KR101964420B1 - Electric instant water heater - Google Patents

Abstract

The present invention is a low-power instant hot water device, in particular through the water flow through the flow pipe in a direct manner and at this time installed a heater device under the flow pipe to be automatically heated as the water flows to safely use the water at the minimum power It relates to a low power instantaneous hot water device,
In one side, the water supply pipe and the water supply hole are formed, and the water supply pipe and the water discharge hole are formed on the other side, and the heater module 100 is provided with a zigzag connection pipe between the water supply pipe and the water supply pipe. and; It is attached to the bottom of the heating module, characterized in that it comprises an electric heater 200 for heating the raw water while the raw water flows through the connecting pipe.

Description

Low power instantaneous water heater, manufacturing method and driving method {Electric instant water heater}

The present invention relates to a low power instantaneous hot water heater, a manufacturing method and a driving method, and in particular, to pass the water through the flow path tube in a direct manner, and at this time, by installing a heater device under the flow path tube to automatically heat the water flowing to the minimum power It relates to a low-power instantaneous hot water device, a manufacturing method and a driving method, characterized in that it can be used safely to the water.

Recently, as the function of the water purifier becomes more advanced and diversified, in addition to simply providing purified water, a cold and hot water supply function capable of immediately providing cold water below 10 ° C. and hot water above 90 ° C. is being added to the water purifier. In general, a water purifier having a cold / hot water supply function purifies water supplied from the outside through various filters and stores it in a purified water tank, and supplies the water stored in the purified water tank to a separate hot water tank and a cold water tank to provide a heater in the hot water tank. The water is heated through, and the cold water tank uses a cooler to cool.

Typically, the water stored in the hot water tank is heated by a heater installed in the hot water tank to maintain a predetermined temperature or more. A heater installed in the hot water tank and heating the water so as to maintain the temperature of the water stored in the hot water tank at a constant temperature is generally called a siege heater. The water stored in the hot water tank by the sheath heater is maintained at a constant temperature, and when the high temperature water is required by the user, the water temperature is increased and discharged.

Such a conventional hot water heating device uses a sheath heater to maintain the temperature of the hot water in the hot water tank even if the user does not use hot water, so there is a problem in the amount of electricity used. In addition, since the size of the hot water tank is large, there is a problem in that the size of the water purifier in which the hot water heating device is installed increases.

Korea Patent Registration No. 10-0852511

The present invention is to solve the above problems, an object of the present invention is to provide an instantaneous hot water generating device that can be instantaneously heated to supply hot water while the raw water flows.

As a means for achieving the above object,

According to the present invention, a water supply pipe and a water supply hole are formed at one side, and a water supply pipe and a water discharge hole are formed at the other side, and a heater module is provided with a zigzag connection pipe between the water supply pipe and the water supply pipe. 100; It is attached to the bottom of the heating module, characterized in that it comprises an electric heater 200 for heating the raw water while the raw water flows through the connecting pipe.

In addition, the light emitting means 310 and the light receiving means 320 is installed on both sides of the electric heater for detecting dust; A controller 400 for analyzing the amount of light transmitted from the light emitting means to the light receiving means to check the dust generated in the electric heater, and outputting a control signal to output an alarm sound when the dust particles are equal to or greater than the reference; Characterized in that it comprises an automatic alarm signal output unit 1000 for outputting an alarm sound to the outside according to the control signal of the controller.

In addition, the automatic alarm signal output unit 1000, the power supply unit 1110 for applying power by its own power source; A first relay switch (RY1) installed at one side of an output end of the power supply unit to switch power output from the power supply unit; A second relay switch (RY2) installed at the output side of the power supply unit to switch the power supply unit output from the power supply unit; A third relay switch (RY3) coupled to an output terminal of the second relay switch and generating a magnetic force when the second relay switch is switched; A first circuit connection switch (sw1) which performs a function of energizing a circuit while the iron piece is pulled by the third relay switch; Power switch for outputting the second alarm signal which serves to induce the alarm signal is displayed on the alarm signal display unit 1150 by supplying power to the alarm signal output control unit 1140 while the iron piece is pulled by the third relay switch ( sw2); The second relay switch is switched to cause the third relay switch to be switched, thereby switching the first circuit connection switch and the power switch for outputting the second alarm signal, and then turning off the second relay switch and simultaneously turning off the first relay switch. An alarm which switches the relay switch so that the third relay switch is turned off and at the same time the switching state of the first circuit connection switch and the power switch for outputting the second alarm signal configured to interlock with the first relay switch is sustained. A controller 1120; An iron piece 1131 for contacting the first circuit connection switch sw1 for relaying power transmitted from the first relay switch and continuing the flow of power; It is designed to operate in conjunction with the circuit operation iron piece 1131, and when the circuit operation iron piece 1131 is turned on, the alarm signal output control unit power connection for inducing the alarm device to operate by connecting power to the alarm signal output control unit 1140. Molten iron 1132; Installed in the lower end of the circuit operation plate 1113, the lower end is formed of a bar magnet shape of the S pole, the first circuit connection switch (sw1) and the circuit operation iron piece 1131 when the third relay switch is inoperative under the influence of the S pole. First self-holding means (1133) to induce () to always remain off; Installed in the upper portion of the first circuit connection switch sw1, the upper end is formed in the shape of a bar magnet with an S pole, and when the third relay switch is inoperative, the first magnetic holding means 1133, whose lower end is the S pole, is pushed together. Pushing up the operating iron piece 1131 to maintain the electrical off state, and when operating the third relay switch, the circuit operating iron piece 1131 is pulled to form the upper portion of the body and the first magnetic retaining means 1133 N pole constituting the upper portion of the body of the) is located close to the first pole while the N pole constituting the lower portion of the body and the S pole constituting the lower portion of the body of the first self-holding means 1133 are placed in close proximity When the first circuit connection switch sw1 is magnetically coupled to the holding means 1133 and at the same time the first circuit connection switch sw1 is switched, even if the operation of the third relay switch stops, the attachment state of the iron piece 1131 for circuit operation is continued and the first relay switch To maintain the power supply state, and when the iron for circuit operation is operated by the operation of the third relay switch, the second magnet for operating the alarm signal output control unit power connection iron automatically operates to output the alarm signal to the outside. Holding means 1134; It is installed at the lower end of the circuit actuated steel plate 1131 in a state spaced apart from the first magnetic holding means 1133 by a bar magnet shape of the lower end of the S pole pushed against the second magnetic holding means of the S end of the upper end. While the third relay switch is inoperative, the circuit operating iron piece 1131 is lifted from the first circuit connection switch sw1 to maintain the circuit disconnection state, and the circuit operating iron piece 1131 is lowered when the third relay switch is operated. Auxiliary self-holding means 1133a for maintaining the on-state of the first circuit connection switch sw1; It is installed to surround the N pole of the second magnetic retaining means 1134, and the second magnetic retaining means and the first magnetic retaining means are coupled to maintain a constant gap without being directly coupled to each other when magnetically coupled. And a spacer 1134a for inducing the first self-maintaining means and the second self-maintaining means to be naturally separated from each other upon disassembly; It is coupled to the iron piece for the circuit operation and the iron signal for connecting the alarm signal output control unit, when the user operates to stop the alarm signal operation, turn off the iron for circuit operation and the iron signal for the alarm signal output control unit power to operate the alarm signal display unit It is characterized in that it further comprises a manual operation switch (1135) for inducing the stop no longer output the alarm signal.

In addition, providing a heating module having a zigzag tube form; Installing an electric heater under the heating module; Characterized in that it comprises the step of installing a light emitting device and a light receiving device for measuring the dust generation amount on both sides of the electric heater.

In addition, supplying power to the electric heater when the power is supplied from the outside; Driving power to the light emitting element and the light receiving element to receive light transmitted from the light emitting element in the light receiving element when power is supplied from the outside; Receiving dust generation amount information from the light receiving element and outputting an alarm signal through an alarm signal automatic output unit if the reference value is higher than the reference value; The automatic alarm signal output unit 1000 includes a power supply 1110 for applying power by its own power source; A first relay switch (RY1) installed at one side of an output end of the power supply unit to switch power output from the power supply unit; A second relay switch (RY2) installed at the output side of the power supply unit to switch the power supply unit output from the power supply unit; A third relay switch (RY3) coupled to an output terminal of the second relay switch and generating a magnetic force when the second relay switch is switched; A first circuit connection switch (sw1) which performs a function of energizing a circuit while the iron piece is pulled by the third relay switch; Power switch for outputting the second alarm signal which serves to induce the alarm signal is displayed on the alarm signal display unit 1150 by supplying power to the alarm signal output control unit 1140 while the iron piece is pulled by the third relay switch ( sw2); The second relay switch is switched to cause the third relay switch to be switched, thereby switching the first circuit connection switch and the power switch for outputting the second alarm signal, and then turning off the second relay switch and simultaneously turning off the first relay switch. An alarm which switches the relay switch so that the third relay switch is turned off and at the same time the switching state of the first circuit connection switch and the power switch for outputting the second alarm signal configured to interlock with the first relay switch is sustained. A controller 1120; An iron piece 1131 for contacting the first circuit connection switch sw1 for relaying power transmitted from the first relay switch and continuing the flow of power; It is designed to operate in conjunction with the circuit operation iron piece 1131, and when the circuit operation iron piece 1131 is turned on, the alarm signal output control unit power connection for inducing the alarm device to operate by connecting power to the alarm signal output control unit 1140. Molten iron 1132; Installed in the lower end of the circuit operation plate 1113, the lower end is formed of a bar magnet shape of the S pole, the first circuit connection switch (sw1) and the circuit operation iron piece 1131 when the third relay switch is inoperative under the influence of the S pole. First self-holding means (1133) to induce () to always remain off; Installed in the upper portion of the first circuit connection switch sw1, the upper end is formed in the shape of a bar magnet with an S pole, and when the third relay switch is inoperative, the first magnetic holding means 1133, whose lower end is the S pole, is pushed together. Pushing up the operating iron piece 1131 to maintain the electrical off state, and when operating the third relay switch, the circuit operating iron piece 1131 is pulled to form the upper portion of the body and the first magnetic retaining means 1133 N pole constituting the upper portion of the body of the) is located close to the first pole while the N pole constituting the lower portion of the body and the S pole constituting the lower portion of the body of the first self-holding means 1133 are placed in close proximity When the first circuit connection switch sw1 is magnetically coupled to the holding means 1133 and at the same time the first circuit connection switch sw1 is switched, even if the operation of the third relay switch stops, the attachment state of the iron piece 1131 for circuit operation is continued and the first relay switch To maintain the power supply state, and when the iron for circuit operation is operated by the operation of the third relay switch, the second magnet for operating the alarm signal output control unit power connection iron automatically operates to output the alarm signal to the outside. Holding means 1134; It is installed at the lower end of the circuit actuated steel plate 1131 in a state spaced apart from the first magnetic holding means 1133 by a bar magnet shape of the lower end of the S pole pushed against the second magnetic holding means of the S end of the upper end. While the third relay switch is inoperative, the circuit operating iron piece 1131 is lifted from the first circuit connection switch sw1 to maintain the circuit disconnection state, and the circuit operating iron piece 1131 is lowered when the third relay switch is operated. Auxiliary self-holding means 1133a for maintaining the on-state of the first circuit connection switch sw1; It is installed to surround the N pole of the second magnetic retaining means 1134, and the second magnetic retaining means and the first magnetic retaining means are coupled to maintain a constant gap without being directly coupled to each other when magnetically coupled. And a spacer 1134a for inducing the first self-maintaining means and the second self-maintaining means to be naturally separated from each other upon disassembly; It is coupled to the iron piece for the circuit operation and the iron signal for connecting the alarm signal output control unit, when the user operates to stop the alarm signal operation, turn off the iron for circuit operation and the iron signal for the alarm signal output control unit power to operate the alarm signal display unit It is characterized in that it further comprises a manual operation switch (1135) for inducing the stop no longer output the alarm signal.

As described above, the present invention, unlike the way in which the raw water is stored and heated in the prior art, since the raw water is heated and discharged momentarily while flowing into the inside of the heating module and discharged, it is necessary to maintain the temperature of the stored hot water unnecessarily There is no. Therefore, not only can the hot water be supplied quickly, but the electricity consumption is greatly reduced.

In addition, the heating module is provided with a zigzag-shaped flow path, so even if the size of the heating module is small, the raw water can be heated for a long time because the raw water flows through the flow path can provide the raw water of the user desired temperature.

1 is a cross-sectional view of the overall configuration of the instantaneous hot water heater of the present invention.
Figure 2 is a heating module configuration of the instantaneous hot water apparatus of the present invention.
3 is an electric heater configuration of the instantaneous hot water heater of the present invention.
4 is a state in which a light emitting element and a light receiving element are installed in the electric heater of the present invention.
Figure 5 is a block diagram for automatic alarm signal output of the present invention.
6 is a circuit diagram of an automatic alarm signal output unit of the present invention.
7 is an enlarged view illustrating main parts of FIG. 6;
8 is an exemplary operation of the automatic alarm signal output unit of the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

In addition, preferred embodiments of the present invention to be carried out below are already provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions commonly provided in the technical field to which the present invention belongs. The configuration will be omitted, and described mainly on the functional configuration to be additionally provided for the present invention.

If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components already used in the prior art among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following examples will be used to appropriately modify the terms so that those skilled in the art to clearly understand the essential technical features of the present invention, by which the present invention, It is by no means limited.

As a result, the technical spirit of the present invention is determined by the claims, and the following embodiments are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It's just

1 is a cross-sectional view of the overall configuration of the instantaneous hot water heater of the present invention.

Figure 2 is a heating module configuration of the instantaneous hot water apparatus of the present invention.

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

4 is a state in which a light emitting element and a light receiving element are installed in the electric heater of the present invention.

Figure 5 is a block diagram for automatic alarm signal output of the present invention.

6 is a circuit diagram of an automatic alarm signal output unit of the present invention.

7 is an enlarged view illustrating main parts of FIG. 6;

8 is an exemplary view illustrating the operation of the automatic alarm signal output unit of the present invention.

Instantaneous hot water generating device according to an embodiment of the present invention, the heating module 100 and the electric heater 200.

The heating module 100 is formed in a zigzag tube bar, the inlet pipe 110 and the inlet hole 120 is formed on one side, the outlet pipe 130 and the outlet hole 140 is formed on the other side It is done.

In addition, the water supply pipe is connected to the water supply pipe from the water supply pipe 120 so that the cold water is inserted, and the hot water is used to connect the shower through the water extraction hole 140.

The electric heater 200 is installed at the bottom of the heating module 100, and serves to heat the raw water while the raw water flows through the heating module 100.

That is, the connection pipe 150 is zigzag-coupled between the water inlet pipe 110 and the water outlet pipe 130, and the water is dispersed and converted into warm water while passing through the connection pipe 150.

That is, in the conventional method of storing and using water after storing it, the present invention is automatically converted to warm water while the water passes through the heating module is provided directly to the user warm water.

The electric heater 200 is formed in the form of a printed circuit board (PCB). Referring to the structure of the electric heater 200 formed in the form of a PCB in more detail, it is formed by printing a circuit that can generate heat between the two films, one film is an insulating film, the other film is insulated It may be made of a film.

The electric heater 200 may start to generate heat when the power is supplied from the outside, and the heat generated by the electric heater 200 may be transferred to the heating module 100 to heat the raw water. In the present embodiment, as described above, the electric heater 200 in the form of a PCB is applied, but this is only an example and need not be limited thereto.

However, when a lot of dust is accumulated on the front surface of the electric heater, a short may occur due to an electrical short circuit, and when a short occurs, the electric heater is overheated and there is a risk of fire.

In other words, the insulation film may be attached to prevent electrical short, but if the dust is accumulated excessively, the insulation film may be corroded, and the risk of short may increase due to the damage of the insulation film, which may cause a fire hazard. will be.

In order to solve this problem, the present invention further installs the light emitting means 310 and the light receiving means 320 on both sides of the electric heater to analyze the amount of light transmitted from the light emitting means to the light receiving means to check the dust generated in the electric heater. And, if the particles of the dust is higher than the reference, the controller 400 detects this and outputs an alarm sound to the outside through the automatic alarm signal output unit 1000 to induce it to be properly solved.

That is, when the amount of dust is above the standard, the alarm signal is output to the outside to induce the dust present in the electric heater to prevent the risk of a safety accident due to the fire.

Step by step description of the production method of the present invention.

Providing a heating module having a zigzag tube shape;

Installing an electric heater under the heating module;

Comprising a step of installing a light emitting element and a light receiving element for measuring the dust generation amount on both sides of the electric heater.

Looking at the driving method of the present invention.

First, if power is supplied from the outside, supplying power to the electric heater;

The step of outputting the alarm signal through the alarm signal automatic output unit if the dust generation amount information received from the light receiving element is higher than the reference.

The alarm signal automatic output unit 1000 includes a power supply 1110, a first relay switch RY1, a second relay switch RY2, a third relay switch RY3, and a first circuit connection switch ( sw1), the second circuit connection switch sw2, and the alarm controller 1120.

The power supply 1110 applies power by its own power supply.

The first relay switch RY1 is installed at one output terminal of the power supply unit to switch the power output from the power supply unit.

The second relay switch RY2 is installed at the output side of the power supply unit to switch the power supply unit output from the power supply unit.

The third relay switch RY3 is coupled to the output terminal of the second relay switch and generates a magnetic force when the second relay switch is switched.

The first circuit connection switch sw1 performs a function of energizing the circuit while the iron piece is pulled by the third relay switch.

The second alarm signal output power switch sw2 is supplied with power to the alarm signal output control unit 1140 while the iron piece is pulled by the third relay switch to induce the alarm signal to be displayed through the alarm signal display unit 1150. Play a role.

The alarm control unit 1120 switches the second relay switch to induce the third relay switch to be switched. Accordingly, the first circuit connection switch and the power switch for outputting the second alarm signal are switched, and then the second relay switch is switched. By switching off the first relay switch at the same time as the off state, the third relay switch is turned off and at the same time, the switching state of the first circuit connection switch and the power switch for outputting the second alarm signal configured to interlock with the first relay switch are maintained to maintain the alarm state. It serves to sustain.

In addition, the present invention, the iron piece 1113 for circuit operation, the iron piece 1132 for connecting the alarm signal operation control unit, the first magnetic holding means 1133, the second magnetic holding means 1134, and auxiliary magnetic holding It further comprises a means 1133a, a gap agent 1134a, and a manual operation switch 1135.

The iron piece 1131 for circuit operation is in contact with the first circuit connection switch sw1 and relays power transmitted from the first relay switch to maintain the flow of power.

The alarm signal output controller power connection iron piece 1132 is designed to operate in conjunction with the circuit operation iron piece 1131, and when the circuit operation iron piece 1131 is turned on, the power is connected to the alarm signal output control unit 1140. Induce the alarm to activate.

The first self-maintaining means 1133 is installed at the lower end of the iron plate 1131 for circuit operation, and has a rod magnet shape having a lower end of the S pole. The first circuit connection switch is operated when the third relay switch is inoperative due to the S pole. sw1) and the circuit actuated iron pieces 1131 are always kept off.

The second self-holding means 1134 is installed on the upper part of the first circuit connection switch sw1, and has a rod magnet shape in which the upper end is S-pole, and the first self-holding is S pole when the third relay switch is inoperative. Pushing the means 1133 mutually to push up the circuit actuating iron piece 1131 to maintain an electrically off state, the circuit actuating iron piece 1131 is pulled out when the third relay switch is operated to form an upper portion of the body. The north pole and the north pole constituting the upper part of the body of the first self-holding means 1133 are located close to each other, and the north pole forming the lower part of the body and S constituting the bottom of the body of the first self-holding means 1133. If the poles are located in close proximity and are magnetically coupled to the first magnetic holding means 1133 and at the same time the first circuit connection switch sw1 is switched, the attachment of the iron piece 1131 for circuit operation even if the operation of the third relay switch is stopped. State The power supply is then maintained through the first relay switch. At this time, when the iron piece for circuit operation is operated by the operation of the third relay switch, the iron piece for connecting the alarm signal output control unit is automatically operated so that the alarm signal is output to the outside.

The auxiliary self-maintaining means 1133a is installed at the lower end of the circuit actuated steel plate 1131 in a state spaced apart from the first self-maintaining means 1133 by a predetermined distance, and the lower end is formed of a bar magnet having an S pole and an upper end thereof is S. When the third relay switch is deactivated while being pushed by the second magnetic holding means that is poled, the iron piece 1131 for circuit operation is lifted from the first circuit connection switch sw1 to maintain the circuit disconnection state, and the circuit when the third relay switch is operated. The operation iron piece 1131 is lowered to maintain the on state of the first circuit connection switch sw1.

In particular, the auxiliary self-holding means 1133a affects the second self-holding means 1134 even when the first self-holding means 1133 is lost, thereby preventing the first relay connection switch from turning off when the third relay switch is inoperative. And magnetically coupled to the second self-holding means during the operation of the third relay switch to maintain the on state of the first circuit connection switch sw1.

The spacer 1134a is installed around the N pole of the second self-holding means 1134, and the second self-holding means and the first self-holding means are not directly coupled to each other when they are magnetically coupled to each other. It is induced to be coupled to maintain the main body, and when the first self-maintaining means and the second self-maintaining means are disengaged so that they can be separated from each other more naturally by the action of the spacer. If the spacer does not exist, the body of the first self-maintaining means and the body of the second self-maintaining means directly adhere to each other. Accordingly, in the present invention, the spacer is further installed so that the first magnetic holding means and the second magnetic holding means can be easily separated.

Further, the reason why the spacer is installed only around the N pole of the second self-holding means is that the first self-holding means and the second self-holding means should be separated when the relay switch is inoperative. Since the pole and the S pole of the second self-holding means face each other, the separation state can be easily maintained. If the spacer is wrapped up to the S pole of the second self-holding means, when the third relay switch is inoperative, the S pole of the first self-holding means and the second self-holding means is weakened by the interference of the spacer. Maintaining the separation may become unstable.

Accordingly, in the present invention, the spacer is provided only on the north pole of the second self-holding means so that the first self-holding means and the second self-holding means can be easily separated. Due to the arrangement, the magnetic coupling state can be easily maintained. In fact, when the first self-holding means and the second self-holding means are coupled to each other, the north pole of the first self-holding means and the S pole of the second self-holding means are located in close proximity, and thus are magnetically strong. Even if the relay switch is turned off, the falling state of the circuit actuated iron piece 1131 is continued, so that the on state of the first circuit connection switch sw1 can be maintained.

The manual operation switch 1135 is coupled to the iron for circuit operation and the iron signal for connecting the alarm signal output control unit, and when the user operates to stop the alarm signal operation in the off state of the alarm signal output unit, the iron and alarm for circuit operation By turning off the iron for connecting the signal output control unit and stopping the operation of the alarm signal display unit, the alarm signal is no longer output.

Looking at the operation of the automatic alarm signal output unit 1000 as follows.

First, referring to a control relationship for outputting an alarm signal, the control unit applies power to the second relay switch to operate the third relay switch. Accordingly, the first circuit connection switch sw1 and the alarm signal output power switch sw2 are turned on by the operation of the third relay switch, and power is applied to the alarm signal output control unit 1140 to display the alarm signal.

When the first circuit connection switch sw1 is operated, the control unit blocks the operation of the second relay switch to block the operation of the third relay switch and simultaneously operate the first relay switch.

On the other hand, if the operator turns off the first circuit connection switch and the alarm signal output power switch while the alarm signal is being output, the controller recognizes this and then operates the second relay switch to operate the third relay switch so that the iron piece While maintaining the closed circuit and at the same time to restore the power output to the alarm signal control unit 1140 it is possible to continue to operate the alarm signal display unit 1150.

That is, according to the present invention, if the alarm factor is not solved, the alarm sound is continuously output, thereby inducing to solve the alarm factor.

That is, when the control unit applies a switching signal to the second relay switch and the first relay switch, the power is restored again and an alarm signal is automatically output. Accordingly, the alarm signal is not recognized completely and the alarm signal is blocked. The reactivation can induce the operator to reliably solve the cause of the alarm signal.

If the control unit determines that the output of the alarm signal is no longer necessary, the power signal is no longer applied to the first relay switch and the second relay switch. In this case, the user manually operates the manual switch 1135 to manually block the alarm signal. You can do it.

100: heating module 110: water supply piping
120: inlet hole 130: water outlet piping
140: outlet hole 150: piping for connection
200: electric heater 300: control unit
1000: automatic alarm signal output unit

Claims (5)

In one side, the water supply pipe and the water supply hole are formed, and the water supply pipe and the water discharge hole are formed on the other side, and the heating module 100 is provided with a zigzag connection pipe between the water supply pipe and the water supply pipe. 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;
Light emitting means 310 and light receiving means 320 installed at both sides of the electric heater to detect dust;
A controller 400 for analyzing the amount of light transmitted from the light emitting means to the light receiving means to check the dust generated in the electric heater, and outputting a control signal to output an alarm sound when the dust particles are equal to or greater than the reference;
And an alarm signal automatic output unit (1000) for outputting an alarm sound to the outside according to the control signal of the controller;

The alarm signal automatic output unit 1000,
A power supply unit 1110 for applying power by its own power source;
A first relay switch (RY1) installed at one side of an output end of the power supply unit to switch power output from the power supply unit;
A second relay switch (RY2) installed at the output side of the power supply unit to switch the power supply unit output from the power supply unit;
A third relay switch (RY3) coupled to an output terminal of the second relay switch and generating a magnetic force when the second relay switch is switched;
A first circuit connection switch (sw1) which performs a function of energizing a circuit while the iron piece is pulled by the third relay switch;
Power switch for outputting the second alarm signal which serves to induce the alarm signal is displayed on the alarm signal display unit 1150 by supplying power to the alarm signal output control unit 1140 while the iron piece is pulled by the third relay switch ( sw2);
The second relay switch is switched to cause the third relay switch to be switched, thereby switching the first circuit connection switch and the power switch for outputting the second alarm signal, and then turning off the second relay switch and simultaneously turning off the first relay switch. An alarm which switches the relay switch so that the third relay switch is turned off and at the same time the switching state of the first circuit connection switch and the power switch for outputting the second alarm signal configured to interlock with the first relay switch is sustained. A controller 1120;
An iron piece 1131 for contacting the first circuit connection switch sw1 for relaying power transmitted from the first relay switch and continuing the flow of power;
It is designed to operate in conjunction with the circuit operation iron piece 1131, and when the circuit operation iron piece 1131 is turned on, the alarm signal output control unit power connection for inducing the alarm device to operate by connecting power to the alarm signal output control unit 1140. Molten iron 1132;
Installed in the lower end of the circuit operation plate 1113, the lower end is formed of a bar magnet shape of the S pole, the first circuit connection switch (sw1) and the circuit operation iron piece 1131 when the third relay switch is inoperative under the influence of the S pole. First self-holding means (1133) to induce () to always remain off;
Installed in the upper portion of the first circuit connection switch sw1, the upper end is formed in the shape of a bar magnet with an S pole, and when the third relay switch is inoperative, the first magnetic holding means 1133, whose lower end is the S pole, is pushed together. Pushing up the operating iron piece 1131 to maintain the electrical off state, and when operating the third relay switch, the circuit operating iron piece 1131 is pulled to form the upper portion of the body and the first magnetic retaining means 1133 N pole constituting the upper portion of the body of the) is located close to the first pole while the N pole constituting the lower portion of the body and the S pole constituting the lower portion of the body of the first self-holding means 1133 are placed in close proximity When the first circuit connection switch sw1 is magnetically coupled to the holding means 1133 and at the same time the first circuit connection switch sw1 is switched, even if the operation of the third relay switch stops, the attachment state of the iron piece 1131 for circuit operation is continued and the first relay switch To maintain the power supply state, and when the iron for circuit operation is operated by the operation of the third relay switch, the second magnet for operating the alarm signal output control unit power connection iron automatically operates to output the alarm signal to the outside. Holding means 1134;
It is installed at the lower end of the circuit actuated steel plate 1131 in a state spaced apart from the first magnetic holding means 1133 by a bar magnet shape of the lower end of the S pole pushed against the second magnetic holding means of the S end of the upper end. While the third relay switch is inoperative, the circuit operating iron piece 1131 is lifted from the first circuit connection switch sw1 to maintain the circuit disconnection state, and the circuit operating iron piece 1131 is lowered when the third relay switch is operated. Auxiliary self-holding means 1133a for maintaining the on-state of the first circuit connection switch sw1;
It is installed to surround the N pole of the second magnetic retaining means 1134, and the second magnetic retaining means and the first magnetic retaining means are coupled to maintain a constant gap without being directly coupled to each other when magnetically coupled. A spacing agent 1134a for guiding the first self-maintaining means and the second self-maintaining means to be separated from each other naturally;
It is coupled to the iron piece for the circuit operation and the iron signal for connecting the alarm signal output control unit, when the user operates to stop the alarm signal operation, turn off the iron for circuit operation and the iron signal for the alarm signal output control unit power to operate the alarm signal display unit Low power instantaneous hot water device, characterized in that it further comprises a manual operation switch (1135) to induce no longer output the alarm signal by stopping the. delete delete Providing a heating module having a zigzag tube shape;
Installing an electric heater under the heating module;
Providing light emitting devices and light receiving devices for measuring dust generation on both sides of the electric heater;
Supplying power to the electric heater when power is supplied from the outside;
Driving power to the light emitting element and the light receiving element to receive light transmitted from the light emitting element in the light receiving element when power is supplied from the outside;
Receiving dust generation amount information from the light receiving element and outputting an alarm signal through an alarm signal automatic output unit if the reference value is higher than the reference value;
The alarm signal automatic output unit 1000,
A power supply unit 1110 for applying power by its own power source;
A first relay switch (RY1) installed at one side of an output end of the power supply unit to switch power output from the power supply unit;
A second relay switch (RY2) installed at the output side of the power supply unit to switch the power supply unit output from the power supply unit;
A third relay switch (RY3) coupled to an output terminal of the second relay switch and generating a magnetic force when the second relay switch is switched;
A first circuit connection switch (sw1) which performs a function of energizing a circuit while the iron piece is pulled by the third relay switch;
Power switch for outputting the second alarm signal which serves to induce the alarm signal is displayed on the alarm signal display unit 1150 by supplying power to the alarm signal output control unit 1140 while the iron piece is pulled by the third relay switch ( sw2);
The second relay switch is switched to cause the third relay switch to be switched, thereby switching the first circuit connection switch and the power switch for outputting the second alarm signal, and then turning off the second relay switch and simultaneously turning off the first relay switch. An alarm which switches the relay switch so that the third relay switch is turned off and at the same time the switching state of the first circuit connection switch and the power switch for outputting the second alarm signal configured to interlock with the first relay switch is sustained. A controller 1120;
An iron piece 1131 for contacting the first circuit connection switch sw1 for relaying power transmitted from the first relay switch and continuing the flow of power;
It is designed to operate in conjunction with the circuit operation iron piece 1131, and when the circuit operation iron piece 1131 is turned on, the alarm signal output control unit power connection for inducing the alarm device to operate by connecting power to the alarm signal output control unit 1140. Molten iron 1132;
Installed in the lower end of the circuit operation plate 1113, the lower end is formed of a bar magnet shape of the S pole, the first circuit connection switch (sw1) and the circuit operation iron piece 1131 when the third relay switch is inoperative under the influence of the S pole. First self-holding means (1133) to induce () to always remain off;
Installed in the upper portion of the first circuit connection switch sw1, the upper end is formed in the shape of a bar magnet with an S pole, and when the third relay switch is inoperative, the first magnetic holding means 1133, whose lower end is the S pole, is pushed together. Pushing up the operating iron piece 1131 to maintain the electrical off state, and when operating the third relay switch, the circuit operating iron piece 1131 is pulled to form the upper portion of the body and the first magnetic retaining means 1133 N pole constituting the upper portion of the body of the) is located close to the first pole while the N pole constituting the lower portion of the body and the S pole constituting the lower portion of the body of the first self-holding means 1133 are placed in close proximity When the first circuit connection switch sw1 is magnetically coupled to the holding means 1133 and at the same time the first circuit connection switch sw1 is switched, even if the operation of the third relay switch stops, the attachment state of the iron piece 1131 for circuit operation is continued and the first relay switch To maintain the power supply state, and when the iron for circuit operation is operated by the operation of the third relay switch, the second magnet for operating the alarm signal output control unit power connection iron automatically operates to output the alarm signal to the outside. Holding means 1134;
It is installed at the lower end of the circuit actuated steel plate 1131 in a state spaced apart from the first magnetic holding means 1133 by a bar magnet shape of the lower end of the S pole pushed against the second magnetic holding means of the S end of the upper end. While the third relay switch is inoperative, the circuit operating iron piece 1131 is lifted from the first circuit connection switch sw1 to maintain the circuit disconnection state, and the circuit operating iron piece 1131 is lowered when the third relay switch is operated. Auxiliary self-holding means 1133a for maintaining the on-state of the first circuit connection switch sw1;
It is installed to surround the N pole of the second magnetic retaining means 1134, and the second magnetic retaining means and the first magnetic retaining means are coupled to maintain a constant gap without being directly coupled to each other when magnetically coupled. And a spacer 1134a for inducing the first self-maintaining means and the second self-maintaining means to be naturally separated from each other upon disassembly;
It is coupled to the iron piece for the circuit operation and the iron signal for connecting the alarm signal output control unit, when the user operates to stop the alarm signal operation, turn off the iron for circuit operation and the iron signal for the alarm signal output control unit power to operate the alarm signal display unit Method for driving a low power instantaneous hot water heater, characterized in that it further comprises a manual operation switch (1135) for inducing to stop the output of the alarm signal by stopping the. delete

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