JPH06159698A - Hot-water supplying system - Google Patents

Abstract

PURPOSE:To reduce a cost and a size of an apparatus without using a pressure balancer and to eliminate user's discomfort of a shower during correcting period of output hot water temperature due to a uniaxial type hot-water/water mixture valve when a hot water supplying pressure and a water supplying pressure of the valve are unbalanced. CONSTITUTION:A hot-water supplying system has a plurality of faucets 1A-1C, a showering unit 2 and a hot-water supplying unit 3. The unit 2 has a structure for foreseeing whether a hunting due to a uniaxial type hot water/water mixture valve V1 easily occurs or not based on a hot water supplying flow rate to the valve V. If easy occurrence of the hunting is decided, hot water injection from a shower nozzle 23 to be injected is not conducted during a period in which the hunting is occurring, but the water is drained from a drain passage 26.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an improvement of a hot water supply system using a shower device having a uniaxial hot and cold water mixing valve.

[0002]

2. Description of the Related Art Conventionally, there is a hot water supply system in which hot water is supplied by a single water heater to a curran installed in a kitchen, a washroom and a bathroom, or a shower device installed in a bathroom. .

In such a hot water supply system, when the hot water supply device opens the currant or uses a shower,
It is designed to start the combustion operation. However, the operating condition of the water heater is that the required hot water supply flow rate is equal to or more than the minimum operating water amount that is appropriately set for each water heater.

By the way, when the required hot water supply flow rate exceeds the maximum hot water flow rate according to the currently set heating capacity of the water heater, such as when using a currant and a shower device at the same time,
In general, the water heater controls the hot water temperature to be constant, so the hot water supply amount is reduced by reducing the amount of water supplied to or from the water heater. .

[0005]

In the above-described conventional hot water supply system, when the hot water supply demanded flow rate exceeds the maximum hot water flow rate corresponding to the currently set heating capacity of the water heater, such as when using a scallop or a shower device at the same time. Since the amount of hot water discharged from the water heater decreases, the hot water supply pressure and the hot water supply pressure for the hot and cold water mixing valve of the shower device become unbalanced. However,
Even if an imbalance occurs, the hot and cold water mixing valve is controlled so as to keep the hot water temperature from the hot and cold water mixing valve at a preset hot water temperature.

As the hot and cold water mixing valve of the shower device, for example, a uniaxial type mixing valve (Japanese Patent Laid-Open No. 60-24978).
No. 2), the so-called hunting phenomenon in which rising and falling hot water temperatures are repeated is likely to occur in the temperature control when the aforementioned imbalance occurs. In particular, when the degree of imbalance is large, the hunting phenomenon continues, such as the fluctuation in the rising and falling hot water temperature hardly converges to the set hot water temperature. It should be noted that this phenomenon is resolved when the use of the calan is stopped and the required hot water supply flow rate becomes smaller than the maximum hot water supply flow rate according to the currently set heating capacity.

By the way, as shown in the specification attached to Japanese Patent Application No. 2-295090, if a hot water supply pressure and a pressure balancer for controlling the water supply pressure are provided substantially evenly upstream of the hot water mixing valve, the hot water supply pressure can be improved. Since the hot water discharge temperature can be corrected in a short time by the imbalance between the water supply pressure and the water supply pressure, even if a hunting phenomenon occurs, it can be resolved early. However, when such a pressure balancer is used, it is inevitable to increase the cost and the size of the device, and it becomes difficult to adopt it in a low-end model which requires a low price.

In view of such circumstances, the present invention aims at cost reduction and device miniaturization by not using a pressure balancer, while the hot water supply pressure and the hot water supply pressure are unbalanced with respect to the uniaxial hot and cold water mixing valve. The main problem is to prevent the shower user from feeling uncomfortable during the correction period of the hot water discharge temperature by the hot and cold water mixing valve.

[0009]

SUMMARY OF THE INVENTION The present invention comprises a curran installed in a kitchen or a washroom, a shower device installed in a bathroom, and a water heater for supplying hot water to the currant and the shower device. In the hot water supply system of, it is configured as follows.

In the first hot water supply system of the present invention, the shower device mixes the shower nozzle, the control valve for adjusting the flow rate of hot and cold water jetted from the shower nozzle, the hot water supplied from the water heater and the room temperature water. A uniaxial hot and cold water mixing valve to send to the shower nozzle side, a drainage path connected to the hot and cold water supply path from the hot and cold water mixing valve to the control valve, a drainage valve installed in the middle of the drainage path, hot water temperature and jet strength are set. And a control unit that controls the operation of each element in response to an output signal from the operation unit, wherein the water heater is the hot water supply required flow rate, that is, the actual water supply flow rate. Water supply flow rate sensor for detecting the temperature, heating means for heating the room temperature water to be supplied, a control valve provided in either the water supply passage or the hot water supply passage for adjusting the flow rate of the hot water, and the water supply flow rate sensor for detecting And a controller that controls the operation of each element so as to execute the hot water supply function when it is determined that the required hot water flow rate exceeds the required minimum amount of working water, and the controller of the shower device supplies the hot water from the water heater. When it is determined that the hot water pressure to be supplied is lower than the preset value,
The shower device has a function of opening the drain valve and closing the control valve.

In the second hot water supply system of the present invention, the shower device mixes the shower nozzle, the control valve for adjusting the flow rate of hot and cold water jetted from the shower nozzle, the hot water supplied from the water heater and the room temperature water. A uniaxial hot and cold water mixing valve to send to the shower nozzle side, a drainage path connected to the hot and cold water supply path from the hot and cold water mixing valve to the control valve, a drainage valve installed in the middle of the drainage path, hot water temperature and jet strength are set. And a control unit that controls the operation of each element in response to an output signal from the operation unit, wherein the water heater is the hot water supply required flow rate, that is, the actual water supply flow rate. Water supply flow rate sensor for detecting the temperature, heating means for heating the room temperature water to be supplied, a control valve provided in either the water supply passage or the hot water supply passage for adjusting the flow rate of the hot water, and the water supply flow rate sensor for detecting And a controller for controlling the operation of each element so as to execute the hot water supply function when it is determined that the required hot water flow rate exceeds the required minimum amount of working water, and the controller of the water heater is set appropriately. In addition to the function to set the maximum hot water flow rate based on the set hot water temperature, the incoming water temperature, the water supply flow rate, and the heating capacity, if it is determined that the hot water supply required flow rate detected by the hot water flow rate sensor exceeds the currently set maximum hot water flow rate, The flow rate of hot water discharged from the bath is controlled by the control valve to be equal to or less than the maximum hot water flow rate set at present, and an overflow signal is output to the control unit of the shower device.The control unit of the shower device inputs the overflow signal. In response, the shower device is configured to have a function of opening the drain valve and closing the control valve.

[0012]

In the first hot water supply system, the shower device predicts whether or not the hunting phenomenon due to the hot and cold water mixing valve is likely to occur based on the hot water supply pressure to the hot and cold water mixing valve, and the hunting phenomenon is likely to occur. When the determination is made, the hot water is not ejected from the shower nozzle and the water is drained during the hunting phenomenon.

In the second hot water supply system, the water heater predicts whether the hunting phenomenon due to the hot and cold water mixing valve of the shower device is likely to occur on the basis of the required hot water supply flow rate, and it is determined that the hunting phenomenon is likely to occur. In such a case, the hot water is not ejected from the shower nozzle during the hunting phenomenon, and the water is drained.

As described above, none of the hot water supply systems can prevent the occurrence of the hunting phenomenon due to the uniaxial hot and cold water mixing valve, but the hot and cold water whose temperature changes with the occurrence of the hunting phenomenon is showered by the user. It is supposed to be dealt with so as not to be exposed to.

[0015]

1 is a block diagram of an embodiment of a hot water supply system of the present invention. In the figure, 1A is a kitchen lantern, 1B is a bathroom lantern, 1C is a bathroom lantern, 2 is a shower device installed in the bathroom, 3 is hot water supply for supplying water to each of the lanterns 1A, 1B, 1C and the shower unit 2. A hot water supply system that is composed of these.

The shower device 2 has a large number of shower functions of different forms (body shower, hand shower, shower water, mist shower, etc.), and a water temperature sensor 21 provided in the water supply channel and the water heater 3. Hot water temperature sensor 22 provided in a hot water supply passage connected to the hot water supply passage, a uniaxial hot and cold water mixing valve V1 for mixing hot and cold water, and a hot and cold water supply passage for supplying hot and cold water from the hot and cold water mixing valve V1 to various shower nozzles 23 ... A hot water temperature sensor 25 and a source control valve V2 provided in the middle of 24, a front control valve V3 ... Corresponding to each shower nozzle 23, and a hot water supply passage 24 connected upstream of the source control valve V2. Drainage channel 26,
The drainage valve V4 provided in the middle of the drainage path 26 and the pressure sensors 29 and 30 provided in the water supply path and the hot water supply path, respectively.
And an operation unit 27 and a control unit 28. The operation unit 27 has various operation switches (not shown) for at least setting start / stop of shower use, jet strength and hot / cold water temperature, and selection of shower use, and push operation of each of these operation switches. Along with this, individual signals are output. The control unit 28 responds to the output signal from the operation unit 27 to output required control signals to the respective constituent elements to control their operations, and functions as described below. The uniaxial hot and cold water mixing valve V1 is rotated by a driving source such as a stepping motor and a mixing chamber having a water valve seat and a hot water valve seat, as disclosed in, for example, JP-A-60-249782. The structure is provided with one valve shaft that moves axially in the mixing chamber, and a water valve body and a hot water valve body that are fixed to the valve shaft.

The water heater 3 includes a water amount sensor 31 and an incoming water temperature sensor 32 provided in the water supply passage, an outlet hot water temperature sensor 33 provided in the outlet hot water passage connected to the shower device 2, and a water supply passage and a hot water outlet passage. A heat exchanger 34 provided, a heating burner 35 for heating the heat exchanger 34, a water amount servo valve V5 provided in the middle of the hot water discharge passage to adjust the flow rate of hot water, an operating unit 36, and a control unit 37. ing. The operation unit 36 is
It has various operation switches (not shown) for turning on / off the power supply and setting at least the set hot water temperature, and outputs individual signals according to the pressing operation of each of these operation switches. When it is determined that the required hot water supply flow rate detected by the water amount sensor 31 exceeds the minimum working water amount, the control unit 37 outputs a required control signal to each component to control the hot water supply operation. Yes, it works as described below.

Next, the operation will be described.

First, before using the water heater 3, the user turns on the power switch with the operation unit 36 and sets the hot water temperature. In this state, when any of the currans 1A to 1C is opened, the control unit 37 causes the hot water supply required flow rate (the detection result of the water amount sensor 31) based on the opening degree of the currant.
Determines whether or not the minimum operating water amount of the water heater 3 is exceeded. If it is over, the hot water supply operation is performed, while if it is not over, the hot water supply operation is not performed. As the hot water supply operation, the heating burner 35 is operated. In the hot water supply device 3 here, the set hot water temperature Tset set by the operation unit 36, the water temperature Tin (water temperature sensor 32), and the hot water temperature Tout are set so as to keep the hot water temperature Tout (hot water temperature sensor 33) constant. The maximum hot water flow rate Qmax is controlled based on the (hot water temperature sensor 33) and the heating capacity G. That is, the control unit 37 calculates the maximum hot water discharge flow rate Qmax = heating capacity G ÷ (set hot water temperature Tset−inlet water temperature Tin), and controls the water amount servo valve V5 according to the result.

On the other hand, prior to using the shower device 2, the user sets the shower strength and the hot and cold water temperature with the operation unit 27. Then, the user selects the shower to be used on the operation unit 27 and turns on the target shower designation switch. Here, for example, when the switch of the body shower is turned on, the control unit 28 first opens the drainage valve V4 and causes hot water to flow into the drainage path 26 to start the operation of the water heater 3. When the outlet heated water temperature Tout detected by the outlet heated water temperature sensor 25 reaches the set temperature Tset, the source control valve V2 and the body control destination control valve V3 are opened to open the drainage valve V.
Close 4 As a result, the hot water of the set temperature Tset is ejected from the shower nozzle 23 for the body. In addition,
The other shower functions are almost the same as the case of the body shower described above, and the description of the individual shower functions will be omitted.

When the currants 1A to 1C are used while the shower device 2 is being used, the hot water supply required flow rate Qp for the hot water supply device 3 exceeds the currently set maximum hot water discharge flow amount Qmax. Since the hot water outlet temperature Tout is controlled to be constant, the water amount servo valve V5 is controlled to the closed side so as to limit the hot water supply required flow rate Qp to be less than the maximum hot water supply flow rate Qmax. Therefore, the amount of hot water supplied to the currant used and the shower device 2 is reduced,
Particularly on the shower device 2 side, the hot water supply pressure and the hot water supply pressure for the hot and cold water mixing valve V1 become unbalanced. In this embodiment, since the pressure balancer (see the specification attached to Japanese Patent Application No. 2-295090) is not provided upstream of the uniaxial hot and cold water mixing valve V1, the introduction pressure of hot water and water is unbalanced. Since hot and cold water is mixed by the hot and cold water mixing valve V1 as it is, a hunting phenomenon occurs during the hot and cold water mixing process particularly when the pressure deviation between the hot and cold water is large. On the other hand, when the water supply pressure sensor 29 and the hot water supply pressure sensor 30 detect the occurrence of pressure imbalance due to the decrease in the hot water supply pressure, the control unit 28 of the shower device 2 first prepares for the shower panel (not shown). The 7-segment LED is used to notify the shower user that the drain mode for using the other plug will be entered, and the drain valve V4 of the shower device 2 is opened to control the source control valve V2 and the destination control valve V3 to be closed. As a result, hot and cold water whose temperature is unstable during the hunting phenomenon is discharged from the drainage channel 26 without being discharged from the shower nozzle 23. Therefore, the shower user does not have to take hot and cold water whose temperature is unstable.

After that, when the use of the currants 1A to 1C is stopped and only the shower device 2 is used, the hot water supply required flow rate Qp becomes smaller than the currently set maximum hot water discharge flow rate Qmax, so that the water amount servo valve of the water heater 3 is used. V5 is maximum hot water flow rate Qma
The hot water supply flow rate to the shower device 2 is restored by being properly controlled at x or less, the hot water supply pressure and the water supply pressure are balanced, and the hot and cold water mixing valve V1 stably mixes the hot and cold water. Hot water temperature sensor 2 of shower device 2
When the detected temperature of No. 5 reaches the set temperature, hot water having a constant temperature is jetted from the required shower nozzle 23 by opening the source control valve V2 and the destination control valve V3 and closing the drain valve V4. At the same time, the control unit 2 of the shower device 2
Reference numeral 8 is a 7-segment LED provided on a shower panel (not shown) to notify the user that the shower mode has been restored.

As described above, it is foreseen whether or not the hunting phenomenon by the hot and cold water mixing valve V1 is likely to occur on the shower device 2 side based on the deviation between the hot water supply pressure and the hot water supply pressure with respect to the hot and cold water mixing valve V1. When it is determined that the hunting phenomenon is likely to occur, the hot water is not ejected from the shower nozzle in use during the hunting phenomenon, and the water is drained.

By the way, as described above, when the currants 1A to 1C are used while the shower device 2 is in use, the required hot water supply flow rate Qp for the water heater 3 exceeds the currently set maximum hot water flow rate Qmax. The controller 37 of the water heater 3 controls the water amount servo valve V5 to the closed side so as to limit the hot water discharge flow rate Q, and at the same time, the controller 37 outputs an overflow signal to the controller 28 of the shower device 2. In this way, the control unit 28 of the shower device 2 may control the drain valve V4 to open and the source control valve V2 and the destination control valve V3 to close in response to the input of the overflow signal.
This means that the water heater 3 predicts whether or not the hunting phenomenon is likely to occur due to the hot and cold water mixing valve V1 of the shower device 2 based on whether or not the hot water supply required flow rate Qp exceeds the maximum hot water discharge flow rate Qmax. When it is determined that the hunting phenomenon is likely to occur, the hot water is not ejected from the shower nozzle in use and drained while the hunting phenomenon occurs. Therefore, since the occurrence of the hunting phenomenon due to the hot and cold water mixing valve V1 of the shower device 2 is foreseen on the side of the water heater 3, it is necessary to take a quicker action than the case of forecasting on the side of the shower device 2 as in the above-described embodiment. You can Further, in this case, the water supply pressure sensor 29 and the hot water supply pressure sensor 30 of the shower device 2 are not necessary.

During use of the shower device 2, the currant 1
When the required hot water supply flow rate Qp for the water heater 3 exceeds the currently set maximum hot water discharge flow rate Qmax, such as when A to 1C is used, the shower device 2 side drains water. Since it is useless to continue draining on the shower device 2 side when it is used for a long time, the time is measured by the built-in timer of the control unit 28 at the same time when draining is started, and the drain valve V4 is closed when a predetermined time has elapsed. It is also possible to notify the user that the shower mode is stopped by using a 7-segment LED provided in a shower panel (not shown) while stopping the shower use.

[0026]

In the first hot water supply system of the present invention, the shower device predicts whether the hunting phenomenon due to the hot water mixing valve is likely to occur based on the hot water supply pressure to the hot water mixing valve. When it is determined that the water is likely to occur, the water is discharged without ejecting the hot water from the shower nozzle during the hunting phenomenon.

In the second hot water supply system of the present invention, whether or not the water heater is likely to cause a hunting phenomenon due to the hot and cold water mixing valve of the shower device based on the required hot water supply flow rate, and the hunting phenomenon occurs. When it is determined that it will be easier, the water is discharged without ejecting the hot water from the shower nozzle during the hunting phenomenon.

As described above, none of the hot water supply systems can prevent the occurrence of the hunting phenomenon due to the uniaxial hot and cold water mixing valve, but the unstable hot and cold water whose temperature changes with the occurrence of the hunting phenomenon is generated. It is possible to take measures so as not to shower the shower user.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an embodiment of a hot water supply system of the present invention.

[Explanation of symbols]

 1A to 1C Karan 2 Shower device 23 Various shower nozzles 24 Hot water supply channel 26 Drain channel 27 Operation section 28 Control section V1 Hot and cold water mixing valve V2 Main control valve V3 Destination control valve V4 Drain valve 3 Water heater 34 Heat exchanger 35 Heating burner 37 Control unit V5 Water volume servo valve

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁵ Identification code Internal reference number FI Technical indication location E03C 1/05 7150-2D F24D 19/08 6909-3L (72) Inventor Yasuko Hamanaka Kobe City, Hyogo Prefecture 32, Akashi-cho, Chuo-ku, Ltd. in Noritsu, Ltd. (72) Inventor Yukihiro Shinma 32, Akashi-cho, Chuo-ku, Kobe, Hyogo Prefecture In Noritsu, Ltd.

Claims (2)

[Claims] 1. A hot water supply system comprising: a curran installed in a kitchen or a washroom, a shower device installed in a bathroom, and a water heater supplying hot water to the currant and the shower device. The shower device is a shower nozzle, a control valve for adjusting the flow rate of hot and cold water jetted from the shower nozzle, a uniaxial hot and cold water mixing valve that mixes hot water supplied from a water heater and normal temperature water and sends the hot water to the shower nozzle side. A drainage channel connected to the hot and cold water supply path from the hot and cold water mixing valve to the control valve, a drainage valve provided in the middle of the drainage path, an operating section that outputs a signal for setting the hot water temperature and jet strength, and an operating section And a controller for controlling the operation of each element in response to an output signal from the hot water supply device, wherein the water heater is a water supply flow rate sensor for detecting a hot water supply required flow rate, that is, an actual water supply flow rate, and room temperature water to be supplied. When it is determined that the heating means for heating, the control valve provided in either the water supply passage or the hot water supply passage to adjust the hot water supply flow rate, and the hot water supply required flow rate detected by the water supply flow rate sensor exceeds the required minimum working water amount. And a controller that controls the operation of each element to execute the hot water supply function, and the controller of the shower device determines that the hot water supply pressure supplied from the water heater is lower than a preset value. A hot water supply system having a function of opening a drain valve of a shower device and closing a control valve. 2. A hot water supply system comprising a curran installed in a kitchen or a washroom, a shower device installed in a bathroom, and a water heater supplying hot water to the curran or shower device. The device is a shower nozzle, a control valve that controls the flow rate of hot and cold water discharged from the shower nozzle, a uniaxial hot and cold water mixing valve that mixes hot water supplied from a water heater and room temperature water, and sends it to the shower nozzle side, and hot and cold water. From the drainage channel connected to the hot water supply route from the mixing valve to the control valve, the drainage valve provided in the drainage route, the operation unit that outputs a signal for setting the hot water temperature and jet strength, and the operation unit And a control unit that controls the operation of each of the elements in response to the output signal of the hot water supply device, wherein the water heater supplies the hot water supply flow rate sensor, that is, the actual water supply flow rate sensor, and the room temperature water supplied. Addition Heating means, a control valve provided in either the water supply passage or the hot water supply passage to adjust the hot water supply flow rate, and hot water supply when it is determined that the required hot water supply flow rate detected by the water supply flow rate sensor exceeds the required minimum working water amount. And a controller for controlling the operation of each of the elements so as to execute the function, and the controller for the water heater is based on the set hot water temperature, incoming water temperature, water supply flow rate, and heating capacity that are appropriately set. In addition to the function to set the maximum hot water flow rate, if it is determined that the hot water demand flow rate detected by the water supply flow rate sensor exceeds the currently set maximum hot water flow rate, the hot water flow rate from the water heater is set at the currently set maximum hot water flow rate using a control valve In addition to limiting to the following, it outputs an overflow signal to the control unit of the shower device, and the control unit of the shower device opens the drain valve of the shower device and closes the control valve in response to the input of the overflow signal. Hot water supply system having, be characterized by the feature that.