WO2016108724A1

WO2016108724A1 - System for protecting a water supply system against leaks

Info

Publication number: WO2016108724A1
Application number: PCT/RU2015/000594
Authority: WO
Inventors: Павел Эдуардович МЕЛЬНИКОВ
Original assignee: Павел Эдуардович МЕЛЬНИКОВ
Priority date: 2014-12-29
Filing date: 2015-09-21
Publication date: 2016-07-07
Also published as: EA201500078A1

Abstract

The invention relates to the field of water supply. The claimed system comprises at least one primary leak detector, at least one secondary leak detector, and a controller, which is electrically connected to the primary and secondary leak detectors and also to an electric control drive of a stop valve. The controller is designed to be capable of transmitting to the electric control drive of a stop valve a command to shut off a water supply pipe if there is a flow of water through a primary leak detector but no flow of water through a secondary leak detector. This provides for a high degree of sensitivity and protection along the entire length of the pipes of a local water supply system.

Description

Water leakage protection system

The invention relates to water supply systems of buildings or structures, and specifically to a leakage protection system of a local water supply system mounted within the same apartment, or in other rooms where a local water supply system of one consumer is mounted.

Prior art

A known system of protection against leaks in the water supply system, based on the use of moisture sensors that are installed in places of the most likely leakage (bathrooms, bathrooms and the like). When leaking, water enters the sensor. The sensor transmits through the wire either a radio signal to the electric valve located at the entrance to the water supply system, which completely shuts off the water in the water supply system until the cause of the leak is eliminated (RU 74505 U1, IPC G08B 21/20, 2008).

This known system will only work if moisture enters the moisture sensor. If a leak occurs in a place where there is no moisture sensor, the system will not work. If the moisture sensor is located far from the leak, then for the moisture sensor to work, sufficient water must flow out of the disturbed water supply so that it begins to come into contact with the moisture sensor. By this time, material damage may already be done. It is also possible false operation of the moisture sensor in the event of spillage of water on it or as a result of moisture condensation on the sensor. When triggered, this known system disables both damaged and undamaged water supply circuits (for example, the local cold water supply circuit and the local hot water supply circuit), since the system cannot distinguish which of the local water supply circuits is damaged. SUMMARY OF THE INVENTION

The technical result consists in expanding the arsenal of means for protection against leakage of the water supply system of a building or structure, in providing high sensitivity and protection along the entire length of the pipelines of the local water supply system connected to the central water supply system of the building or structure.

Achieving the technical result provides a system of protection against leaks of the water supply system, containing:

- at least one primary flow sensor installed in series with a shut-off valve made with an electric control actuator at the inlet of at least one local water supply circuit of the water supply pipe;

- at least one secondary flow sensor installed sequentially in the water supply pipe of the specified local water supply circuit immediately before connecting at least one water tapping device connected to the water supply pipe after said shut-off valve;

- a controller connected electrically with the primary and secondary flow sensors, as well as with the electric control valve shut-off valve and configured to issue a command to shut off the water supply to the electric control valve shut-off valve if there is a water current through the primary flow sensor and there is no water current through the secondary duct sensor.

As a rule, due to the presence of several water taps, the leakage protection system of the water supply system is equipped with additional secondary flow sensors installed in series in the water supply pipelines immediately before each additional water tapping device is connected to the water supply pipe of the aforementioned local water supply circuit after said shut-off valve . Wherein the controller is electrically connected to additional secondary flow sensors and is configured to issue a command to shut off the water supply to the electric control valve of the stopcock if there is a water current through the primary flow sensor and there is no water current through any additional secondary flow sensor.

As a rule, due to the presence of a second local water supply circuit (the first local water supply circuit is cold water supply, and the second local water supply circuit is hot water supply), the leakage protection system of the water supply system is equipped with:

- a second primary flow sensor installed in series with a second shut-off valve, made with an electric control drive, at the inlet of the second local water supply circuit of the water supply pipe;

- secondary flow sensors installed in series in the water supply pipe of the second local water supply circuit immediately before connecting the water-folding devices connected to the water supply pipe after the specified second stopcock.

In this case, the controller is connected electrically with the second primary and secondary flow sensors of the second local water supply circuit, as well as with the electric control actuator of the second shut-off valve and is configured to command the water supply to be shut off to the electric control actuator of the second shut-off valve if there is a water flow through the second the primary flow sensor and the lack of water flow through the secondary flow sensor of the second local water supply circuit.

In all embodiments of the invention, a water meter installed in series with a stopcock can be used as a primary flow sensor. Also, in all embodiments of the invention, the controller can be connected for transmitting and receiving commands with the central control system of the water supply system of the building or structure to which the mentioned circuit of the local water supply system is connected, for controlling the shut-off valve. This implementation allows you to remotely send information to the control center of a building or structure about an accident at any of the local water supply systems (in any apartment or in other rooms where the local water supply system of one consumer is mounted). It also becomes possible to remotely disconnect certain local water supply systems from the central water supply system of a building or structure.

The possibility of carrying out the invention

The possibility of carrying out the invention is illustrated by an example of a leakage protection system of a water supply system, which is illustrated in graphic materials, where Fig. 1 shows a schematic diagram of a leakage protection system of water supply systems. The solid lines conventionally show the pipelines of the water supply circuits, and the dashed lines indicate the lines of electrical connections.

The leakage protection system of the water supply system contains:

- a primary flow sensor 1, mounted in series with a shut-off valve 2, made with an electric control drive, at the input of at least one local water supply circuit 3 of the water supply pipe (for example, a cold water supply circuit);

- secondary flow sensors 4, mounted in series in the water supply pipe of the specified local water supply circuit 3 immediately before connecting the water-folding devices 5 connected to the water supply pipe after the specified stopcock 2; - a controller 6, connected electrically with the primary 1 and secondary 4 flow sensors, as well as with the electric control actuator of the stopcock 2 and configured to issue a command to shut off the water supply to the electric control actuator of the stopcock 2 if there is a water current through the primary flow sensor 1 and the absence of water flow through the secondary duct sensor 4;

- a second primary flow sensor 6, installed in series with a second shut-off valve 7, made with an electric control drive, at the inlet of the second local water supply circuit 8 of the water supply pipe (for example, cold water supply circuit);

- secondary flow sensors 9, installed sequentially in the water supply pipe of the second local water supply circuit 8 immediately before connecting the water pickup devices 5 connected to the water supply pipe after the specified second stopcock 7;

The controller 6 is also electrically connected with the second primary 6 and secondary 9 flow sensors of the second local water supply circuit 8, as well as with the electric control actuator of the second shut-off valve 7 and is configured to send a command to shut off the water supply to the electric control actuator of the second shut-off valve 7 if water flow through the second primary flow sensor 6 and the absence of water flow through the secondary flow sensors 9 of the second local water supply circuit 8.

Depending on the signals supplied by the secondary flow sensors4, 9, the leakage protection system of the water supply system will work in the following modes.

1. The primary duct sensor 1 or 6 indicates the presence of a water duct, one or more secondary duct sensors 4 or 9 also indicate the presence of a water duct. - This situation corresponds to the operation of the water supply system during tapping (for example, when a tenant the apartment uses some kind of water-lifting device5). In this case, all the water entering the apartment through the primary flow sensor 1 or 6, goes into the sewer through the used water tapping device 5.

2. The primary flow sensor 1 or 6 signals the absence of a water flow, all secondary flow sensors 4 or 9 signal the absence of a water flow. This mode corresponds to the lack of water intake in the water supply system. That is, water does not enter the apartment.

3. The primary flow sensor 1 or 6 signals the presence of a water flow, all secondary flow sensors 4 or 9 signal the absence of a water flow. The presence of a water flow at the primary flow sensor 1 or 4 indicates that water is entering the apartment, but the absence of a water flow at the secondary flow sensors 4 or 9 indicates that there is no water analysis at the moment. This indicates that the water entering the apartment goes into a leak, bypassing the secondary flow sensors 4 or 9. In this mode, the controller must send a signal to close the shut-off valve 2 or 7 and prevent leakage.

4. The primary flow sensor 1 or 6 signals the absence of a water flow, the secondary flow sensor 4 or 9 signals the presence of a water flow. This mode of operation in a normal water supply system is not possible. This mode is possible only in the event of a wire break between any primary 1, 6 or any of the secondary flow sensors 4, 9 and controller 6. In this case, controller 6 should signal an error.

The leakage protection system of the water supply system in accordance with the invention has several advantages: the flow rate of the leakage at which the protection will be triggered depends on the sensitivity threshold of the selected primary flow sensor 1, 6. You can select a primary flow sensor 1, 6 with zero sensitivity to prevent even drip leaks. This circuit protects the pipeline from leaking over the entire length, starting from the primary flow sensor 1, 6 and ending with the secondary flow sensor 4, 9. If the primary flow sensor 1, 6 will be installed in front of the stopcock 2, 7 in the apartment, and the secondary flow sensor 4, 9 directly in front of the water tapping device 5, then the entire apartment pipeline will be protected from leakage, regardless of where it occurred.

For primary 1, 6 and secondary 4, 9 flow sensors, for example, piston, flap, vane and piston sensors can be used. As a primary flow sensor 1, 6, a water meter can be used installed in series with a shut-off valve to account for water flow.

The controller 6 can be connected to transmit and receive commands with the central control system of the water supply system of a building or structure (not shown in the diagram), to which the mentioned circuits 3, 8 of the local water supply system are connected, for controlling shut-off valves 2, 7. In this case, you can remotely send information to the control room at home about an accident in an apartment, as well as remotely disconnect certain apartments from the central water supply system 10, for example, due to non-payment of the established tariff for use water calling.

In order to restart the repaired water supply system it is not necessary to disassemble it, just click on the start button provided on the controller.

The example embodiment of the invention is not exhaustive. Other embodiments of the invention are possible, corresponding to the scope of patent claims. All leakage protection systems of a water supply system included in accordance with the invention are made using known means and methods.

Claims

Claim

1. A leakage protection system for a water supply system, comprising,

at least one primary flow sensor installed in series with a stopcock made with an electric control actuator at the inlet of at least one local water supply circuit of the water supply pipe,

at least one secondary flow sensor installed in series in the water supply pipe of the specified local water supply circuit immediately before connecting at least one water tapping device connected to the water supply pipe after said shut-off valve,

a controller connected electrically to the primary and secondary flow sensors, as well as to the electric control valve shut-off valve and configured to issue a command to shut off the water supply to the electric control valve shut-off valve if there is a water current through the primary flow sensor and there is no water current through the secondary sensor duct.

2. The system according to claim 1, characterized in that it is equipped with additional secondary flow sensors installed in series in the water supply pipelines immediately before connecting each additional water tapping device connected to the water supply pipe of the aforementioned local water supply circuit after said shut-off valve,

the controller is electrically connected to additional secondary flow sensors and is configured to send a command to shut off the water supply to the electric control valve of the stopcock if there is water flow through the primary flow sensor and there is no water current through any additional secondary flow sensor.

3. The system according to claim 2, characterized in that it is equipped with a second primary flow sensor installed in series with a second shut-off valve, made with an electric control actuator, at the inlet of the second local water supply circuit of the water supply pipe,

at least one secondary flow sensor installed in series in the water supply pipe of the second local water supply circuit immediately before connecting, a water tapping device connected to the water supply pipe after said second stopcock, the controller being electrically connected to the second primary and secondary flow sensors of the second a local water supply circuit, as well as with an electric control drive of the second stopcock and is configured to command about blocking the water supply to the electric control drive of the second stopcock if there is a water flow through the second primary flow sensor and there is no water flow through the secondary flow sensor of the second local water supply circuit.

4. The system according to claim 3, characterized in that it is equipped with additional secondary flow sensors installed in series in the water supply pipelines of the second local water supply circuit immediately before connecting each additional water tapping device connected to the water supply pipe of the second local water supply circuit after the second stopcock ,

the controller is electrically connected to additional secondary flow sensors and is configured to send a command to shut off the water supply to the electric control actuator of the second stopcock if there is a water current through the second primary flow sensor and there is no water current according to any additional secondary flow sensor of the second local water supply circuit.

5. The system according to any one of paragraphs 1 or 2, characterized in that a water meter used in series with the stopcock is used as the primary flow sensor.

6. The system according to any one of paragraphs 3 to 4, characterized in that water meters installed in series with the first and second stopcocks, respectively, are used as the main and second primary flow sensors.

7. The system according to any one of paragraphs 1 or 2, characterized in that the controller is connected for transmitting and receiving commands with the central control system of the water supply system of the building or structure to which the said circuit of the local water supply system is connected, for controlling the shut-off valve.

8. The system according to any one of paragraphs 3 or 4, characterized in that the controller is connected to transmit and receive commands with the central control system of the water supply system of the building or structure to which the above-mentioned main and second circuits of the local water supply system are connected, for controlling the first and second shutoff by cranes.

9. The system according to claim 5, characterized in that the controller is connected for transmitting and receiving commands with the central control system of the water supply system of the building or structure to which the said circuit of the local water supply system is connected, for controlling the shut-off valve.

10. The system according to claim 6, characterized in that the controller is connected for transmitting and receiving commands with the central control system of the water supply system of the building or structure to which the aforementioned main and second circuits of the local water supply system are connected, for controlling the first and second stopcocks.