JPH09244752A - Hot water/water mix type hot water supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a hot water temperature from fluctuating even if water quantity fluctuates by selecting whether the opening of a valve body is operated from the setting temperature of a temperature of mixed hot water, the temperature of input water and the temperature of the water of a heat exchanger or whether the opening of the valve body is operated from the setting temperature of the temperature of mixed hot water, the temperature of input water and a target temperature in accordance with the flow rate of the mixed hot water. SOLUTION: A first target distribution ratio operation part 51 operates the target distribution ratio of the hot water side and the water side of a mixed valve 31 from input water temperature Tc, heat exchange temperature Th and a mixed temperature Tm, which an input water temperature sensor, a thermal exchange temperature sensor and a mixed temperature sensor detect, and from the setting temperature Ts which is set by a temperature setting unit 27. A second target distribution ratio operation part 52 operates the target distribution ratio from the input water temperature Tc which the input water temperature sensor detects and the setting temperature Ts which is set in the temperature setting unit. A selection means 53 inputs the flow rate Q from a flow rate sensor, and sends the target distribution ratio operated in the first target distribution ratio operation part 51 to a mixed valve driving part 54 when hot water is supplied and the target distribution ratio operated in the second target distribution ratio operation means 52 when hot water supply stops.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water / water mixing type hot water supply device.

[0002]

2. Description of the Related Art Conventionally, the valve body closes the water side flow passage and opens the hot water side flow passage by natural radiation cooling after using hot water.
When the hot water supply was restarted, a mixed hot water higher than the set hot water temperature was sometimes supplied. Therefore, in Japanese Unexamined Patent Publication (Kokai) No. 4-212780, the drive device of the mixing valve element is stopped after the hot water supply is stopped, and the ambient temperature of the temperature detector is naturally radiated
It is known that the mixing valve element prevents a phenomenon in which the hot water side is opened and the hot water side is closed, and prevents high-temperature hot water from being supplied at the time of tapping again.

[0003]

However, in the hot water / water mixing type hot water supply apparatus described above, the valve body may be extremely located on the open side or the closed side when the hot water supply is stopped when the amount of water changes or when the hot water rises. , When hot water supply is restarted, high temperature is supplied or hot water undershoot occurs.

Therefore, an object of the present invention is to provide a hot water / water mixing type hot water supply device which prevents hot water from being supplied or hot water undershoot when hot water supply is restarted even when hot water supply is stopped at the time of fluctuation of water amount or rising of hot water. To do.

[0005]

SUMMARY OF THE INVENTION A first aspect of the present invention is as follows.
In the hot and cold water mixing type hot water supply device, in which the hot water heated by the heat exchanger and the water supplied from the water supply source are mixed and the opening degree of the valve body is adjusted by the driving device to control the mixed hot water temperature, the heat exchanger outlet The heating unit that controls the heating of the hot water to a predetermined target temperature, the set temperature of the mixed hot water, the inlet temperature of the water supplied from the water supply source, and the hot water temperature at the outlet of the heat exchanger open the valve body. Target opening calculation unit for calculating the opening degree, and a second target opening for calculating the opening of the valve body from the set temperature of the mixed hot water temperature, the incoming temperature of water supplied from a water supply source, and the target temperature A first target opening calculated by the first target opening calculation section and a second target opening calculated by the second target opening calculation section are selected according to the calculation section and the flow rate of the mixed hot water. The opening degree of the valve element is adjusted according to the selecting means and the target opening degree selected by the selecting means. And having a section means.

In a preferred embodiment of the first aspect of the present invention, the target temperature is set to the preset temperature, the incoming water temperature and preset so that the hot water temperature at the outlet of the heat exchanger does not boil. It is characterized in that it is calculated from the opening.

Further, in another preferred embodiment according to the first aspect of the present invention, the selecting means selects the first target opening degree when the flow rate detector detects a flow rate of a predetermined amount or more. However, when the flow rate is not detected above the predetermined amount, the second target opening is selected.

According to the first aspect of the present invention, the first target opening calculated by the first target opening calculating section and the second target opening calculated by the second target opening calculating section are selected. Since the selection means is provided, the target opening can be selected according to the state of the mixing valve, and high temperature can be supplied and undershoot of the hot water temperature can be prevented.

According to one preferred embodiment of the first aspect of the present invention, the target temperature at the outlet of the heat exchanger is set to a predetermined value, so that the temperature inside the heat exchanger can be prevented from boiling.

According to another preferred embodiment of the first aspect of the present invention, the selecting means detects the first target opening when the flow rate is detected by a predetermined amount, and when the predetermined amount is not detected. Second
Since the target opening is selected, it is possible to prevent the undershoot of the hot water temperature when the hot water supply is once stopped and the hot water is again discharged.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 1 is a block diagram of a water heater to which an embodiment of the water quantity control device of the present invention is applied.

As shown in FIG. 1, the hot water supply apparatus includes a burner 17, a fuel supply pipe 19 connected to the burner 17, a proportional valve 21 provided in the fuel supply pipe 19 for adjusting a fuel supply amount, and a fuel supply. An electromagnetic valve 23 for starting / stopping the engine and a fan 25 for sending necessary air to the burner 17 are provided. The water heater also includes a heat exchanger 7 arranged facing the burner 17, a water supply pipe 1 communicating with the upstream side thereof, a hot water supply pipe 9 communicating with the downstream side thereof, and the heat exchanger 7,
A bypass pipe 11 for supplying water from the water supply pipe 1 to the hot water supply pipe 9 is provided. A mixing valve 31 and a mixing valve drive motor 33 are provided at the connection between the bypass pipe 11 and the hot water supply pipe 9. In addition, the incoming water temperature T provided in the water supply pipe 1
Inlet temperature sensor 3 for measuring c, flow rate sensor 5 for measuring the feed water flow rate Q, heat exchange temperature Th provided on the outlet side of the heat exchanger 7.
A heat exchange temperature sensor 13 for measuring the temperature, and a mixing temperature sensor 15 for measuring the mixing temperature (outflow temperature) Tm provided on the downstream side of the mixing valve 31. Further, the remote controller 29 is provided with a temperature setter 27 for setting the set temperature Ts.

The water heater is further provided with each sensor 3, 5, 1
3, 15 and the detection signals (Tc,
Q, Th, Tm, Ts) based on the mixing valve drive motor 3
3, a control unit (not shown) for controlling the proportional valve 21, the solenoid valve 23 and the like is also provided.

Next, a general operation of the mixing valve 31 in the hot water supply apparatus having the above structure will be described with reference to the block diagram of FIG.

The first target distribution ratio calculation unit 51 is configured so that the incoming water temperature Tc detected by the incoming water temperature sensor 3, the heat exchange temperature Th detected by the heat exchange temperature sensor 13, the mixing temperature Tm detected by the mixing temperature sensor 15, and the temperature setting. From the set temperature Ts set by the device 27, the distribution ratio between the hot water side and the water side of the mixing valve 31 is calculated as a target distribution ratio represented by the following equation. Target distribution ratio = (Ts-Tc) / (Th-Tc)

Alternatively, the target distribution ratio may be calculated by performing integral calculation and proportional calculation as represented by the following equation. Target distribution ratio = (Ts-Tc) / (Th-Tc) + fPI
(Calculation distribution ratio-Actual distribution ratio) However, Calculation distribution ratio = Standard distribution ratio set for each model Actual distribution ratio = (Tm-Tc) / (Th-Tc)

The second target distribution ratio calculator 52 calculates a target distribution ratio represented by the following equation from the incoming water temperature Tc detected by the incoming water temperature sensor 3 and the set temperature Ts set by the temperature setter 27. Target distribution ratio = (Ts−Tc) / (heat exchange target temperature−Tc) However, heat exchange target temperature = (Ts−Tc) /0.4+Tc (when heat exchange target temperature ≧ 80 ° C., heat exchange Target temperature =
80 ° C)

The selection means 53 includes a flow rate Q from the flow rate sensor 5.
Enter to determine whether hot water is being supplied. When it is determined that hot water is being supplied, the target distribution ratio calculated by the first target distribution ratio calculation unit 51 is selected to be sent to the mixing valve drive unit 54. When it is determined that the hot water supply is stopped, the target distribution ratio calculated by the second target distribution ratio calculation 52 is selected to be sent to the mixing valve drive unit 54.

The mixing valve drive section 54 instructs the mixing valve drive motor 33 to attain the target distribution ratio selected by the selection means 53 and sends a signal to the mixing valve 31.

Next, the operation of the mixing valve 31 having the above structure will be described with reference to the state transition diagram of FIG.

First, a hot water tap (not shown) by the user
When the valve is opened, the control unit 50 calculates the required combustion amount based on the set temperature Ts, the incoming water temperature Tc, the flow rate Q, and the like, and the proportional valve 21 and the solenoid valve 23 are controlled to perform combustion.

In the state where the flow rate Q is stable and the set temperature Ts is not changed (S1), the valve position of the mixing valve is such that the distribution ratio calculated by the first target distribution ratio calculation unit 51 (for example, on the hot water side 0.
Based on 4), the mixing valve is controlled.

Now, assuming that the flow rate Q has increased (S2), the distribution ratio on the hot water side is increased (for example, 0.7) and the mixing valve is controlled so that the set hot water temperature is obtained.
Therefore, when the hot water tap is closed (S3), conventionally, the drive of the mixing valve drive motor 33 is stopped, so that the hot water distribution ratio is 0.7 (S4).

On the other hand, in the present invention, when the flow rate sensor 5 no longer detects the flow rate Q, the selection means 53 switches to the second target distribution ratio calculation section 52 to calculate the distribution ratio ( For example, 0.4) controls the mixing valve drive motor 33.

When the hot water tap is opened again (S
5) When the hot water temperature at the outlet of the heat exchanger has risen due to post-boiling, the hot water temperature overshoots because it conventionally stands by at the hot water side of 0.7. On the other hand, in the present invention, since the standby is performed at the distribution ratio of 0.4 on the hot water side, the conventional overshoot is prevented.

Since the hot water outlet temperature is conventionally higher than the set temperature, the hot water distribution ratio is reduced to 0.5 (S
6) As the tapping temperature stabilizes, the hot water distribution ratio becomes 0.4
The mixing valve is controlled by (S7). On the other hand, in the present invention,
Since a temporary undershoot occurs, the hot water distribution ratio is increased to 0.7 (S6), and the mixing valve control is performed at the hot water distribution ratio of 0.4 (S7) as in the conventional case, as the hot water temperature stabilizes.

[0028]

As described above, according to the present invention,
Even when the hot water supply is stopped when the hot water temperature rises or when the amount of water changes, it is possible to prevent the high-temperature hot water from being supplied when the hot water is again discharged.

[Brief description of drawings]

FIG. 1 is a block diagram of a water heater to which a hot water mixing device according to one embodiment is applied.

FIG. 2 is a control block diagram of the mixing valve of FIG.

FIG. 3 is a state transition diagram of the mixing valve of FIG.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Water supply pipe 3 ... Inlet temperature sensor 5 ... Flow rate sensor 7 ... Heat exchanger 9 ... Hot water supply pipe 11 ... Bypass pipe 13 ... Heat exchange temperature sensor 15 ... Mixing temperature sensor 17 ... Burner 19 ... Fuel supply pipe 21 ... Proportional valve 23 ... solenoid valve 25 ... fan 27 ... temperature setter 29 ... remote control 31 ... mixing valve 33 ... mixing valve drive motor 50 ... control unit 51 ... first target distribution ratio calculation unit 52 ... second target distribution ratio calculation unit 53 ... selecting means 54 ... Mixing valve drive unit

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Soji Yano 43-1, Uozakihamacho, Higashinada-ku, Kobe-shi, Hyogo Nihon Yupro Co., Ltd.

Claims (3)

[Claims] 1. A hot water / water mixing type hot water supply apparatus, wherein hot water heated by a heat exchanger and water supplied from a water supply source are mixed to adjust a degree of opening of a valve element by a drive device to control the hot water temperature of the mixed hot water. From a heating unit that controls heating so that the hot water temperature at the heat exchanger outlet reaches a predetermined target temperature, from the set temperature of the mixed hot water temperature, the water inlet temperature of the water supplied from the water supply source, and the hot water temperature at the heat exchanger outlet. A first target opening degree calculation unit that calculates the opening degree of the valve body, and calculates the opening degree of the valve body from the set temperature of the mixed hot water temperature, the inlet temperature of water supplied from a water supply source, and the target temperature. A second target opening calculation unit, and a first target opening calculated by the first target opening calculation unit and a second target opening calculated by the second target opening calculation unit according to the flow rate of the mixed hot water. The valve body is selected by selecting means for selecting a target opening and the target opening selected by the selecting means. Hot and cold water mixing type hot water supply device, characterized in that it comprises an adjusting means for adjusting the opening, the. 2. The hot water / water mixing type hot water supply device according to claim 1, wherein the target temperature is set from the preset temperature, the incoming water temperature and a preset opening so that the hot water temperature at the outlet of the heat exchanger does not boil. A hot water mixing type hot water supply device characterized by being calculated. 3. The hot and cold water mixing apparatus according to claim 1, wherein the selecting means selects a first target opening when the flow rate detector detects a flow rate of a predetermined amount or more, and sets the flow rate to A hot / water mixing type hot water supply device characterized by selecting a second target opening degree when a predetermined amount or more is not detected.