KR20180112172A - Electric instant water heater - Google Patents

Abstract

The present invention relates to a low-power instantaneous hot water apparatus. Particularly, the present invention relates to the low-power instantaneous hot water apparatus can be used by passing water through a pipe line in a direct way and by installing a heater device under the pipe line, the water is heated automatically and the water can be safely heated with minimum power. It includes: a heater module (100) provided with an inlet pipe and an inlet hole on one side thereof and an outlet pipe and an outlet hole on the other side thereof, wherein a zigzag connection pipe is provided between the inlet pipe and the outlet pipe; an electric heater (200) attached to a lower end of the heater module, wherein the raw water is heated while the raw water flows through the connection pipe.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a low-

In particular, the present invention relates to a low-power instantaneous hot water system, and more particularly, to a low-power instantaneous hot water system, in which water is passed through a flow pipe in a direct water system and a heater is installed under the flow pipe, Which is characterized in that it is possible to provide a low-power instantaneous hot water system.

Recently, the function of water purifier has become more advanced and diversified, and in addition to the function of providing purified water, a function of supplying hot water of 10 ° C or less and hot water of 90 ° C or more is added to the water purifier. Generally, a water purifier having a cold / hot water supply function is configured to purify water supplied from the outside through various filters and then store the purified water in a purified water tank, supply water stored in the purified water tank to a separate hot water tank and a cold water tank, And the cooling water tank is cooled by using a cooler.

Normally, the water stored in the hot water tank is heated by a heater installed in the hot water tank so as to maintain a predetermined temperature or higher. A heater which is provided in the hot water tank and heats the water to keep the temperature of the water stored in the hot water tank at a constant temperature is generally called a sheath heater. The water stored in the hot water tank is kept at a constant temperature by the sheath heater, and when the user requests high temperature water, the temperature of the water is raised and discharged.

The conventional hot water heating apparatus uses a sheath heater to maintain the temperature of the hot water in the hot water tank even if the user does not use the hot water. Furthermore, since the size of the hot water tank is large, there is a problem that the size of a water purifier or the like provided with the hot water heating device is increased.

Korean Patent No. 10-0852511

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hot water generating device capable of instantaneously heating and supplying hot water while raw water flows.

As means for achieving the above object,

The present invention relates to a heater module having an inlet pipe and an inlet hole formed at one side thereof, an outlet pipe and an outlet hole at the other side thereof, and a zigzag connection pipe provided between the inlet pipe and the outlet pipe, (100); And an electric heater 200 attached to a lower end of the heating module and heating the raw water while the raw water flows through the connection pipe.

A sensor unit for sensing the electric heater when the electric heater is overheated; And an alarm signal automatic output unit for outputting an alarm signal under the control of the control unit when it is determined that the electric heater is overheated as a result of the measurement by the sensor unit; The automatic alarm signal output unit 1000 includes a power supply unit 1101 for applying a power supply signal by its own power supply; An alarm signal output unit 1102 for receiving a signal from the control unit and switching the power supply circuit; An oscillation transformer 1103 which is supplied with electricity when the power supply unit is turned on and outputs a boosted AC current; A relay operation switching unit 1108 connected to the output terminal of the oscillation transformer 1103 and turned on by electrical supply; A relay switch 1107 installed at an output terminal of the switching unit 1108 for generating a magnetic force and generating a magnetic force; A first circuit connection switch sw1 that performs a function of energizing the circuit while the iron wire is pulled by the relay switch 1107; An alarm signal output power switch sw2 for supplying power to the alarm signal output control unit 1140 to display an alarm signal when the iron wire is pulled by the relay switch 1107; A circuit-operating iron piece (1131) which contacts the first circuit connecting switch to turn on the power-source holding switch part; An alarm signal output control unit power connection iron piece 1132 that is designed to operate in conjunction with the circuit operation iron piece and connects the power to the alarm signal output control unit when the circuit breaker is turned on to induce the alarm device to operate; The first circuit connection switch and the base end are connected to each other and the emitter end and the collector end are connected to the oscillation transformer 1103 and the relay operation switching part 1108. The operation of the relay operation switching part 1108 pulls the iron piece If the first circuit connection switch sw1 and the alarm signal output power switch sw2 are forcibly turned off at this time, the closed circuit is broken while the switching is on, The switching unit 1108 for relay operation is turned on to turn on the relay switch so that the first circuit connection switch sw1 and the alarm signal output power switch sw2 are turned on to continuously output an alarm signal And a switching unit 1118 for maintenance.

The alarm signal automatic output unit 1000 is provided at the lower end of the circuit operation steel plate 1131 and has a lower end in the form of a bar magnet having an S pole, First self-sustaining means 1133 for guiding the circuit connecting switch sw1 and the circuit-operating iron piece 1131 to be always kept in the off state; And the first magnetic holding means 1133 having the S pole at the lower end when the relay switch 1107 is not operated when the relay switch 1107 is not operated is pushed against the first circuit connecting switch sw1, The circuit breaker 1131 is pulled up to maintain the electrically turned off state and the circuit breaker 1131 is pulled up when the relay switch 1107 is operated so that the S pole constituting the upper part of the body and the first magnetic holding means The N poles constituting the upper part of the body of the first magnetic holding member 1133 are positioned close to each other and at the same time the N pole constituting the lower part of the body and the S pole constituting the lower part of the body of the first magnetic holding means 1133 are positioned close to each other, When the first circuit connecting switch sw1 is magnetically coupled with the first magnetic holding means 1133 and the first circuit connecting switch sw1 is switched, the operation state of the circuit breaker 1131 continues even if the relay switch is stopped, Second self-sustaining means 1134 for maintaining the on-state of the portion 1118; The first magnetic holding means 1133 is disposed at a lower end of the circuit board 1131 at a predetermined distance from the first magnetic holding means 1133. The lower end of the first magnetic holding means 1133 is in the form of a bar magnet having an S pole, The circuit breaker 1111 is lifted from the first circuit connection switch sw1 and the circuit breaker is kept in the state in which the circuit breaker 1131 is not operated and when the relay switch 1107 is operated, The first circuit connection switch sw1 is kept on to maintain the ON state of the first circuit connection switch sw1 so that the second magnetic holding means 1134 is affected even if the first magnetic holding means 1133 is lost, And auxiliary magnetic holding means 1133a for maintaining the off state of the first circuit connecting switch and magnetically coupled to the second magnetic holding means during operation of the relay switch 1107 to maintain the ON state of the first circuit connecting switch sw1 )and; And the second magnetic holding means and the first magnetic holding means are magnetically coupled to each other so that they are not directly coupled to each other but are held in a constant gap while being magnetically coupled to each other The S pole of the first magnetic holding means and the S pole of the second magnetic holding means face each other and are separated from each other so that the first magnetic holding means and the second magnetic holding means can be separated from each other more naturally. When the first magnetic holding means and the second magnetic holding means are coupled to each other, the N pole of the first magnetic holding means and the S pole of the second magnetic holding means are positioned close to each other, Even if the relay switch is turned off by a strong magnetic force, the falling state of the circuit breaker 1131 continues to be maintained so that the ON state of the first circuit connecting switch sw1 can be maintained. First (1134a) and; And a control unit for controlling the operation of the alarm signal display unit when the user operates the alarm unit to interrupt the operation of the alarm signal, And a manual operation switch 1135 for stopping the output of the alarm signal so that the alarm signal is no longer output.

As described above, unlike the conventional method in which raw water is stored and heated, the raw water is instantaneously heated and discharged while being flowed into the heating module and discharged. Therefore, it is necessary to maintain the temperature of the hot water stored unnecessarily There is no. As a result, hot water can be supplied quickly, and the amount of electricity consumed is also greatly reduced.

In addition, since the zigzag flow path is formed in the heating module, the raw water can be heated for a long time because the raw water flows through the flow path even if the heating module is small, so that the user can provide heated raw water at a desired temperature.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
FIG. 2 is a view showing the construction of a heating module of the instant hot water apparatus of the present invention. FIG.
3 is an electric heater configuration of the instant hot water apparatus of the present invention.
4 is a block diagram for automatically outputting an alarm signal according to the present invention;
5 is a circuit diagram of an alarm signal automatic output section of the present invention.
6 is an enlarged view of the main part of Fig.
7 is a diagram illustrating an example of the operation of the automatic alarm signal output unit of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

FIG. 2 is a view showing the construction of a heating module of the instant hot water apparatus of the present invention. FIG.

3 is an electric heater configuration of the instant hot water apparatus of the present invention.

4 is a block diagram for automatically outputting an alarm signal according to the present invention;

5 is a circuit diagram of an alarm signal automatic output section of the present invention.

6 is an enlarged view of the main part of Fig.

7 is a diagram illustrating an example of the operation of the alarm signal automatic output unit of the present invention,

The instantaneous hot water generating apparatus according to an embodiment of the present invention includes a heating module 100 and an electric heater 200.

The heating module 100 is formed in a zigzag shape. The heating module 100 has a pipe 110 for receiving water and a hole 120 for receiving water on one side and an outlet pipe 130 and an outlet hole 140 on the other side .

In addition, cold water is inserted into the water intake hole 120 through a water pipe from a water pipe, and hot water can be used by connecting a shower or the like through the water outlet hole 140.

The electric heater 200 is installed at a lower end of the heating module 100 to heat the raw water while the raw water flows through the heating module 100.

That is, a connection pipe 150 is zigzagged between the inlet pipe 110 and the outlet pipe 130, and the water is dewatered while being passed through the connection pipe 150 to be converted into warm water.

In other words, conventionally, water is stored and used after being depressed. In the present invention, however, water is automatically converted into warm water while passing through the heating module, thereby providing warm water directly to the user.

The electric heater 200 is formed in the form of a PCB (Printed Circuit Board). The structure of the electric heater 200 formed in a PCB form will be described in more detail. A circuit capable of generating heat is formed by printing between two films. One film is a heat insulating film, Film.

The heat insulating film prevents the heat of the electric heater 200 from being transferred to other external components other than the heating module 100 when the electric heater 200 generates heat. When the electric heater 200 is attached to the heating module 100, the electric heater 200 is brought into contact with the heating module 100 and the electric heater 200 is heated by the electric heater 200, Thereby preventing a short circuit between the heating module 100 and a tourmaline.

When electric power is supplied to the electric heater 200, the circuit starts to generate heat, and heat of the electric heater 200 is transferred to the heating module 100 to heat the raw water. In this embodiment, the electric heater 200 of the PCB type is applied as described above, but this is not limited to this embodiment.

In the meantime, in the present invention, when the electric heater 200 is overheated, the sensor 300 checks it and outputs an alarm signal through the controller 400 to induce quick maintenance.

In other words, when the electric heater 200 is overheated, the control unit 400 continuously outputs the alarm signal through the automatic alarm signal output unit 1000 of the present invention.

The alarm signal automatic output unit 1000 includes a circuit power supply unit 1101, an alarm signal output unit 1102, an oscillation transformer 1103, a relay operation switching unit 1108, a relay switch 1107, A first circuit connection switch sw1, a communication terminal power switch sw2, and a power supply holding switch 1118. [

The power supply unit 1101 applies a power supply signal by itself.

The alarm signal output unit 1102 switches the power supply circuit when a control signal is output from the control unit.

The oscillation transformer 1103 is supplied with electricity when the power supply unit is turned on, and outputs the boosted AC current.

The switching unit 1108 for relay operation is connected to the output terminal of the oscillation transformer 1103 and is turned on by electrical supply.

The relay switch 1107 is installed at an output terminal of the relay operation switching unit 1108 and generates a magnetic force.

The first circuit connection switch (sw1) performs a function of energizing the circuit by pulling the iron wire by the relay switch (1107).

The power switch sw2 for powering the alarm signal outputs power to the alarm signal output control unit 1140 to induce an alarm signal to be displayed as the iron strip is pulled by the relay switch 1107. [

The power supply switching unit 1118 is connected to the base end of the first circuit connection switch and the emitter end and the collector end are connected to the oscillation transformer 1103 and the relay operation switching unit 1108, The wire is pulled by the operation of the switch 1108 to form a closed circuit while switching is turned on, and then the operation of the relay switch 1107 is stopped. At this time, if the first circuit connecting switch sw1 and the alarm signal output power switch sw2 are forcibly turned off, the closed circuit is broken while the closed circuit is broken and the relay operating switch 1108 is turned on to turn on the relay switch The first circuit connecting switch sw1 and the alarm signal output power switch sw2 are turned on to continuously output the alarm signal.

The present invention is also characterized in that it comprises a circuit element for operation 1131, an alarm piece 1132 for connecting an alarm signal operation control unit, a first magnetic holding means 1133, a second magnetic holding means 1134, Means 1133a, a gap 1134a, and a manual operation switch 1135. As shown in Fig.

The circuit-operating iron piece 1131 is brought into contact with the first circuit connecting switch sw1 to turn on the power-supply holding switch 1118. [

The alarm signal output control unit power supply connection piece 1132 is designed to operate in conjunction with the circuit breaker 1131. When the circuit breaker 1131 is turned on, the alarm signal output control unit 1140 is powered Thereby inducing the alarm device to operate.

The first magnetic holding means 1133 is provided at the lower end of the circuit operation steel plate 1131 and is formed in the shape of a bar magnet whose lower end is an S pole. When the relay switch 1107 is not operated due to the influence of the S pole, so that the switching element sw1 and the circuit-operating iron piece 1131 are always kept in the off-state.

The second magnetic holding means 1134 is formed on the upper portion of the first circuit connecting switch sw1 and has a bar magnet shape having an S pole at the upper end and a first magnet The retaining means 1133 is pushed against each other and the circuit breaker 1131 is pushed up to maintain the electrically turned off state and the circuit breaker 1131 is pulled up when the relay switch 1107 is operated to constitute the upper part of the body And the N pole constituting the upper part of the body of the first magnetic holding means 1133 are positioned close to each other and the N pole constituting the lower portion of the body and the lower portion of the body of the first magnetic holding means 1133 are constituted When the first circuit connection switch sw1 is switched and at the same time the operation of the relay switch is stopped, the connection of the circuit breaker 1131 to the first magnetic holding means 1133 The state It is then continued to maintain the on state of the power switching unit 1118 for. At this time, if the circuit breaker is operated by the operation of the relay switch 1107, the alarm signal output control unit power supply connection member is automatically operated so that the alarm signal is outputted to the outside.

The auxiliary magnetic holding means 1133a is installed at the lower end of the circuit operation steel plate 1131 in a state of being spaced apart from the first magnetic holding means 1133 by a predetermined distance and has a lower end in the form of a bar magnet having an S pole, The circuit breaker is lifted up from the first circuit connecting switch sw1 when the relay switch 1107 is not operated and the relay switch 1107 is operated And the first circuit connection switch sw1 is maintained in the ON state by lowering the iron piece 1131 for operating the circuit at the time of the first circuit connection.

Especially, the auxiliary magnetic holding means 1133a affects the second magnetic holding means 1134 even if the first magnetic holding means 1133 is blinked, so that when the relay switch 1107 is not operated, the OFF state of the first circuit connecting switch And is magnetically coupled with the second magnetic holding means during operation of the relay switch 1107 to maintain the ON state of the first circuit connecting switch sw1.

The gap 1134a is provided so as to surround the periphery of the N pole of the second magnetic holding means 1134 and the second magnetic holding means and the first magnetic holding means are not directly coupled to each other when they are magnetically coupled, So that the first magnetic holding means and the second magnetic holding means can be separated more naturally from each other by the action of the spacing agent at the time of disassembly. If the spacing agent is not present, the body of the first self-holding means and the body of the second self-holding means are directly attached to each other, so that mutual separation becomes difficult later. Accordingly, in the present invention, further spacers are provided so that the first magnetic holding means and the second magnetic holding means can be easily separated.

The reason why the spacing agent is provided only around the N pole of the second magnetic holding means is that the first magnetic holding means and the second magnetic holding means must be separated from each other when the relay switch is not operated, Pole and the S-pole of the second magnetic holding means are opposed to each other and the separated state can be easily maintained. If the spacing agent is wrapped to the S-pole of the second magnetic holding means, the strength of the S-poles of the first magnetic holding means and the second magnetic holding means due to interference of the spacing agent is weakened May become unstable.

Accordingly, in the present invention, the spacers are provided only on the N pole of the second magnetic holding means to facilitate the separation of the first magnetic holding means and the second magnetic holding means, and when magnetic coupling is performed, So that the magnetically coupled state can be easily maintained. In practice, when the first magnetic holding means and the second magnetic holding means are coupled to each other, the N pole of the first magnetic holding means and the S pole of the second magnetic holding means come close to each other and are strongly magnetically coupled Even if the relay switch is turned off, the falling state of the circuit breaker 1131 is maintained, so that the ON state of the first circuit connecting switch sw1 can be maintained.

The manual operation switch 1135 is connected to a wire for circuit operation and a wire for connecting an alarm signal output control unit to the power supply. When the user operates the automatic operation switch 1135 to stop the operation of the alarm signal in a state that the alarm signal output unit is turned off, The signal output control unit turns off the iron wire for power connection so that the operation of the alarm signal display unit is stopped so that the alarm signal is no longer outputted.

Hereinafter, the operation of the alarm signal automatic output unit 1000 will be described.

First, when the alarm signal output unit 1102 is turned on, a DC power source is connected, power is applied to the oscillation transformer, and a high voltage is applied to the secondary side of the oscillation transformer.

The power source induced on the secondary side becomes a DC power source of a half wave through a rectifying diode, and this half wave DC power source becomes a more stable DC power source due to the charging and discharging action of the condenser.

This DC power source is applied to the anode terminal of the thyristor through the coil of the relay switch 1107, while the DC power source charges the capacitor through the resistor. The elevated voltage passes through the die and triggers the switching section 1108 for relay operation so that the node node and the cathode node are switched so that the operation of the relay switch is made, The circuit connecting switch sw1 and the alarm signal output power switch sw2 are turned on to apply power to the alarm signal output control unit 1140 so that an alarm signal is displayed.

When the first circuit connection switch sw1 is activated, a base end of the power supply maintaining switch 1118 is activated, and a closed circuit is induced in the emitter end and the collector end of the power supply holding switch 1118 to supply power to the transformer Off.

That is, a voltage between the resistor 1109 and the capacitor 1110 flows through the diode 1120 to flow between the emitter terminal and the collector terminal of the power source holding switching unit 1118, and the resistance between the resistor by the bypass and the capacitor When the voltage between the resistor and the capacitor is lowered, the trigger signal to the switching unit for relay operation 1108 is stopped, so that the node end and the tail end are turned off and the current flows to the relay switch 1107 So that the power supply is continuously stopped for switching.

On the other hand, if the operator turns off the first circuit connection switch and the alarm signal output power switch during the output of the alarm signal, there is no current flow in the closed circuit, and accordingly, the bias voltage flowing between the emitter end and the base end of the power- And the power supply switching unit 1118 is turned off.

The power supply switching unit 1118 is turned off to remove the bypass voltage between the resistor and the capacitor through the diode 1120 and the voltage is charged in the capacitor 1110.

The charged voltage causes a break-over phenomenon of the die 1111 and the trigger signal is output from the die to the switching section 1108 for auxiliary switch operation so as to move the iron piece and maintain the closed circuit while the alarm signal control section 1140 So that the alarm signal display unit 1150 can be continuously operated.

That is, if the alarm factor is not solved, the present invention continuously outputs a warning sound to guide the user to solve the alarm factor.

That is, even if the user operates the manual switch 1135 to turn off the alarm signal while the alarm signal output unit 1102 is in the on state, the alarm signal is automatically output by returning the power source again, It is possible to induce the alarm signal to be completely cut off because it is reactivated again even if the alarm signal is cut off.

If the alarm signal output unit is turned off, the user can operate the manual switch 1135 to manually shut off the alarm signal.

100: Heating module
110: Input piping
120: Entry hole
130: Outflow pipe
140: exit hall
150: Connection piping
200: Electric heater
300:
1000: Alarm signal automatic output section

Claims (3)

A heater module 100 having an inlet pipe and an inlet hole formed on one side thereof, an outlet pipe and an outlet hole on the other side thereof, and a zigzag connection pipe provided between the inlet pipe and the outlet pipe, and;
And an electric heater (200) attached to a lower end of the heating module and heating the raw water while the raw water flows through the connection pipe. The method according to claim 1,
A sensor unit 300 for sensing when the electric heater is overheated;
And an alarm signal automatic output unit 1000 for outputting an alarm signal under the control of the control unit 400 when it is determined that the electric heater is overheated as a result of the measurement by the sensor unit;
The alarm signal automatic output unit 1000,
A power supply unit 1101 for applying a power supply signal by its own power supply;
An alarm signal output unit 1102 for receiving a signal from the control unit and switching the power supply circuit;
An oscillation transformer 1103 which is supplied with electricity when the power supply unit is turned on and outputs a boosted AC current;
A relay operation switching unit 1108 connected to the output terminal of the oscillation transformer 1103 and turned on by electrical supply;
A relay switch 1107 installed at an output terminal of the switching unit 1108 for generating a magnetic force and generating a magnetic force;
A first circuit connection switch sw1 that performs a function of energizing the circuit while the iron wire is pulled by the relay switch 1107;
An alarm signal output power switch sw2 for supplying power to the alarm signal output control unit 1140 to display an alarm signal when the iron wire is pulled by the relay switch 1107;
A circuit-operating iron piece (1131) which contacts the first circuit connecting switch to turn on the power-source holding switch part;
An alarm signal output control unit power connection iron piece 1132 that is designed to operate in conjunction with the circuit operation iron piece and connects the power to the alarm signal output control unit when the circuit breaker is turned on to induce the alarm device to operate;
The first circuit connection switch and the base end are connected to each other and the emitter end and the collector end are connected to the oscillation transformer 1103 and the relay operation switching part 1108. The operation of the relay operation switching part 1108 pulls the iron piece If the first circuit connection switch sw1 and the alarm signal output power switch sw2 are forcibly turned off at this time, the closed circuit is broken while the switching is on, The switching unit 1108 for relay operation is turned on to turn on the relay switch so that the first circuit connecting switch sw1 and the alarm signal output power switch sw2 are turned on to continuously output an alarm signal And a switching unit (1118) for maintaining the temperature of the hot water. 3. The method of claim 2,
The alarm signal automatic output unit 1000,
The first circuit connection switch sw1 and the circuit operation wire 1131 are connected to each other at the lower end of the circuit operation steel plate 1131 and at the lower end thereof in the form of a bar magnet having an S pole, First self-sustaining means 1133 for guiding the electric power to be maintained in the off-state at all times;
And the first magnetic holding means 1133 having the S pole at the lower end when the relay switch 1107 is not operated when the relay switch 1107 is not operated is pushed against the first circuit connecting switch sw1, The circuit breaker 1131 is pulled up to maintain the electrically turned off state and the circuit breaker 1131 is pulled up when the relay switch 1107 is operated so that the S pole constituting the upper part of the body and the first magnetic holding means The N poles constituting the upper part of the body of the first magnetic holding member 1133 are positioned close to each other and at the same time the N pole constituting the lower part of the body and the S pole constituting the lower part of the body of the first magnetic holding means 1133 are positioned close to each other, When the first circuit connecting switch sw1 is magnetically coupled with the first magnetic holding means 1133 and the first circuit connecting switch sw1 is switched, the operation state of the circuit breaker 1131 continues even if the relay switch is stopped, Second self-sustaining means 1134 for maintaining the on-state of the portion 1118;
The first magnetic holding means 1133 is disposed at a lower end of the circuit board 1131 at a predetermined distance from the first magnetic holding means 1133. The lower end of the first magnetic holding means 1133 is in the form of a bar magnet having an S pole, The circuit breaker 1111 is lifted from the first circuit connection switch sw1 and the circuit breaker is kept in the state in which the circuit breaker 1131 is not operated and when the relay switch 1107 is operated, The first circuit connection switch sw1 is kept on to maintain the ON state of the first circuit connection switch sw1 so that the second magnetic holding means 1134 is affected even if the first magnetic holding means 1133 is lost, And auxiliary magnetic holding means 1133a for maintaining the off state of the first circuit connecting switch and magnetically coupled to the second magnetic holding means during operation of the relay switch 1107 to maintain the ON state of the first circuit connecting switch sw1 )and;
And the second magnetic holding means and the first magnetic holding means are magnetically coupled to each other so that they are not directly coupled to each other but are held in a constant gap while being magnetically coupled to each other The S pole of the first magnetic holding means and the S pole of the second magnetic holding means face each other and are separated from each other so that the first magnetic holding means and the second magnetic holding means can be separated from each other more naturally. When the first magnetic holding means and the second magnetic holding means are coupled to each other, the N pole of the first magnetic holding means and the S pole of the second magnetic holding means are positioned close to each other, Even if the relay switch is turned off by a strong magnetic force, the falling state of the circuit breaker 1131 continues to be maintained so that the ON state of the first circuit connecting switch sw1 can be maintained. First (1134a) and;
And a control unit for controlling the operation of the alarm signal display unit when the user operates the alarm unit to interrupt the operation of the alarm signal, And a manual operation switch (1135) for stopping the output of the alarm signal so that no further alarm signal is output.

Images