KR102569035B1 - System for Automatic Fire Detection working with Disconnected Detection Line - Google Patents

Abstract

The present invention relates to an automatic fire detection system that operates even when a detection line is disconnected. More specifically, in an automatic fire detection system in which fire detectors installed along a certain detection line for each boundary area detect heat or smoke and notify a fire receiver of whether a fire has occurred, on the detection line where the fire detector is installed The present invention relates to a fire detection system that can notify the occurrence of a disconnection accident while operating all fire detectors normally even in a state in which a disconnection accident occurs, and automatically restores the original state after the disconnection state is restored. To this end, the present invention is a fire detector that is distributed and disposed within the boundary area to detect the occurrence of a fire; detection lines connecting each of the fire detectors in parallel; a fire receiver connected to a starting point of the detection line to detect an operating state of the fire detector; a terminating resistor connected to the end of the sensing line; disconnection detecting means for detecting whether a disconnection occurs in the detection line; a connecting means including a switch capable of connecting the starting portion and the ending portion of the sensing line to each other; and control means for operating the connection means when the disconnection detection means detects disconnection.

Description

Automatic fire detection system that works even if the detection line is disconnected {System for Automatic Fire Detection working with Disconnected Detection Line}

The present invention relates to an automatic fire detection system that operates even when a detection line is disconnected. More specifically, in an automatic fire detection system in which fire detectors installed along a certain detection line for each boundary area detect heat or smoke and notify a fire receiver of whether a fire has occurred, on the detection line where the fire detector is installed The present invention relates to a fire detection system that can notify the occurrence of a disconnection accident while operating all fire detectors normally even in a state in which a disconnection accident occurs, and automatically restores the original state after the disconnection state is restored.

Automatic fire detection equipment is a facility that detects the occurrence of a fire in a building or facility and informs people in the building or facility or disaster prevention officials, etc. to detect the occurrence of a fire, notify the person in charge of the facility in conjunction with the fire alarm system including visual equipment or sound equipment such as alarms, sirens, bells, lights, etc., and promptly notify workers or residents in the facility. it's a facility In general, automatic fire detection equipment is composed of a fire receiver, repeater, fire detector, transmitter, indicator light, alarm bell, siren, and the like.

Among the components of the automatic fire detection system, the fire detector automatically detects heat or smoke generated by a fire and informs the fire receiver. Each is connected in parallel and installed. The fire detector is normally open, but when it detects heat or smoke, it is operated and shorted to form a closed circuit with respect to the detection circuit, and the fire receiver determines whether a fire has occurred by determining whether a closed circuit is formed in the detection circuit. Since the fire detectors are connected in parallel in the detection line in which the fire detector is installed, fire detection becomes impossible after the disconnection in case of disconnection in the middle. Therefore, a terminating resistor is attached to the end of the line so that it can be easily identified and quickly repaired. Therefore, in normal times, the line current and line voltage are maintained at constant values due to the terminating resistance, but when a disconnection occurs in the middle of the sensing line, the line voltage rises as the current does not flow through the terminating resistance, and in the fire receiver, the sensing line It senses the change in current or voltage flowing through it, determines that the line is disconnected, and notifies the manager.

However, even if the automatic fire detection system has a terminating resistor and a means to determine whether or not it is disconnected, once the disconnection occurs, until the disconnection part is repaired, the fire cannot be detected after the disconnection part. There has been a problem of continuing to be exposed to danger until the part is repaired. In particular, in the case of a building or facility where a professional engineer does not reside, immediate action is impossible because a disconnection accident must be outsourced to an external professional company. Even though it is a prepared facility, it is put in a dangerous state where it is impossible to operate for a considerable period of time, so it is necessary to prepare countermeasures for this.

In order to solve the above problems, the automatic fire detection system that operates even if the detection line is disconnected according to the present invention enables a signal circuit to be formed even through the terminating resistor when a disconnection occurs in the detection line, thereby detecting An object of the present invention is to provide an automatic fire detection system capable of providing a fire receiver with the operation status of all fire detectors even if the line is disconnected.

Another object of the present invention is to provide an automatic fire detection system that allows a fire receiver to know that the detection line is disconnected even if a signal circuit is formed on the terminating resistance side due to a disconnection in the detection line.

Another object of the present invention is to form a signal circuit only on the fire receiver side when the disconnected sensing line is restored naturally or artificially, even if a signal circuit is formed on the terminating resistance side due to a disconnection in the sensing line. It is an object of the present invention to provide an automatic fire detection system that automatically restores as much as possible.

Another object of the present invention is to provide an automatic fire detection system capable of accurately detecting the disconnection using a terminating resistor when a disconnection occurs in a detection line.

The technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned can be clearly understood by those skilled in the art from the description below. There will be.

The present invention invented to achieve the above object is a fire detector that is distributed and disposed in the boundary area to detect the occurrence of a fire; detection lines connecting each of the fire detectors in parallel; a fire receiver connected to a starting point of the detection line to detect an operating state of the fire detector; a terminating resistor connected to the end of the sensing line; disconnection detecting means for detecting whether a disconnection occurs in the detection line; a connecting means including a switch capable of connecting the starting portion and the ending portion of the sensing line to each other; and control means for operating the connection means when the disconnection detection means detects disconnection.

In addition to the above-described features, the present invention is characterized in that the control means operates so that it is intermittently connected while repeating connection and disconnection at regular time intervals when the connection means is operated, even if the detection line is disconnected It is also preferable to use an automatic fire detection system, and in addition, when the control means detects the disconnection detection means and operates to be intermittently connected to the connection means, the connection means is blocked by the intermittent connection. In order, it is also preferable to have an automatic fire detection system that operates even if the detection line is disconnected, characterized in that when it is detected that the disconnection is not detected by the disconnection detection unit, the operation of the connection unit is stopped.

In addition, in addition to the above-described features, a blocking means comprising a switch capable of blocking a cutoff between the terminating resistor and the sensing line; wherein the control means is configured to detect a disconnection by the disconnection detecting means. In this case, it is also preferable to have an automatic fire detection system that operates even if the detection line is disconnected, characterized in that the connecting means and the blocking means are simultaneously operated.

In addition to these features, the control unit operates to intermittently connect while repeating connection and disconnection at regular time intervals when operating the connecting unit, and blocks at regular time intervals when operating the blocking unit. It is also preferable to have an automatic fire detection system that operates even if the detection line is disconnected, characterized in that it is operated so that it is intermittently cut off while repeating the connection. When the connecting means and the blocking means are operated to be connected or disconnected intermittently, the connection means is cut off by the intermittent connection or disconnection, and at the same time, in the order in which the blocking means are connected, it is determined that the disconnection detection means is not disconnected. When detected, it is preferable to use an automatic fire detection system that operates even if the detection line is disconnected, characterized in that the operation of the connecting means and the blocking means is stopped.

In addition to the above-described features, the disconnection detection means determines whether or not the wire is disconnected using a change in the voltage value applied across the terminating resistor, a change in the potential difference across the terminating resistor, or a change in the value of the current flowing through the terminating resistor. It is also desirable to have an automatic fire detection system that operates even if the detection line is disconnected.

As described above, the automatic fire detection system according to the present invention includes a disconnection detection means, a control means, and a connection means, and when a disconnection occurs in the detection line, the disconnection detection means detects it and transmits it to the control means, and the control means is connected. Since the means is operated so that the signal circuit is formed even through the end of the detection line, even if a disconnection accident occurs, the fire detectors located after the disconnection accident point continue to operate, so that even when the detection circuit is disconnected, It has the effect of enabling all fire detectors to operate normally.

In addition, it includes disconnection means in addition to the disconnection detection means, control means, and connection means, and when a disconnection occurs in the detection line, the disconnection means is cut off simultaneously with the connection of the connection means, so that the disconnection means connects the detection line and the terminating resistor. Since it opens, even if a signal circuit is formed through the end of the detection line, the fire receiver has the effect of continuously recognizing the fact that a disconnection accident has occurred in the detection line.

In addition, since the disconnection is determined by using the change in the voltage value applied to both ends of the terminating resistor, the change in the potential difference across the terminating resistor, or the change in the current value flowing through the terminating resistor, a line that sends a separate control signal from the fire receiver or repeater is required. Since there is no effect, it can be easily installed using the existing automatic fire detection system.

In addition, since the voltage value change applied to both ends of the terminating resistor, the change in potential difference across the terminating resistor, or the change in the current value flowing through the terminating resistor is used to determine whether or not the wire is disconnected, the terminal block of the detection line can be detected without changing the existing automatic fire detection system. Since it can be made into an automatic fire detection system according to the present invention simply by adding disconnection detection means, connection means, and blocking means to, there is an effect of upgrading the automatic fire detection system at a low cost.

In addition, since the voltage value change applied to both ends of the terminating resistor, the change in potential difference across the terminating resistor, or the change in the current value flowing through the terminating resistor is used to determine whether the wire is disconnected, it is possible to accurately and quickly determine whether or not the wire is disconnected. This is because when a disconnection occurs, the voltage applied across the terminating resistor is not applied at all except for the induced voltage induced in the sensing line, and the value of the current flowing is also very insignificant.

And since the connection means in the present invention is an intermittent connection means that connects intermittently while repeating connection and disconnection at regular time intervals, when the connection means is blocked in the process of repeating connection and disconnection, termination resistance due to disconnection Since there is no current flow through the fire receiver, the disconnection fact can be confirmed at the fire receiver, and when the connection means is connected, a signal circuit is formed even through the end of the detection line, so all fire detectors can be operated normally. With only one means, there is an effect of periodically forming a signal circuit through the termination side along with confirmation of disconnection.

In addition, in the present invention, the connecting means is an intermittent connection means that intermittently connects while repeating connection and blocking at regular time intervals, and the blocking means is an intermittent connection means that intermittently blocks while repeating blocking and connection at regular time intervals. Since it is used as a blocking means, in the process of repeating connection and blocking, the disconnection detection means can continuously re-determine whether or not the wire is disconnected, so if the sensing line is temporarily disconnected and then restored naturally, or through repair work, etc., the disconnection part is restored to its original state, and has the effect of forming a signal circuit only toward the fire receiver.

1 shows an automatic fire detection system according to the prior art.
FIG. 2 is a diagram explaining that fire detectors after the disconnection point are in an inoperable state when a disconnection accident occurs in a detection line in an automatic fire detection system according to the prior art.
3 shows a first embodiment of an automatic fire detection system that operates even if a detection line is disconnected according to the present invention.
4 is a diagram showing a state in which all fire detectors are operated even if a disconnection accident occurs in a detection line in the first embodiment of the present invention.
FIG. 5 shows the operation conditions of the second and third embodiments of the automatic fire detection system that operates even if the detection line is disconnected according to the present invention.
6 shows a fourth embodiment of an automatic fire detection system that operates even when a detection line is disconnected according to the present invention.
FIG. 7 is a diagram showing a state in which all fire detectors operate even if a disconnection accident occurs in a detection line in the third embodiment of the present invention.
FIG. 8 shows the operating conditions of the fifth and sixth embodiments of the automatic fire detection system that operates even if the detection line is disconnected according to the present invention.

Hereinafter, the present invention will be described in detail so that the above-described objects and characteristics become clear, and accordingly, those skilled in the art to which the present invention belongs will be able to easily implement the technical spirit of the present invention. In addition, in describing the present invention, among the known technologies related to the present invention, the detailed description is given when it is determined that the detailed description of the known technology may unnecessarily obscure the subject matter of the present invention. to omit

In addition, the terms used in the present invention have been selected from general terms that are currently widely used as much as possible, but in certain cases, there are terms arbitrarily selected by the applicant. It is intended to clarify that the present invention should be understood as the meaning of the term, not the name of. Terms used in the description of the embodiments are only used to describe specific embodiments, and are not intended to limit the embodiments. Singular expressions include plural expressions unless the context clearly dictates otherwise.

Embodiments may be changed in various forms and may have various additional embodiments. Here, specific embodiments are shown in the drawings and related detailed descriptions are described. However, this is not intended to limit the embodiments to a specific form, and it should be understood to include all changes, equivalents, or substitutes included in the spirit and technical scope of the embodiments.

Expressions such as “first”, “second”, “first”, or “second” in the description of various embodiments may modify various components of the embodiments, but do not limit the corresponding components. For example, the above expressions do not limit the order and/or importance of corresponding components. The above expressions may be used to distinguish one component from another.

Hereinafter, the present invention will be described with reference to the accompanying drawings. 1 is a view for explaining an automatic fire detection system according to the prior art. As shown in FIG. 1, the automatic fire detection system according to the prior art includes a fire receiver 100, a detection line 300 connected to the fire receiver 100, and at least one connected in parallel on the detection line 300. It includes the above fire detector 400 and a termination resistor 500 connected to the termination of the detection line 300. Here, the fire detector 400 may be a P-type or an R-type. In addition, the detection line 300 generally extends out from the terminal block 200, and the terminal block 200 may be inside the fire receiver 100, and may be a transmitter (not shown) or a repeater installed in the boundary area. It can also be installed inside.

The fire detector 400 may be a heat detector or a smoke detector, and various fire detectors such as constant temperature type or differential type are used. In addition, the terminating resistor 500 is a means for determining whether the sensing line 300 is disconnected, and in normal times, a closed circuit is formed through the terminating resistor 500 so that a constant current continues to flow, so that the fire receiver 100 In the case of conducting a conduction test, a constant voltage appears at both ends of the 'resistor for conduction test' included in the fire receiver 100, and is displayed as a normal state, but when a disconnection occurs in the detection line 300, the termination resistance ( 500), current cannot flow even in the 'resistor for continuity test', so that when a continuity test is performed in the fire receiver 100, the voltage at both ends of the 'resistor for continuity test' becomes 0V, resulting in a disconnected state. will be displayed

FIG. 2 is a diagram explaining that fire detectors after the disconnection point are in an inoperable state when a disconnection accident occurs in a detection line in an automatic fire detection system according to the prior art. As shown in FIG. 2, when a disconnection accident occurs at point A among the detection lines 300 in the conventional automatic fire detection system, the fire detectors located before point A among the plurality of fire detectors 400 ( Only 400a and 400b are connected to the fire receiver 100 through the detection line 300 . Therefore, if 400a and 400b are operated due to a fire, the fire receiver 100 can detect the occurrence of a fire and take necessary measures such as generating a fire alarm, but the fire detectors 400c to 400h located after point A, Since the connection with the fire receiver 100 is not made, even if one or more of the fire detectors 400c to 400h are operated due to a fire, the fire receiver 100 is in a dangerous state in which it is not known whether a fire has occurred. . That is, when a fire occurs, it becomes unknown whether or not a fire has occurred in the entire S area (shaded area). In particular, in the case of a P-type receiver, since the disconnection of the detection line 300 can be known only through a continuity test during facility inspection for the fire receiver 100, firefighting equipment that is regularly performed when the detection line 300 is disconnected Until there is an inspection, the automatic fire detection system may be placed in a very dangerous situation in which it operates abnormally.

Therefore, in the automatic fire detection system that operates even when the detection line is disconnected according to the present invention, even when the detection line 300 is disconnected, the fire receiver 100 operates through all the fire detectors 400 within the detection line 300. An object of the present invention is to provide an automatic fire detection system capable of detecting the occurrence of a fire. Figure 3 shows a first embodiment of an automatic fire detection system that operates even if a detection line is disconnected according to the present invention, and Figure 4 shows a first embodiment of the present invention, even if a disconnection accident occurs in the detection line This is a drawing showing the working state of the fire detector. Hereinafter, the first embodiment of the present invention will be described using FIGS. 3 and 4. As shown in FIG. 3, in the first embodiment of the present invention, the fire detectors 400 distributed in the boundary area to detect the occurrence of fire, the detection circuit 300 for connecting each of the fire detectors 400 in parallel, A fire receiver 100 connected to the starting part 301 of the detection line 300 to detect the operating state of the fire detector 400, and an end connected to the ending part 302 of the detection line 300 A resistance 500, a disconnection detection means 800 for detecting whether a disconnection occurs in the detection line 300, the starting part 301 of the detection line 300 and the end of the detection line 300 A connection means 600 composed of a switch capable of connecting the parts 302 to each other and a control means 900 for operating the connection means 600 when the disconnection detection means 800 detects a disconnection. It is desirable to do And, in a normal state where disconnection does not occur, as shown in FIG. 3, it is preferable that the connecting means 600 be open. In addition, it is preferable that the detection line 300 be connected to the fire receiver 100 and the terminating resistor 500 through the terminal block 200.

Here, the disconnection detection unit 800 detects a disconnection occurring in any one of the detection lines 300 and transmits it to the control unit 900, and the control unit 900 detects the disconnection When the disconnection fact is received from the means 800, it is preferable to operate the connection means 600. As a method for the disconnection detection unit 800 to detect disconnection, a method of detecting and determining a change in voltage applied to the detection line 300 from inside the fire receiver 100 is also possible, and the fire receiver 100 ) It is also determined by measuring the voltage change at both ends of the conduction test resistor connected in series to the sensing line 300 or the current change flowing through the conduction test resistor inside. In addition, it is also desirable to determine by measuring the change in voltage across the portion 301 where the sensing line 300 starts. In addition, to determine whether the wire is disconnected using a change in the voltage value applied to both ends 303 of the terminating resistor 500, a change in the potential difference across the terminating resistor 500, or a change in the current value flowing through the terminating resistor 500. It is also desirable to

And the connection means 600 is a part where the fire receiver 100 is connected, that is, a part where the detection line 300 starts, 301 and the terminating resistor 500 are connected, that is, the detection line ( 300) is located between the end part 302, and when the disconnection detection means 800 detects disconnection, it is operated by the control means 900 and the fire receiver 100 is connected to the side 301 and It is preferable to connect the ends 302 to which the terminating resistor 500 is connected to each other. The connection means 600 can also be a switching element in the form of a relay. In this case, it is preferable that the control means 900 drive the relay to connect the contacts. In addition, the connection means 600 It is also possible to use a semiconductor switching element, and in this case, it is preferable that the control unit 900 triggers and conducts the connection unit 600 made of a semiconductor unit. In addition, although the connection means 600 is shown as having two contacts and connecting two lines in FIG. 3, it is also possible to have only one contact, in this case - in a state where the polarity line is always connected And, it is desirable to connect and block only the + polarity through the contact point. In the present invention, the connection or disconnection of the connecting means 600 includes not only connecting or blocking both strands of the line, but also connecting or blocking only the other strand with one strand as a common line. .

4, in the first embodiment of the present invention, when a disconnection accident occurs in the detection line 300, the disconnection detection means 800 detects it, and accordingly, the control means 900 connects the connection means ( 600) is in operation. As shown in FIG. 4, when a disconnection accident occurs at point A of the detection line 300, the disconnection detection means 800 may change the voltage across the terminating resistor 500 or The occurrence of disconnection is detected by a method such as detecting a change in potential difference or a change in the current value flowing through the terminating resistor 500 . In addition, a change in voltage applied to both ends of the portion 301 where the sensing line 300 starts is detected, or a voltage applied to both ends of a portion 301 where the sensing line 300 starts is placed with a series resistor. Disconnection detection can be performed using various methods, such as the method of measuring the change.

When the disconnection detection unit 800 determines that the detection line 300 is disconnected, the result is transmitted to the control unit 900, and the control unit 900 operates the connection unit 600. It is preferable to make the switch of the connecting means 600, which was open by doing so, into a connected state as shown in FIG. When the connecting means 600 is connected, each of the two lines of the starting part 301 and the two lines of the ending part 302 of the sensing line 300 are connected to each other. At this time, it is desirable to match the polarities of the two lines connected. Accordingly, the fire receiver 100 has an L1 circuit (see blue arrow) capable of receiving signals of fire detectors 400a and 400b through two lines of the part 301 where the detection line 300 starts, and At the same time, it also has an L2 circuit (see red arrow) capable of receiving signals from fire detectors 400c to 400h through two lines of the part 302 where the detection line 300 ends. Accordingly, the fire signal detected by the fire detectors 400a and 400b before the point A is detected through the L1 circuit formed through the two lines of the part 301 where the detection line 300 starts, Since the fire signal detected by the fire detectors 400c to 400h after point A is detected through the L2 circuit formed through the two lines of the part 302 where the detection line ends, all the fire detectors 400 The detected fire signal can be detected by the fire receiver 100. Therefore, the fire receiver 100 can receive the results detected by all fire detectors 400 even if the detection line 300 is disconnected.

Meanwhile, FIG. 5 shows a situation in which the second and third embodiments of the automatic fire detection system according to the present invention operate even when the detection line is disconnected. In the second embodiment of the present invention, when the control means 900 operates the connection means 600 in the configuration of the first embodiment of the present invention, the connection is intermittently connected while repeating connection and disconnection at regular time intervals. It is desirable to make it work as much as possible. That is, when a disconnection occurs in the detection line 300 (point A), the switch of the connection means 600 is connected as shown in FIG. 5 (a) and the connection means 600 as shown in FIG. 5 (b) It is to make the state in which the switch is blocked repeat each other at regular time intervals. Here, the predetermined time can be set to a very short time of 1 second or less, and it is also possible to repeat it by a long time unit of several seconds or more. However, if it is set too long, there is a problem that fire is detected too late in the part detected by the L2 circuit, and even when detecting disconnection through inspection, it is easy for inspectors to make errors, so it is desirable not to exceed at least 10 seconds. .

When the detection line 300 is disconnected, if the connection means 600 is periodically connected and disconnected so as to be intermittently connected, in the period in which the connection means 600 is connected, the detection line Since the signal circuit is formed not only through the L1 circuit of the part 301 where 300 starts but also through the L2 circuit of the part 302 where the detection line 300 ends, all fire detectors 400 fire normally. A signal can be received, and in a period in which the connection means 600 is blocked, a fire signal can be received only through the L1 circuit, but since current does not flow through the terminating resistor due to disconnection, the fire receiver (100 ), it is possible to confirm the fact of disconnection, so there is an effect that the fire signal can be received through the L2 circuit side along with the confirmation of the disconnection by the connection means 600.

And the third embodiment of the present invention is configured like the second embodiment, but the control means 900, the disconnection detection means 800 detects the disconnection and intermittently with respect to the connection means 600 In the case of operation to be connected, in the order in which the connection means 600 is blocked by intermittent connection, when it is detected that the disconnection detection means 800 is not disconnected, the operation of the connection means 600 is performed. It is preferable to stop. That is, the state of FIGS. 5(a) and 5(b) is repeated, and then, as shown in FIG. 5(c), in a state in which the switch of the connecting means 600 is blocked, the connection as shown in FIG. When the switch of the means 600 is switched to the connected state, and at that time the temporary failure of part A of the detection line 300 is restored and becomes a non-disconnected state, the disconnection detection means 800 is not disconnected. At this time, the control means 900 is to stop further operation of the connection means 600. In this way, since the disconnection detection means 800 can continuously re-determine whether or not the disconnection occurs in the process of repeating connection and disconnection, when the detection line 300 is temporarily disconnected and then recovered naturally, or repair When the disconnection part is restored through work, etc., it is restored to its original state and has the effect of forming a signal circuit only through the L1 circuit on the side of the fire receiver 100.

Meanwhile, FIG. 6 shows a fourth embodiment of an automatic fire detection system that operates even if the detection line is disconnected according to the present invention, and FIG. 7 shows a disconnection in the detection line 300 in the fourth embodiment of the present invention. This is a diagram showing a state in which all fire detectors 400 are operated even if an accident occurs. Hereinafter, a fourth embodiment of the present invention will be described with reference to FIGS. 6 and 7 . As shown in FIG. 6, the fourth embodiment of the present invention, in addition to the configuration of the first embodiment of the present invention, is composed of a switch that can cut off between the terminating resistor 500 and the sensing line 300. It is preferable to further include a blocking means (700). That is, the blocking means 700 is positioned between the end portion 302 of the sensing line 300 and both ends 303 of the terminating resistor 500. Further, the control unit 900 preferably operates the connecting unit 600 and the blocking unit 700 simultaneously when the disconnection detecting unit 800 detects disconnection. In addition, in a normal state in which disconnection does not occur in the sensing line 300, as shown in FIG. 6, it is preferable to keep the connecting means 600 open and the blocking means 700 connected.

Like the connection means 600, the blocking means 700 can also be a switching element in the form of a relay. In this case, it is preferable that the control means 900 drive the relay to connect the contacts. In addition, the blocking means 700 It is also possible to use a semiconductor switching element. In this case, it is preferable that the control means 900 triggers the blocking means 700 made of a semiconductor element to conduct. In addition, although the blocking means 700 is shown as having two contacts and connecting two lines in FIG. 3, it is also possible to have only one contact, in this case - in a state where the polarity line is always connected And, it is desirable to connect and block only the + polarity through the contact point. In the present invention, the blocking or connecting of the blocking means 700 includes not only blocking or connecting both strands of the wire, but also making one strand a common line and blocking or connecting only the other strand. . Other parts are the same as those of the first embodiment, so description thereof will be omitted.

In this way, when configured as in the fourth embodiment of the present invention, when a disconnection occurs in the detection line 300 (point A) and the disconnection detection means 800 detects the disconnection, as shown in FIG. 7, the The control means 900 operates the switch of the connection means 600 to connect the part 301 where the detection line 300 starts and the part 302 where the detection line 300 ends, and at the same time By activating the switch of the blocking means 700, a portion 302 where the sensing line 300 ends and both ends 303 of the terminating resistor 500 are blocked. Accordingly, the fire receiver 100 has an L1 circuit (see the blue arrow) capable of receiving signals of the fire detectors 400a and 400b through the two lines of the part 301 where the detection line 300 starts, , In addition, it also has an L2 circuit (see red arrow) that can receive signals from fire detectors 400c to 400h through the two lines of the part 302 where the detection line 300 ends. Therefore, in the fire receiver 100, the fire signal detected by the fire detectors 400a and 400b before the point A passes through the L1 circuit formed through the two lines of the part 301 where the detection line 300 starts. Since the fire signal detected by the fire detectors 400c to 400h after point A is detected through the L2 circuit formed through the two lines of the part 302 where the detection line ends, all fire detectors The fire signal detected in 400 can be detected by the fire receiver 100. As a result, the fire receiver 100 can receive the results detected by all fire detectors 400 . Meanwhile, in accordance with the operation of the blocking means 700, the terminating resistor 500 is separated from the sensing line 300, and accordingly, the sensing line 300 is disconnected by the connecting means 600. Despite the fact that the starting part 301 and the ending part 302 of the sensing line 300 are connected, the sensing line 300 is an open circuit rather than a closed circuit, so that current flows through the terminating resistor. Therefore, in the fire receiver 100, it is possible to know that a disconnection has occurred in the detection line 300. As described above, in the fourth embodiment of the present invention, even if signal circuits are formed on both sides through the L1 circuit and the L2 circuit, the fire receiver 100 continues to recognize the fact that a disconnection accident has occurred in the detection line 300. There is an effect that can be done.

Meanwhile, FIG. 8 shows a situation in which the fifth and sixth embodiments of the automatic fire detection system operating even if the detection line is disconnected according to the present invention operate. In the fifth embodiment of the present invention, in addition to the fourth embodiment of the present invention, when the control means 900 operates the connection means 600, it operates so as to be intermittently connected while repeating connection and disconnection at regular time intervals. It is preferable to do so, and even when the blocking means 700 is operated, it is preferable to operate it intermittently while repeating blocking and connecting at regular time intervals. That is, when a disconnection occurs in the detection line 300 (point A), the switch of the connecting means 600 is connected as shown in FIG. 5 (a), and the switch of the blocking means 700 is in a blocked state. After a certain period of time, as shown in FIG. 5 (b), the switch of the connecting means 600 is in a blocked state, and the switch of the blocking means 700 is changed to a blocked state. And this process is to be repeated continuously at regular time intervals. Here, the predetermined time can be set to a very short time of 1 second or less, and it is also possible to repeat it by a long time unit of several seconds or more. However, if it is set too long, it is preferable not to exceed at least 10 seconds because it may be detected too late in case of fire in the part detected by the L2 circuit.

And the sixth embodiment of the present invention is configured as in the fifth embodiment, but the control means 900, the disconnection detection means 800 detects the disconnection, and the connection means 600 and the blocking means When operating to intermittently connect or disconnect the 700, the connection means 600 is blocked by the intermittent connection or disconnection, and at the same time, in the order in which the blocking means 700 is connected, the disconnection detection means 800 ), it is preferable to stop the operation of the connecting means 600 and the blocking means 700 when it is detected that the wire is not disconnected. 8(a) and 8(b) are repeated, and then the switch of the connecting means 600 is blocked and the switch of the blocking means 700 is connected as shown in FIG. 8(c). 5(d), the switch of the connecting means 600 is connected and the switch of the blocking means 700 is switched to a blocked state. At that time, part A of the detection line 300 When the temporary failure of the wire is restored and the wire is not disconnected, the wire disconnection detecting means (800) detects that the wire is not disconnected, and at this time, the control unit (900) connects the connection unit (600) and the blocking unit (700). ) to stop further operation. In this way, since the disconnection detection means 800 can continuously re-determine whether or not the disconnection occurs in the process of repeating connection and disconnection, when the detection line 300 is temporarily disconnected and then recovered naturally, or maintenance When the disconnection part is restored through work, etc., it is automatically restored to the original state, so that the signal circuit is formed only through the L1 circuit on the fire receiver 100 side.

Although the present invention has been described with the various examples described above, the present invention is not necessarily limited to these examples, and may be variously modified and implemented without departing from the technical spirit of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these examples. The protection scope of the present invention should be construed according to the following claims, and all technical ideas within the equivalent scope should be construed as being included in the scope of the present invention.

100 fire receiver
200 terminal block
300 sense line
400 fire detector
500 terminating resistance
600 connecting means
700 interception means
800 disconnection detection means
900 controls

Claims (1)

Fire detectors distributed in the boundary area to detect the occurrence of fire;
detection lines connecting each of the fire detectors in parallel;
a fire receiver connected to a starting point of the detection line to detect an operating state of the fire detector;
a terminating resistor connected to the end of the sensing line;
disconnection detecting means for detecting whether a disconnection occurs in the detection line;
a connection unit comprising a switch capable of connecting the starting portion and the ending portion of the sensing line to each other; and
Control means for operating the connection means when the disconnection detection means detects disconnection;
An automatic fire detection system that operates even if the detection line is disconnected, characterized in that both ends of the terminating resistor and the end portion are always connected.