KR20200134800A - Remote Termination Tester - Google Patents

Abstract

The present invention relates to a remote termination test device which remotely drives a relay to perform a remote short-circuit test of a termination resistor box, provides an external terminal with a dustproof and waterproof structure in the termination resistor box to enable onsite short-circuit test precision inspection without opening the termination resistor box, to a fire detector including the remote termination test device, and to a fire monitoring system including the fire detector.

Description

Remote Termination Tester {Remote Termination Tester}

The present invention is a remote termination test device capable of performing a remote short-circuit test of a terminal resistor box by remotely driving a relay, and providing an external terminal of a dustproof and waterproof structure in the termination resistor box to enable on-site short circuit test precision inspection without opening the termination resistor box. .

Rapid fire detection is important to minimize damage caused by fire.

In some cases, the discovery of a fire may be due to personnel management, such as an instantaneous monitoring of the building manager, but there is a limit to continuing monitoring of each place in the building throughout the daily life.

Therefore, the fire detector automatically detects physical phenomena different from daily life, such as heat, smoke, flame, etc., generated in the event of a fire using an automated fire alarm facility or fire detection system, and sends this detection signal to the receiver to notify the occurrence of fire. .

In general, a fire detection system refers to a system that detects fire in various spaces such as detached houses, apartment houses or lodging facilities, business facilities or large buildings, and alerts them.

Such a fire detection system is a system that comprehensively monitors and controls alarm facilities, fire extinguishing facilities, and all facilities that display fire signals received from detectors and transmitters that detect fire, and issue alarm and emergency broadcasts to inform the place of fire.

On the other hand, in the detector that detects a fire, a resistor is installed at the end of the circuit to check whether the circuit is disconnected. This resistance is called terminating resistance. Since there is no way to know if the fire detector circuit is malfunctioning or operating normally, qualified firefighters conduct fire detector (static sensing line) tests (termination resistance short circuit test) twice every year to increase circuits.

Conventionally, at least two people are required to check the circuit, and the inspection was carried out by moving a number of terminal resistors at a distance of several hundred meters or more directly. Therefore, there is a problem that it is difficult to perform real-time termination tests and status checks due to constraints such as schedule of test personnel and site movement.

The above-described background technology is technical information possessed by the inventors for derivation of the present invention or acquired during the derivation process of the present invention, and is not necessarily known to be publicly known prior to filing the present invention.

The present invention has been made to solve the above-described problem, and an object of the present invention is to provide a terminal test apparatus capable of remotely performing short-circuit checks on-site by existing personnel.

In addition, an object of the present invention is to provide a termination test device capable of preventing the occurrence of a termination resistance connection failure by allowing a short circuit test to be performed through an external test terminal during on-site inspection such as legal inspection.

In addition, an object of the present invention is to provide a fire detector and fire monitoring system including the terminal test device.

As a means for solving the above problems, the present invention has an embodiment having the following characteristics.

The present invention, a terminal resistor connected to the end of the constant temperature sensing line, and a relay connected in parallel; And a comparator for measuring the voltage value of the terminating resistor, comparing it with a reference voltage value, and shorting the relay by driving the relay according to the comparison result. It characterized in that it comprises a.

The termination test device includes a termination resistor box for accommodating the termination resistor, and the termination resistor box is connected in parallel with the termination resistor to perform a short-circuit test of the end of the constant temperature sensing line; It characterized in that it comprises a.

The external test terminal is characterized in that the waterproof structure.

In addition, the external test terminal is characterized in that the vibration-proof structure.

A fire detector according to an embodiment of the present invention includes a terminal test device; A static-temperature sensing wire comprising two conductors and an insulating coating surrounding the conductors, and in which a short circuit occurs between the two conductors as the insulation coating melts due to heat or flame when a fire occurs; And a control unit measuring a resistance value of the constant temperature sensing line and determining that a fire has occurred when the resistance value is less than or equal to a reference resistance value. It characterized in that it comprises a.

The static-temperature sensing wire is characterized in that two wires made of a steel wire for which an accurate resistance value is measured in advance are coated with a soluble insulating material, respectively, and the two wires are twisted to each other to have a restoring elasticity.

The reference resistance value is characterized in that it is smaller than the resistance value of the termination resistance.

When it is determined that a fire has occurred, the control unit calculates a distance of a fire occurrence point from a resistance value of the constant temperature sensing line.

A fire monitoring system according to an embodiment of the present invention includes a fire detector; When the fire detector detects a fire, a monitoring area controller that operates a fire response facility installed in the monitoring area; And a central control station for remotely monitoring and controlling the monitoring area controller. It characterized in that it comprises a.

The fire response equipment is characterized in that it includes a fire door, ventilation equipment, fire extinguishing equipment, or a surveillance camera.

The fire extinguishing equipment is characterized in that it further comprises a malfunction prevention module for preventing the malfunction of the fire extinguishing equipment.

The central control station, when receiving a fire occurrence signal from the monitoring area controller, transmits a fire occurrence text to the portable terminal registered in the central control station.

Termination test method according to an embodiment of the present invention, the step of applying a voltage value equal to or greater than a reference voltage value to the constant temperature sensing line; And a comparison step of measuring a voltage value of a termination resistor connected to an end of the constant temperature sensing line and comparing the voltage value with the reference voltage value. Shorting the relay by driving a relay connected in parallel with the terminating resistor according to a comparison result in the comparing step; And a determination step of measuring a resistance value of the constant temperature sensing line, and determining that the constant temperature sensing line is disconnected when the resistance value is greater than a reference resistance value. It characterized in that it comprises a.

The present invention can remotely perform short-circuit checks on-site by existing personnel.

In addition, the present invention can prevent the occurrence of terminal resistance connection failure by allowing a short circuit test to be performed through an external test terminal during on-site inspection such as legal inspection.

1 is an overall conceptual diagram of a fire monitoring system according to an embodiment of the present invention.
2 is a conceptual diagram of a fire detector according to an embodiment of the present invention.
3 is a block diagram of a fire detector according to an embodiment of the present invention.
4 is a diagram for explaining a static temperature sensing line.
5 is a conceptual diagram for explaining the termination resistance box.
6 is a conceptual diagram of a remote termination test apparatus according to an embodiment of the present invention.
7 is a block diagram of a remote termination test apparatus according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fire monitoring system

1 is an overall conceptual diagram of a fire monitoring system according to an embodiment of the present invention.

A fire monitoring system according to an embodiment of the present invention includes a fire detector 100 installed in a monitoring area, a monitoring area controller 300, and a central control station 500 for remotely monitoring and controlling the monitoring area controller.

The fire detector 100 is installed in the monitoring area to detect whether a fire occurs in the monitoring area. The fire detector 100 may be configured to include a constant temperature detection line. A detailed description of the fire detector 100 will be described later with reference to FIGS. 2 to 5.

The monitoring area controller 300 may be installed in the monitoring area. When the fire detector 100 detects a fire, the surveillance area controller 300 receives a fire detection signal from the fire detector 100 and operates a fire response facility installed in the surveillance area. In addition, the occurrence of fire is notified to the central control station 500 of the situation room.

The fire response facility may include, for example, a fire door 310, a ventilation facility 320, a fire extinguishing facility 330, and a surveillance camera 350.

The fire door 310 is a kind of door. In general, it is possible for people to pass, but it is designed to prevent the penetration of flames in case of fire. Therefore, it plays an important role in preventing fire damage. The fire door 310 is a very important facility in minimizing the propagation of flames in case of fire and securing an evacuation route. The fire door 310 is operated when a fire occurs under the control of the fire detector 100 installed in the monitoring area, and an open/closed state and an operating voltage state can be checked by the monitoring area controller 300.

The ventilation facility 320 normally performs a function of circulating air in the power outlet and constantly monitors the presence or absence of a facility abnormality by the monitoring area controller 300.

The fire extinguishing facility 330 is a facility for extinguishing a fire in the event of a fire, and may be a fire extinguisher including a fire extinguishing agent or a sprinkler that is attached to a ceiling and sprays water when a fire occurs. The fire extinguishing equipment may further include a malfunction prevention module for preventing malfunction of the fire extinguishing equipment.

The central control station 500 monitors and controls the monitoring area controller 300 remotely. When the central control station 500 receives a fire occurrence signal from the monitoring area controller, it may send a fire occurrence text to the portable terminal registered in the central control station 500. In addition, the central control station may output a report on the result of remote inspection of fire fighting equipment.

Fire detector

2 is a conceptual diagram of a fire detector according to an embodiment of the present invention, FIG. 3 is a block diagram of a fire detector according to an embodiment of the present invention, and FIG. 4 is a view for explaining a constant temperature detection line, FIG. 5 is a conceptual diagram for explaining the termination resistance box.

The fire detector 100 includes a constant temperature detection line 110, a control unit 150, a termination resistance box 200, and a termination test device 250.

The constant temperature sensing wire 110 includes two conductors 111 and an insulating coating 112 surrounding the conductor 111, and when the insulation coating melts due to heat or flame when a fire occurs, the A short circuit occurs between the conductors 111.

The conducting wire 111 is made of two steel wires made of fire-resistant steel, such as a piano wire. The conductive wire 111 is coated with a soluble insulating sheath 112 made of resin or the like, and twisted to have a restoring elasticity. When the soluble insulating sheath 112 coated on the surface of the wire 111 is melted in the event of a fire, the twisted wire 111 can be short-circuited by the restoring elastic force. The conductive wire 111 wrapped with the insulating coating is again wrapped with a protective tape 113, and again wrapped with a flame-retardant coating 114 made of synthetic resin or fiber.

The control unit 150 measures a resistance value of the constant temperature sensing line 110 and determines that a fire has occurred when the resistance value is less than or equal to a reference resistance value. The end of the constant temperature sensing line 110 is connected to the connection terminal 210 of the terminating resistor box 200. The termination resistor box 200 houses a termination resistor 220 therein. The termination resistor 220 is connected to the end of the constant temperature sensing line 110 through the connection terminal 210. The resistance value of the constant temperature sensing line 110 has a resistance value that is much smaller than that of the termination resistor 220. Therefore, in normal times, the resistance value measured by the control unit 150 will be the resistance value of the terminating resistor 220. And when a fire occurs, the constant temperature sensing line 110 is short-circuited due to heat or flame, and the resistance value measured by the control unit 150 will be measured a resistance value that is much smaller than the resistance value of the termination resistor 220 . Therefore, it is preferable that the reference resistance value determined by the control unit 150 to be a fire is selected to be a value smaller than the resistance value of the termination resistance.

The termination resistor box 200 houses a termination resistor 220 therein. The termination resistor 220 is connected to the end of the constant temperature sensing line 110 through the connection terminal 210 in order to check whether the constant temperature sensing line 110 is disconnected. By connecting the termination resistor 220, the sensor circuit formed of the constant temperature sensing line 110 can be formed as a closed loop circuit. The control unit 150 can determine whether a sensor circuit is disconnected or not based on the monitoring current by flowing a fine monitoring current on the sensor circuit.

Termination test device

As described above, the fire detector 100 according to an embodiment of the present invention detects a short circuit of the thermostatic detection line 110 when a fire occurs through checking the resistance value of the thermostatic detection line 110, and fires it. It is judged as occurrence.

In order to check whether the fire detector 100 operates normally, the end of the constant temperature detection line 110 is short-circuited to check whether the fire detector 100 operates normally.

According to the safety standards related to firefighting, a qualified firefighting company conducts a fire detector (static sensing line) test (termination resistance short circuit test) twice every year to increase circuits.

Conventionally, at least two people are required to check the circuit, and the inspection was carried out by moving a number of terminal resistors at a distance of several hundred meters or more directly. Therefore, there is a problem that it is difficult to perform real-time termination tests and status checks due to constraints such as schedule of test personnel and site movement.

The present invention is to solve the problem of such a conventional method, and the termination test apparatus 250 according to an embodiment of the present invention can remotely perform a short-circuit check for on-site short-circuit checks by existing personnel.

In addition, the termination test apparatus 250 according to an embodiment of the present invention can prevent occurrence of a termination resistance connection failure by allowing a short circuit test to be performed through an external test terminal during on-site inspection such as legal inspection.

Figure 3 is a block diagram of a fire detector according to an embodiment of the present invention, Figure 6 is a conceptual diagram of a remote termination test apparatus according to an embodiment of the present invention, Figure 7 is a remote termination according to an embodiment of the present invention It is a block diagram of the test apparatus.

The termination test device 250 is connected to the constant temperature sensing line 110 and the termination resistance box 200. The termination test device 250 includes an external test terminal 251, a relay 252, and a comparator 253.

The external test terminal 251 is connected in parallel with the terminating resistor 220 to perform a short-circuit test of the end of the constant temperature sensing line. The external test terminal 251 includes an internal conductor 251a accommodated in the terminal resistance box 200. The inner conductor 251a is connected in parallel with the terminating resistor 220 and connected to the external test terminal 251. The external test terminal 251 is open. By shorting the external test terminal, a short-circuit test of the end of the constant temperature sensing line can be performed. It is preferable that the external test terminal 251 has a dustproof/waterproof structure.

In the case of legal inspection in accordance with fire-fighting safety standards, an on-site inspection must be performed. However, the terminal test apparatus 250 according to an embodiment of the present invention performs a short-circuit test through the external test terminal 251 during such on-site inspection. By doing so, it is not necessary to open the terminating resistor box, and thus the occurrence of a terminating resistor connection failure can be prevented.

The fire detector 100 according to an embodiment of the present invention may remotely perform a short-circuit check including the termination test device 250. The specific principle is as follows.

The relay 252 is driven under the control of the comparator 253. The relay is connected in parallel with the terminating resistor 220 connected to the end of the constant temperature sensing line 110. When the relay 252 is driven under the control of the comparator 253, the relay 252 is short-circuited, and the end of the constant temperature sensing line 110 is short-circuited, so that a short-circuit test can be performed.

The comparator 253 measures the voltage value of the termination resistor. Then, it compares with a reference voltage value, and drives the relay 252 according to the comparison result to short-circuit the relay.

The control unit 150 of the fire detector 100 normally applies a constant voltage of about 14V or less to the fire detection circuit, specifically, the constant temperature detection line 110. As described above, since the lead resistance value of the constant temperature sensing line 110 is much smaller than the resistance value of the termination resistor 252 connected to the terminal, the voltage applied by the controller 150 is applied to the termination resistor 252. Is authorized.

When performing a short circuit check remotely, the controller 150 may short the relay 252 by applying a voltage higher than the reference voltage value of the comparator 253 to the constant temperature sensing line 110.

For example, when the reference voltage value of the comparator 253 is 24V, the controller 150 applies a voltage higher than 24V to the constant temperature sensing line 110. The voltage applied by the controller 150 is mostly applied to the termination resistor 252, and the comparator 253 measures this voltage value. Since a voltage higher than the reference voltage value of 24V was measured, the comparator 253 drives the relay 252 to short the relay 252. Since the relay 252 is short-circuited, the end of the constant temperature sensing line 110 is short-circuited, and a short-circuit check can be performed remotely.

It should be understood that the embodiments described above are illustrative in all respects and not limiting. The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the claims of the present invention. .

100: fire detector
110: static temperature sensing line
150: control unit
200: terminating resistance box
250: end test device
251: external test terminal
252: relay
253: comparator
300: monitoring area controller
310: fire door
320: ventilation equipment
330: fire extinguishing equipment
335: malfunction prevention module
350: surveillance camera
500: central control station

Claims (18)

A terminating resistor connected to the end of the constant temperature sensing line and a relay connected in parallel; And
A comparator for measuring the voltage value of the terminating resistor, comparing it with a reference voltage value, and shorting the relay by driving the relay according to the comparison result; Termination test device comprising a.
The method according to claim 1,
The termination test device
Including a termination resistor box for receiving the termination resistor,
The terminating resistor box is connected in parallel with the terminating resistor, an external test terminal capable of performing a short-circuit test of the end of the constant temperature sensing line; Termination test device comprising a.
The method according to claim 2,
Termination test apparatus, characterized in that the external test terminal has a waterproof structure.
The method according to claim 2,
Termination test apparatus, characterized in that the external test terminal is a vibration-proof structure.
The terminal test apparatus according to claim 1 to 4;
A static-temperature sensing wire comprising two wires and an insulating coating surrounding the wire, and in which a short circuit occurs between the two wires as the insulation coating melts due to heat or flame when a fire occurs; And
A control unit that measures a resistance value of the constant temperature sensing line and determines that a fire has occurred when the resistance value is less than or equal to a reference resistance value; Fire detector comprising a.
The method of claim 5
The constant temperature sensing line is
A fire detector, characterized in that two wires made of steel wires for which accurate resistance values have been measured in advance are each covered with a soluble insulating material, and the two wires are twisted together to have a restoring elasticity.
The method of claim 5
The reference resistance value is a fire detector, characterized in that less than the resistance value of the terminal resistance.
The method of claim 6,
When it is determined that the fire has occurred, the control unit calculates the distance of the fire occurrence point from the resistance value of the constant temperature sensing line.
The fire detector according to claim 5 installed in the fire monitoring area;
When the fire detector detects a fire, a monitoring area controller that operates a fire response facility installed in the monitoring area; And
A central control station for remotely monitoring and controlling the monitoring area controller; Fire monitoring system comprising a.
The method of claim 9
The fire response facility
Fire monitoring system comprising a fire door.
The method of claim 9
The fire response facility
A fire monitoring system comprising a ventilation facility.
The method of claim 9
The fire response facility
Fire monitoring system, characterized in that it comprises a fire extinguishing equipment.
The method of claim 12
The fire extinguishing equipment further comprises a malfunction prevention module for preventing malfunction of the fire extinguishing equipment.
The method of claim 9
The fire response facility
Fire monitoring system comprising a surveillance camera.
The method of claim 9
The central control station is
A fire monitoring system, characterized in that, upon receiving a fire occurrence signal from the monitoring area controller, sending a fire occurrence text to a portable terminal registered in the central control center.
Applying a voltage value equal to or greater than the reference voltage value to the constant temperature sensing line; And
A comparison step of measuring a voltage value of a termination resistor connected to an end of a constant temperature sensing line and comparing it with the reference voltage value; And
Shorting the relay by driving a relay connected in parallel with the terminating resistor according to a comparison result in the comparing step; Termination test method comprising a.
The method of claim 16
A determination step of measuring a resistance value of the constant temperature sensing line and determining that the constant temperature sensing line is disconnected when the resistance value is greater than a reference resistance value; Termination test method comprising a.
The method of claim 17
The reference resistance value is a termination test method, characterized in that greater than the resistance value of the termination resistance.

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