KR20180138499A - Apparatus for adjusting water temperature and water level for a bathtub - Google Patents

Abstract

The present invention relates to a water temperature and level adjustment apparatus for a bathtub, to automatically supply water of a target water temperature and level. According to the present invention, the water temperature and level adjustment apparatus for a bathtub comprises: a hot water pipe connected to a hot water supply pipe; a cold water pipe connected to a cold water supply pipe; a mixed water pipe mixing hot water provided through the hot water pipe and cold water provided through the cold water pipe to discharge the mixed water; a housing to receive at least a part of each of the hot water pipe, the cold water pipe, and the mixed water pipe; a hot water flow rate adjustment unit disposed in the hot water pipe and using a plurality of solenoid valves to adjust a flow rate by at least three levels; a cold water flow rate adjustment unit disposed in the cold water pipe and using a plurality of solenoid valves to adjust a flow rate by at least three levels; a non-contact water temperature sensor disposed on the bottom of the housing and measuring the temperature of the water stored in the bathtub; a non-contact water level sensor disposed on the bottom of the housing and measuring the level of the water stored in the bathtub; and a control unit received in the housing, controlling each level of the hot and cold water flow rate adjustment units in accordance with a preset water temperature and the measured water temperature, and blocking the hot and cold water flow rate adjustment units when the measured water level reaches a preset water level.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bath water temperature adjusting apparatus,

The present invention relates to a bath water temperature and water level adjusting device, and more particularly, to a bath water temperature and water level adjusting device for setting a desired water temperature and a desired water level at the time of bathing, ≪ / RTI >

Generally, a bathtub is fixedly installed in a bathroom or the like, and is used when bathing.

In order to take a bath in such a bath, water is filled in the inner space of the bathtub. The user opens and closes the watertightness and supplies water of a suitable temperature to the bathtub, and baths in a state where the water level and the water temperature are matched.

However, in the process of supplying water to such a bathtub, the user may wait until the water level reaches a certain level while confirming the amount of water supplied to the bathtub after opening and closing the waterproofing, or alternatively, There is an inconvenience in the use of opening and closing the water valve when the water level reaches a certain level and when water flow is turned on and off while doing other work while opening and closing the water valve, And the water is wasted more than necessary.

In addition, it was troublesome to adjust the amount of hot water and cold water from the water jacket to adjust to the desired water temperature, and even if the water from the water jacket was adjusted to the desired water temperature, As a result, the water received in the bathtub eventually became inconvenient to be lower than the desired water temperature.

An object of the present invention is to provide a bath water temperature and water level adjusting device that automatically provides a water of a target water temperature and a target water level in a bathtub when a user sets a desired water temperature and a desired water level at the time of bathing.

It is to be understood, however, that the technical scope of the present invention is not limited to the above-described technical problems, and other technical problems may be derived from the following description.

According to an aspect of the present invention, there is provided a bath water temperature and water level adjusting apparatus comprising: a hot water pipe connected to a hot water supply pipe; A cold water pipe connected to the cold water supply pipe; A mixed water pipe in which hot water flowing through the hot water pipe and cold water flowing through the cold water pipe are mixed and discharged; A housing for accommodating at least a part of each of the hot water pipe, the cold water pipe and the mixed water pipe; A hot water flow rate regulator provided in the hot water pipe and adjusting the flow rate to at least three levels using a plurality of solenoid valves; A cold water flow rate regulator provided in the cold water pipe and adjusting the flow rate to at least three levels using a plurality of solenoid valves; A noncontact type water temperature sensor provided at a lower end of the housing for measuring a water temperature of the water received in the bathtub; A non-contact type water level sensor provided at a lower end of the housing for measuring a water level of the water received in the bathtub; And a controller for controlling the level of each of the hot water flow rate regulator and the cold water flow rate regulator according to a predetermined set water temperature and the measured water temperature, and, when the measured water level reaches a predetermined set water level, And a control unit for shutting off the flow rate control unit and the cold water flow rate control unit.

Wherein the bath water temperature and water level adjusting device further includes a communication unit accommodated in the housing and communicating with a user's smartphone, wherein the set water temperature and the set water level are set by the user through the application of the smart phone And the communication unit may receive the set water temperature and the set water level information from the smartphone.

The noncontact type water temperature sensor can measure the water temperature using an infrared temperature sensor.

The non-contact type water level sensor can measure the water level by emitting microwaves or ultrasonic waves to the water surface.

Wherein the hot water flow rate control unit includes a first solenoid valve for shutting off or fully opening the hot water pipe and a second solenoid valve for partially opening or fully opening the cold water pipe, And a second solenoid valve for partially opening or fully opening the cold water pipe, wherein the hot water flow rate controller controls the first solenoid valve such that no current is applied to the first solenoid valve, The first and second solenoid valves are fully opened by applying a current thereto, a current is applied to the first solenoid valve and a current is not applied to the second solenoid valve, thereby partially opening the cold water flow control The first solenoid valve is completely disconnected by the current not being applied to the first solenoid valve, The fully opened by applying a current to the first and second solenoid valves, and Soleil, and applying a current to the first solenoid valve is opened by the first part may be not applied to the second current to the solenoid valve.

Wherein the control unit opens all of the cold water flow rate regulator and cuts off the hot water flow regulator if the measured water temperature is greater than the set water temperature and the difference between the measured water temperature and the set water temperature is greater than a predetermined threshold, When the measured water temperature is higher than the set water temperature and the difference between the measured water temperature and the set water temperature is smaller than the predetermined threshold value, the cold water flow rate control unit is entirely opened and the hot water flow rate control unit is partially opened, Water flow rate regulating unit and shutting off the cold water flow rate regulator if the measured water temperature is less than the set water temperature and the difference between the set water temperature and the measured water temperature is greater than the predetermined threshold value, If the difference between the set water temperature and the measured water temperature is less than the predetermined threshold value, Fully opened, and the can portion opening portion the cold water flow control.

The bath water temperature and water level regulating device includes a propeller provided in the mixed water pipe and rotated by the flow of water; A generator housed in the housing and generating power from rotation of the propeller; And a battery accommodated in the housing and storing the generated power to supply power to the hot water flow rate controller, the cold water flow controller, the water temperature sensor, the water level sensor, and the controller.

According to the present invention, when the user sets a target water temperature and a target water level at the time of bathing, the water of the target water temperature and the target water level can be automatically provided in the bathtub.

However, the effects of the present invention are not limited to those described above, and other technical effects may be derived from the following description.

FIG. 1 shows a schematic appearance of a water temperature and water level regulating apparatus for a bath according to an embodiment of the present invention.
2 shows an internal configuration of a water temperature and water level regulating apparatus for a bath according to an embodiment of the present invention.
Fig. 3 shows a principle of measuring the water level of the water received by the non-contact type water level sensor 410 in the bath.
FIGS. 4A to 4C show specific configurations and operations of the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2.
5 is a flowchart showing an algorithm for the control unit 510 to control the hot water flow rate control unit 300_1 and the cold water flow rate control unit 300_2.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In the following description and the accompanying drawings, substantially the same components are denoted by the same reference numerals, and redundant description will be omitted. 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.

FIG. 1 shows a schematic external appearance of a water temperature and water level controller for a bathtub according to an embodiment of the present invention, and FIG. 2 shows an internal configuration of a water temperature and water level controller for a bathtub according to an embodiment of the present invention.

1 and 2, the bath water temperature and water level adjusting apparatus according to the present embodiment includes a housing 100, a hot water pipe 210, a cold water pipe 220, a mixed water pipe 230, A water temperature sensor 420, a control unit 510, a communication unit 520, a memory 530, a propeller 610, a generator 620, , And a battery (630).

The housing 100 is made of, for example, stainless steel and includes a part of each of the hot water pipe 210, the cold water pipe 220, the mixed water pipe 230, the noncontact type water level sensor 410, the noncontact type water temperature sensor 420, A communication unit 520, a memory 530, a generator 620, a battery 630, and the like.

The hot water pipe 210 is connected to a hot water supply pipe provided in the bathroom, and receives hot water through the hot water supply pipe.

The cold water pipe 220 is connected to a cold water supply pipe provided in the bathroom, and receives cold water through a cold water supply pipe.

The mixed water pipe 230 is connected to the hot water pipe 210 and the cold water pipe 220 so that the mixed water mixed with hot water and cold water supplied through the hot water pipe 210 and the cold water pipe 220 Only hot water or cold water is discharged to the bath.

The hot water flow rate regulator 300_1 is provided in the hot water pipe 210 to regulate the flow rate of the hot water supplied to the mixed water pipe 230. [ In the embodiment of the present invention, the hot water flow rate regulator 300_1 uses a plurality of solenoid valves to regulate the flow rate to at least three levels, for example, all three levels of shutoff, full open, and partial open. The hot water flow rate regulator 300_1 will be described later in more detail.

The cold water flow rate regulator 300_2 is provided in the cold water pipe 220 to regulate the flow rate of the cold water supplied to the mixed water pipe 230. [ In the embodiment of the present invention, the cold water flow rate regulator 300_2 uses a plurality of solenoid valves to regulate the flow rate to at least three levels, for example, all of the cold water flow rate regulator 300_2, Adjust to three levels. The cold water flow rate regulator 300_2 will be described later in more detail.

The non-contact type water level sensor 410 is provided at the lower end of the housing 100 to measure the level of water received in the bathtub in a non-contact manner. For example, the non-contact type water level sensor 410 can measure the water level by emitting a microwave or an ultrasonic wave to the water surface and using a reflected wave returned.

Fig. 3 shows a principle of measuring the water level of the water received by the non-contact type water level sensor 410 in the bath. When the bath water temperature and water level regulating device is first installed, the non-contact water level sensor 410 measures the height h ₁ from the bottom of the bathtub in a state where the bathtub is empty and stores it in the memory 530. The measurement of the water level of water binary receive the bath, measuring the height (h ₂₎ from the surface of the water, and the less the height (h ₂₎ measured at a height (h ₁₎ from the tub bottom value (h _o = h ₁ -h ₂ ) is measured at the water level.

The non-contact type water temperature sensor 420 is provided at the lower end of the housing 100 to measure the water temperature of the water received in the bathtub in a non-contact manner. For example, the non-contact type water temperature sensor 420 can measure the water temperature of the water received in the bath using an infrared temperature sensor.

The bath water temperature and water level adjusting device according to the present embodiment is implemented so that the user can set water temperature and water level through a smart phone. Accordingly, the water temperature and water level controller for the bathtub is provided with the communication unit 520 so as to transmit and receive data to and from the smartphone. The communication unit 520 is connected to the home gateway and can transmit and receive information to and from the smartphone of the user through the home gateway.

The user's smartphone is provided with an application having a user interface for providing water temperature and water level information of the water received in the bathtub, controlling the water temperature and water level control device, and setting water temperature and water level.

When the user sets the water temperature and the water level through the application of the smartphone, the set water temperature and the set water level information are transmitted to the bath water temperature and water level control device, received by the communication unit 520, and stored in the memory 530. On the other hand, the water level and water temperature information measured by the non-contact water level sensor 410 and the non-contact water temperature sensor 420 are periodically transmitted to the smart phone so that information can be provided through the application.

The control unit 510 generally controls the bath water temperature and the water level adjusting device. In particular, the control unit 510 controls the levels of the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2 according to the set water temperature set by the user and the water temperature measured by the non-contact water temperature sensor 420. [ Also, the controller 510 cuts off the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2 when the water level measured by the non-contact water level sensor 410 reaches the set water level set by the user.

Since the bath water temperature and water level adjusting device according to the present embodiment is typically installed in a bathroom, it is suitable for waterproofing and uses its own power source instead of a general household power source so as not to require a separate power source line during installation. For this purpose, a propeller 610 rotating by the flow of water is installed in the mixing water pipe 230. The propeller 610 may be in the form of a cone, for example, similar to that for measuring the flow rate or flow rate. The propeller 610 is connected to the generator 620 so that the generator 620 generates power from rotation of the propeller 610. Therefore, power is always generated through the generator 620 while the water is supplied to the mixed water pipe 230. The power generated by the generator 620 is stored in the battery 630. The battery 630 supplies power to the control unit 510, the communication unit 520, the hot water flow rate regulator 300_1, the cold water flow rate regulator 300_2, the noncontact type water level sensor 410 and the noncontact type water temperature sensor 420.

FIGS. 4A to 4C show specific configurations and operations of the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2.

The hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2 (hereinafter referred to as the flow regulator 300) are composed of two solenoid valves 310 and 320. In the present embodiment, the flow control unit 300 includes two solenoid valves 310 and 320 so that the flow control unit 300 can be fully closed, fully opened, and partially opened. However, three or more solenoid valves And may be adjusted to a level of four or more.

The first solenoid valve 310 includes an opening and closing part 311, a movable iron core 312 and an electromagnetic coil 313. The second solenoid valve 320 includes an opening and closing part 321, a movable iron core 322, 323, and a stopper 324 provided in the hot and cold water pipes 210, 220, respectively.

If no electric current is applied to the electromagnetic coil 313 of the first solenoid valve 310, the opening and closing part 311 completely blocks the hot and cold water pipes 210 and 220 as shown in FIG. 4A. However, when a current is applied to the electromagnetic coil 313 of the first solenoid valve 310, the movable iron core 312 is lifted due to the magnetic force generated in the electromagnetic coil 313 as shown in FIGS. 4B and 4C, 311 are in a state of fully opening the hot and cold water pipes 210, 220.

When the electric current is not applied to the electromagnetic coil 323 of the second solenoid valve 320, as shown in FIGS. 4A and 4C, the stopper 324 causes the opening / closing part 321 to open / close the cold water pipes 210 and 220 It is partially opened. However, when a current is applied to the electromagnetic coil 323 of the second solenoid valve 320, the movable iron core 322 is lifted due to the magnetic force generated in the electromagnetic coil 323 as shown in FIG. 4B, The cold water pipes 210 and 220 are all opened.

Through the combination of the first and second solenoid valves 310 and 320, the flow rate regulator 300 can be adjusted to three states as shown in the following table.

The first solenoid valve 310, The second solenoid valve 320, The flow rate regulator 300 state 4A Current fine (Or not) Block all 4B Current application Current application All open 4c Current application Current fine Some opening

4A). When current is applied to both the first and second solenoid valves 310 and 320, the flow rate control unit 300 controls the flow rate of the first and second solenoid valves 310 and 320, The flow controller 300 is fully opened (FIG. 4B). When the first solenoid valve 310 is energized and the second solenoid valve 320 is not energized, the flow controller 300 is partially opened ).

Therefore, the control unit 510 applies or does not apply the current to the first and second solenoid valves 310 and 320 of the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2, And the cold water flow rate regulator 300_2 can be all shut off, partially opened, and fully opened.

Let the amount of hot water supplied through the hot water supply pipe be 100% and the amount of cold water supplied through the cold water supply pipe 100%.

When all of the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2 are shut off, water is not supplied to the mixed water pipe 230.

When both the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2 are opened, hot water 100% and cold water 100% are supplied to the mixed water pipe 230. Therefore, the mixed water pipe 230 supplies mixed water having a ratio of hot water and cold water to the bath of 1: 1.

When the hot water flow rate regulator 300_1 is completely opened and the cold water flow rate regulator 300_2 is partially opened, hot water 100% and cold water 50% are supplied to the mixed water pipe 230. Therefore, the mixed water pipe 230 supplies mixed water having a ratio of hot water to cold water in the bath of 2: 1.

When the hot water flow rate regulator 300_1 is partially opened and the cold water flow rate regulator 300_2 is fully opened, hot water 50% and cold water 100% are supplied to the mixed water pipe 230. Therefore, the mixed water pipe 230 supplies mixed water having a ratio of hot water and cold water of 1: 2 to the bathtub.

5 is a flow chart showing the operation of the control unit 510 according to the set water temperature, the set water level, and the measured water level and the measured water temperature measured by the non-contact water level sensor 410 and the non-contact water temperature sensor 420, 0.0 > 300_2 < / RTI >

First, the user sets the water temperature and the water level through the application of the smartphone (step 710).

The smartphone transmits the set water temperature and the set water level information to the bath water temperature and water level control device through the home gateway (step 715). The set water temperature and the set water level information are stored in the memory 530.

The control unit 510 applies a current to the first solenoid valve 310 and the second solenoid valve 320 of the hot water flow rate regulator 300_1 and the cold water flow rate regulator 300_2 to control the flow rate of the hot water flow rate regulator 300_1 and the cold water By fully opening the flow rate regulator 300_2 (step 720), the water starts to be received.

The noncontact type water temperature sensor 420 measures the water temperature of the water received in the bath periodically (e.g., every several seconds) (step 730), and the noncontact type water level sensor 410 periodically The water level is measured (step 740).

It is determined that the "set temperature measured temperature" is the predetermined threshold value (T _d) above (control unit 510 measures the water temperature is set higher judgment than the water temperature, and (755 steps), then the difference between measured temperature and set temperature, that is, 760). Here, the threshold value T _d is a reference value for supplying only hot water or cold water if the difference between the measured water temperature and the set water temperature is large.

If the difference between the measured water temperature and the set water temperature is equal to or greater than the threshold value T _d in step 760, the controller 510 determines that the cold water flow rate controller 300_2 is in a state in which the first solenoid valve 310, The hot water flow rate regulator 300_1 blocks the entire flow by not applying the current to the first solenoid valve 310 in step 765. In this case, the first solenoid valve 310 and the second solenoid valve 320 are opened.

If the difference between the measured water temperature and the set water temperature is less than the threshold value T _d in step 760, the controller 510 determines that the cold water flow rate controller 300_2 is in a state in which the first solenoid valve 310 The hot water flow rate regulator 300_1 applies a current to the first solenoid valve 310 and applies a current to the second solenoid valve 320 so that the first solenoid valve 310 and the second solenoid valve 320 are opened (Step 768).

If the measured water temperature is lower than the set water temperature in step 755, the control unit 510 determines whether the difference between the set water temperature and the measured water temperature, that is, the set water temperature-measured water temperature is equal to or greater than the threshold value T _d (step 770)

If the difference between the set water temperature and the measured water temperature is equal to or greater than the threshold value T _d in step 770, the control unit 510 determines that the hot water flow rate control unit 300 _ 1 has received the first solenoid valve 310 And the second solenoid valve 320 and the cold water flow rate regulator 300_2 does not apply a current to the first solenoid valve 310 so as to shut off all the currents in step 775.

If the difference between the measured water temperature and the set water temperature is smaller than the threshold value T _d in step 770, the controller 510 determines that the hot water flow rate controller 300_1 has received the first solenoid valve 310 The cold water flow rate regulator 300_2 applies a current to the first solenoid valve 310 and applies the current to the second solenoid valve 320 so that the first solenoid valve 310 and the second solenoid valve 320 are opened (Step 778).

Through the series of steps 730 to 778, the water temperature of the water received in the bath converges to the set water temperature.

The control unit 510 determines whether the water level measured in step 740 is equal to or higher than the set water level in step 780. If the water level is equal to or greater than the set water level in step 740, the controller 510 determines that the first water level control unit 300_1 and the cold water flow rate control unit 300_2 are both in the first solenoid valve 310 (Step 785), thereby completing the water reception.

In step 790, the control unit 510 transmits a notification to the user through the communication unit 520 that the user's smartphone is completely received.

An apparatus according to embodiments of the present invention may include a processor, a memory for storing and executing program data, a permanent storage such as a disk drive, a communication port for communicating with an external device, a touch panel, a key, Or the like, and the like. Methods implemented with software modules or algorithms may be stored on a computer readable recording medium as computer readable codes or program instructions executable on the processor. Here, the computer-readable recording medium may be a magnetic storage medium such as a read-only memory (ROM), a random-access memory (RAM), a floppy disk, a hard disk, ), And a DVD (Digital Versatile Disc). The computer-readable recording medium may be distributed over networked computer systems so that computer readable code can be stored and executed in a distributed manner. The medium is readable by a computer, stored in a memory, and executable on a processor.

Embodiments of the present invention may be represented by functional block configurations and various processing steps. These functional blocks may be implemented in a wide variety of hardware and / or software configurations that perform particular functions. For example, an embodiment may include an integrated circuit configuration such as memory, processing, logic, look-up tables, etc., which may perform various functions by control of one or more microprocessors or by other control devices Can be employed. Similar to the components of the present invention may be implemented with software programming or software components, embodiments may include various algorithms implemented in a combination of data structures, processes, routines, or other programming constructs, such as C, C ++ , Java (Java), assembler, and the like. Functional aspects may be implemented with algorithms running on one or more processors. The embodiments may also employ conventional techniques for electronic configuration, signal processing, and / or data processing. Terms such as "mechanism", "element", "means", "configuration" may be used broadly and are not limited to mechanical and physical configurations. The term may include the meaning of a series of routines of software in conjunction with a processor or the like.

The specific implementations described in the embodiments are, by way of example, not intended to limit the scope of the embodiments in any way. For brevity of description, descriptions of conventional electronic configurations, control systems, software, and other functional aspects of such systems may be omitted. Also, the connections or connecting members of the lines between the components shown in the figures are illustrative of functional connections and / or physical or circuit connections, which may be replaced or additionally provided by a variety of functional connections, physical Connection, or circuit connections. Also, unless explicitly mentioned, such as " essential ", " importantly ", etc., it may not be a necessary component for application of the present invention.

The present invention has been described with reference to the preferred embodiments. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the disclosed embodiments should be considered in an illustrative rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and all differences within the scope of equivalents thereof should be construed as being included in the present invention.

Claims (7)

A water temperature and water level controller for a bath,
A hot water pipe connected to the hot water supply pipe;
A cold water pipe connected to the cold water supply pipe;
A mixed water pipe in which hot water flowing through the hot water pipe and cold water flowing through the cold water pipe are mixed and discharged;
A housing for accommodating at least a part of each of the hot water pipe, the cold water pipe and the mixed water pipe;
A hot water flow rate regulator provided in the hot water pipe and adjusting the flow rate to at least three levels using a plurality of solenoid valves;
A cold water flow rate regulator provided in the cold water pipe and adjusting the flow rate to at least three levels using a plurality of solenoid valves;
A noncontact type water temperature sensor provided at a lower end of the housing for measuring a water temperature of the water received in the bathtub;
A non-contact type water level sensor provided at a lower end of the housing for measuring a water level of the water received in the bathtub; And
And controls the level of each of the hot water flow rate regulator and the cold water flow rate regulator according to a predetermined set water temperature and the measured water temperature, and when the measured water level reaches a predetermined set water level, And a control unit for shutting off the control unit and the cold water flow rate control unit. The method according to claim 1,
And a communication unit accommodated in the housing and communicating with a user's smartphone,
Wherein the set water temperature and the set water level are set by the user through the application of the smartphone,
And the communication unit receives the set water temperature and the set water level information from the smartphone. The method according to claim 1,
Wherein the noncontact type water temperature sensor measures the water temperature using an infrared temperature sensor. The method according to claim 1,
Wherein the non-contact type water level sensor measures the water level by emitting microwaves or ultrasonic waves to the water surface. The method according to claim 1,
Wherein the hot water flow rate regulator includes a first solenoid valve that partially opens or closes the hot water pipe, and a second solenoid valve that partially opens or closes the cold water pipe,
Wherein the cold water flow rate regulator includes a first solenoid valve for shutting off or fully opening the cold water pipe and a second solenoid valve for partially opening or fully opening the cold water pipe,
The hot water flow rate regulator is entirely interrupted by the absence of current applied to the first solenoid valve and is opened by applying current to the first and second solenoid valves and current is applied to the first solenoid valve A part of the second solenoid valve is opened due to no current being applied to the second solenoid valve,
The cold water flow rate control unit is entirely cut off due to no current being applied to the first solenoid valve. When the current is applied to the first and second solenoid valves, the cold water flow rate control unit is fully opened and current is applied to the first solenoid valve Wherein the second solenoid valve is partly opened due to no current being applied to the second solenoid valve. 6. The method of claim 5,
Wherein,
If the measured water temperature is higher than the set water temperature and the difference between the measured water temperature and the set water temperature is greater than a predetermined threshold value, the cold water flow rate control unit is completely opened, the hot water flow rate control unit is completely shut off,
When the measured water temperature is higher than the set water temperature and the difference between the measured water temperature and the set water temperature is lower than the predetermined threshold value, the cold water flow rate regulator is entirely opened and the hot water flow regulator is partially opened,
If the measured water temperature is lower than the set water temperature and the difference between the set water temperature and the measured water temperature is greater than the predetermined threshold value, the hot water flow rate control unit is fully opened and the cold water flow rate control unit is completely shut off,
And a water temperature and water level controller for partially opening the hot water flow rate controller and partially opening the cold water flow controller if the measured water temperature is less than the set water temperature and the difference between the set water temperature and the measured water temperature is less than the predetermined threshold value, . The method according to claim 1,
A propeller provided in the mixed water pipe and rotated by the flow of water;
A generator housed in the housing and generating power from rotation of the propeller; And
And a battery accommodated in the housing and storing the generated power to supply power to the hot water flow rate controller, the cold water flow controller, the water temperature sensor, the water level sensor, and the controller, Device.

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