JPH11173663A - Water heater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable adjusting of a water filling temperature to a target temperature set by a temperature setting means by regulating the temperature of supplied hot water to the target temperature set by the temperature setting means with respect to a location of supplying hot water even in the simultaneous operation that executes an ordinary hot water supply operation and a hot water filling operation. SOLUTION: In the simultaneous operation that executes an ordinary hot water supply operation to supply hot water to a location of supplying hot water through a hot water supply path 5 so that the temperature of hot water in a bathtub 2 reaches a target temperature by a temperature setting means 39 when the quantity of supplied hot water to the bathtub reaches a target temperature by a temperature setting means 41 and a hot water filling operation in which hot water to be supplied to a circulation path 7 flows through the circulation path 7 being separated in two directions and be supplied to the bathtub 2, a control means H is so arranged to alter and adjust the supply temperature of hot water from the hot water supply path 5 in the hot water filling operation to meet the requirement of regulating the temperature of the supplied hot water from the hot water supply path 5 to a target temperature.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water supply heat exchanger for heating supplied water and supplying the same to a hot water supply path, and an additional heating for heating hot water flowing through a circulation path for circulating hot water in a bathtub. A general hot water supply configured to heat a heat exchanger and a common burner, to provide a branch path branched from the hot water supply path and connected to the circulation path, and to supply hot water to a hot water supply point through the hot water supply path. Operation, the hot water supply operation to separate the hot water supplied from the branch passage into the circulation path in two directions and flow through the circulation path to supply to the bathtub, the general hot water supply operation and the hot water operation There is provided control means for performing the simultaneous operation to be performed and the reheating operation for circulating the hot water in the bathtub through the circulation path, and the control means sets a target temperature of hot water supply when hot water is instructed. Eye set by the temperature setting means At the temperature, and in order to supply the hot water of the target supply amount set by the supply amount setting means for setting the target supply amount of hot water to the bathtub, one of the filling operation and the simultaneous operation is selected. The present invention also relates to a hot water supply device configured to execute hot water supply for hot water filling.

[0002]

2. Description of the Related Art Such a hot water supply apparatus separates hot and cold water supplied to a circulation path through a hot water supply path and a branch path into two directions, flows through the circulation path, and supplies the water to the bathtub. The supply amount of hot water is increased as much as possible to shorten the time required to supply the target supply amount of hot water. By the way, the hot and cold water flowing through the flow path portion passing through the additional heat exchanger in the circulation path is reheated by the additional heat exchanger, so that the supply temperature of the hot water from the hot water supply path is set. When the temperature is adjusted to the target temperature set by the means (hereinafter sometimes simply referred to as the target temperature), the temperature of the hot water in the bathtub when the target supply amount of hot water is supplied to the bathtub (hereinafter the hot water filling temperature) ) May be higher than the target temperature.

[0003] The applicant of the present invention has proposed that, based on the flow rate ratio of hot water flowing through the circulation path in two directions and the respective temperatures, the hot water flowing through the circulation path in two directions is mixed in the bathtub. The temperature of the hot water supplied from the hot water supply path is adjusted so that the calculated temperature matches the target temperature, that is, the temperature of the hot water supplied from the hot water supply path becomes lower than the target temperature. A hot water supply apparatus is proposed in which the hot water filling temperature is adjusted to the target temperature by adjusting the temperature as described above (Japanese Patent Application No. Hei 8 (1996)).
-335514).

[0004]

By the way, in such a hot water supply apparatus, the hot water filling temperature can be adjusted to a target temperature, and when the hot water is supplied to a hot water supply point such as a hot water tap,
It is preferable that the temperature of hot water supplied to the hot water supply location (hereinafter, sometimes referred to as hot water supply temperature) can be adjusted to the target temperature. In the conventional hot water supply device, the hot water temperature can be adjusted to the target temperature, and the hot water supply temperature can be adjusted to the target temperature even in the operation of supplying hot water only to the hot water supply point, that is, in the general hot water supply operation. . However, in the case of simultaneous operation of performing both the hot water filling operation and the general hot water supply operation,
There is a disadvantage that the hot water supply temperature is lower than the target temperature,
There was room for improvement.

The present invention has been made in view of the above circumstances, and an object of the present invention is to set a hot water supply temperature for a hot water supply point by temperature setting means even in a simultaneous operation in which both a general hot water supply operation and a hot water filling operation are performed. It is an object of the present invention to make it possible to adjust the filling temperature to the target temperature set by the temperature setting means while being able to adjust to the set target temperature.

[0006]

According to the first aspect of the present invention, the control means determines whether or not the supply of hot water to the bath tub reaches the target supply amount in hot water supply for hot water filling. In simultaneous operation, the supply temperature of hot water from the hot water supply path is adjusted to the target temperature so that the temperature of hot water reaches the target temperature. I do. That is, in the simultaneous operation, the supply temperature of the hot water from the hot water supply path is adjusted to the target temperature, and thus the hot water adjusted to the target temperature is supplied to the hot water supply location. On the other hand, the temperature of the hot water supplied to the bathtub and stored in the bathtub by the simultaneous operation becomes higher than the target temperature, but when the supply amount of hot water to the bathtub reaches the target supply amount, the temperature of the hot water in the bathtub becomes higher. The hot water supply operation changes and adjusts the supply temperature of hot water from the hot water supply path so that the temperature reaches the target temperature. In the general hot water supply operation in which hot water is supplied only to the hot water supply point, the supply temperature of the hot water from the hot water supply path is naturally adjusted to the target temperature, so that the hot water supplied to the hot water supply point is adjusted to the target temperature. Therefore, not only in the general hot water supply operation in which hot water is supplied only to the hot water supply point, but also in the simultaneous operation in which both the general hot water supply operation and the hot water filling operation are performed, the hot water supply temperature for the hot water supply point is set by the temperature setting means. The hot water filling temperature can be adjusted to the target temperature set by the temperature setting means, while the temperature can be adjusted.

According to a second aspect of the present invention, when the supply amount of hot water to the bathtub reaches the target supply amount, the temperature of the hot water in the bathtub reaches the target temperature in advance. The temperature decrease width and the supply temperature of the hot water from the hot water supply path and the supply temperature of the hot water from the hot water supply path are adjusted to the target temperature by adjusting the first temperature control operation to adjust the supply temperature of the hot water from the hot water supply path to a temperature lower than the target temperature by the temperature reduction degree. The ratio with the supply amount of hot and cold water by the second temperature control operation is set. Then, in the hot water supply for hot water filling, the control means controls the supply amount by the first temperature control operation and the second amount.
In the simultaneous operation, the second temperature control operation is executed, and in the hot water filling operation, either the first temperature control operation or the second temperature control operation is selected so that the ratio with the supply amount by the temperature control operation becomes the set ratio. And run.

In other words, in the hot water filling operation, the first temperature control operation for adjusting the supply temperature of hot water from the hot water supply channel to a temperature lower than the target temperature by the temperature reduction width, and the supply temperature of hot water from the hot water supply passage is controlled. One of the second temperature control operations for adjusting to the target temperature is selected and executed, and when the supply amount of hot water to the bathtub reaches the target supply amount, the temperature of the hot water in the bathtub reaches the target temperature. In order to do so, the minimum two types of temperatures for changing and adjusting the supply temperature of hot water from the hot water supply path are set. In addition, the temperature reduction width with respect to the target temperature and the ratio between the supply amount of hot water and the supply amount of hot water by the first temperature control operation and the supply amount of hot water by the second temperature control operation are set in advance so that the set ratio is obtained. In the operation, the second temperature control operation is executed, and in the hot water filling operation, one of the first temperature control operation and the second temperature control operation is selected and executed.

In the simultaneous operation, the supply temperature of the hot water from the hot water supply path is set to the target temperature so that the temperature of the hot water in the bath tub reaches the target temperature when the supply amount of the hot water to the bath tub reaches the target supply amount. In the hot water operation, a control configuration for changing the hot water supply temperature from the hot water supply path, for example, changing the hot water supply temperature from the hot water supply path corresponding to the hot water filling operation and the simultaneous operation under the condition of adjusting the hot water supply. While adjusting, determine the supply amount to the bathtub for each supply temperature and sequentially determine the temperature of hot water in the bathtub, and based on them, determine the supply temperature in the next hot water filling operation, from the hot water supply path A control configuration for controlling the supply temperature of the hot and cold water to be changed and adjusted variously is assumed. However, in this case, the control configuration becomes complicated, which causes an increase in cost.
Since hot and cold water of various temperatures is supplied to the bathtub, there is a possibility that the adjustment accuracy of the hot water temperature is deteriorated. On the other hand, according to the characteristic configuration of the second aspect, the control configuration is simple, so that the cost can be reduced, and the bathtub requires 2
Since only hot and cold water at different temperatures are supplied, the accuracy of adjusting the hot water temperature can be improved.

[0010] The temperature reduction width with respect to the target temperature, and
The ratio between the amount of hot water supplied by the temperature control operation and the amount of hot water supplied by the second temperature control operation can be set, for example, as follows. A is the ratio of the supply amount of the first temperature control operation to the total supply amount of hot water to the bathtub (hereinafter, may be referred to as supply amount ratio), Tp is the target temperature set by the temperature setting means, and Tp is the target temperature. The temperature reduction width for Tp is T
d, the temperature Tv of the hot water supplied to the bathtub through the flow path portion passing through the heat exchanger for reheating (hereinafter, sometimes referred to as a passing flow path portion) and the flow path portion not passing through the heat exchanger for reheating. The temperature difference between the hot water supplied to the bathtub and the temperature Tn supplied to the bathtub through a non-passage channel portion may be represented by ΔT (Δ
T = Tv−Tn), and the ratio of the flow rate of the non-passage flow path to the flow rate of the branch path (hereinafter, may be referred to as a flow rate ratio) is a. Therefore, the temperature of the hot water supplied to the bathtub through the non-passage channel portion by the second temperature control operation: Tp Ratio to the total supply amount: a × (1-A) Temperature of hot and cold water supplied: Tp + ΔT Ratio to total supply amount: (1-a) × (1-A) Temperature of hot and cold water supplied to bathtub through non-passage channel portion by first temperature control operation: Tp−Td all Ratio to supply amount: a × A Temperature of hot and cold water supplied to the bathtub through the passage channel portion by the first temperature control operation: Tp−Td + ΔT Ratio to total supply amount: (1−a) × A. Then, the sum of the product of the temperature and the ratio in each is Tp, so that Tp × a × (1-A) + (Tp + ΔT) × (1-a) ×
(1-A) + (Tp−Td) × a × A + (Tp−Td +
The equation of (ΔT) × (1-a) × A = Tp is satisfied. When this equation is solved for Td, the following equation is obtained: Td = (1−a) × ΔT / A (Equation 1) Since the temperature difference ΔT and the flow rate ratio a are values determined by each water heater, when the temperature difference ΔT and the flow rate ratio a are set, the temperature decrease width Td with respect to the target temperature Tp and the first temperature It is possible to set a ratio A: (1-A) between the supply amount by the regulating operation and the supply amount by the second temperature regulating operation.

[0011] Further, a temperature reduction range with respect to the target temperature, and
The following is another method for setting the ratio between the supply amount of hot water by the first temperature control operation and the supply amount of hot water by the second temperature control operation. In advance, an adjustment filling operation for adjusting the supply temperature of the hot water from the hot water supply channel to a predetermined set temperature is performed, and the hot water supplied through the non-passage channel portion and the hot water supplied through the pass channel portion are adjusted. The temperature as a result of mixing in the bath (hereinafter, sometimes referred to as mixing temperature) is measured.
Based on the measurement result, the mixing temperature can be obtained in association with the supply temperature of hot water from the hot water supply path, so that the temperature reduction width with respect to the target temperature, the supply amount of hot water by the first temperature control operation, and the second It is possible to set a ratio with the supply amount of hot and cold water by the temperature control operation.

According to a third aspect of the present invention, in the hot water supply for hot water filling, the control means determines that the supply amount by the second temperature control operation is determined by the target supply amount and the set ratio. After reaching the target supply amount by the adjusting operation, while the general hot water supply operation is instructed, the general hot water supply operation is given priority and the hot water supply for hot water supply is interrupted. That is, when the temperature reduction width with respect to the target temperature and the ratio of the supply amount of hot water by the first temperature control operation and the supply amount of hot water by the second temperature control operation are set in advance, the control configuration is simplified as described above. Although
Even if the execution time of the simultaneous operation becomes longer and the supply amount by the second temperature control operation exceeds the target supply amount by the second temperature control operation, if the second temperature control operation is continued, the filling temperature is reduced to the target temperature. Can not be adjusted. Therefore, when the execution time of the simultaneous operation is long, after the supply amount by the second temperature control operation reaches the target supply amount by the second temperature control operation, the general hot water supply operation is instructed while the general hot water supply operation is commanded. Priority is given to operation, and the hot water supply for hot water is interrupted. Therefore, even if the execution time of the simultaneous operation becomes long, the filling temperature can be adjusted to the target temperature set by the temperature setting means, while simplifying the control configuration and reducing the cost.

[0013]

Embodiments of the present invention will be described below with reference to the drawings. As shown in FIG. 1, the hot water supply apparatus heats supplied water and supplies hot water to hot water tap 1 and bathtub 2, control unit H for controlling hot water supply unit K, and
An operation unit R for transmitting information to and from the control unit H is provided. The hot water supply unit K is provided in the device casing 3.
Each component is configured and stored as described below. A hot water supply heat exchanger 6 that heats the supplied water and supplies the hot water to a hot water supply path 5 and a circulation path 7 that circulates the hot water in the bathtub 2 flows into the combustion chamber formed in the heating unit casing 4. A heat exchanger 8 for reheating the hot water in the bathtub 2 by heating the hot water to be heated, and a common burner 9 for heating the heat exchanger 6 for supplying hot water and the heat exchanger 8 for reheating. And a fan 1 for supplying combustion air to the burner 9.
0 etc. are provided.

The burner 9 is composed of a multi-stage burner. The fuel supply passage 11 to which fuel gas is supplied from a domestic gas supply pipe or the like is branched into three systems. The on-off valve 12 is interposed.
An electromagnetic main on-off valve 13 for intermittently supplying fuel and an electromagnetic gas proportional valve 14 for adjusting the amount of fuel supplied to the burner 3 are interposed in order from the upstream side. Although not shown, an igniter for igniting the burner 9 and a frame rod for detecting that the burner 9 is ignited are provided near the burner 9.

The hot water supply heat exchanger 6 is connected to a water supply path 15 to which water is supplied from a domestic water supply or the like, and a hot water supply path 5 for discharging hot water after heating. It is connected to the water supply passage 15 and the hot water supply passage 5 in a state of bypassing the hot water supply heat exchanger 6. The reheating heat exchanger 8 is connected to a forward path 7f and a return path 7b constituting the circulation path 7, and the forward path 7f and the return path 7b are connected to the bathtub 2 via a circulation adapter 17. The circulation pump 18 interposed in the return path 7b
1, the hot and cold water in the bathtub 2 is supplied to the additional heat exchanger 8 through the return path 7b, as shown by the broken arrow in FIG. Is supplied to the bath tub 2 through the forward path 7f, and the hot water in the bath tub 2 is circulated and refired.

Further, a branch path 19 branched from the hot water supply path 5 is connected to the return path 7b of the circulation path 7. And hot water supply path 5
Thus, in addition to the hot water supply to the hot water tap 1 (hereinafter sometimes referred to as general hot water supply), the hot water supply to the bathtub 2 (hereinafter, referred to as general hot water supply)
(Sometimes referred to as hot water supply for hot water filling).

A water supply amount sensor 20 for detecting a water supply amount for the hot water supply unit K and a water supply temperature sensor 21 for detecting a water supply temperature are provided on the water supply passage 15 upstream of the connection with the bypass passage 16. A mixing valve 2 for adjusting the mixing ratio between the amount of hot water from the hot water supply heat exchanger 6 and the amount of water from the bypass passage 16 is provided at a connection point between the hot water supply passage 5 and the bypass passage 16.
2 is provided. In the hot water supply path 5, the mixing valve 22
A tap water temperature sensor 23 for detecting a temperature of tap water flowing out of the hot water supply heat exchanger 6 (hereinafter, sometimes referred to as tap water temperature) is provided in a portion further upstream than the hot water supply heat exchanger 6. In a portion between the connection portion and the connection portion, a water proportional valve 24 that adjusts a flow rate of hot water and a temperature of hot water after mixing by the mixing valve 22 (hereinafter, may be referred to as a supply temperature To). A hot water supply temperature sensor 25 for detection is provided, and an interrupt flow sensor 26 for detecting a flow rate of hot water to the hot water tap 1 is provided at a portion downstream of the junction of the branch passage 19.

The branch passage 19 is provided with an electromagnetic hot water on-off valve 27 for interrupting the supply of hot water from the hot water supply passage 5 to the bathtub 2, and is further located downstream of the hot water on-off valve 27. A hopper 28 is provided. The hopper 28
An air layer is formed to cut off contact between hot water on the bathtub 2 side and hot water on the hot water supply path 5 side. A drainage passage 30 provided with an electromagnetic discharge opening / closing valve 29 is connected to the hopper 28 and a portion of the return passage 7b closer to the bathtub 2 than the connection A between the branch passage 19 and the return passage 7b. In the return route 7b, the drainage channel 3
A water level sensor 31 that detects a water level Lo in the bath tub 2 by detecting pressure in order from the bath tub 2 side to a portion closer to the bath tub 2 than the connection part with 0, and flows out of the bath tub 2 at the time of additional heating. Return temperature sensor 32 for detecting hot and cold water temperature, two-way valve 33
Is provided. In the return path 7b, a water flow switch 34 is provided at a portion closer to the additional heat exchanger 8 than a connection portion A with the branch path 19. The outbound path 7f is provided with an outbound temperature detection sensor 35 that detects the temperature of tap water from the reheating heat exchanger 8, that is, the temperature of the hot water flowing into the bathtub 2 during reheating. The hot water supply heat exchanger 6 includes a boiling prevention temperature sensor 4 for detecting the temperature of hot water in the hot water supply heat exchanger 6.
3 is provided.

The operation unit R is configured to be able to communicate with the control unit H by wire or wirelessly. The operation unit R has an operation switch 36 for instructing operation and stop of the hot water supply device, Switch 37, temperature setting switch 3 for setting target hot water supply temperature (corresponding to target temperature) Tp
9. Target temperature display section 4 for displaying the target hot water supply temperature Tp
0, a water level setting switch 41 for setting a target water level Lp when filling the bathtub 2 with water, a target water level display section 42 for displaying the target water level Lp, and the like.

The control means H is constituted by using a microcomputer, and performs a general hot water supply operation for supplying hot water to the hot water tap 1 through the hot water supply path 5, and separates the hot water supplied from the branch path 19 to the circulation path 7 in two directions. Through the circulation path 7 and the bathtub 2
Hot water filling operation, simultaneous hot water filling operation that executes both the general hot water supply operation and the hot water filling operation, and the reheating operation in which the hot water in the bathtub 2 is circulated through the circulation path 7 and heated by the reheating heat exchanger 8 And, it is configured to execute each of the hot water supply additional heating simultaneous operation that executes both the general hot water supply operation and the additional heating operation.
That is, it is determined that the general hot water supply has been commanded based on the fact that the water supply amount adjusted by the hot water tap 1 and detected by the water supply amount sensor 20 is equal to or greater than the set water amount, and the target hot water supply temperature set by the temperature setting switch 39 A general hot water supply operation for supplying hot water of Tp to the hot water tap 1 is executed. Further, when the filling is instructed by the filling switch 37, the hot water of the target hot water supply temperature Tp set by the temperature setting switch 39 is set in the bathtub 2 by the water level setting switch 41 as the supply amount setting means. In order to supply the target supply amount Qp corresponding to the target water level Lp, the hot water supply for hot water is executed while selecting either the hot water operation or the simultaneous operation. In other words, when the hot water supply for hot water is commanded during the general hot water supply operation or when the general hot water supply operation is instructed during the hot water supply for hot water supply, the general hot water supply operation and the hot water supply operation are executed together. When the simultaneous operation is performed and the general hot water supply operation is not instructed, the hot water filling operation is performed. In the present invention, the control device H
In the hot water supply for hot water, the temperature of the hot water in the bathtub 2 becomes the target hot water supply temperature Tp when the supply amount of the hot water to the bathtub 2 reaches the target supply amount Qp. Under the condition that the supply temperature To from the hot water supply line 5 is adjusted to the target hot water supply temperature Tp, in the filling operation, the supply temperature To from the hot water supply path 5
Is configured to be changed and adjusted.

The control operation of the control device H in each operation will be described below. First, the control operation in the general hot water supply operation will be described. When the water supply amount detected by the water supply amount sensor 20 becomes equal to or more than the set water amount, the fan 10 is operated, the original on-off valve 13 is opened, the opening of the gas proportional valve 14 is adjusted, and the burner 9 is turned on by the igniter. To burn the burner 9. Accordingly, the water supplied to the hot water supply heat exchanger 6 through the water supply passage 15 is heated by the hot water supply heat exchanger 6 by the combustion of the burner 9, and the hot water discharged from the hot water supply heat exchanger 6 and the bypass passage are heated. Water from 16 is mixed by mixing valve 22 and supplied to hot water tap 1 through hot water supply path 5.

At this time, a second temperature control operation for adjusting the supply temperature To from the hot water supply path 5 to the target hot water supply temperature Tp set by the temperature setting switch 39 is executed. That is, in the second temperature control operation, switching is performed based on the target hot water supply temperature Tp set by the temperature setting switch 39, the water supply amount detected by the water supply amount sensor 20, and the water supply temperature detected by the water supply temperature sensor 21. The opening and closing of the on-off valve 12 and the opening of the gas proportional valve 14 are adjusted, and the opening of the mixing valve 22 is also adjusted.
The so-called feed-forward control is performed so that the supply temperature To from the hot water supply path 5 becomes the target hot water supply temperature Tp, and the supply temperature To detected by the hot water supply temperature sensor 25 is provided.
Performs fine control of the gas proportional valve 14 so as to reach the target hot water supply temperature Tp, that is, so-called feedback control.

The hot water tap 1 is closed and the water supply amount sensor 20
When the detected water supply amount becomes less than the set water amount, the main opening / closing valve 13 is closed to stop the combustion of the burner 9, the fan 10 is stopped after the installation time has elapsed, and the general hot water supply operation is terminated.

Next, a control operation in hot water supply for hot water filling will be described. When a hot water supply for hot water is instructed by the hot water switch 37, the hot water opening / closing valve 27 and the two-way valve 3
3 is opened. When the water supply amount detected by the water supply amount sensor 20 becomes equal to or more than the set water amount, the fan 10 is operated, the original on-off valve 13 is opened, the opening of the gas proportional valve is adjusted, and the burner 9 is supplied to the burner 9 by the igniter. Ignition causes the burner 9 to burn. Therefore, as shown by the thick line and the solid line arrow in FIG. 1, the hot and cold water mixed in the mixing valve 22 and flowing through the hot water supply path 5 is supplied from the branch path 19 to the circulation path 7, and the circulation path 7 is divided into two directions and followed. The gas is supplied to the bathtub 2 by flowing through the passing flow path portion passing through the heating heat exchanger 8 and the non-passing flow path portion not passing through. At that time, the hot water flowing through the passage channel portion is further heated by the additional heat exchanger 8,
It is supplied to the bathtub 2. Then, when the hot water of the target supply amount Qp corresponding to the target water level Lp set by the water level setting switch 41 is supplied, the filling valve 27 and the two-way valve 33 are provided.
Is closed, and based on it, when the water supply amount detected by the water supply amount sensor 20 becomes less than the set water amount, the original on-off valve 13 is closed to stop the burner 9 from burning, and the fan 10 is stopped after the installation time elapses. Then, the hot water supply for hot water is completed.

In the hot water supply for hot water supply, when the hot water supply is commanded by the hot water supply switch 37 during the execution of the general hot water supply operation, or when the hot water supply tap 1 is opened during the hot water supply operation, the general hot water supply operation is started. When the command is issued, the hot water filling operation is performed simultaneously, and when the general hot water supply operation is not commanded, the filling operation is performed.

Hereinafter, control for supplying hot water for hot water so that the temperature of hot water in bathtub 2 reaches target hot water supply temperature Tp when supply amount Qo of hot water to bathtub 2 reaches target supply amount Qp. The operation will be described. The supply amount Qo of hot water to the bathtub 2 is obtained by integrating the value obtained by subtracting the detection flow rate of the interruption flow rate sensor 26 from the detection flow rate of the water supply amount sensor 20.

The control device H controls the supply amount Q of hot and cold water to the bathtub 2.
The temperature decrease width Td with respect to the target hot water supply temperature Tp and the supply temperature To from the hot water supply path 5 are set in advance so that the temperature of the hot water in the bathtub 2 becomes the target hot water supply temperature Tp when o reaches the target supply amount Qp. The second temperature control operation for adjusting the supply amount Q1o of the hot water and the supply temperature To from the hot water supply path 5 to the target hot water supply temperature Tp by the first temperature control operation for adjusting the temperature of the hot water supply temperature Tp to the temperature lowered by the temperature reduction width Td from the target hot water supply temperature Tp Water supply amount Q2o
Set the ratio with However, Q1o + Q2o = Qo.

That is, the control device H determines the temperature Tv of the hot and cold water to be supplied to the bathtub 2 through a passage portion passing through the additional heat exchanger 8 in advance, based on the update control described later, The temperature difference ΔT (ΔT) from the temperature Tn of the hot and cold water supplied to the bathtub 2 through the non-passage channel portion that does not pass through the heat exchanger 8.
= Tv−Tn) and the ratio a of the flow rate of the non-passage flow path portion to the flow rate of the branch passage 19 (hereinafter sometimes referred to as a flow rate ratio) a, and a built-in storage means (not shown)
It is stored in. The ratio between the flow rate of the non-passage passage portion and the flow rate of the passage passage portion is a: (1-a).
The ratio A of the supply amount of the first temperature control operation to the total supply amount of hot water to the bathtub 2 (hereinafter, may be referred to as a supply amount ratio) A is set in advance and stored in the storage means. Then, based on the temperature difference ΔT, the flow rate ratio a, and the supply amount ratio A, the temperature decrease width Td is obtained by the above-described formula 1. Note that the supply amount Q1o by the first temperature control operation and the second
The ratio with the supply amount Q2o by the temperature control operation is A: (1-A)
Becomes

In the first temperature control operation, the above-described feedforward control and feedback control are performed so that the supply temperature To detected by the hot water supply temperature sensor 25 becomes lower than the target hot water supply temperature Tp by the temperature reduction width Td. Execute.

Then, as shown in the flowchart of FIG. 2, the control means H first sets the target water level Lp set by the water level setting switch 41 and the target area L of the bathtub 2 stored in advance. A target supply amount Qp for filling the water to the water level Lp is obtained, and the target supply amount Qp is calculated.
And the target supply amount Q1p by the first temperature control operation and the target supply amount Q by the second temperature control operation based on
Find 2p. Here, Qp = Lp × S Q1p = Qp × A Q2p = Qp × (1-A)

Subsequently, the supply amount Q1o by the first temperature control operation
And the ratio of the supply amount Q2o by the second temperature control operation is A: (1-
As shown in A), in the simultaneous operation, the second temperature control operation is executed, and in the hot water filling operation, either the first temperature control operation or the second temperature control operation is selected and executed. Further, after the supply amount Q2o by the second temperature control operation reaches the target supply amount Q2p, while the general hot water supply operation is instructed, the general hot water supply operation is prioritized and the hot water supply for hot water supply is interrupted. Note that whether or not the general hot water supply operation is being performed is determined based on information detected by the interrupt flow sensor 26.

In the flowchart shown in FIG.
When the supply amount Q1o by the temperature control operation is equal to or less than the target supply amount Q1p and the general hot water supply operation is not being performed, the filling operation is performed by the first temperature control operation (steps # 2 to # 2).
# 5). When the supply amount Q1o by the first temperature control operation is equal to or less than the target supply amount Q1p and during the general hot water supply operation, the supply amount Q2o by the second temperature control operation is equal to or less than the target supply amount Q2p. The hot water hot water filling simultaneous operation is executed by the temperature control operation (steps # 2 to # 3 and steps # 7 to # 9), and after the supply amount Q2o by the second temperature control operation exceeds the target supply amount Q2p, general hot water supply is performed. Until the operation stops, the hot water supply opening / closing valve 27 is closed to interrupt hot water supply (steps # 7 and # 10). When the general hot water supply operation is stopped, the hot water supply operation is performed by the first temperature control operation. (Steps # 2 to # 5). Also, the supply amount Q1o by the first temperature control operation.
When the temperature exceeds the target supply amount Q1p, the second temperature control operation is executed. At this time, when the general hot water supply is being performed, the hot water filling operation is performed simultaneously, and when the general hot water supply is not being performed, the hot water filling operation is performed. (Steps # 2, # 6 and # 9).

When the supply amount Qo of hot water to the bathtub 2 reaches the target supply amount Qp, the hot water opening / closing valve 27 is closed, and hot water supply for hot water is terminated (step # 12).

Next, the control operation in the additional heating operation will be described. When the hot water supply for hot water is completed, the circulation pump 18 is operated. Accordingly, the hot and cold water in the bathtub 2 circulates through the circulation path 7 as indicated by the broken arrow in FIG. 1, and the hot water temperature is detected by the return temperature sensor 32. If the detected temperature has reached the target hot water supply temperature Tp, the circulation pump 18 is stopped. If the detected temperature has not reached the target hot water supply temperature Tp, the circulation pump 18 is continuously operated until the return temperature sensor 32 reaches the target hot water supply temperature Tp. The operation of the pump 18 is continued.

If the additional heating operation is performed during the general hot water supply operation, or if the general hot water supply operation is performed during the additional heating operation, the simultaneous hot water supply additional operation is performed. In this case, the hot water supply temperature sensor is used. The second temperature regulation control in which the feedforward control and the feedback control are performed as described above is performed so that the supply temperature To detected at 25 becomes the target hot water supply temperature Tp, and the general hot water supply operation is performed. When not performed, the opening of the gas proportional valve 14 is adjusted based on the temperature detected by the boiling prevention temperature sensor 43 so that the water in the hot water supply heat exchanger 6 does not boil.

Next, update control for obtaining the temperature difference ΔT and the flow rate ratio a will be described. The outgoing temperature detection sensor 35 detects the temperature Tv of hot and cold water supplied to the bathtub 2 through the passage channel portion.
And the return temperature sensor 32 detects the temperature Tn of the hot and cold water supplied to the bathtub 2 through the non-passage channel portion. Therefore, the temperature difference ΔT can be obtained by subtracting the detection temperature Tn of the return temperature sensor 32 from the detection temperature Tv of the forward temperature detection sensor 35.

The temperature Tv of the hot water supplied through the passage channel and the temperature Tn of the hot water supplied through the non-passage channel are determined by the flow rate of the passage channel and the flow rate of the non-passage channel. When the temperature is determined, the temperature Tm of the hot water as a result of mixing the hot and cold water from the passage channel portion and the hot and cold water from the non-passage channel portion in the bathtub 2 can be obtained. The ratio of the flow rate can be obtained by back calculation.
That is, assuming that the ratio (flow rate) of the flow rate of the non-passage channel portion to the flow rate of the branch path 19 is a, Tm = Tn × a + Tv × (1-a). Solving this for a gives a = (Tm−Tv) ÷ (Tn−Tv).

The flow rate ratio a is determined based on the information of the originally provided outgoing temperature detection sensor 35 and return temperature sensor 32. Therefore, in order to obtain the flow rate a based on the flow rate of each of the passing passage section and the non-passing passage section, a separate flow sensor is provided so that the flow rate of each of the passing passage section and the non-passing passage section can be detected. The cost can be reduced as compared with.

The control operation in the update control will be described based on the flowchart shown in FIG. When an update control is commanded by a maintenance switch (not shown), a residual water check is performed to determine whether hot or cold water remains in the bathtub 2 (step # 21). That is, the residual water check is performed by operating the circulation pump 18 to determine whether or not the water flow switch 34 detects the water flow. When the water flow switch 34 detects the water flow, it is determined that hot water has remained in the bathtub 2. hand,
Even if the update control is executed in this state, the accurate flow rate a cannot be obtained, so the update control is stopped.

When it is determined that there is no residual water, the hot water filling operation is executed so that the supply temperature To detected by the hot water supply temperature sensor 25 becomes the target temperature for update control, and the hot water filling operation is executed. In the meantime, the temperature difference ΔT is obtained by simultaneously reading the detected temperature Tv of the outgoing temperature detection sensor 35 as the temperature of the hot water in the passage channel portion and the detection temperature Tn of the return temperature sensor 32 as the temperature of the hot water in the non-passage channel portion. (Step # 22
~ # 24). This hot water filling operation stops when the supply amount Qo of hot water to the bathtub 2 reaches the set supply amount Qs for update control (steps # 25 and # 26). The set supply amount Qs for update control is set so that the water level of the bathtub 2 is higher than that of the circulation adapter 17.

Subsequently, the detected water level Lo of the water level sensor 31 is read, and it is determined whether or not the deviation between the detected water level Lo and the set water level Ls corresponding to the set supply amount Qs is within a preset allowable range. It is determined (step # 27). If the deviation between the detected water level Lo and the set water level Ls is not within the allowable range, it is determined that hot water has remained in the bathtub 2 and an accurate flow rate can be obtained even if the update control is executed in this state. Since the ratio a cannot be obtained, the update control is stopped. When the deviation between the detected water level Lo and the set water level Ls falls within the allowable range, the temperature T
m is measured (Step # 28). That is, in a state in which the combustion of the burner 9 is prohibited, the circulation pump 18 is monitored while monitoring the temperature with the forward temperature detection sensor 35 or the return temperature sensor 32.
Is operated to circulate the hot and cold water in the bathtub 2 through the circulation path 7 so that the hot and cold water in the bathtub 2 is sufficiently mixed and the outgoing temperature detection sensor 3
5 or when the detected temperature of the return temperature sensor 32 becomes stable, the detected temperature at that time is read as the temperature Tm of the hot and cold water in the bathtub 2 and the circulation pump 18 is stopped. Subsequently, a flow rate ratio a is obtained, and the temperature difference Δ stored in the storage means is obtained.
T and the flow rate a are rewritten and updated with the obtained values (steps # 29 and # 30), and the update control is terminated.

By the way, the flow rate ratio a changes depending on the length of the pipe from the hot water supply device to the bathtub 2 in a state where the hot water supply device is installed, the fluctuation of the original water pressure of the water supply or the like connecting the water supply passage 15, and the like. Further, the temperature difference ΔT changes due to a temporal change in the performance of the burner 9, the hot water supply heat exchanger 6, the additional heat exchanger 8, and the like. Fluctuations in the source water pressure are not frequent, but are seasonal gradual fluctuations, and changes over time in the performance of the burner 9, the hot water supply heat exchanger 6, the additional heat exchanger 8, and the like are not rapid fluctuations. Therefore, the update control needs to be performed after the hot water supply device is installed and before the operation is started. However, the update control does not need to be performed frequently thereafter, and may be appropriately performed, for example, every season. Therefore,
By updating the temperature difference ΔT and the flow rate ratio a, it is possible to accurately adjust the filling temperature when filling the bathtub 2.

[Another Embodiment] Next, another embodiment will be described. (B) In the above-described embodiment, the case where the supply amount ratio A is set in advance and the temperature decrease width Td is obtained based on Equation 1 is exemplified. However, instead of this, the temperature decrease width Td is set in advance. After setting, the supply amount ratio A is expressed by Equation 1.
May be determined based on

(B) In the above embodiment, the first
The supply amount Q1o by the temperature control operation and the supply amount Q2o by the second temperature control operation are respectively obtained based on integrating the flow rate obtained by subtracting the detection flow rate of the interruption flow rate sensor 26 from the detection flow rate of the water supply flow rate sensor 20. did. Instead, the water level Lo of the bathtub 2 is detected by the water level sensor 31, and based on the detected water level Lo, the supply amounts Q1o,
Q2o may be obtained. In this case, for example,
During the hot water supply operation for hot water filling, the water level sensor 31 detects the water level Lo by the water level sensor 31 while appropriately closing the two-way valve 33 for the set time for water level detection and supplying hot water only through the passage channel. I do. The set time for detecting the water level is set as short as possible so as not to affect the filling temperature.

(C) In the above embodiment, the case where the temperature difference ΔT and the flow rate ratio a are appropriately updated by the update control is exemplified. However, since the temperature difference ΔT and the flow rate ratio a are substantially determined by the design conditions of the hot water supply apparatus, Alternatively, they may be fixedly set before shipment. In this case, the user does not need to perform an operation for updating the temperature difference ΔT and the flow rate ratio a, so that the operability can be further improved.

(D) In the above embodiment, the case where the temperature difference ΔT is obtained in the update control has been described as an example. However, the hot water supply for filling water is performed based on the detection information of each of the outgoing temperature detection sensor 35 and the return temperature sensor 32. Can be obtained even during the execution of, so that it may be obtained at the start time, for example, every time. In this case, the temperature difference ΔT is
Since the performance of the heat exchanger 6 for hot water supply, the heat exchanger 8 for additional heating, and the like is better adapted to the change over time, the accuracy of adjusting the hot water temperature can be improved.

(E) In the above embodiment, the case where the update control is executed to obtain the temperature difference ΔT and the flow rate ratio a and update them is illustrated. Instead of this, if a flow rate sensor is provided so as to detect the flow rate of each of the passage flow path portion and the non-passage flow path portion, the flow rate ratio a can be obtained based on the detection information of those flow path sensors.
In this case, the flow rate ratio a can be obtained even during hot water supply, so that, for example, if the flow rate ratio a is obtained at the start time, update control becomes unnecessary, and operability can be further improved. It should be noted that the temperature difference ΔT may be obtained at each start time based on the detection information of the outgoing temperature detection sensor 35 and the return temperature sensor 32.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the overall configuration of a water heater.

FIG. 2 shows a flowchart of a control operation.

FIG. 3 is a diagram showing a flowchart of a control operation.

[Explanation of symbols]

 2 Bathtub 5 Hot water supply path 6 Heat exchanger for hot water supply 7 Circulation path 8 Heat exchanger for reheating 9 Burner 19 Branch path 39 Temperature setting means 41 Supply amount setting means H Control means

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yu Enomoto, 1-15-1 Oka, Minami-shi, Minato-ku, Osaka, Osaka Prefecture Inside Herman Co., Ltd. (72) Mitsuru Tanaka 1-1-52, Oka, Minami-shi, Minato-ku, Osaka, Osaka No. Harman Co., Ltd. (72) Inventor Daisuke Konishi 1-1-52, Minami-shioka, Minato-ku, Osaka-shi, Osaka Prefecture Harman Co., Ltd. (72) Inventor Masayoshi Hokawa 1-1-52, Minami-shioka, Minato-ku, Osaka-shi, Osaka Harman Co., Ltd.

Claims (3)

[Claims] 1. A hot water supply heat exchanger for heating supplied water and supplying it to a hot water supply path, and a reheating heat exchanger for heating hot water flowing through a circulation path for circulating hot water in a bathtub. A general hot water supply operation for supplying hot and cold water to a hot water supply point through the hot water supply path is provided, and a branch path is provided that is branched from the hot water supply path and connected to the circulation path. The hot and cold water supplied to the circuit is 2
A hot water supply operation to supply the water to the bath tub by separating the water in the direction and supplying the bath water to the bath, a simultaneous operation to execute both the general hot water supply operation and the hot water filling operation, and circulating the hot water in the bath tub to the circulation water Control means for performing each of the reheating operations to be performed, the control means, when the filling is instructed, the hot water of the target temperature set by the temperature setting means for setting the target temperature of hot water supply, In order to supply the target supply amount set by the supply amount setting means for setting the target supply amount of hot water to the bathtub, while selecting either the hot water operation or the simultaneous operation, the hot water supply for hot water is selected. A hot water supply device configured to perform the hot water supply for the hot water for the hot water filling, when the supply amount of the hot water to the bath tub reaches the target supply amount, So that the temperature becomes the target temperature, In the simultaneous operation, under the condition that the supply temperature of hot water from the hot water supply path is adjusted to the target temperature, in the hot water filling operation, the supply temperature of hot water from the hot water supply path is changed and adjusted. Water heater. 2. A temperature reduction width with respect to the target temperature in advance so that the temperature of the hot water in the bathtub reaches the target temperature when the supply amount of hot water to the bathtub reaches the target supply amount. A first temperature control operation for adjusting a supply temperature of hot water from the hot water supply path to a temperature lower than the target temperature by the temperature reduction width, and a supply temperature of hot water from the hot water supply path to the target temperature; A ratio between the supply amount of hot water and the supply amount of hot water by the second temperature control operation is set, and the control unit controls the supply amount by the first temperature control operation and the supply amount by the second temperature control operation in the hot water supply for filling. The second temperature control operation is executed in the simultaneous operation, and either the first temperature control operation or the second temperature control operation is selected in the filling operation so that the ratio with the supply amount becomes a set ratio. 2. The method according to claim 1, wherein Water heater. 3. The controller according to claim 2, wherein, in the hot water supply for filling the hot water, a supply amount by the second temperature control operation is determined by the target supply amount and the set ratio. 3. The hot water supply apparatus according to claim 2, wherein after the temperature reaches the predetermined time, while the general hot water supply operation is instructed, the general hot water supply operation is prioritized to interrupt the hot water supply for filling.