KR101162855B1 - Hot and cold water control system - Google Patents

Abstract

The present invention provides a cold water supply pipe for supplying cold water from the outside, a boiler for heating the cold water introduced from the cold water supply pipe to generate hot water, and branching from the hot water introduced from the boiler and the cold water supply pipe in a normal operation mode. The mixed water control valve for mixing the cold water branched through the cold water branch pipe at a predetermined ratio and the hot water is discharged, one end is connected to the outlet of the mixed water control valve, the other end is the cold water branch pipe in the cold water supply pipe A mixed water distribution pipe communicating with the front side of the mixed water supply pipe and supplying the mixed water flowing out from the mixed water control valve to a required location, and installed on the mixed water distribution pipe, and the residual water circulation is stopped in the normal operation mode. In the start-up operation mode in which the pump and the user use request information of the mixed water is received, the cold water does not flow through the cold water supply pipe. In the non-state, it provides a cold and hot water control system including a control unit for circulating the residual water remaining in the mixed water distribution pipe.
Therefore, it is normally operated in normal operation mode and used for heating in the house, and when the user needs to take a shower in the morning or use the mixed water urgently, the control unit provided in each household is operated to change the normal operation mode to the start operation mode. By converting the cold water does not flow from the outside by reusing, do not discard the cold residual water to reduce the waste of water while improving the user's convenience.

Description

Hot and Cold Water Control System {HOT AND COLD WATER CONTROL SYSTEM}

The present invention relates to a cold and hot water control system, and to a cold and hot water control system circulated and reused without discarding the cold mixed water.

In general, cold and hot water supply systems that supply cold water and hot water to district heating facilities, centrally heated apartments, officetels, hotels, residential houses, etc. are installed with main cold water supply pipes and main hot water supply pipes directly supplied to each customer. It is a system that is supplied to the cold / hot water integrated mixing faucet installed in the kitchen, bathroom, etc., the cold and hot water is mixed by the operation of the faucet handle is discharged through the water discharge port of the cold / hot water integrated mixing faucet.

The conventional system installed as described above has a separate machine room in the complex, receives heavy hot water from district heating, produces hot water through heat exchange, and supplies it to each household. At the top, basically, the top end of the main supply pipe and the granular supply pipe except the household unit are combined with the return pipe, and the hot water main and the hot water riser are circulated through the return circulation pump with the hot water heat exchanger in the machine room. In the process of supplying hot water to households, the cold residual water stagnated in the hot water pipe line in the household is discharged into the sewage pipe of the hot water pipeline through the sewage ports of the general faucet and the integrated cold / hot water integrated faucet in the household. Water is discharged through the discharge through the mixing discharged to the tap of the faucet A separate faucet handle or manual control valve that controls the temperature and quantity of water is provided, so that cold and hot water can be mixed by manually operating the faucet handle or manual control valve so that the cold water and hot water supplied can be at a user's arbitrary temperature. The mixed water was discharged through the water discharge port of the cold / hot water integrated mixing faucet.

As described above, the discharge of the mixed water by the manually operated faucet handle or the manual control valve is different from the discharge water discharged according to the user, making it difficult to adjust the proper temperature. Since hot water at a temperature and cold cold water of the cold water supply pipe are mixed and discharged, when cold water is used in the integrated cold / hot water integrated mixing faucet on the other side in a shower and washing face, the hot water is suddenly changed to hot water and the hot water is supplied. And the inconvenience of having to re-adjust the faucet handle in order to adjust the proper temperature due to the feeling of thermal discomfort. Waste of water due to discarded cold residual water in sewer There was a problem that occurred.

In addition, if one side of the household uses the integrated cold / hot water integrated mixer, the other side of the household uses the integrated cold / hot water integrated mixer to change the temperature of the water. The manual control valve has to be operated again, resulting in a lot of waste of water, and the waste water is collected through sewage pipes to the sewage treatment plant, purified, and discharged to the river, resulting in a large amount of financial loss due to national energy resources and human resources. There was a problem.

The present invention provides a cold / hot water control system for circulating and reusing a cold mixed water without discarding it.

The present invention relates to a cold / hot water control system that provides hot water to a plurality of households by using an external facility of a district heating facility or a central heating facility, wherein the granular cold water supply pipe supplies cold water introduced from the outside through a main cold water supply pipe, and A central heat exchanger for heating cold water introduced from the outside through a water supply pipe to a high temperature water by using a heat medium introduced from an external facility, and a granular hot water supply pipe supplied with hot water from the central heat exchanger through a main hot water supply pipe; Installed in the household, in the normal operation mode, the mixed water control valve for mixing the hot water branched from the granular hot water supply pipe through the hot water supply pipe and the cold water branched from the granular cold water supply pipe through the first cold water supply pipe to discharge the mixed water And one end communicates with an outlet of the mixed water control valve, The mixed water pipe for supplying the mixed water flowing out from the previous mixed water control valve to the destination of each generation, a return pipe communicating with the mixed water pipe and returning the residual water of the mixed water pipe, and the return pipe of each generation. A granular return pipe for communicating residual water to the main return pipe, a return control valve installed on the return pipe, a return temperature sensor installed on the return pipe, for detecting a temperature of the return water, and mixing from the user When the start switch receives a request for use of the number and the start operation mode in which the use request information of the mixed water is received from the start switch, when the temperature of the return detected by the return temperature sensor satisfies the set temperature range. Open the return control valve until the residual water remaining in the mixed water pipe to the return pipe and the granular return pipe and the Via the water exchange tube provides a hot and cold water control system comprising a control section for water exchange group wherein the central heat exchanger.

In addition, the present invention, the cold water supply pipe for supplying cold water from the outside, the boiler for heating the cold water introduced from the cold water supply pipe to generate hot water, the hot water flowing from the boiler in the normal operation mode and the cold water supply pipe A mixed water control valve for mixing the cold water branched through the cold water branch pipe branched from the outlet to discharge the mixed water, and one end communicates with the outlet of the mixed water control valve, and the other end is connected to the cold water supply pipe. It is communicated to the front of the mixed water distribution pipe for supplying the mixed water flowing out from the mixed water control valve to the required destination, and installed on the rear of each required destination on the mixed water distribution pipe, the operation in the normal operation mode A residual water circulating pump that is stopped, a start switch for receiving a request for use of the mixed water from a user, and a use request for the mixed water from a user In the start operation mode in which the clean information is received from the start switch, a residual water circulation pump is operated in a state in which cold water is not introduced through the cold water supply pipe, so that part or all of the remaining water remaining in the mixed water distribution pipe is recovered. It provides a cold and hot water control system including a control unit circulating to the boiler.

Cold and hot water control system according to the present invention has the following effects.

First, it is possible to reduce the waste of water by circulating and reused in the central heat exchanger without discarding the chilled mixed water stagnant in the mixed water pipe due to the use of mixed water in the household.

Secondly, when a user requests a user to circulate the stagnant cold mixed water of the mixed water pipe due to not using the mixed water in the household to the central heat exchanger, and reheats it, the alarm device notifies the requesting user when the mixed water reaches the set temperature. Thus, the user's convenience is improved.

Third, when the flow of the mixed water in the pipe does not occur, the operation cost can be reduced by stopping the operation of the return control valve or the residual water circulation pump for circulating the residual water, or by shutting off the power of the control unit in whole or in part. .

Fourth, the mixed water usage is displayed on the display window of the sub control unit installed in the shower faucet in order to increase the user's water saving effect during the shower, and an alarm sound when the water consumption is exceeded in the one-person shower can prevent the user's use of unlimited water. .

1 is a view schematically showing the configuration of a cold and hot water control system according to an embodiment of the present invention.
FIG. 2 is a view illustrating a state in which the cold / hot water control system shown in FIG. 1 operates in a normal operation mode.
FIG. 3 is a diagram illustrating a state in which the cold / hot water control system illustrated in FIG. 1 operates in a startup operation mode.
4 is a diagram illustrating the controller shown in FIG. 1.
5 is a diagram illustrating a state in which the control unit illustrated in FIG. 1 operates.
6 is a view schematically showing the configuration of a cold and hot water control system according to another embodiment of the present invention.
FIG. 7 is a diagram illustrating a state in which the system shown in FIG. 6 operates in a normal operation mode.
FIG. 8 is a diagram illustrating a state in which the system shown in FIG. 6 is operated in a startup operation mode.
9 is a diagram illustrating a state in which the control unit illustrated in FIG. 6 operates.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 5, the cold and hot water control system according to an embodiment of the present invention, the granular cold water supply pipe 10 for supplying cold water introduced through the main cold water supply pipe 12 from the outside, and from the external equipment By using the heat medium that flows in, the central heat exchanger 20 for heating the cold water introduced from the outside through the water supply pipe 21 to change to high temperature water, and the main hot water supply pipe 32 from the central heat exchanger 20. The granular hot water supply pipe 30 to which hot water is supplied and installed in each generation, and in the normal operation mode, the hot water branched from the granular hot water supply pipe 30 through the hot water supply pipe 34 and the granular cold water supply pipe 10. A mixed water control valve 40 for mixing the cold water branched from the first cold water supply pipe 14 through the outlet, and one end of the mixed water control valve 40 to communicate with the outlet of the mixed water control valve 40. Control Return to the mixed water pipe 50 for supplying the mixed water flowing out of the vice 40 to the required place 100 of each generation, and the mixed water pipe 50, the return of the residual water of the mixed water pipe 50 A pipe 60, a granular return pipe 70 for communicating the residual water from the return pipe 60 of each generation to the main return pipe 72, and a return control valve provided on the return pipe 60. 80 and the return temperature sensor 62 installed on the return pipe 60 to detect the temperature of the return water, and the return temperature in the start operation mode in which the user request information of the mixed water is received from the user. The return control valve 80 is opened until the temperature of the return water detected by the sensor 62 satisfies the set temperature range, and the residual water remaining in the mixed water pipe 50 is returned to the return pipe 60 and the Return to the central heat exchanger 20 through the granular return pipe 70 and the main return pipe 72. Keys are a control unit (90).

The granular cold water supply pipe 10 receives cold cold water through the main cold water supply pipe 12 from an external water supply pressurizing pipe, and controls the mixed water through the first cold water supply pipe 14 branched from the granular cold water supply pipe 10. Cold water is supplied to the valve 40.

The central heat exchanger 20 serves to change the cold water introduced from the outside through the water supply pipe 21 to the high temperature water by using the heat medium introduced from the external equipment.

The heat medium flowing from the outside is introduced into the central heat exchanger 20 through the heat medium supply pipe 22, and heat exchanges with cold water introduced from the outside through the water supply pipe 21 in the central heat exchanger 20, and then heat medium. Through the return pipe 23 is returned to the external equipment.

The central heat exchanger 20 is provided with a main hot water supply pipe 32 communicating with the granular hot water supply pipe 30, and using the heat medium introduced from an external facility through the heat medium supply pipe 22, the water supply pipe 21. The hot water generated by heating the cold cold water flowing from the water supply pressurization pipe through the main hot water supply pipe 32 is supplied to the granular hot water supply pipe 30.

The decompression valve 36 is provided on the main hot water supply pipe 32, and the decompression valve 36 communicates the elevated pressure of the circulating water pressurizing pump 35 with the main hot water supply pipe 32. It serves to maintain a constant pressure in the pipe of the supply pipe (30).

Cold cold water flowing from the water supply pressurizing pipe passes through the hot water feed water tank 25 before being supplied to the central heat exchanger 20, and the cold water passing through the hot water feed water tank 25 is an expansion tank feed water pump. It is introduced into the central heat exchanger 20 by the (26).

The cold water passing through the expansion tank feed water pump 26 is joined to the main return pipe 72 and then supplied to the central heat exchanger 20, and the expansion tank feed water pump 26 and hermetic expansion. The tanks 27 communicate with each other.

The hermetic expansion tank 27 blocks air contact and fills the appropriate pressure to receive and reduce the expansion water in a fluid manner, thereby branching the first water supply pipe branched from the water supply pipe 21 and the water supply pipe 21. Prevent corrosion of (21-1) and operate smoothly.

A water level control valve 24 is provided on the water supply pipe 21 for supplying cold water to the hot water supply water tank 25. The water level control valve 24 automatically opens and closes the water supply pipe 21 to supply the hot water. It serves to adjust the water level of the water tank (25).

The hot water replenishment water tank 25 escapes a portion of the water return through the escape pipe 29 when the amount of return water through the main return pipe 72 is too large.

The expansion tank replenishment water pump 26 is composed of two, generally only one operation, in case the expansion tank replenishment water pump 26 used is broken, the other is further provided.

The return water circulating sequentially through the return pipe 60, the granular return pipe 70, and the main return pipe 72 is sent to the central heat exchanger 20 by the circulation water pressurizing pump 35 and reheated. .

In addition, the circulating water pressurizing pump 35 is operated in a pressure range set according to the pipe pressure, and high temperature branched from the granular hot water supply pipe 30 through the hot water supply pipe 32 to receive hot water that meets the user's desire in the household. When water and cold water branched from the granular cold water supply pipe 10 through the first cold water supply pipe 14 are mixed through the mixed water control valve 40, the water is returned by the cold water supplied through the first cold water supply pipe 14. The flow rate of is increased.

The increased return flow rate is pumped by pressure through the circulating water pressure pump 35, and is heated in the central heat exchanger 20 and supplied to the main hot water supply pipe 32 side, and installed on the main hot water supply pipe 32 side. The pressure is increased by the flow rate increased in the main hot water supply pipe 32 between the pressure reducing valve 36 and the circulation water pressurizing pump 35, so that the flow rate equal to the increased pressure is passed through the escape pipe 29. The hot water supply tank 25 is evacuated.

As described above, the first water supply pipe 21-1 branched from the water supply pipe 21 to supply cold water to the central heat exchanger 20 communicates with the main water return pipe 72 through which residual water is returned. A chemical feeder 28 for supplying cold water to the air 20 and injecting chemicals for disinfecting cold water supplied to each household into the main return pipe 72 through which the cold water supplied to the central heat exchanger 20 flows. The pipe connected in the is connected.

The evacuation pipe 29 is provided with a chamber 38 in which air is collected from the central heat exchanger 20 toward the hot water supply pipe 32 when the residual water circulating brings air in the pipe, and the chamber 38 Air is exhausted through the air bleed valve.

The chamber 38 is installed on the hot water supply pipe 32 and is provided with a strainer (not shown), an on-off valve (not shown) and an air bleeding valve (not shown).

The escaping pipe 29 communicates with the hot water feed water tank 25, and a relief valve 29-1 is provided on the escaping pipe 29.

The mixed water control valve 40 is installed in each generation, the mixed water control valve 40 is a hot water through the hot water supply pipe 34 branched from the granular hot water supply pipe 30 in the normal operation mode. Inflow, cold water is introduced through the first cold water supply pipe (14) branched from the granular cold water supply pipe (10), and the mixed hot water and cold water are mixed to generate mixed water, respectively, through the mixed water pipe (50). Supply to the cold / hot water mixing faucet of the required 100 of households. In the mixed water control valve 40, the mixing ratio of cold water and hot water is controlled to a set value.

The mixed water control valve 40 is provided on the inside of the mixed water control valve case 42, and consists of two to supply mixed water mixed in a ratio set in the A zone and the B zone, respectively. However, the number of zones is not limited thereto, and there may be one or three or more.

The mixed water pipe 50 is provided with a flow rate sensor 52 for detecting the flow of the mixed water in the mixed water pipe 50, the flow rate sensor 52 is a flow of the mixed water in the mixed water pipe 50 If this does not occur, it serves to block the power of the controller 90 partially or entirely.

In addition, the mixing water pipe 50 is provided with a check valve 56, the check valve 56 serves to prevent the mixed water of the different temperature used in each zone to flow back to the other zone.

In this case, power may be supplied to a minimum necessary circuit part of the power of the controller 90.

The control unit 90 includes a main control unit 92 and a sub control unit 94. The main control unit 92 is provided together with the mixed water control valve 40, and the sub control unit 94 has a respective control unit. It is provided in the zone.

The cold / hot water mixed water supply of each required destination 100 is not supplied with only the mixed water generated by the mixed water control valve 40, but the second cold water supply pipe 16 branched from the granular cold water supply pipe 10. Cold water is also supplied through the cold / hot water mixing faucet when using cold water to open the knob to the cold water side to use the cold water.

The mixed water pipe 50 is in communication with the return pipe 60, the return pipe 60 is the residual water remaining in the mixed water pipe 50, the granular return pipe 70 and the main return pipe 72 It is sent to the central heat exchanger 20 through.

The return pipe 60 is provided with the return control valve 80 and the return temperature sensor 62, the return control valve 80 in the household without discharging the cold residual water in the pipe to the drain through the faucet When the start switch 96 of the return control valve 80 is pressed (that is, the start of the start operation), the return control valve 80 is opened so that cold residual water in the pipe is returned to the granular return pipe 70 and the main return. The return control valve 80 is closed when the return water of the temperature set by the user is sensed by the return temperature sensor 62 and is sent to the central heat exchanger 20 to be heated to the tube 72. That is, the return control valve 80 is opened only in the start operation mode in which hot water use request information is received from the user, and supplies cold residual water in the pipe to the granular return pipe 70.

The cold / hot water mixed water supply of each required destination 100 is not supplied with only the mixed water generated by the mixed water control valve 40, but the second cold water supply pipe 16 branched from the granular cold water supply pipe 10. Cold water is also supplied.

The mixed water pipe 50 is in communication with the return pipe 60, the return pipe 60 serves to supply the remaining water remaining in the mixed water pipe 50 to the mixed water control valve (40).

A return control valve 80 and a return temperature sensor 62 are provided on the return pipe 60, and the return control valve 80 is closed in a normal operation mode and starts to receive hot water use request information from a user. Open only in the operation mode, the residual water is supplied to the granular return pipe (70).

The return control valve 80 is preferably disposed in the case of the mixed water control valve 40, because the return control valve 80 is not exposed to the outside looks good, each generation of children This is because the curiosity control valve 80 can be prevented from malfunctioning. However, the present invention is not limited thereto, and the return control valve 80 may be installed at various positions such as the discharge side return pipe 60 of the return water control valve 40.

In addition, each zone 100 is provided with a sub control unit 94. The sub control unit 94 operates when the user needs to use the mixed water, and sends the user's information to the main control unit 92 in the normal operation mode. To the start operation mode, and the remaining water of the mixed water pipe (50) through the return pipe 60, the granular return pipe 70 and the main return pipe 72 of the central heat exchanger (20) ) To return.

The main control unit 92 receives the user's mixed water use request from the sub control unit 94 and closes the return control valve 80 when the temperature of the return water satisfies the set temperature range. , The start operation mode is changed to the normal operation mode, and the installation position of the main control unit 92 is a case 42 of the mixed water control valve 40 in which the mixed water control valve 40 and the return control valve 80 are installed. It is installed in).

The sub control unit 94 is provided with a display unit 95 and a return temperature control switch 96. The display unit 95 is introduced into the return control valve 80 through the return pipe 60. Displaying the temperature of the return, the return temperature control switch 96 allows to adjust the temperature of the return flow into the return control valve (80).

The sub control unit 94 may be installed separately from the shower head of the shower room in parallel with the shower room inlet wall.

The display unit 95 of the sub-control unit 94 displays mixed water usage on the display window in order to increase the water saving effect of the user during the shower, and gives an alarm sound when the mixed water usage is exceeded in a single shower. There is a function to prevent the use.

The sub control unit 94 further includes a start switch 97 and an alarm device 98. The start switch 97 is a switch for starting a start operation mode when a user needs hot mixed water, and the alarm In the start-up operation mode, the device 98 performs a voice notification to the user who requests the use of the mixed water when the return temperature reaches the set temperature range.

Moreover, each meter 99 is provided in each generation to measure the supply amount of hot water, cold water, return water, and the like.

The return meter measures the amount of outgoing water to reheat the residual water in the pipe of the household to the central heat exchanger 20, and calculates the inverse from the meter reading of the hot water meter that supplies the hot water to the household. Is displayed on the display window of the meter reading indicator together with the amount of cold water used, and in order to impose a hot water heating ratio, the amount of return water may be inversely calculated from the amount of cold water supplied.

The main return pipe 72 is in communication with the water supply pipe 21 for supplying cold water to the central heat exchanger 20 to the central heat exchanger for the residual water returned through the return pipe 60 and the granular return pipe 70. To the machine 20.

An air chamber 74 is installed on the main return pipe 72, and the air chamber 74 removes air mixed with water present in the main return pipe 72 to inhibit smooth water supply due to air. It keeps the efficiency of the system by preventing the breakdown and malfunction of the system.

When the cold and hot water control system is operated in the normal operation mode and the start operation mode described as follows.

In the normal operation mode, it is generally used in general, and supplies cold water supplied from the external water supply pressurizing pipe to the central heat exchanger 20 through the water supply pipe 21 and the first water supply pipe 21-1.

The central heat exchanger 20 receives the heat medium through the heat medium supply pipe 22 from an external facility, and heats the cold water introduced into the water supply pipe 21 and the first water supply pipe 21-1 to heat the hot water. Supply to the granular hot water supply pipe 30 through the main hot water supply pipe (32).

Cold water supplied from the external water supply pressurizing pipe is supplied to the granular cold water supply pipe 10 through the main cold water supply pipe 12, and the mixed water control valve through the first cold water supply pipe 14 branched from the granular cold water supply pipe 10. 40 is supplied.

The mixed water control valve 40 is supplied with hot water through hot water supply pipe 34 branched from the granular hot water supply pipe 32, not only cold cold water, but also mixed with cold water and hot water to generate mixed water. The mixed water generated by the mixed water control valve 40 is transferred to the cold / hot water mixed faucet of each generation required 100 through the mixed water pipe 50 connected to the outlet of the mixed water control valve 40. Supply is the normal operation mode, and the return control valve 80 is closed.

The start operation mode activated by the user's request for use is to start the sub-control unit 94 provided in each generation shower room entrance and the shower faucet when the user showers and washes in the morning or when the hot water is needed. As a mode in which the switch 96 is operated, the residual water from which the temperature remaining in the mixed water pipe 50 is lowered is circulated without being discarded, and is heated and reused in the central heat exchanger 20.

When the normal operation mode is switched to the start operation mode at the request of the user, the return water control valve 80 provided inside the case of the mixed water control valve 40 which was closed in the normal operation mode is opened, and the mixed water pipe ( Residual water remaining in 50) is circulated to the return pipe 60 and the granular return pipe 70, and to the central heat exchanger 20 via the main return pipe 72 in communication with the granular return pipe 70. Supply residual water.

Since the residual heat is reheated by the heat medium in the central heat exchanger 20 and supplied to the mixed water control valve 40, hot water is generated and supplied to the mixed water control valve 40 earlier than the time for heating cold water. In addition, the mixed water control valve 40 is mixed with the cold water to generate the mixed water is supplied to the cold / hot water mixed tap of each generation required 100.

The cold and hot water control system is to be used in parallel with the normal operation mode and the start operation mode described above, usually operating the system in the normal operation mode used for heating of each generation, when the user is using hot water urgently By operating the sub-controller 94 to switch the normal operation mode to the start operation mode, the user may not operate the cold / hot water mixing faucet to adjust the temperature of the hot water, thereby improving the user's convenience, By reusing the hot water without discarding it, it is possible to reduce the waste of water, thereby allowing economic effects.

6 to 9, the cold / hot water control system according to another exemplary embodiment of the present disclosure may include a cold water supply pipe 200 that supplies cold water from the outside, and heats cold water introduced from the cold water supply pipe 200. In the normal operation mode, the boiler 300 to generate hot water is mixed with the hot water introduced from the boiler 300 and the cold water branched through the cold water branch pipe 220 branched from the cold water supply pipe 200. The mixed water control valve 400 which discharges the mixed water, one end is connected to the outlet of the mixed water control valve 400, the other end is the front of the cold water branch pipe 220 in the cold water supply pipe 200 And a mixed water distribution pipe 500 for supplying the mixed water flowing out from the mixed water control valve 400 to the destination 100 of each generation, and each required destination on the mixed water distribution pipe 500. Is installed at the rear of the 100, the operation in the normal operation mode, The residual water circulation pump 600 is stopped and the residual water circulation pump 600 in a state in which cold water is not introduced through the cold water supply pipe 200 in the start operation mode in which the use request information of the mixed water is received from the user. ), And comprises a control unit 700 for circulating the residual water remaining in the mixed water distribution pipe 500, the cold and hot water control system is installed separately for each generation.

The cold water supply pipe 200 is branched by receiving cold water from the outside and supplied to the boiler 300 and the required place 100, the first flow rate sensor 240 for detecting the inflow of cold water to the cold water supply pipe 200. And a first backflow prevention valve 260 for preventing backflow of residual water.

The first non-return valve 260, when the residual water circulation pump 600 operates in the start operation mode, when the residual water circulating the residual water remaining in the mixed water distribution pipe 500, the residual water in the boiler ( It does not flow to 300 to prevent the flow back to the cold water supply pipe (200).

The first flow rate sensor 240 detects the cold water flow of the cold water supply pipe 200 and stops the operation of the residual water circulation pump 600 operating in the start-up operation mode. When the cold water flow is detected, it is regarded as a user's use state, and the operation of the residual water circulation pump 600 is stopped to change the starting operation mode to the normal operation mode.

The first flow rate sensor 240 is branched and installed in the cold water supply pipe 200 for supplying cold water to the boiler 300, but before the cold water supply pipe 200 branched to supply cold water to the required place 100. It may be installed.

One end of the mixed water generated by the mixed water control valve 400 communicates with the outlet of the mixed water control valve 400, and the other end communicates with the front of the cold water branch pipe 220 in the cold water supply pipe 200. It is supplied to the required destination 100 via the mixed water distribution pipe 500.

The second water flow detector 540 detects the flow of the mixed water flowing out of the second backflow prevention valve 520 and the mixed water control valve 400 in the mixed water distribution pipe 500 to prevent the residual water from flowing back. And a residual water circulation pump 600 which does not operate in the normal operation mode but operates only in the start operation mode at the request of the user.

A return temperature sensor 420 is installed on the mixed water distribution pipe 500 to measure the temperature of the return water. However, the return temperature sensor 420 may be installed adjacent to the outlet side of the mixed water control valve 400.

The return control valve 400 sets the start temperature of the residual water circulation pump 600 in order to reheat the cold residual water in the pipe after the user sets the operating temperature in the control unit 700 to the boiler 300. When pressed, the residual water circulation pump 600 is operated, and when the temperature set by the user is reached by the return temperature sensor 420, the operation of the residual water circulation pump 600 is stopped, and the start operation mode is normally operated. It plays a role to switch to mode.

The residual water circulation pump 600 does not operate in a normal operation mode, that is, in normal times, and operates only when a request for using the mixed water is received from a user.

When the user requests the use of the mixed water by operating the start switch 760 of the control unit 700, the control unit 700 switches the normal operation mode to the start operation mode, the residual water circulation pump 600 By operating the, in the state that the cold water is not introduced through the cold water supply pipe 200, by circulating the residual water remaining in the mixed water distribution pipe 500, a portion of the residual water is heated in the boiler 300, The remaining part is supplied to the mixed water control valve 400 to mix the high temperature water generated in the boiler 300 with the mixed water control valve 400 to generate mixed water to form the mixed water distribution pipe 500. Supply the mixed water to the user who made the mixed water use request.

The controller 700 notifies the user when the temperature of the return water reaches the set range in the start-up operation mode, and displays the amount of mixed water used in the control unit display window of the shower faucet to increase the water saving effect of the shower faucet. An alarm device 780 is provided to notify a warning sound when the water usage exceeds one shower.

When the cold and hot water control system is operated in the normal operation mode and the start operation mode described as follows.

In the normal operation mode, it is generally used in general, and circulates the boiler 300 through the cold water supply pipe 200 to heat the cold water supplied from the outside to generate hot water by heating in the boiler 300, and the generated high temperature water. It is supplied to the mixed water control valve 400.

Not only the hot water generated by the boiler 300 is introduced into the mixed water control valve 400, but the hot water is introduced through the cold water branch pipe 220 branched from the cold water supply pipe 200, and the hot water is introduced. And cold water are mixed in the mixed water control valve 400 to generate mixed water.

One end of the mixed water generated by the mixed water control valve 400 communicates with the outlet of the mixed water control valve 400, and the other end communicates with the cold water supply pipe 200 in front of the cold water branch pipe 220. The normal water supply mode is supplied to each household 100 through the mixed water distribution pipe 500.

The start operation mode operated by the user's use request is a mode operated by operating the control unit 700 provided in each household when the user takes a shower in the morning or urgently needs hot water. Without using cold water, the residual water remaining in the mixed water distribution pipe 500 is circulated to be reheated and mixed to a temperature set by a user.

When the normal operation mode is switched to the start operation mode by a user's request, the residual water circulation pump 600, which was not operated in the normal operation mode, is operated to remind the residual water remaining in the mixed water distribution pipe 500. The cold water supply pipe 200 is supplied to the boiler 300 and the mixed water control valve 400, and the hot water generated in the boiler 300 and the cold water supply pipe 200 in the mixed water distribution pipe 500. The residual water supplied to the mixed water control valve 400 through the mixed water control valve 400 is mixed to generate mixed water to the destination 100 of each generation through the mixed water distribution pipe 500. In the start operation mode, the circulation is continuously performed at the request of the user.

In the present invention, the hot and cold water control system is configured to use the normal operation mode and the start operation mode in parallel in the two embodiments described above. Usually, the system is operated in the normal operation mode and used for high temperature water of each generation. In case of sudden use of the mixed water, the sub-control unit 94 and the control unit 700 provided in each household are operated to switch the normal operation mode to the start operation mode, so that the user manually controls the temperature of the mixed water. By not operating the valve, the user's convenience is improved, and by reusing the hot water without discarding it, the waste of water is reduced, and thus economical effects are obtained.

Although the present invention has been described with reference to the embodiments illustrated in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: winning cold water supply pipe 12: main cold water supply pipe
14: first cold water supply pipe 16: second cold water supply pipe
20: central heat exchanger 30: granular hot water supply pipe
32: main hot water supply pipe 34: hot water supply pipe
40: mixed water control valve 50: mixed water pipe
60: return pipe 70: winning return pipe
72: main return pipe 80: return control valve
90: control unit 100: required destination
200: cold water supply pipe 300: boiler
400: mixed water control valve 500: mixed water distribution pipe
600: residual water circulation pump 700: control unit

Claims (12)

In the cold and hot water control system for providing hot water to a plurality of households using the district heating facility or an external facility of the central heating facility,
A granular cold water supply pipe for supplying cold water introduced from the outside through the main cold water supply pipe;
A central heat exchanger for heating cold water introduced from the outside through a water supply pipe to heat the water by using a heat medium introduced from the external equipment;
A granular hot water supply pipe through which the hot water is supplied from the central heat exchanger through the main hot water supply pipe;
Installed in each generation, in the normal operation mode, mixed water control to mix the hot water branched from the granular hot water supply pipe through the hot water supply pipe and the cold water branched from the granular cold water supply pipe through the first cold water supply pipe to discharge the mixed water valve;
One end is connected to the outlet of the mixed water control valve, the mixed water pipe for supplying the mixed water flowing out of the mixed water control valve to the requirements of each generation;
A return pipe communicating with the mixed water pipe and returning residual water of the mixed water pipe;
A granular return pipe communicating the residual water from the return pipes of each generation to the main return pipe;
A return control valve installed on the return pipe;
A return temperature sensor installed on the return pipe and detecting a temperature of the return water;
A start switch configured to receive a request for using the mixed water from a user; And
In the start operation mode in which the use request information of the mixed water from the user is received from the start switch, the return control valve is opened until the temperature of the return water sensed by the return temperature sensor satisfies a set temperature range, and the mixing is performed. And a control unit for returning the remaining water remaining in the water pipe to the central heat exchanger through the return pipe, the granular return pipe, and the main return pipe.
The method according to claim 1,
The return control valve is cold and hot water control system disposed in the case of the mixed water control valve.
The method according to claim 1,
The return temperature sensor, cold and hot water control system is installed in front of the return control valve.
The method according to claim 1,
Installed in the mixed water pipe, and further comprising a flow rate sensor for detecting the flow of the mixed water in the mixed water pipe,
Cold and hot water control system that the power of the control unit is partially cut off when the flow of the mixed water does not occur.
The method according to claim 1,
In the start operation mode,
When the temperature of the return water reaches the set range, the cold and hot water control system further comprises an alarm device to inform the user.
Cold water supply pipe for supplying cold water from the outside;
A boiler for generating hot water by heating cold water introduced from the cold water supply pipe;
A mixed water control valve configured to mix the hot water introduced from the boiler and the cold water branched through the cold water branch pipe branched from the cold water supply pipe in a normal operation mode to discharge the mixed water;
One end is connected to the outlet of the mixed water control valve, the other end is communicated in front of the cold water branch pipe in the cold water supply pipe, the mixed water for supplying the mixed water flowing out from the mixed water control valve to the required place pipe;
A residual water circulating pump installed at the rear of each required portion on the mixed water distribution pipe and stopped in the normal operation mode;
A start switch for receiving a request for use of the mixed water from a user;
In the start operation mode in which the use request information of the mixed water from the user is received from the start switch, the residual water circulation pump is operated by operating the residual water circulation pump without introducing cold water through the cold water supply pipe, and remaining in the mixed water distribution pipe. Cold and hot water control system comprising a control unit for circulating a part or all of the water to the boiler.
The method of claim 6,
Installed in the cold water supply pipe, and further comprising a first flow rate sensor for detecting the inflow of cold water,
The control unit, if it is detected that the cold water flows into the cold water supply pipe from the first flow rate sensor, the cold and hot water control system to stop the residual water circulation pump.
The method of claim 6,
A second backflow prevention valve installed on the mixed water distribution pipe at the rear of the required destination and preventing the residual water circulated by the residual water circulation pump from flowing back on the mixed water distribution pipe during the start-up operation mode; Cold and hot water control system further comprising.
The method of claim 6,
It is installed in front of the point where the mixed water distribution pipe and the cold water supply pipe is connected on the cold water supply pipe, and in the start-up operation mode, to prevent the residual water circulated by the residual water circulation pump to flow back to the cold water supply pipe Cold and hot water control system further comprising a non-return valve.
The method of claim 6,
A second flow rate detector installed on the mixed water distribution pipe and detecting a flow of the mixed water;
When there is no flow of the mixed water in the mixed water distribution pipe from the second flow rate sensor, the hot and cold water control system is partially cut off the power supply.
The method of claim 6,
In the start operation mode,
When the temperature of the circulating residual water reaches a set range, the cold and hot water control system further comprises an alarm device to inform the user.
The method of claim 6,
It is installed on the mixed water distribution pipe, and further comprising a return temperature sensor for sensing the temperature of the residual water circulated,
In start operation mode,
The control unit, the cold and hot water control system to stop the operation of the residual water circulation pump when the temperature of the circulating residual water detected from the return temperature sensor satisfies a set temperature range.

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