KR102244271B1 - Device for detecting leak of moisture absorption cutting type and leak detection system using the same - Google Patents

Abstract

The present invention is a housing having an inner space with an open top; A leak detection sensor installed in a disconnected state in the inner space; And a moisture absorption short-circuit unit coupled to the leak detection sensor to energize the leak detection sensor and short-circuit when moisture absorption by the leak to disconnect the leak detection sensor; including, a moisture absorption short-circuit leak detection device and a leak detection system using the same. It is about.

Description

A moisture absorption short-circuit leak detection device and a leak detection system using it {DEVICE FOR DETECTING LEAK OF MOISTURE ABSORPTION CUTTING TYPE AND LEAK DETECTION SYSTEM USING THE SAME}

The present invention relates to a moisture absorption short-circuit leak detection device and a leak detection system using the same.

In recent years, with the spread of sensing equipment and ICT technology, the development of management system technology has been made in various ways.

The management system relates to a system that manages the management of factory processes, facilities, and various facilities in an automated manner, and through this, efficient management of large-scale facilities is possible.

In particular, sprinklers are generally installed on a large scale in buildings and factories, and it is difficult to individually manage them, so it is required to establish a management system for them.

A sprinkler is a device for automatically spraying water by destroying a heat-sensitive body such as a glass bulb according to an increase in temperature during a fire.

The sprinkler has high efficiency as it is automatically sprayed physically without the need for additional manipulation or management by the administrator.

However, in the case of such a sprinkler, there are many cases in which leakage occurs due to defects or damage to the detailed device.

In general spaces such as offices and corridors, there is no special equipment, so if water leaks from the sprinkler, it is unlikely that a large loss will occur.

However, in the semiconductor, LCD, and defense industrial sites, there are a number of precision equipment for microprocessing. Therefore, when a leak occurs due to a sprinkler in the relevant site, equipment failure may occur primarily due to the leakage, and secondarily, a huge loss such as an error in the entire process or system shutdown may be caused.

In order to solve such a problem, in recent years, efforts have been made to detect the leak in advance by installing a sensing device capable of detecting the leak at the place where the leak occurs.

However, the proposed leak detection method is a method of detecting leaks through an expensive leak detection sensor, and can be applied when the number of installed sprinklers is small, but when tens to hundreds of sprinklers are installed, expensive sensors are used. It is not practically easy to apply.

In addition, since the reliability of the applied sensor's sensing function is not completely established, the drop in management efficiency due to an error is also a problem.

An object of the present invention is to provide a moisture absorption short-circuit leak detection device capable of improving operational efficiency and reliability of detection information, and a leak detection system using the same.

A moisture absorption short-circuit leak detection apparatus according to an embodiment of the present invention for realizing the above object includes: a housing having an inner space with an open top; A leak detection sensor installed in a disconnected state in the inner space; And a moisture absorption shorting unit coupled to the leak detection sensor to energize the leak detection sensor and short-circuit when moisture absorption by the leak to disconnect the leak detection sensor.

Here, the leak detection sensor may generate leak detection information according to the power failure and power supply.

Here, the leak detection sensor may include a disconnection circuit.

Here, the moisture absorption short-circuit portion, paper coupled to the disconnection circuit; And conductive ink applied to the paper; wherein the leak detection sensor is energized when combined with the paper coated with the conductive ink, and may be disconnected when the paper coated with the conductive ink is absorbed and short-circuited. have.

Here, the leak detection sensor may further include a paper fixing unit fixing the paper.

Here, the moisture absorption short circuit may further include a conductive ink circuit printed on the disconnection circuit.

Here, it may further include a communication confirmation tag installed in the inner space for transmitting communication confirmation information on the communication state.

Here, it may further include a cover formed to cover the open upper portion of the housing.

Here, the cover may include a plurality of through holes penetrating the upper surface and the lower surface.

A leak detection system according to another embodiment of the present invention for realizing the above object includes a sprinkler device having a sprinkler head; A housing with an open upper part disposed under the sprinkler header, a leak detection sensor installed in a disconnected state in the internal space, and a leak detection sensor are combined to energize the leak detection sensor and absorb moisture by leakage. A water leakage detection device having a moisture absorption short circuit that is short-circuited when the water leakage detection sensor is disconnected; A communication connection device for receiving leak detection information according to the power failure and power supply from the leak detection device; And a monitoring terminal that determines whether there is water leakage through the water leakage detection information received from the communication connection device, generates leakage confirmation information regarding a determination result, and outputs the water leakage detection information.

Here, the leak detection information includes: an On signal for the energization; And an Off signal for the power failure.

In this case, the monitoring terminal determines the sprinkler device as a leak condition when the leak branch information includes the Off signal by referring to the leak detection information, and provides the leak confirmation information including the leak condition information. Can be generated.

Here, the leak detection device further includes a communication confirmation tag for transmitting communication confirmation information on a communication state to the communication connection device, and the monitoring terminal refers to the communication confirmation information and the leak detection information, respectively, and the You can create leak check information.

According to the moisture absorption short-circuit leak detection device and the leak detection system using the same of the present invention having the above-described configuration, the detection reliability can be further improved through a detection method capable of generating leak detection information by being shorted when moisture is absorbed by the leak. have.

In addition, product productivity can be further improved by conducting power and power failure through the paper coated with the conductive ink.

In addition, it is possible to minimize detection errors due to the introduction of foreign substances through the cover and detailed configurations provided thereto.

In addition, since the communication confirmation tag is provided together, it is possible to further improve the reliability of the leakage determination by determining whether there is a leakage by referring to the communication state.

1 is a conceptual diagram for explaining the overall operation of the leak detection system 1000 of the present invention.
2 is a view for explaining a detailed structure of the leak detection apparatus 100 according to an embodiment of the present invention.
FIG. 3 is a view for explaining a case in which power is cut off and energized by the moisture absorption shorting unit 160 of the leak detection device 100 of FIG.
FIG. 4 is a diagram for explaining a moisture absorption short circuit 160 and a water leak detection sensor 150 disposed to extend in the height direction inside the housing 110.
FIG. 5 is a diagram for explaining a disconnection and conduction structure in a situation in which the conductive ink circuit 165 is printed on the disconnection circuit 151 of the leak detection sensor 150.
6 is a view for explaining a structure in which a leak outlet 153 is installed in the leak detection sensor 150.
7 is a diagram for explaining an operation process and monitored information of the leak detection system 1000 using the leak detection device 100.

Hereinafter, a moisture absorption short-circuit leak detection device and a leak detection system using the same according to a preferred embodiment of the present invention will be described in detail with reference to the drawings. In this specification, the same/similar reference numerals are assigned to the same/similar configurations even in different embodiments, and the description is replaced with the first description.

1 is a conceptual diagram for explaining the overall operation of the leak detection system 1000 of the present invention.

In the case of a factory facility equipped with a plurality of facilities (F), a plurality of sprinkler devices 200 capable of spraying water to the bottom of the factory are installed on the ceiling of the factory to prepare for situations such as fire.

The sprinkler device 200 is mainly applied to a method of automatically spraying water supplied from a pipe when a fire is detected. At this time, a sprinkler header that detects fire and directly sprays water is mainly installed on the ceiling or the like.

The sprinkler header is divided into a closed type head in which the head is opened by melting or destroying the heat-sensitive element when it reaches a certain temperature during a fire, and an open-type head that is sprayed with the head always open because there is no thermal element.

These sprinkler headers may be installed on the ceiling, sidewalls, floors, etc., respectively, depending on the construction design, but are generally installed on the ceiling to enable spraying for multiple areas.

In the part that early suppression of fire can be made through sprinkler headers installed on the ceiling, the fact that there is great efficiency in spreading and preventing fires has been known by long researches and demonstrations.

However, since the sprinkler device 200 is mainly used as a wet type that directly sprays water, leakage may occur due to damage or defects in some devices even when it is not in a fire.

Here, leakage refers mainly to water used as fire extinguishing water, but is not limited to water and may include all liquids such as oil that may leak out of the device.

If the place where the leak occurs is a living space such as a general office or a corridor, a major problem may not occur if the user detects the leak and takes follow-up measures such as repair.

However, if the place where the sprinkler device 200 is installed is a large-scale process for producing a precision product or a place where a facility F for a precision process exists, a large loss may occur according to the corresponding leakage.

For example, when the leak generated from the sprinkler device 200 enters the process facility F described above, failure loss for the expensive facility F may be primarily caused, and the process process installed as a continuous process In the case of system shutdown and errors, secondary losses for the entire product production may occur in series.

In order to solve such a problem, a leak detection apparatus 100 and a leak detection system 1000 as in the present invention are proposed.

The leak detection system 1000 detects the leak generated from the sprinkler device 200 installed on the facility F with the leak detection device 100, and transmits the detected leak detection information to the communication connection device 300. The basic process is to transmit it to the monitoring terminal 400 in connection.

In this case, the leak detection device 100 is provided in a sprinkler header and includes a means for generating leak detection information related to the short circuit when the sprinkler header absorbs the leak water falling from the sprinkler header.

Therefore, when the leakage detection information according to the short circuit is received from the leakage detection sensor 100, the monitoring terminal 400 may determine that leakage has occurred in the corresponding device, and output it to notify the administrator.

The communication connection device 300 that relays the leak detection device 100 and the monitoring terminal 400 may perform communication relay with a single antenna or a receiver, or dual installation of an antenna and a receiver for communication dualization By configuring, it is possible to more secure the stability of data communication.

The above has been briefly described in terms of a method of operating the leak detection apparatus and system.

In FIG. 2, detailed configurations of the leak detection apparatus will be described in detail.

2 is a view for explaining a detailed structure of the leak detection apparatus 100 according to an embodiment of the present invention.

As shown, the leak detection device 100 is a means for detecting the leak (W) falling from the sprinkler device 200 (abbreviated hereinafter) and generating leak detection information therefor. To this end, the leak detection device 100 includes a housing 110, a cover 130, a header coupling part 140, a leak detection sensor 150, a moisture absorption shorting part 160, a paper fixing part 170, and communication. It may include a confirmation tag 180.

The housing 110 is a body structure for accommodating or combining components of the device, and may have an inner space 111 having an open top. Accordingly, when coupled to the sprinkler device, the water leakage W falling from the sprinkler device through the open top may be accommodated in the inner space 111.

In the present embodiment, the shape of the housing 110 is presented similarly to a cylindrical shape, but if not limited thereto, various shapes such as a polyhedron, an oval shape, and a circular shape having an open top and an inner space 111 may be applied.

In the inner space 111, a leak detection sensor 150, a moisture absorption shorting unit 160, a paper fixing unit 170, and a communication confirmation tag 180, which will be described later, may be installed.

The cover 130 may be formed to be detachable from the housing 110 as a means for covering the open upper portion of the housing 110. The cover 130 may be provided with a through hole 131 and a leak guide 131.

The through hole 131 may be formed in a plurality that penetrates the upper and lower surfaces of the cover 130. Therefore, when the water leakage (W) falls from the sprinkler device located on the upper portion of the housing 110, the water leakage (W) falls on the cover 130 and along the through hole 131, the inner space of the housing 110 ( 111). In this case, although not specifically shown, the plurality of through holes 131 may be formed through the moisture absorption short-circuit unit 160 toward the direction in which the moisture absorption short-circuit unit 160 is positioned in order to intensively guide the leakage W to the moisture absorption short-circuit unit 160.

The water leakage guide 133 is a means for guiding the water leakage (W) moving along the through hole 131 toward the moisture absorption short circuit unit 160, and in this embodiment, a moisture absorption short circuit in the inner space of the cover 130 A pair of guide rods inclined toward the part 150 may be formed.

The head coupling part 140 is a means for coupling the housing 110 to a sprinkler device, more specifically a sprinkler header. To this end, the head coupling part 140 may extend from at least one of the housing 110 or the cover 130 and be coupled to the sprinkler header.

The header coupling portion 140 may include an extension portion partially extending in the height direction from the cover 130 and a clamp portion extending in the width direction from the extension portion to be fitted with a sprinkler header.

The structure and shape of the header coupling part 140 are not limited, and various methods and structures capable of coupling the housing 110 to the sprinkler header in addition to the above-described structure may be applied.

The leak detection sensor 150 is a means for generating leak detection information regarding the occurrence of leak W in the sprinkler device. To this end, the leak detection sensor 150 may be installed on one surface of the inner space 111 of the housing 110 and may include a disconnection circuit 151.

The leak detection sensor 150 may be configured as wired or wireless, and in this embodiment, it receives energy (RF: Radio Frequency energy) transmitted from an antenna or a receiver that is a communication connection device, generates power through it, and generates power. It may be composed of a passive tag that generates and transmits water leak detection information.

In the present embodiment, the leak detection sensor 150 will be described as an example in which the upper surface of the housing 110 is disposed toward the sprinkler device. However, the present invention is not limited thereto, and the leak detection sensor 150 may be installed to extend from the bottom surface in the height direction, and one surface may be disposed to face the side of the housing 110.

The disconnection circuit 151 is a circuit in which a part is shorted, and may be a surface to which the terminals 151a shorted to each other are exposed. The operation of the leak detection sensor 150 may be stopped by the corresponding shorted terminal 151a. Therefore, it is a circuit that can be energized when the corresponding shorted terminals 151a are electrically connected by other members.

Accordingly, the leakage detection sensor 150 including the disconnection circuit 151 is in a state in which the electrical operation is stopped in the initial disconnection state.

The disconnection circuit 151 may be exposed to a space formed concave on the upper surface of the leak detection sensor 150.

In addition, although not shown in the present embodiment, the leak detection sensor 150 may have a partition wall extending in the height direction along the edge. Accordingly, the falling water leakage W may be filled in the leakage detection sensor 150 defined by the partition wall.

The moisture absorption short-circuit 160 is coupled to the leak detection sensor 150 to energize the leak detection sensor 150 that has been disconnected, and when it absorbs the leak (W), it is shorted to disconnect the leak detection sensor 150 again. have. In other words, the moisture absorption short-circuit 160 is combined with the leak detection sensor 150 in a disconnected state to make it energized, and in the case of absorbing the leak (W) in the combined state, the moisture absorption short circuit is physically in a short-circuit state and the energized leakage The detection sensor 150 is disconnected.

To this end, the moisture absorption shorting unit 160 may include paper 161 and conductive ink 163.

The paper 161 is made of a paper material, and when moisture is absorbed, a short circuit in which the structure is torn may be formed. The paper 161 may be coupled to the leak detection sensor 150, more specifically, the disconnection circuit 151.

The conductive ink 163 is an ink to which electrical properties are provided, and may include a conductive material such as carbon black, graphite, and silver.

The conductive ink 163 may be applied to the paper 161. Accordingly, the paper 161 to which the conductive ink 163 is applied may be formed of a conductive paper to which electrical characteristics are applied. In the present embodiment, for description of the paper 161 and the conductive ink 163, it is illustrated as if each component is configured for each layer, but these may be combined with each other to form a single composite.

When the conductive ink 163 is applied to the paper 161 in this way, since the paper 161 is made of conductive paper, the disconnection circuit 151 of the leak detection sensor 150 may be energized.

Accordingly, the leak detection device 150 coupled with the moisture absorption short-circuit unit 160 may be energized to generate leak detection information accordingly.

Since the paper 161 is made of a paper material having strong hydrophilicity, when the leakage W falls and absorbs moisture, the paper 161 may be short-circuited and the disconnection circuit 151 that has been energized may be disconnected again.

That is, the leakage detection sensor 150 may be energized and disconnected by the moisture absorption short circuit unit 160.

The paper fixing part 170 is a means for fixing the paper 161 of the moisture absorption shorting part 160, and extending from the upper surface of the leak detection sensor 150 to fix one side and the other side of the paper 161 Tension can be added. Therefore, the paper fixing unit 170 performs an operation of fixing the paper 161 in normal times, but when the leak (W) falls on the paper 161, a short circuit to the paper 161 is made more efficiently. You can induce it.

The shape and structure of the paper fixing part 170 is not limited, and various structures and methods of coupling the paper 161 to the disconnection circuit 151 may be applied. For example, the paper fixing unit 170 may be configured in a form such as an adhesive, so that the paper 161 may be adhesively bonded to the disconnection circuit 151 (border bonding).

The communication confirmation tag 180 is a means for transmitting communication confirmation information related to a communication state.

The communication confirmation information may be information on whether or not to communicate through the current communication confirmation tag 180. When the communication confirmation tag 180 is configured as a passive tag and receives energy from the communication connection device, the communication confirmation information may be transmitted to the communication connection device again by using this as power. In this case, the communication confirmation information may include an On/Off signal relating to enable and disable communication.

In this embodiment, the communication confirmation tag 180 is installed on the bottom surface of the inner space 111 of the housing 110, and the leak detection sensor 150 and the moisture absorption shorting unit 170 are sequentially stacked thereon. But is not limited thereto. That is, the leak detection sensor 150 and the moisture absorption short-circuiting unit 170 are configured as a set as a basic premise, but the communication confirmation tag 180 may be installed inside or outside the housing 110 separately from these. have.

In the above, detailed configurations of the leak detection apparatus 100 have been described. In FIG. 3, a description will be given of an operation method of the moisture absorption short circuit.

FIG. 3 is a view for explaining a case in which power is cut off and energized by the moisture absorption short-circuit unit 160 of the leak detection device 100 of FIG. 2.

First, as in (a), the first leak detection sensor 150 may be disposed such that the disconnection circuit 151 provided on the upper surface faces the sprinkler device. In this case, a communication confirmation sensor 180 may be installed on the lower surface of the leak detection sensor 150.

In the case of having such a structure, since the leakage detection sensor 150 is in a state in which sensing and communication is not possible by the disconnection circuit 151, it cannot receive energy from a communication connection device or transmit leakage detection information. Accordingly, the communication connection device may transmit an Off signal due to inability to communicate with the corresponding leak detection sensor 150 as leak detection information to the monitoring terminal.

Thereafter, as in (b), the moisture absorption shorting unit 160 including the paper 161 and the conductive ink 163 may be combined on the disconnection circuit 151.

Accordingly, the leak detection sensor 150, which has been disconnected, is energized, receives energy from a communication connection device, and generates and transmits leak detection information (On signal) with power. The communication connection device transmits the received leak detection information (On signal) to the monitoring terminal, and the monitoring terminal compares the leak detection information (On signal) with a reference value to determine whether the situation is a leak or non-leak situation, and You can create and output leak check information. The leakage detection information (On signal) transmitted from the leakage detection sensor 150 coupled to the moisture absorption short circuit 160 may be determined as a non-leakage situation.

In this way, the leakage detection sensor 150 that transmits the On signal as leakage detection information may be disconnected again when the moisture absorption shorting unit 160 is shorted due to leakage as shown in (c). Accordingly, the leak detection information is transferred from the existing On signal to the Off signal to the monitoring terminal, and the monitoring terminal determines that changing from the On signal to the Off signal is a leak situation, and generates and outputs leak confirmation information.

In this way, as the signal transmitted by the short circuit of the paper 161 to which the conductive ink 163 is applied is changed, it is possible to determine whether there is a leak through the change of the corresponding signal.

FIG. 4 is a diagram for explaining a moisture absorption short circuit 160 and a water leak detection sensor 150 disposed so as to extend in a height direction inside the housing 110.

In this embodiment, the leak detection sensor 150, the moisture absorption short-circuit unit 160, and the communication confirmation tag 180 are disposed to extend in the height direction with respect to the bottom surface of the housing 110 as in (a) unlike in FIG. I can. That is, if the components of FIG. 2 have an arrangement structure that is laid in a horizontal direction, the components of this embodiment have a structure that is erected in a vertical direction.

In the case of having such an arrangement structure, when water leakage occurs in the sprinkler device 200 as in (b), the water leakage may fall to the moisture absorption short circuit unit 160.

The moisture absorption short-circuit 160 is composed of the conductive ink 161 and the paper 163, and is arranged to be erected in the height direction, so that the moisture absorption short-circuiting part 160 may be more effectively shorted from the leak detection sensor 150 by gravity during moisture absorption.

Accordingly, the leak detection sensor 150, which has been energized by the existing moisture absorption shorting unit 160, may be disconnected by the moisture absorption shorting unit 160, which is melted or torn by moisture absorption, and is shorted in the direction of gravity.

At this time, the coupling positions of the leak detection sensor 150, the moisture absorption short-circuit unit 160, and the communication confirmation tag 180 may be changed differently depending on the situation.

In addition, although not shown, the leak detection sensor 150, the moisture absorption short-circuit unit 160, and the communication confirmation tag 180 may be disposed to be inclined toward one direction in the inner space of the housing 110 in a coupled state. In this case, a moisture absorption short-circuit unit 160 may be disposed on one surface facing the sprinkler, and a leak detection sensor 150 may be coupled thereafter.

In this case, the leaked water falls in contact with the moisture absorption short-circuit 160, which is the uppermost end, and the moisture absorption short-circuit 160, which is absorbed by the material, changes the shape of melting or tearing according to the material characteristics, and at the same time, it moves downward along the inclined surface. Can be moved. Accordingly, the moisture absorption shorting unit 160 is more easily shorted from the leak detection sensor 150, and the leak detection sensor 150 may generate leak detection information according to the corresponding short circuit.

FIG. 5 is a diagram for explaining a disconnection and conduction structure in a situation in which the conductive ink circuit 165 is printed on the disconnection circuit 151 of the leak detection sensor 150.

The leak detection sensor 150 of FIG. 5 has the same configuration as the leak detection sensor of FIG. 3, but differs in the configuration of a moisture absorption short circuit coupled to the corresponding disconnection circuit 151.

The leak detection sensor 150 has a disconnection circuit 151 in which a part of the circuit is short-circuited. Accordingly, in FIG. 3, the paper coated with the electric ink is coupled to the corresponding disconnection circuit 151. However, in this embodiment, there is a difference in that the conductive ink circuit 165 is printed on the disconnection circuit 151.

The conductive ink circuit 165 may be a circuit portion in which a short circuit of the disconnection circuit 151 is connected with a conductive ink. That is, it may be a portion in which a short circuit is applied or printed through conductive ink to conduct electricity.

As in (a), the leak detection sensor 150 may include an initial disconnection circuit 151. In this case, as shown in (b), the conductive ink circuit 165 may be coated or printed to connect the short circuit portion of the disconnection circuit 151.

In this case, the circuit can be connected only with conductive ink without adding a member.

When the conductive ink circuit 165 is applied in this way, the leak detection sensor 150 may be energized to generate and transmit leak detection information (On signal) accordingly.

Thereafter, as in (c), when the leakage water falls on the disconnection circuit 151, the hydrophilic conductive ink circuit is washed by the leakage (W), and accordingly, the leakage detection sensor 150 is disconnected again, and the monitoring terminal detects the leakage. Off signal can be received as information.

As described above, the leakage detection sensor 150 of the present embodiment has a configuration in which the disconnection circuit 151 is energized through the conductive ink circuit 165 and the conductive ink circuit 165 is washed when the leakage occurs.

6 is a diagram for explaining a structure in which a leak outlet 153 is installed in the leak detection sensor 150.

As shown, the leak detection sensor 150 may include a leak outlet 153 communicating from the disconnection circuit 151 to an external space.

The leak outlet 153 may be a passage for discharging the falling leak. Accordingly, the leak outlet 153 may be formed in the leak detection sensor 150 as a passage for communicating the area where the disconnection circuit 151 is located and the outside area.

In this embodiment, the disconnection circuit 151 is installed in a concave area formed concave toward the inside of the leak detection sensor 150, and a leak outlet 153 is installed to communicate the concave area with the outside area. I can.

According to the leak outlet 153, the leak water filled in the disconnection circuit 151 can be quickly discharged through the leak outlet 153. Accordingly, the disconnection circuit 151 is coupled with a moisture absorption short circuit (Fig. 2, 160 or 4, 165 or less omitted), and when the moisture absorption short circuit is shorted due to leakage, the moisture absorption short circuit that is shorted quickly leaks the water outlet 153 It is discharged to the water leakage detection sensor 150 can increase the power failure efficiency.

This may be applied regardless of whether the moisture absorption short-circuit 150 is composed of paper and conductive ink or a conductive ink circuit.

Further, although not shown in the present embodiment, the disconnection circuit 151 is provided on the upper surface of the leakage detection sensor 150, and the leakage detection sensor around the disconnection circuit 151 may be formed to be inclined downward.

That is, as the disconnection circuit 151 is formed to protrude from the central surface of the leakage detection sensor 150, and has a paper-like shape toward the lower side thereof, the leakage water falling into the disconnection circuit 151 is more rapidly external. It can flow into the area and be discharged.

FIG. 7 is a diagram illustrating an operation process and monitored information of the leak detection system 1000 using the leak detection device 100.

As shown, the leak detection device 100 includes the above-described configurations, is energized and disconnected by the moisture absorption short-circuit unit 160, and generates leak detection information for this and transmits it to the communication connection device 300.

In addition, the leak detection device 100 may also transmit communication confirmation information to the communication connection device 300 through the communication confirmation tag 180.

The communication connection device 300 may transmit RF energy to the leak detection device 100 to supply power to them, and transmit leak detection information and communication confirmation information received therefrom to the monitoring terminal 400.

The monitoring terminal 400 generates, and outputs or guides the leakage confirmation information, each including leakage status information on the occurrence of leakage and non-leakage status information on non-leakage occurrence, with reference to the received leakage detection information and communication confirmation information. can do.

Specifically, first, as shown in (a), in the leak detection device 100, the moisture absorption short-circuit unit 160 is coupled to the leak detection sensor 150 in a disconnected state. Accordingly, the water leakage detection sensor 150 may be energized by the moisture absorption short-circuit unit 160.

Accordingly, the leak detection sensor 150 receives energy transmitted from the communication connection device 300 to receive power, thereby generating leakage detection information and transmitting it to the communication connection device 300.

In this case, the leak detection information may be an On signal.

The leak detection information is transmitted to the monitoring terminal 400, and the monitoring terminal can compare the received On signal with a reference value. In this embodiment, it is possible to control to generate leak confirmation information including non-leak status information on no leak by referring to the corresponding On signal and output it to a monitor, transmit it to a manager terminal, or output it as a voice or sound. have.

Thereafter, as in (b), when the moisture absorption short-circuiting unit 160 is short-circuited by water leakage (in this embodiment, melting and disappearing due to water leakage is taken as an example), the water leakage detection sensor 150 that was being energized is again in a power-down state. Can be.

Accordingly, the communication connection device 300 may transmit the leak detection sensor 150 and an Off signal due to communication failure as leak detection information to the monitoring terminal 400.

The monitoring terminal 400 may compare the received Off signal with a reference value, generate leakage confirmation information including leakage situation information regarding the occurrence of leakage, and output and transmit the same.

That is, when the leak detection information received from the leak detection sensor 150 changes from an On signal to an Off signal, the monitoring terminal 400 may determine this as a leak condition.

In addition, the monitoring terminal 400 may generate leak confirmation information by further referring to communication confirmation information received from the communication confirmation tag 180.

The communication confirmation tag 180 may be continuously communicated with the communication connection device 300 when there is no failure or damage due to maintaining the energized state.

Accordingly, the communication connection device 300 may transmit communication confirmation information transmitted from the communication confirmation tag 180 to the monitoring terminal 400.

The monitoring terminal 400 may identify each leak detection device 100 with reference to the transmitted communication confirmation information or determine whether or not there is a failure.

In particular, when the monitoring terminal 400 receives the communication confirmation tag 180 and the Off signal from which communication has been interrupted as communication confirmation information, it may not immediately determine this as the leakage situation information even if the Off signal is received as the leakage detection information. .

That is, the monitoring terminal 400 cannot clearly determine the reliability of the information transmitted from the leak detection sensor 150 when the current communication confirmation tag 180 is in a failure state, so the determination thereof is reserved, and the communication is confirmed. Only the failure of the tag 180 can be guided.

On the other hand, the monitoring terminal 400 is in a state in which an On signal is received as the leak detection information, and when an Off signal is received as the communication confirmation information, the leak detection sensor 150 is operating normally, and only the communication confirmation tag 180 It can be judged as a failure.

As described above, according to the present embodiment, as the leakage confirmation information is generated with further reference to the communication confirmation information generated through the communication confirmation tag 180, the leakage is more clearly determined in consideration of an exceptional situation that may additionally occur. Can be done, and the reliability of the output leak confirmation information can be further increased. In addition, it is possible to systematically manage a plurality of leak detection devices through the system, thereby improving management efficiency.

The moisture absorption short-circuit leak detection device and the leak detection system using the same are not limited to the configuration and operation method of the embodiments described above. The above embodiments may be configured so that all or a part of each of the embodiments may be selectively combined so that various modifications may be made.

1000: leak detection system 160: moisture absorption short circuit
100: anyone detecting device 170: paper fixing unit
110: housing 180: communication confirmation tag
130: cover 200: sprinkler device
140: header coupling unit 300: communication connection device
150: leak detection sensor 400: monitoring device

Claims (13)

A housing having an inner space with an open top;
A leak detection sensor having a disconnection circuit installed in a disconnected state in the inner space;
A moisture absorption short circuit comprising a paper coupled to the disconnection circuit and a conductive ink applied to the paper; And
Including; a paper fixing part for fixing the paper in the leak detection sensor,
The leak detection sensor,
A moisture absorption short-circuit leak detection device that is energized when combined with the conductive ink-coated paper and is cut off when the conductive ink-coated paper is absorbed and short-circuited.
The method of claim 1,
The leak detection sensor,
A moisture absorption short-circuit leak detection device that generates leak detection information according to the power failure and power supply.
delete delete delete The method of claim 1,
The moisture absorption short-circuit part,
A moisture absorption short-circuit leak detection device further comprising a conductive ink circuit printed on the disconnection circuit.
The method of claim 1,
A moisture absorption short-circuit leak detection device that is installed in the inner space and further comprises a communication confirmation tag for transmitting communication confirmation information regarding a communication state.
The method of claim 1,
Further comprising a cover formed to cover the open upper portion of the housing, moisture absorption short-circuit leak detection device.
The method of claim 8,
The cover,
A moisture absorption short-circuit leak detection device comprising a plurality of through holes penetrating the upper surface and the lower surface.
A sprinkler device having a sprinkler head;
A leak detection sensor having a housing coupled such that an upper open inner space is disposed under the sprinkler head and a disconnection circuit installed in a disconnected state in the interior space of the imagination device, and paper coupled to the disconnection circuit and applied to the paper A moisture absorption short-circuit portion having a conductive ink and a paper fixing portion fixing the paper in the leak detection sensor, and the leak detection sensor is energized when combined with the paper coated with the conductive ink, and the conductive ink is A leak detection device that is disconnected when the applied paper is absorbed and short-circuited;
A communication connection device for receiving leakage detection information according to the power failure and power supply from the leakage detection device; And
And a monitoring terminal that determines whether there is a leak through the leak detection information received from the communication connection device, and generates leak confirmation information regarding the determination result, and outputs it.
The method of claim 10,
The leak detection information,
An On signal for the energization; And
Including, a leak detection system; Off signal for the power failure.
The method of claim 11,
The monitoring terminal,
With reference to the leak detection information, when the leak detection information includes the Off signal, determining the sprinkler device as a leak condition, and generating the leak confirmation information including the leak condition information.
The method of claim 10,
The leak detection device,
Further comprising a communication confirmation tag for transmitting communication confirmation information on the communication state to the communication connection device,
The monitoring terminal,
The leakage detection system for generating the leakage confirmation information by referring to the communication confirmation information and the leakage detection information, respectively.

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