JP2015178755A - Valve configuration and electric control method for utilization system of bath residual hot water - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a residual hot water utilization system capable of changing a bath style from a conventional style of reheating residual hot water to a new smart bath style thereby improving health maintenance.SOLUTION: The residual hot water utilization system has a drain valve 42 at the downstream side of a bathtub water faucet 47. The open/close operation of the drain valve 42 is electrically interlocked with the open/close operation of a piston cylinder type or a diaphragm type pop-up bathtub water faucet 47, which operates to open/close by means of ON/OFF of an electrical motor or fluid or a manually operated pop-up bathtub water faucet.

Description

The present invention relates to an electric control system related to opening and closing of a bathtub faucet and a drain valve on the downstream side of the bathtub remaining water utilization system.

In recent years, many of the residents have hoped to provide a safe, secure, healthy and comfortable living space, and the incidental facilities of buildings such as houses have been considerably enhanced.
Among them, bathing is important for maintaining health without getting sick.
There are many households that bathe in daily bathing by chasing the remaining hot water the day before or the day before.
However, the remaining hot water in the bathtub the day before and the day before the day is a hygienic bathing style that causes infections and other diseases when many baths are added to the bath to bathe.

It seems that there is a water bill as a reason for chasing the remaining hot water, but it seems that the remaining hot water has a slightly high temperature and that it requires less gas to warm up.
However, there are some taters that the additional cost of gas is more expensive for the additional bathing.
From now on, even considering the health of the family, we will review the daily bathing style to eliminate additional cooking and take a new bath every time.
A smart and hygienic bathing style that reduces utility costs for water, electricity and gas is desirable.

Japanese Patent No. 5180136

From the way of bathing by bathing the remaining hot water the day before and the day before the day when there are a lot of germs in daily bathing, you can maintain and improve your health by revisiting the bathing style where you bathe in a new bath every time, The challenge was to create a smart bathing style that could reduce utility costs.

The occurrence of diseases caused by various germs has been reported by chasing and bathing the remaining hot water the day before and the day before.
There are many cases of illnesses in which there is no distinction between males and females and death occurs due to inhalation of Legionella into the lungs.
In addition, urinary tract infections that cause inflammation in the urinary tract are characterized by discomfort during urination, and women are more ill than men because women have a shorter urethra, and women are more ill than men. Data has been reported that is likely to be.
In this way, it is necessary to promote the spread of “smart new bathing styles” from the viewpoint of reducing the national medical expenses because of the risk of infectious diseases caused by various bacteria.
An object of the present invention is to provide and implement a valve configuration and an electric control system of a remaining hot water utilization system that is free from failure and easy to use as one means for solving the problem in an inexpensive manner.

In order to achieve the above object, the present invention takes the following technical means.
First, in the remaining hot water utilization system having a drain valve on the downstream side of the bathtub faucet,
The piston cylinder type or diaphragm type pop-up bathtub faucet that opens and closes by turning the motor or fluid on and off using electricity, or the pop-up bathtub faucet that is manually opened and closed and the opening and closing of the drain valve are electrically linked for each mode The valve configuration of the hot water utilization system and the electric control method using a microcomputer were adopted.

Secondly, it consists of two valves, a piston cylinder type and a diaphragm type pop-up bathtub faucet and drain valve that are opened and closed by turning on or off the motor or fluid using electricity,
Each rotary switch or individual mode selector switch is in each mode.Valve configuration of a remaining hot water use system that can be arbitrarily switched to a bathing mode, a remaining hot water use mode, and a cleaning mode, and an electric control means using a microcomputer. did.

Third, it consists of two valves, a manual pop-up bathtub faucet and a drain valve that opens and closes using fluid,
Switching the electrical circuit between NO and OFF just by pressing the switch using the pushbutton of the manual pop-up bathtub faucet ・ Bathing mode ・ Remaining hot water use mode ・ Cleaning mode, then ・ Switch back to bathing mode and switch The valve configuration of the remaining hot water utilization system that can be used and the electric control means using the microcomputer.

Fourth, the water pump can be operated only in the remaining hot water usage mode of opening the bathtub faucet and closing the drain valve.
The low tank of the low tank type toilet that can use both tap water and remaining hot water in the toilet where the water pump is required has a water level sensor, and the liquid pump is controlled by turning the water level sensor ON / OFF. Do
The valve configuration of the remaining hot water use system that incorporates an empty operation continuation prevention timer into the electric circuit as the means for preventing the empty operation of the water pump when the remaining hot water in the bathtub runs out, and the electric control system using the microcomputer.

Fifth, it becomes a condition that the water pump can be operated only in the remaining hot water usage mode of opening the bathtub faucet and closing the drain valve,
The low tank of the low tank type toilet that can use both tap water and remaining hot water in the toilet where the water pump is required has a water level sensor, and the liquid pump is controlled by turning the water level sensor ON / OFF. Do
As a means to prevent water pump empty operation when there is no remaining hot water in the bathtub, the valve configuration of the remaining hot water use system in which the bathtub water level lowering sensor is incorporated in the electric circuit and the electric control system using the microcomputer are adopted.

Sixth, it becomes a condition that the water pump can be operated only in the remaining hot water usage mode of opening the bathtub faucet and closing the drain valve,
The liquid pump is started by the toilet cleaning start operation of the low tank toilet or the tap water direct pressure toilet that can use both tap water and remaining hot water in the toilet where the water pump is required, and the timer built into the electric circuit The valve configuration of the remaining hot water utilization system that automatically stops the liquid feed pump and the electric control method using a microcomputer were adopted.

Seventh, the valve configuration of the remaining hot water utilization system that enables the filling of the hot water from the water heater to the bathtub and the addition of hot water only in the bathing mode, and the electric control system using the microcomputer.

  The present invention can provide a product of “a new hygienic and smart bathing style” that can avoid the risk of infectious diseases due to additional bathing and is healthy, safe and comfortable.

Schematic diagram of valve configuration and electrical circuit connection of the remaining hot water utilization system Schematic diagram of the mode changeover switch type electric control circuit using a microcomputer Pop-up bathtub faucet switch schematic diagram of electric control circuit using microcomputer

Embodiments of the present invention will be described below with reference to the schematic diagrams of FIGS. 1 to 3.

FIG. 1 and FIG. 2 of the first embodiment are second technical means, which are a valve configuration and electric circuit connection schematic diagram of a remaining hot water utilization system, and a mode switching switch type schematic diagram of an electric control circuit using a microcomputer. By switching the switch 27 to the designated mode, it is possible to arbitrarily switch to the bathing mode, the remaining hot water using mode, and the cleaning mode through the microcomputer 20.

In the bathing mode, the piston-cylinder pop-up bathtub faucet 47 that opens and closes with fluid air or water is closed, and the relay 23 can automatically fill the bathtub from the hot water supply device to complete the filling. You can take a bath.
The relay 23 for the hot water supply side water supply valve 72 connected to the hot water supply device can be automatically filled with hot water and added hot water only in the bathing mode. There is no worry to do.
Electrically, when the mode switching switch 27 is designated as a bathing mode, the piston cylinder pop-up bathtub faucet 47 is closed by shutting and releasing air from the microcomputer 20 via an electromagnetic valve 46 that operates at 100 V AC via a relay 26 that operates at DC. It is in a state.
In principle, the piston cylinder type pop-up bathtub faucet 47 is closed during a power failure.

In the remaining hot water use mode, the piston cylinder pop-up bathtub faucet 47 is open and the drain valve 42 is closed, so that the remaining hot water from the bathtub to the toilet 65 or the washing machine 60 can be used.
When the position of the toilet 65 is higher than the water level of the bathtub, water is supplied by the water supply pump 52.
In addition, when the bathtub is on the second floor, the toilet pump on the first floor can supply water with a drop, so the installation of the water pump 52 is not necessary.
Electrically, when the mode changeover switch 27 is designated as the remaining hot water utilization mode, air is supplied from the microcomputer 20 via an electromagnetic valve 46 that operates at 100 V AC via a relay 26 that operates at DC, and the piston cylinder pop-up bathtub faucet 47 opens. .
At the same time, air is supplied from the electromagnetic valve 41 moving at 100 V AC via the relay 24 moving at DC, and the drain valve 42 is closed.
In principle, the drain valve 42 is opened during a power failure.

When the position of the toilet bowl 65 is higher than the water level of the bathtub, water is supplied by the water supply pump 52.
For example, water is passed through the toilet 65 after defecation, but the low tank of the toilet 65 is provided with a water level sensor 29. When the water level drops, the water pump 52 starts operation from the microcomputer 20 by the relay 25 and the relay 51 having a high operating current value. When the water level in the low tank returns to normal in approximately 20 seconds, the water supply pump 52 stops.
Next, as a means for preventing the idling operation of the liquid feed pump 52, the idling operation of the microcomputer 20 is forcibly cut off in 30 seconds so that the idling operation of the water pump 52 is not continued when the remaining hot water in the bathtub runs out. Either the method of incorporating the timer 22 or the method of the bathtub water level sensor 99 is adopted.
In principle, the electric circuit is capable of operating the water pump 52 only in the remaining hot water usage mode.

In the cleaning mode, the piston cylinder type pop-up bathtub faucet 47 is open and the drain valve 42 is also open.
Electrically, when the mode changeover switch 27 is designated as the cleaning mode, air is cut off and released by the electromagnetic valve 41 operating at 100 V AC via the relay 24 operated by DC from the microcomputer 20 and the drain valve 42 is opened. 46 and air is supplied, and the piston cylinder type pop-up bathtub faucet 47 is opened.

After the detergent in the bathtub is washed away, if the mode changeover switch 27 is used to specify the bathing mode, a bathing standby state is possible in which hot water can be filled.

FIG. 3 of the second embodiment is a third technical means, which is a pop-up bathtub faucet switch type schematic diagram of an electric control circuit using a microcomputer. Each time the push button of the pop-up bathtub faucet switch 87 is pressed, it is turned ON and OFF. The switching microcomputer 80 sequentially switches to a bathing mode, a remaining hot water use mode, and a cleaning mode.

In the bathing mode, the manual pop-up bathtub faucet 88 is in a closed state, and bathing can be performed if the hot water filling is completed in a state in which automatic hot water filling from the hot water supply device to the bathtub can be performed by the relay 23.
The relay 23 for the hot water supply side water supply valve 72 connected to the hot water supply device can be automatically filled with hot water and added hot water only in the bathing mode. There is no worry to do.
For example, when adopting a method in which both the manual pop-up bathtub faucet 88 and the drain valve 42 are closed, when the bathing mode is electrically set by the pop-up bathtub faucet switch 87, the microcomputer 80 passes through the relay 24 operated by DC. A double closing system is also possible by supplying air from an electromagnetic valve 41 that operates at 100 VAC and closing the drain valve 42.

In the remaining hot water use mode, the manual pop-up bathtub faucet 88 is open and the drain valve 42 is closed, so that the remaining hot water from the bathtub to the toilet 65 or the washing machine 60 can be used.
When the position of the toilet 65 is higher than the water level of the bathtub, water is supplied by the water supply pump 52.
In addition, when the bathtub is on the second floor and the like, a toilet on the first floor can supply water with a drop, so the installation of the water pump 52 is not necessary.
Electrically, when the push button of the pop-up bathtub faucet switch 87 is pressed, the mode is switched to the remaining hot water use mode.
At the same time, air is supplied from the electromagnetic valve 41 moving at 100 V AC via the relay 80 moving at DC from the microcomputer 80, and the drain valve 42 is closed.
In principle, the drain valve 42 is opened during a power failure.

When the position of the toilet bowl 65 is higher than the water level of the bathtub, water is supplied by the water supply pump 52.
For example, water is passed through the toilet 65 after defecation, but the low tank of the toilet 65 has a water level sensor 29. When the water level drops, the water pump 52 starts operation from the microcomputer 80 by the relay 25 and the relay 51 having a high operating current value. When the water level in the low tank returns to normal in approximately 20 seconds, the water supply pump 52 stops.
Next, as an empty operation prevention means for the liquid pump, an empty operation continuation prevention timer forcibly turning off the electric circuit of the microcomputer 80 in 30 seconds so that the empty operation of the water supply pump 52 is not continued when the remaining hot water in the bathtub is exhausted. Either the method of incorporating 22 or the method of the bathtub water level sensor 99 is adopted.
In principle, the electric circuit is capable of operating the water pump 52 only in the remaining hot water usage mode.

In the cleaning mode, the manual pop-up bathtub faucet 88 is open and the drain valve 42 is open.
Electrically, when the push button of the pop-up bathtub faucet switch 87 is pressed twice, the mode is switched to the cleaning mode, and the air is cut off and released from the microcomputer 80 by the electromagnetic valve 41 operating at 100 V AC via the relay 24 operated by DC. Is released.

When the push button of the pop-up bathtub faucet switch 87 is pressed once after the detergent in the bathtub is washed away, the manual pop-up bathtub faucet 88 is closed and a bathing standby state in which hot water can be filled is entered.

The third embodiment is a sixth technical means. In the electric control circuit using the pop-up bathtub faucet switch 87 and the microcomputer, the water pump is operated only in the remaining hot water use mode of opening the manual pop-up bathtub faucet 88 and closing the drain valve. It becomes a condition that driving is possible,
The supply pump 52 was started by the operation of starting the toilet flushing of the low tank type toilet or the tap water direct pressure type toilet which can use both tap water and remaining hot water in the toilet 65 in the position where the water supply pump is required, and was incorporated into the electric circuit. This is a valve configuration of a simple remaining hot water utilization system characterized by automatically stopping the liquid feeding pump 52 by a timer and an electric control system utilizing a microcomputer.

The drain valve 42 system has a built-in 24-hour timer, and the drain valve 42 automatically closes between 1 and 18:00, for example, when the time is specified.
When the pop-up tub faucet 88 is opened between 1 o'clock and 18 o'clock when the drain valve 42 is closed, the remaining hot water can be used and the water pump 52 can be operated. The pump 52 is automatically stopped by a timer built into the electric circuit.

At 18:00, if the drain valve 42 is automatically opened and the remaining hot water remains, it is drained and the bathtub can be washed.
If the manual pop-up bathtub faucet 88 is closed after cleaning, the relay 23 enables automatic hot water filling from the hot water supply device to the bathtub, and bathing is possible when the hot water filling is completed.
This easy-to-use remaining hot water system is suitable for households with a fixed lifestyle.

In addition, the water supply amount adjustment valve to the low tank toilet that can use both tap water and remaining hot water is throttled to fill up in 120 seconds, and the replenishment of remaining hot water is completed in approximately 20 seconds, so 1 Only / 6 tap water usage.
Of course, if there is no remaining hot water, the entire amount will be tap water, so the low tank will not fill up unless you wait 120 seconds (2 minutes).
Further, the lamp display in the bathing mode, the remaining hot water utilization mode, and the cleaning mode is preferably a lamp display such as an LED that consumes less power.
Other details such as the display method and location are omitted.

Spreading and expanding the remaining hot water usage system in cold areas in Japan and abroad, where it is customary to bathe in the bathtub, is good for both the global environment and the elimination of drought.

1, 2 Electric circuit diagram using microcomputer 20, 80 Microcomputer 21 AC / DC converter 22 Stop idling timer 23 24, 25, 26 Relay 27 Mode change switch 29 Water level sensor 41, 46 Electromagnetic valve 42 Drain valve 47 Piston cylinder type Pop-up bathtub faucet 51 Relay 52 Water pump 60 Washing machine 65 Toilet 71 Hot water supply equipment side terminal block 72 Hot water supply equipment side hot water supply valve 87 Pop-up bathtub faucet switch 88 Manual pop-up bathtub faucet 99 Bathtub water level drop sensor

Claims (7)

In the remaining hot water usage system having a drain valve downstream of the bathtub faucet,
The piston cylinder type or diaphragm type pop-up bathtub faucet that opens and closes by turning the motor or fluid on and off using electricity, or the pop-up bathtub faucet that is manually opened and closed and the opening and closing of the drain valve are electrically linked for each mode Valve configuration of hot water utilization system and electric control method using microcomputer. It consists of two valves, a piston-cylinder type and a diaphragm-type pop-up bathtub faucet and drain valve that are opened and closed by turning on and off the motor or fluid using electricity,
The remaining hot water use system according to claim 1, wherein each mode can be arbitrarily switched to one of a mode, a bathing mode, a remaining hot water use mode, and a cleaning mode by one rotary changeover switch or individual mode changeover switch. Valve control and microcomputer-based electric control means. It consists of two valves, a manual pop-up bathtub faucet and a drain valve that opens and closes using fluid.
Switching the electrical circuit between NO and OFF just by pressing the switch using the pushbutton of the manual pop-up bathtub faucet ・ Bathing mode ・ Remaining hot water use mode ・ Cleaning mode, then ・ Switch back to bathing mode and switch The valve configuration of the remaining hot water using system according to claim 1 and an electric control means using a microcomputer according to claim 1. The water pump can be operated only in the remaining hot water usage mode of opening the bathtub faucet and closing the drain valve.
The low tank of the low tank type toilet that can use both tap water and remaining hot water in the toilet where the water pump is required has a water level sensor, and the liquid pump is controlled by turning the water level sensor ON / OFF. Do
The valve configuration of the remaining hot water utilization system according to claims 1 to 3 and the use of a microcomputer as claimed in claim 1, wherein an empty operation continuation prevention timer is incorporated in the electric circuit as a water pump empty running prevention means when there is no remaining hot water in the bathtub. Electric control system. The water pump can be operated only in the remaining hot water usage mode of opening the bathtub faucet and closing the drain valve.
The low tank of the low tank type toilet that can use both tap water and remaining hot water in the toilet where the water pump is required has a water level sensor, and the liquid pump is controlled by turning the water level sensor ON / OFF. Do
The valve configuration of the remaining hot water use system according to claims 1 to 3 and the use of a microcomputer as claimed in claim 1, wherein a bathtub water level lowering sensor is incorporated in an electric circuit as a means for preventing empty operation of the water pump when the remaining hot water in the bathtub is exhausted. Electric control system. The water pump can be operated only in the remaining hot water usage mode of opening the bathtub faucet and closing the drain valve.
The liquid pump is started by the toilet cleaning start operation of the low tank toilet or the tap water direct pressure toilet that can use both tap water and remaining hot water in the toilet where the water pump is required, and the timer built into the electric circuit The valve configuration of the remaining hot water using system and the electric control system using a microcomputer according to claim 1, wherein the liquid feed pump is automatically stopped. 7. The remaining hot water use system valve configuration and microcomputer-based electric control system according to claim 1, wherein hot water filling from the water heater to the bathtub or additional hot water is possible only in the bathing mode.

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