screws, and the second arc-shaped block 115 is fixed on the first clamping half ring 110 by screws, so that the installation of the first elastic member 108 is completed.

Meanwhile, the third arc-shaped block 117 is disposed at one end of the second spring 116, the fourth arc-shaped block 118 is disposed at the other end of the second spring 116, the third arc-shaped block 117 is detachably connected to the second installation half ring 107, the fourth arc-shaped block 118 is detachably connected to the second clamping half ring 111, the third arc-shaped block 117 is fixed to the second installation half ring 107 by screws, and the fourth arc-shaped block 118 is fixed to the second clamping half ring 111 by screws, so that the second elastic member 109 is installed.

In addition, the wing ring 119 is detachably connected to the first installation half ring 106, the mounting plate 120 is fixedly connected to the wing ring 119, the water sensor 101 is mounted on the mounting plate 120 by screws, and the wing ring 119 is mounted on the outer side of the first installation half ring 106 by screws, so that the water sensor 101 is mounted on the first installation half ring 106, and the mounting plate 120 is fixedly connected to the wing ring 119.

Because, heat exchange station detection system that leaks still includes main valve control module 122, main valve control module 122 with central processing unit electric connection, main valve control module 122 is used for controlling the switching of main valve, works as when water logging detector 101 detects current heat exchange station and appears leaking the information, through main valve control module 122 closes the main valve of current heat exchange station, avoids the continuous leaking to current heat exchange station of damaged pipeline, leads to the damage of equipment such as motor, block terminal in the current heat exchange station.

When the water leakage detection system for the heat exchange station is used, whether a water leakage condition exists in the heat exchange station is detected through the water immersion detector 101, when the water leakage condition is detected, the water immersion detector 101 outputs an alarm signal to the central processing module 102, the central processing module 102 outputs an alarm signal to the intelligent heat supply dispatching center 105, and a worker is reminded of timely processing the heat exchange station with the water leakage condition, so that damage to equipment such as a motor and a distribution box in the heat exchange station due to untimely measures is avoided, the water immersion detectors 101 are installed on the installation parts 112 of the corresponding installation mechanisms, the first installation half rings 106 and the second installation half rings 107 are sleeved outside the pipelines with different sizes, the first elastic members 108 and the second elastic members 109 are attached to the outsides of the pipelines with different sizes under the restoring force action of the corresponding first clamping half rings 110 and the second clamping half rings 111, the connection blocks 121 on the first installation half rings 106 and the corresponding connection blocks on the second installation blocks 107 are fixed through bolts, so that the water immersion detectors are installed on the wall surface structures, and the water leakage detection signal can be detected when the water leakage signal of the water immersion detectors 101 is detected, and the water leakage signal can be detected more timely by adopting a water immersion detector structure when the water leakage detection method that the water leakage detection system is adopted.

Second embodiment:

referring to fig. 5 on the basis of the first embodiment, fig. 5 is a schematic block diagram of a water leakage detection system of a heat exchange station according to a second embodiment. The invention provides a heat exchange station water leakage detection system which further comprises a user side alarm unit 201, wherein the user side alarm unit 201 comprises a buzzer 202 and a warning lamp 203.

To this embodiment, user end alarm unit 201 with wisdom heat supply dispatch center 105 communication connection, user end alarm unit 201 is used for working as wisdom heat supply dispatch center 105 receives when certain heat transfer station appears leaking information, sends alarm information to the user at present heat transfer station to remind current user end in time to handle the heat transfer station situation of leaking, work as wisdom heat supply dispatch center 105 receives when certain heat transfer station appears leaking information, through user end alarm unit 201 sends alarm information to the user at present heat transfer station, thereby reminds current user end in time to handle the heat transfer station situation of leaking, thereby clears up present heat transfer station with the water of leaking in the present heat transfer station, thereby avoids the damage of equipment such as motor, block terminal in the present heat transfer station.

The buzzer 202 and the warning lamp 203 are installed in the on-duty area of the user side, and if water leakage information occurs in the current heat exchange station, sound and light alarm is given to workers in the on-duty area of the user side through the buzzer 202 and the warning lamp 203.

When using a heat exchange station detection system that leaks of this embodiment, work as wisdom heat supply dispatch center 105 receives certain heat exchange station and when the information that leaks appears, through bee calling organ 202 with warning light 203 sends audible-visual alarm to the staff in the region on duty of user side to remind current user side in time to handle the heat exchange station situation of leaking, thereby clear up out current heat exchange station with the water of current heat exchange station internal leakage, thereby avoid the damage of equipment such as motor, the block terminal in the current heat exchange station.

The third embodiment:

referring to fig. 6 and 7 based on the first embodiment, fig. 6 is a partial structural diagram of a mounting structure in a third embodiment, and fig. 7 is a partial structural diagram at B of fig. 6. The invention provides a heat exchange station water leakage detection system which further comprises a plurality of protective sleeves 301, wherein each protective sleeve 301 comprises a rubber bag 302, a first mounting block 303 and a second mounting block 304.

For the present embodiment, each of the first springs 113 and each of the second springs 116 is sleeved with the protective sheath 301, one end of the protective sheath 301 is detachably connected to the corresponding first arc-shaped block 114 and the third arc-shaped block 117, the other end of the protective sheath 301 is detachably connected to the corresponding second arc-shaped block 115 and the fourth arc-shaped block 118, the protective sheath 301 is disposed outside the first springs 113 and the second springs 116, and the first springs 113 and the second springs 116 are protected by the protective sheath 301, so that the first springs 113 and the second springs 116 are prevented from being interfered by the external environment, and the service lives of the first springs 113 and the second springs 116 are prolonged.

The rubber bag 302 is sleeved outside the corresponding first spring 113 and second spring 116, one end of the rubber bag 302 is provided with the first mounting block 303, the other end of the rubber bag 302 is provided with the second mounting block 304, the first mounting block 303 is detachably connected with the corresponding first arc-shaped block 114 and third arc-shaped block 117, the second mounting block 304 is detachably connected with the corresponding second arc-shaped block 115 and fourth arc-shaped block 118, the rubber bag 302 is sleeved outside the corresponding first spring 113 and second spring 116, the first mounting block 303 is fixed on the corresponding first arc-shaped block 114 and third arc-shaped block 117 by screws, and the second mounting block 304 is fixed on the corresponding second arc-shaped block and fourth arc-shaped block 118 by screws, so that the protective sleeve 301 is mounted.

When the heat exchange station water leakage detection system is used, the rubber bag 302 is sleeved on the first spring 113 and the outside of the second spring 116, the first installation block 303 is fixed on the corresponding first arc-shaped block 114 and the third arc-shaped block 117 by screws, and the second installation block 304 is fixed on the corresponding second arc-shaped block and the fourth arc-shaped block 118 by screws, so that the protection sleeve 301 is installed, the first spring 113 and the second spring 116 are arranged outside the protection sleeve 301, the protection sleeve 301 is used for protecting the first spring 113 and the second spring 116, the interference caused by the external environment on the first spring 113 and the second spring 116 is avoided, and the service life of the first spring 113 and the second spring 116 is prolonged.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. A heat exchange station water leakage detection system comprises a water immersion detector, a central processing module, a power module, a communication module and an intelligent heat supply dispatching center, wherein the power module supplies power for the water immersion detector, the central processing module and the communication module respectively, the output end of the water immersion detector is connected with the input end of the central processing module, the central processing module is in communication connection with the intelligent heat supply dispatching center through the communication module, and the heat exchange station water leakage detection system is characterized in that,

the device also comprises a mounting structure;

the mounting structure comprises a first mounting semi-ring, a second mounting semi-ring, a plurality of first elastic pieces, a plurality of second elastic pieces, a first clamping semi-ring, a second clamping semi-ring and a mounting piece, wherein the inner side of the first mounting semi-ring is provided with the first clamping semi-ring, the inner side of the second mounting semi-ring is provided with the second clamping semi-ring, a plurality of first elastic pieces are arranged between the first mounting semi-ring and the first clamping semi-ring, a plurality of second elastic pieces are arranged between the second mounting semi-ring and the second clamping semi-ring, connecting blocks are arranged at two ends of the first mounting semi-ring and at two ends of the second mounting semi-ring, the connecting blocks on the first mounting semi-ring are in bolted connection with the connecting blocks on the second mounting semi-ring, the mounting piece is in detached connection with the first mounting semi-ring and is located at the outer side of the first mounting semi-ring, and the mounting piece is used for mounting the water logging detector.

2. The heat exchange station water leak detection system of claim 1,

each first elastic piece comprises a first spring, a first arc-shaped block and a second arc-shaped block, the first arc-shaped block is arranged at one end of the first spring, the second arc-shaped block is arranged at the other end of the first spring, the first arc-shaped block is detachably connected with the first installation semi-ring, and the second arc-shaped block is detachably connected with the first clamping semi-ring.

3. The heat exchange station water leak detection system of claim 1,

every the second elastic component all includes second spring, third arc piece and fourth arc piece, the one end of second spring is provided with the third arc piece, the other end of second spring is provided with the fourth arc piece, the third arc piece with the second installation semi-ring is dismantled and is connected, the fourth arc piece with the second centre gripping semi-ring is dismantled and is connected.

4. The heat exchange station water leak detection system of claim 1,

the installed part includes wing ring and mounting panel, the wing ring with first installation semi-ring is dismantled and is connected, the mounting panel with wing ring fixed connection, install on the mounting panel the water logging detector.

5. The heat exchange station water leak detection system of claim 1,

the heat exchange station water leakage detection system further comprises a user side alarm unit, the user side alarm unit is in communication connection with the intelligent heat supply dispatching center, and the user side alarm unit is used for sending alarm information to a user side of the current heat exchange station when the intelligent heat supply dispatching center receives water leakage information of a certain heat exchange station, so that the current user side is reminded of timely processing the water leakage condition of the heat exchange station.

6. The heat exchange station water leak detection system of claim 5,

the user side alarm unit comprises a buzzer and a warning lamp, and the buzzer and the warning lamp are installed in the duty area of the user side.

7. The heat exchange station water leak detection system of claim 1,

the heat exchange station water leakage detection system further comprises a main valve control module, the main valve control module is electrically connected with the central processing unit, and the main valve control module is used for controlling the opening and closing of the main valve.

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