KR20130076841A - A water saving system - Google Patents

Abstract

PURPOSE: A water saving system is provided to allow a user to conveniently use hot water and to rapidly supply the hot water by rapidly heating cold water with a boiler. CONSTITUTION: A water saving system (100) comprise an automatic temperature control valve (110), a hot water pipe (120), a return pipe (130), a heating unit (140), a control unit (150), and a display unit (160). The automatic temperature control valve supplies water through a faucet according to the temperature of water supplied through the hot water pipe and returns the water to a boiler (102). The automatic temperature control valve is operated by a shape memory alloy transformed to a memorized shape according to predetermined water temperature. The hot water pipe guides the water heated in the boiler to the automatic temperature control valve. The return pipe guides the water which cannot reach the predetermined water temperature to the boiler. The heating unit heats the water returned through the return pipe. The control unit controls a system according to the predetermined temperature of the automatic temperature control valve. The display unit displays the control state of the control unit.

Description

A water saving system

The present invention relates to a water saving system, and more particularly, to a water saving system that saves cold water flowing out until a desired temperature is reached when a user intends to use the hot water.

2. Description of the Related Art Generally, a hot water supply line widely used in a bathroom, a bathroom, a sink, and the like includes a hot water valve that can be operated by a user and a hot water pipe that can supply hot water to the hot water valve. The hot water that has been filled in the hot water pipe is supplied to the user through the hot water valve.

However, when hot water is used at home, the temperature between boiler and faucet decreases with time, so cold water flows out from boiler until heated water is drained and water is wasted.

In order to save such cold water, until the user reaches a desired temperature, such as Korean Utility Model No. 2011-0010183, Korean Utility Model New Utility Model 2010-0012403, Korean Patent Publication No. 2011-0066363, Korean Patent No. 0777626, A variety of techniques are disclosed that utilize abandoned cold water.

However, in the conventional water saving system, it has been only to save cold water by receiving cold water for other purposes or by moving cold water to another piping line.

It is an object of the present invention to provide a water saving system that allows hot water to be quickly supplied while returning cold water to a boiler in a water saving system, while allowing the user to conveniently use hot water.

In order to achieve the above object, a water saving system according to the present invention includes a thermostatic valve, a hot water pipe, a return pipe, a heating unit, a control unit, and a display unit. The thermostatic valve allows the water supplied through the hot water pipe to be discharged through the faucet or returned to the boiler according to the set reference temperature. The hot water pipe directs the heated water from the boiler to the thermostatic valve. The return pipe guides the water to the boiler that has not reached the set temperature. The heating unit heats the water returned through the return pipe. The control unit controls the system according to the set temperature of the thermostatic valve. The display unit displays the control state of the control unit.

The thermostatic valve is a valve operated by a shape memory alloy which is deformed into a memorized shape according to a set temperature range.

The display unit includes a set temperature display unit for displaying the set reference temperature to the user, a hot water use display unit for indicating the scheduled use time in consideration of the availability of the hot water or the present temperature increase amount, And a display unit.

According to the water saving system of the present invention, the cold water which does not reach the set reference temperature is returned to the boiler and is rapidly heated to supply the hot water, while the hot water supply state and the hot water supply expected time are provided through the automatic temperature control valve and the display unit So that hot water can be conveniently used.

1 is a configuration diagram showing a water saving system according to a first embodiment of the present invention.
2 is a detailed sectional view showing the automatic temperature control valve of FIG.
3 is a detailed view showing the display portion of Fig.
FIG. 4 is a diagram illustrating an operation state in which the cold water not reaching the set reference temperature is returned while being heated in the water saving system according to the first embodiment of the present invention.
FIG. 5 is an operational state diagram in which hot water, which has reached a reference temperature set in the water saving system according to the first embodiment of the present invention, is discharged through a faucet.
6 is a configuration diagram showing a water saving system according to a second embodiment of the present invention.
7 is a configuration diagram showing a water saving system according to a third embodiment of the present invention.
8 is a configuration diagram showing a water saving system according to a fourth embodiment of the present invention.
9 is a configuration diagram showing a water saving system according to a fifth embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

1 is a configuration diagram showing a water saving system according to a first embodiment of the present invention. FIG. 2 is a detailed sectional view showing the automatic temperature control valve of FIG. 1, and FIG. 3 is a detailed view showing the display portion of FIG. The water saving system 100 according to the first embodiment of the present invention includes a thermostatic valve 110, a hot water pipe 120, a return pipe 130, a heating unit 140, A control unit 150, and a display unit 160

The automatic thermostat valve 110 allows water to be discharged through the water receiving unit 101 or water is returned to the boiler 102 according to the temperature of the water supplied through the hot water pipe 120. The hot water pipe 120 guides the heated water from the boiler 102 to the thermostatic valve 110. The return pipe 130 guides the water not reaching the set reference temperature to the boiler 102. The heating unit 140 heats the returned water through the return pipe 130. The controller 150 controls the system according to the set temperature of the thermostatic valve 110. The display unit 160 displays the control state of the control unit 150. [ A direct water (cold water) pipe 103 is connected to the thermostatic valve 110.

The automatic thermostat valve 110 is a three-way valve as an automatic water-warm-feeling open / close valve using a shape memory alloy that is opened or closed by a combination of a shape memory coil spring deformed into a memorized shape according to a set temperature range and a general bias coil spring . The automatic thermostat valve 110 may be constituted by a valve that controls opening and closing using a shrinkage phenomenon that occurs when a current is applied to a shape memory alloy in the form of a straight wire that is easy to process and not in the form of a coil spring. Shape Memory Alloy (SMA) is an alloy which is formed at high temperature and which is instantaneously restored to its original shape upon application of heat even when deformed at room temperature. Examples of alloys having such properties include titanium - Nickel alloys and aluminum alloys.

Fig. 2 shows an example of a thermostatic valve made of a shape memory alloy in the form of a coil spring. As shown in the figure, the valve body 111 of the automatic thermostat valve 110 is provided with a hot water circulation chamber 111a, a direct water circulation chamber 111b, a hot water inlet 111c, a hot water outlet 111d, a return hole 111e, (Cold water) inlet port 111f, and a direct water (cold water) outlet port (not shown).

The hot water circulation chamber 111a and the direct water circulation chamber 111b are divided by the side partition plates 112a and 112b and the heat sensing unit 113 using the shape memory alloy in the valve body 111. [ A valve stem 114 passing through the diaphragms 112a and 112b is provided in the direct water circulation chamber 111b and diaphragms 112a and 111b are provided at both ends of the valve stem 114 and hot water outlets 111d And a spring cone 116 is fixed to the valve stem 114 at a middle portion of the valve stem 114. The valve stem 115 is fixed to the valve stem 114, A shape memory coil spring 117 and a normal bias coil spring 118 are provided between the side partition plates 112a and 112b and the spring base plate 116 so as to face each other.

When the heat of the hot water of relatively high temperature is transferred, the shape memory coil spring 117 becomes stronger than the elastic force of the normal bias coil spring 118, and when the heat of the relatively low temperature is transferred, And is weaker than the elastic force of the normal bias coil spring 118. The shape memory coil spring 117 is provided so that the generation force of the shape memory coil spring 117 acts in the direction in which the valve cone 115b closes the return opening 111e and the elastic force of the normal bias coil spring 118 is transmitted to the hot water outlet 111d As shown in Fig.

The valve body 111 is provided with an adjusting operation rod 119a connected to an end of the spring receiving plate 116 and a adjusting spring 119b for adjusting the adjusting operation rod 119a by applying an elastic force, And a temperature adjuster 119 having a temperature adjusting screw 119c for adjusting the set temperature. The valve body 111 is provided with a signal feeder 104 for transmitting a signal from the adjustment operation rod 119a to the control unit 150. [

The temperature regulator 119 may include a driving unit for controlling the temperature by driving the temperature adjusting screw 119c under the control of the controller 150. The controller 150 may include an on- A set temperature input unit capable of setting a reference temperature can be provided.

The hot water inlet 111c communicates with the hot water pipe 120 and the hot water outlet 111d and the direct water outlet communicate with the water receiver 101. The return hole 111e communicates with the return pipe 130 And the direct water inlet 111f communicates with the direct water (cold water) pipe 103. [

The hot water pipe 120 is provided with a pump 170 for pumping heated water from the boiler 102 and transferring it to the automatic temperature control valve 110 side. The heating unit 140 may be a heat transfer coil wound around the return pipe 130 and may include a heat transfer plate or a heat transfer pipe.

The control unit 150 includes a microprocessor or a CPU that controls the water saving system such as the boiler 102, the thermostatic valve 110, the heating unit 140, the display unit 160, and the pump 170 as a whole.

3, the display unit 160 includes a set temperature display unit 161 for displaying a set reference temperature to a user, a hot water temperature display unit 161 for indicating a scheduled use time in consideration of the availability of the hot water presently present, A usage display unit 162 and a temperature display unit 163 for indicating the water temperature of the hot water pipe at present and includes a return status display unit for displaying a state in which cold water is returned and a saving amount display unit for displaying a saving amount and the like It is possible. The display unit 160 may inform the user of the control status by a sound or an alarm.

The faucet (101) is a faucet with cold water or hot water, and may be composed of a faucet with cold water or hot water change lever. The boiler 102 is connected to a water supply pipe 105 for supplying heated water. The direct water (cold water) pipe 103 and the water supply pipe 105 are connected to the water pipe.

Meanwhile, the water saving system 100 of the present invention may be provided with a hot water storage tank for temporarily storing hot water.

In the water-saving system 100 according to the first embodiment of the present invention, when the temperature controller 119 or the controller 150 is adjusted to set the reference temperature and the water receiver 101 is opened, If the hot water supplied through the hot water pipe 120 does not reach the set temperature, the passage on the side of the water inlet 101 of the automatic temperature control valve 110 is blocked, the passage on the return pipe 130 is opened, And the water is warmed. At this time, the returned water is quickly heated by the heating unit 140 to reduce the waiting time for hot water supply. The user can know the reference temperature, the current temperature, the availability of hot water, and the scheduled hot water supply time (waiting time) through the display unit 160 as shown in FIG.

When the hot water supplied through the hot water pipe 120 reaches the set temperature, as shown in FIG. 5, the passage of the thermostat valve 110 of the automatic thermostat valve 110 is opened and the passage of the return pipe 130 is opened The water heated by the boiler 102 or the hot water stored in the hot water storage tank is discharged through the water outlet 101 while the water is continuously supplied through the water supply pipe 105.

On the other hand, when the reference temperature is set low and the water receiver 101 is opened, the water is not heated via the boiler 102 and the heating unit 140, and the cold water is directly supplied to the water receiver 101 through the water (cold water) As shown in FIG.

6 is a configuration diagram showing a water saving system according to a second embodiment of the present invention. In the present embodiment (Embodiment 2), the automatic thermostatic valves 210a and 210b are two-way valves provided respectively in the flow path on the water inlet 201 and the flow path on the return pipe 230 side. A water supply pipe 201, a boiler 202, a direct water supply pipe 203, a water supply pipe 205, a hot water pipe 220, a return pipe 230, a heating unit 240, a control unit 250, And the pump 270 are the same in structure and function as those of the first embodiment of the present invention, and a detailed description thereof will be omitted.

7 is a configuration diagram showing a water saving system according to a third embodiment of the present invention. In this embodiment (third embodiment), the automatic temperature control valve 310 is a three-way valve that is opened and closed by a switch 318 operated according to the displacement of the shape memory alloy 317, and the shape memory alloy 317 Is installed in the hot water pipe 320 and is deformed according to the temperature of the water inside the hot water pipe 320 to operate the switch 318. The switch 318 is deformed and operated according to the deformation of the bimetallic shape memory alloy 317 formed by overlapping a thin metal having a different thermal expansion coefficient. The water heater 301, the boiler 302, the water (cold water) pipe 303, the water pipe 305, the hot water pipe 320, the return pipe 330, the heating unit 340, the control unit 350, And the pump 370 have the same structure and function as those of the first embodiment of the present invention, and a detailed description thereof will be omitted.

8 is a configuration diagram showing a water saving system according to a fourth embodiment of the present invention. In the present embodiment (fourth embodiment), the automatic temperature control valves 410a and 410b are two-way valves provided respectively in the flow path on the water inlet 401 and the flow path on the return pipe 430 side. The thermostatic valves 410a and 410b are opened and closed by a switch 418 operated according to the displacement of the shape memory alloy 417. The shape memory alloy 417 is installed in the hot water pipe 420, 420) to operate the switch 418. [0050] The switch 418 is deformed and operated in accordance with the deformation of the bimetallic shape memory alloy 317 formed by overlapping a thin metal having a different thermal expansion coefficient. The water heater 401, the boiler 402, the water (cold water) pipe 403, the water pipe 405, the hot water pipe 420, the return pipe 430, the heating unit 440, the control unit 450, And the pump 470 are the same in structure and function as the first embodiment of the present invention, and a detailed description thereof will be omitted.

9 is a configuration diagram showing a water saving system according to a fifth embodiment of the present invention. In this embodiment (fifth embodiment), the automatic temperature control valve 510 is a three-way valve that is opened and closed by a switch 518 operated according to the displacement of the shape memory alloy 517, and the shape memory alloy 517 Is installed in the hot water pipe 520 and is deformed according to the temperature of the water inside the hot water pipe 520 to operate the switch 518. The switch 518 is deformed and operated according to the deformation of the bimetallic shape memory alloy 517 formed by overlapping a thin metal having a different thermal expansion coefficient. On the other hand, in the present embodiment (fifth embodiment), when the water receiver 501 is electrically connected to the switch 518 to open the water receiver 501 to the cold water position, the operation of the switch 518 is stopped. The boiler 502, the direct water (cold water) pipe 503, the water pipe 505, the hot water pipe 520, the return pipe 530, the heating unit 540, the control unit 550, the display unit 560, ) Have the same structure and function as those of the first embodiment of the present invention, and a detailed description thereof will be omitted.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

100: water saving system 101: faucet
102: boiler 103: direct water (cold water) tube
104: Signal Transmitter 105: Water Supply
110: Automatic thermostatic valve 120: Hot water pipe
130: Return pipe 140:
150: control unit 160:
170: pump

Claims (2)

An automatic temperature control valve for discharging the supplied water to the boiler according to a set reference temperature,
A hot water pipe for guiding heated water from the boiler to the automatic temperature control valve,
A return pipe for guiding the water not reaching the reference temperature to the boiler,
A heating unit for heating water returned through the return pipe,
A control unit for controlling the system according to a set reference temperature of the thermostatic valve;
A display unit for displaying the control state of the control unit,
And the thermostatic valve is a valve operated by a shape memory alloy that is deformed into a stored shape according to a set water temperature range. The method according to claim 1,
The display unit includes:
A set temperature display unit for displaying a set reference temperature to a user,
A hot water use display unit for informing the user of a scheduled time to be used in consideration of the availability of the hot water or the current temperature increase,
And a temperature display unit for indicating a water temperature of the hot water pipe at present.

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