JP2675846B2 - Hot water supply system - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water supply system in which hot water at a predetermined temperature can be appropriately supplied to a hot water supply port such as a bathtub or a washing place.

[Prior Art] Conventionally, this type of hot water supply system in which hot water of a predetermined temperature can be appropriately supplied to a hot water supply port of a bathtub, a washing place, or the like,
An appropriate amount of water is mixed with the hot water from the water heater by the anhydrous mixing means, and the mixed and formed hot water of a predetermined temperature is appropriately discharged from the hot water supply port.As hot water mixing means, as shown in FIG. In addition, an automatic hot water temperature adjusting mechanism has been used in which the hot water temperature reaches a set value by driving the mixing valve 61 using the thermowax 60 that expands and contracts according to the temperature of the mixed hot water. The hot water temperature setting of the automatic hot water temperature adjusting mechanism is performed by rotating the hot water temperature setting knob 62 to move the thermowax 60 in the direction of the arrow. The mixing valve 61 is moved in the direction of the arrow by the expansion and contraction of the wax 60, and the hot water and water inflow openings 61a,
By changing the opening amount of 61b, it is possible to realize a hot and cold water mixing ratio such that hot water of a predetermined temperature can be obtained. That is, thermo wax 60 that expands and contracts according to temperature
Is used to feedback control the mixing valve 61 to mix and form hot water having a predetermined temperature set by the hot water temperature adjusting knob 62.

On the other hand, in order to perform multi-functional hot water supply control, it is necessary to electrically drive the rotary shaft 62a for adjusting the hot water temperature of the automatic hot water temperature adjusting mechanism by the control means formed using the CPU. In this case, driving means using an open loop control stepping motor that can be realized with a simple configuration has been proposed.

[Problems to be Solved by the Invention] However, when the drive means of the automatic hot water temperature adjusting mechanism is formed using the stepping motor as described above,
Since a feedback mechanism for control is not required, the structure is simple, but since the rotating shaft 62a is driven through many circuits (control and drive signal generating circuits) and parts (gear unit, mixing valve). , There was a problem with reliability. That is, when the stepping motor malfunctions due to electrical noise or the drive mechanism does not follow the rotation of the stepping motor, the rotating shaft is set to the set hot water temperature.
Even if the stepping motor is driven by outputting a drive pulse for rotating 62a, hot water having a hot water temperature different from the set hot water temperature is actually discharged. For example, in a shower where hot water directly touches the human body. In such applications, there is a problem that hot water of different hot water may be discharged to cause discomfort or hot water may be discharged to cause a danger.

The present invention has been made in view of the above points, and an object thereof is to set a different hot water temperature even when an automatic hot water temperature adjusting mechanism is driven by using a stepping motor. An object of the present invention is to provide a hot water supply system that ensures high reliability without hot water being discharged.

[Means for Solving the Problem] In the hot water supply system of the present invention, an appropriate amount of water is mixed with the hot water from the water heater by the hot water mixing means, and the mixed and formed hot water having a predetermined temperature is appropriately discharged from the hot water supply port. The hot-water mixing means is formed by an automatic hot-water temperature adjusting mechanism that drives the mixing valve by using a thermowax that expands and contracts according to the temperature of the hot water mixed and formed. Then
A hot water supply system in which a rotary shaft for setting the temperature of the automatic hot water temperature adjusting mechanism is driven by a stepping motor, and position detecting means for outputting a reference position signal when the automatic hot water temperature adjusting mechanism is at a reference position is provided. At the same time, after the hot water is stopped, a drive compensating means for driving the rotating shaft so that the reference position signal is outputted from the position detecting means and further for driving the rotating shaft based on the reference position so as to obtain the set hot water temperature. Provided,
The reference position is the reference hot water temperature position substantially in the center of the hot water temperature settable range.

[Operation] The present invention is configured as described above. The hot water from the water heater is mixed with an appropriate amount of water to form hot water having a predetermined temperature, and the hot water is appropriately discharged from the hot water supply port. A hot water supply system formed by an automatic hot water temperature adjusting mechanism in which the hot and cold water mixing means is configured to drive the mixing valve by using a thermowax that expands and contracts according to the temperature of the mixed hot water so that the hot water temperature reaches a set value. In, the automatic hot water temperature adjusting mechanism is provided with position detecting means for outputting a reference position signal when the reference position, and after the hot water is stopped, the rotating shaft is driven so that the reference position signal is output from the position detecting means, Further, drive compensation means is provided for driving the rotary shaft based on the reference position so as to obtain the set hot water temperature, and the reference position is set to a reference hot water temperature position substantially in the center of the hot water settable range. Using a motor Even if the hot water temperature automatic hot water temperature adjustment mechanism is driven, hot water with a hot water temperature different from the set hot water temperature does not come out, and it is possible to provide a hot water supply system with high reliability. ing.

Further, since the reference position is set to the reference hot water temperature position substantially in the center of the hot water temperature settable range, the drive compensation operation can be performed quickly, and the time until the next hot water can be discharged can be shortened. .

[Embodiment] FIG. 1 is a diagram showing an example of arrangement of a hot water supply system according to the present invention in a bathroom, FIG. 2 is a schematic configuration diagram of the same as above, and FIGS. 3 to 5 are diagrams showing a main part configuration of the same. The water heater 1 and the hot and cold water from the hot water heater 1 are mixed with an appropriate amount of water to form hot water of a predetermined temperature, and the hot water formed by the hot and cold water mixing means 2 is supplied to a plurality of hot water heaters. In a multi-site hot water supply system configured with hot water outlet switching means 3 for appropriately giving hot water to the mouths 4a, 4b, 4c, hot water supply control units 5a, 5b, 5c are provided corresponding to the hot water supply ports 4a, 4b, 4c, respectively. The hot water supply control switch and the hot water temperature setting switch of the control units 5a, 5b, 5c are used to perform hot water supply control and hot water temperature setting, and the set hot water temperature is displayed on the display unit. Mouth 4a, 4
Control means for controlling the hot and cold water mixing means 2 so that the hot water temperature is set to the hot water supply units 5a, 5b, 5c provided corresponding to the hot water supply ports 4a, 4b, 4c when hot water is supplied from b, 4c Is provided. Here, the hot and cold water mixing means 2 is for hot and cold water from the hot water supply device 1 and hot water and water mixing section 40 formed by using thermowax for mixing city water, and for hot water temperature setting of the automatic hot water temperature adjusting mechanism of the hot and cold water mixing section 40. It is composed of a hot water temperature control gear unit 40a whose rotary shaft is rotationally driven by a stepping motor 65, and a temperature sensor 41 which detects the temperature of the mixed hot water. Further, the stepping motor of the hot water temperature control gear unit 40a, by switching the excitation method when changing the hot water temperature,
It is driven at two or more speeds, and is driven at a low speed when driving in the vicinity of the set hot water temperature and at a high speed during other driving.

Further, the hot water outlet switching means 3 includes a flow rate control unit 42 for controlling the hot water outlet flow rate, a flow rate control gear unit 42a for driving a flow rate setting mechanism with a DC motor, water shutoff valves 43a, 43b, 43c, and a water shutoff valve 43a. And a flow rate sensor 44 provided on the hot water supply port side. The hot water mixing means 2 and the hot water switching means 3 and the control circuit block 7a for controlling the two means 2 and 3 are integrated as a drive unit 7 as shown in FIGS. Placed in place. In the figure, reference numeral 45 denotes a flow rate sensor for detecting a drainage state, and reference numeral 46 denotes a water level sensor for detecting a water level of a bathtub by water pressure. Va
To Vc are output from the control circuit block 7a and the water shutoff valves 43a, 43b,
Closing control signals for opening and closing the 43c, Vs ₁ ~Vs ₄ Each sensor 41 and 42
Sensor output signals output from 4, 45, 46 and input to the control circuit block 7a, Vd ₁ , Vd ₂ are drive signals for driving the motors of the respective gear units 40a, 42a, and Vp ₁ , Vp ₂ are the gear units 40a, This is a position signal indicating the operation state (setting state) of 42a.

On the other hand, the control means for controlling the hot and cold water mixing means 2 and the hot water switching means 3 is composed of a main control unit 6 for setting various initial states, and a control circuit block 7a integrated with the drive unit 7. Data transmission between each of the hot water supply control units 5a, 5b, 5c, the main control unit 6, and the control circuit block 7a is performed by time division multiplex transmission via the signal line 8.

FIG. 6 is a block circuit diagram showing a configuration example of the hot water supply control units 5a, 5b, 5c, the main control unit 6 and the drive unit 7, and time division multiplexing transmission between the units 5a, 5b, 5c, 6, 7. The signal line 8 for is wired.

Here, the hot water supply control units 5a, 5b, 5c include a CPU 10 that performs arithmetic processing such as data setting display and data transmission, an operation switch 11 that performs hot water supply control, hot water temperature setting, and the like, a display of hot water temperature, an operation state, A sound generator consisting of an indicator 12 that displays an error code for the details of an error when a system error occurs, and a piezoelectric buzzer that generates an operation sound when a switch is operated and an alarm sound when an error occurs.
13, a transmission input / output circuit 14 for transmitting and receiving a transmission signal for time division multiplexing transmission of data via the signal line 8, and a stabilized power supply circuit for clearing and smoothing the transmission signal to form a circuit power supply (+ 5V)
15 and formed.

The main control unit 6 includes a CPU 20 that performs arithmetic processing such as a clock with a timer, a data setting display, and data transmission.
An operation switch 21 for controlling a clock with a timer, hot water supply / drainage control, operation mode setting, etc .; a setting volume 22 for setting an initial state (reference value); a display 23 for displaying a hot water supply control state; Clock display 24 that displays the operation of the system and the details of the error at the time of a system error using an error code
And a sounding body 25 that generates an operation sound when a switch is operated and an alarm sound when an abnormality occurs, a transmission input circuit 26 that transmits and receives a transmission signal for time division multiplexing transmission of data, and a telephone line to a bathtub. A teleconverter input / output circuit 27 that sends and receives data to and from the teleconverter 9 that remotely controls hot water supply, a power failure detection circuit 28 that detects a power failure, and a backup power supply circuit 28a that includes an emergency storage battery that supplies power to the CPU 20 when a power failure is detected. , A power supply block 29a that forms the system power supply (+ 24V) and a stabilized power supply that forms a circuit power supply (+ 5V) that supplies power to the CPU 20 by rectifying and smoothing and stabilizing the AC power that is input via the step-down transformer 29b. It is composed of a circuit 29c and a power switch 30 for turning on / off the power of the entire multi-site hot water supply system except the CPU 20.

Further, the control circuit block 7a of the drive unit 7 includes:
CPU 31 that performs arithmetic processing such as data transmission, water supply / drainage control, hot water temperature control, system abnormality detection, abnormality notification, etc., and each hot water supply port 4
a, 4b, the solenoid driver 32 that drives the solenoid of the hot water control valve 43a ~ 43c for 4C, the motor driver 33a that drives the stepping motor 65 of the hot water temperature control gear unit 40a, and the flow control gear unit 42a. A motor driver 33b for driving a DC motor, and a temperature sensitive element 41a composed of a pair of thermistors forming a temperature sensor 41,
By detecting the deviation of the hot water temperature detected by 41b and calculating the deviation from the set hot water temperature, and the runaway of the CPU 31 is detected by the watchdog timer and input to the solenoid driver 32, the hot water supply port Abnormal hot water discharge prevention circuit 35 for preventing abnormal hot water discharge from 4a, 4b, 4c, automatic drain plug control circuit 36 for controlling opening / closing of automatic drain plug 47, and transmission signal time-division multiplexed transmitted via signal line 8. Transmission input / output circuit 37 for sending and receiving
And a control power supply circuit 38a that forms a control power supply (+ 24V) that powers the driver, and a circuit power supply (+ 5V) that powers the CPU 31.
V) which forms a stabilized power supply circuit 38b.
In the figure, 40b is a position detection circuit that detects the operating position of the hot water temperature control gear unit 40a, and 42b is a position detection circuit that detects the operating position of the flow rate control gear unit 42a.

Further, the control means of the hot water temperature control gear unit 40a is formed by the CPU 31 of the control circuit block 7a, and the hot water temperature is set in a steady state for a certain period of time preset in consideration of overshoot from the start of hot water discharge. The temperature is set lower than the temperature (for example, −6 ° C.) so that hot water having a temperature higher than the hot water temperature set for each hot water supply port 4a, 4b, 4c is not discharged at the initial hot water discharge. On the other hand, at the time of changing the hot water temperature, when the hot water temperature detected by the temperature sensor 41 becomes close to the preset hot water temperature, the stepping motor is driven at a low speed by half step driving (in the embodiment, 8-step micro step driving). During other driving, full-step driving (four-step micro-step driving in the embodiment) is switched to prevent the occurrence of overshoot and undershoot and prevent the hot water temperature from being changed too much.

Furthermore, in the embodiment, the hot water temperature control gear unit 40a that drives the automatic hot water temperature adjusting mechanism is provided with position detecting means for outputting a reference position signal at the reference position (reference hot water temperature 42 ° C.). , After turning off the hot water, the rotating shaft 62a is driven so that the reference position signal is output from the position detecting means,
Further, drive compensation means is provided for driving the rotary shaft 62a based on the reference position so as to obtain the set hot water temperature (in the embodiment, the hot water temperature is set to the hot water temperature for a washing place and shower hot water and stands by).

Here, the position detection means is composed of a disk 63 with a slit attached to the rotary shaft 62a, and a photo interrupter 64, the slit for reference position detection provided corresponding to the reference position. When detected by the photo interrupter 64, a reference position signal is output.

FIG. 7 is a front view of the bathtub hot water supply control unit 5a. The operation switch 11 includes a hot water supply control switch 11a for controlling on / off of hot water from the bathtub hot water supply port 4a and hot water of a preset temperature or hot water. Hot water switch 11b for switching whether to discharge water, hot water hot water supply control switch 11c for discharging hot water, hot water temperature setting switches 11d, 11d ′ for setting the temperature of hot water to be discharged (setting by high / low), and hot water The display 12 for displaying the operating state is formed by the hot water amount setting switches 11e, 11e ′ for setting the hot water amount (setting by the large / small amount) and the drainage control switch 11f for controlling the opening / closing of the drain plug.
Display element 12 that displays the set hot water temperature and the error code when the system is abnormal
a, light emitting diodes 12b and 12b 'for displaying hot water / water and a light emitting diode 12c for displaying the state of the drain plug.

FIG. 8 is a front view of the hot water supply control unit 5b for the washing area integrally formed with the hot water supply port 4b for the washing area, and a hot water supply control switch 11g for controlling hot water supply from the shower hot water supply port 4c is added to the hot water supply control unit 5a for the bathtub. And drainage control switch 1
1f and the light emitting diode 12c are omitted, and other configurations and operations are the same as those of the bathtub hot water supply control unit 5a.

FIG. 9 is a front view of the shower hot water supply control unit 5c. The operation switch 11 includes a hot water supply control switch 11a for controlling ON / OFF of hot water supply from the shower hot water supply port 4c, and a hot water temperature control when the shower is used. A cycle control switch 11h for selecting whether or not to change the temperature, a temperature difference setting switch 11i for setting a temperature difference during cycle control, and a pitch setting switch 11j for setting a change pitch during cycle control. In addition, the indicator 12 for displaying the setting state includes a light emitting diode 12d for displaying the setting state of the cycle control and a temperature difference (large, medium,
It is formed of a light emitting diode 12e displaying small (small) and a light emitting diode 12f displaying a changing pitch (early, normal, slow).

FIG. 10 shows a front view of the main control unit 6. The operation switch 21 includes clock control switches 21a to 21d for adjusting the current time of a clock with a timer function and setting the timer time, and a drain control for opening and closing a drain cock. A switch 21e and a hot water supply control switch 21f for controlling a fixed amount of hot water from the hot water supply port 4a of the bathtub A
And a reserved hot water supply control switch 21g for performing hot water filling to the bathtub at a preset time, and a mode changeover switch for selecting a normal operation mode and a correction mode for correcting a reference value.
21h. In addition, the display off 23 for displaying the operating state includes a light emitting diode 23a for displaying the state of the drain plug (open → blinking, closing → continuous lighting), and a hot water supply state display (lighting →
Light emitting diode 23b for normal hot water supply, 1Hz blinking → timer reserved hot water supply, 2Hz blinking → remote hot water supply by teleconverter, light emitting diode 23c for reserved hot water supply setting display (lighting → during reservation, off → reservation release), correction status display ( (Directional arrows and appropriate marks). On the other hand, the clock display 24 is formed of a liquid crystal display element that displays the current time and the timer time, and when a system abnormality occurs, the content of the abnormality is displayed by an abnormality code. Further, the setting volume 22 sets the reference value (standard hot water temperature) of the hot water discharged from the bathtub hot water supply port 4a.
Volume 22a set in the range of 38 to 45 ° C (1 ° C unit)
And, the shower water inlet 4c, the volume 22b for setting the standard value (standard temperature) of the hot water to be supplied in the range of 35 to 42 ° C (in 1 ° C increments), and the standard value of the bathtub filling (standard Hot water)
Volume 22c set in the range of 50 to 350 (11 levels)
And the volume 22d that sets the reference value (standard flow rate) of the hot water flow rate, and the reference values set by the volumes 22a and 22b in consideration of the piping condition at the setting site and the characteristic variation of the hot water temperature control unit 40. And a reference correction volume 22e for correction. In the embodiment, the standard hot water temperature of hot water discharged from the washing hot water supply port 4b is set to be the same as the standard hot water temperature of the shower hot water supply port 4c.

Hereinafter, the operation of the embodiment will be described. Now, in the multi-point hot water supply system according to the present invention, hot water from water heater 1 is mixed by hot water mixing means 2 with an appropriate amount of water to form hot water at a predetermined temperature.
The hot water is supplied to b and 4c appropriately, and hot water supply control and hot water temperature setting can be performed by hot water supply control switch 11a, hot water temperature setting switches 11d and 11d 'and temperature difference setting switch 11i. I have. The standard hot water temperature set by the volumes 22a and 22b of the main control unit 6 is changed to the hot water temperature setting switches 11d and 1 of the hot water supply control units 5a and 5b.
The hot water temperature which can be changed at 1d 'and is set corresponding to each of the hot water supply ports 4a and 4b is digitally displayed on the display element 12a immediately after the setting change.

By the way, in the embodiment, the hot water temperature is set by driving the hot and cold water mixing section 40 of the hot and cold water mixing means for mixing hot and cold water by driving the mixing valve 61 using the thermowax 60 which expands and contracts according to the temperature of the mixed hot water. The hot water supply control unit 5a, 5b, 5c is formed by an automatic hot water temperature adjusting mechanism that adjusts the value to a value, and driving means for driving the rotating shaft 62a for hot water temperature setting is driven by using the stepping motor 65. The hot water of the hot water set in is available. Further, the automatic hot water temperature adjusting mechanism is provided with position detecting means for outputting a reference position signal when the reference position is reached.When the hot water is stopped, first, the mixing valve 61 is driven in the reference position direction so that the reference position is detected by the position detecting means. Check whether the signal is output, and when the reference position signal is obtained, set the rotating shaft 62a to the reference position so that the set hot water temperature (6 ° C lower than the bathtub hot water supply) for the washroom and shower hot water can be obtained. It is driven based on the above, and waits for the next hot water. Therefore, even when the hot water temperature automatic hot water temperature adjusting mechanism is driven by using the stepping motor 65, hot water having a hot water temperature different from the hot water temperature set by the malfunction of the electric system or the malfunction of the drive system due to noise comes out. Therefore, it is possible to provide a hot water supply system that is highly reliable. FIG. 11 is a flow chart showing the above-mentioned operation. In the embodiment, an abnormality detection timer is provided which starts from the start of driving the mixing valve 61 and is reset when the reference position signal is obtained. When the reference position signal is not obtained even after the elapse of (setting to seconds), the abnormality detection timer is reset and the abnormality detection processing is performed. Further, if the reference position is set to a reference hot water temperature position (for example, 42 ° C.) approximately in the center of the hot water temperature settable range, the time required to check the reference position regardless of which hot water temperature is set when tapping is stopped. Can be made relatively short to speed up the drive compensation operation, and the time until the next hot water can be discharged can be shortened.

[Effects of the Invention] The present invention is configured as described above. The hot water from the water heater is mixed with an appropriate amount of water to form hot water at a predetermined temperature, and the hot water is appropriately discharged from the hot water supply port. Hot water supply formed by an automatic hot water temperature adjusting mechanism that mixes hot and cold water mixing means by driving a mixing valve using a thermowax that expands and contracts according to the temperature of the mixed hot water The system is provided with position detecting means for outputting a reference position signal when the automatic hot water temperature adjusting mechanism is at the reference position, and after the hot water is stopped, the rotating shaft is driven so that the position detecting means outputs the reference position signal. Further, a drive compensating means for driving the rotating shaft based on the reference position so as to obtain the set hot water temperature is provided, and the reference position is a reference hot water temperature position substantially in the center of the hot water settable range, Stepper motor Even if the hot water temperature automatic hot water temperature adjusting mechanism is driven by using the hot water temperature, hot water having a hot water temperature different from the set hot water temperature is not discharged, and a hot water supply system with high reliability can be provided. effective.

Further, since the reference position is the reference hot water position substantially in the center of the hot water setting range, it is possible to quickly perform the drive compensation operation when the hot water is stopped, and to shorten the time until the next hot water is available. The effect is that you can.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing an arrangement of a hot water supply system according to the present invention, FIG. 2 is a schematic configuration diagram of an embodiment of the present invention, FIG. 3 is a top view of relevant parts of the same, and FIG. 5 is a side view of the parts, FIG. 5 is a diagram showing a schematic structure of the main parts of the same, FIG. 6 is a block circuit diagram of the same as above, and FIGS. 7 to 10 are front views of the main parts of the same.
FIG. 11 is an operation explanatory view of the same as above, and FIG. 12 is a sectional view of a main part of a conventional example. 1 is a water heater, 2 is hot water mixing means, 3 is hot water switching means, 4a, 4b, 4c are hot water supply ports, 5a, 5b, 5c are hot water supply control units,
6 is a main control unit, 7 is a drive unit, 40 is a hot and cold water mixing section, 41 is a temperature sensor, 60 is a thermowax, and 61 is a mixing valve.

Front page continued (72) Inventor, Hitoshi Suzuki, 300, Katayama, Tatsuno-cho, Tatsuno-shi, Hyogo Prefecture Tatsuno Matsushita Electric Works, Ltd. (56) References JP-A-63-153363 (JP, A) JP-A-63-19017 (JP) , A)

Claims (1)

(57) [Claims] 1. A hot water from a water heater is mixed with an appropriate amount of water by hot water mixing means, and the mixed and formed hot water having a predetermined temperature is appropriately discharged from a hot water supply port so that the temperature of the mixed and formed hot water is increased. The hot-water mixing mechanism is formed by an automatic hot-water temperature adjusting mechanism that drives the mixing valve using a thermowax that expands and contracts in accordance with the temperature setting of the automatic hot-water temperature adjusting mechanism. In a hot water supply system in which a rotary shaft for driving is driven by a stepping motor, position detecting means for outputting a reference position signal when the automatic hot water temperature adjusting mechanism is at the reference position is provided, and the position detecting means is provided after the hot water supply is stopped. Drive the rotating shaft so that the reference position signal is output from
Further, drive compensating means for driving the rotating shaft based on the reference position so as to obtain the set hot water temperature is provided, and the reference position is set as a reference hot water temperature position at which the hot water temperature is set substantially in the center of the hot water settable range. Hot water supply system characterized by doing