JPH09217959A - Appliance for automatic hot water filling and controlling method of the automatic hot water filling - Google Patents

Abstract

PROBLEM TO BE SOLVED: To accurately detect and determine a reference water level a little above a connecting port of a reheating circulation passage through which hot water from a hot water supply source is poured into a bathtub and thereby to conduct an accurate hot water filling operation. SOLUTION: At the time of an operation in a memory mode wherein conditions of hot water filling are set, a bathtub hot water checkup operation wherein detection of signals of a reheating water flow switch 16 according to pouring of hot water in a prescribed quantity and starting of a circulating pump 18 after this pouring is executed repeatedly under the control of an operation control part 27, and after the reheating water flow switch 16 detects flowing water first, purge pouring of hot water for removing air in a reheating circulation passage stretching from a hot water supply source is executed by a purge hot water pouring drive part 23. A bathtub water level is detected by a pressure sensor 13 after this purge pouring of hot water and the detected water level is determined as a reference water level by a reference water level determining part 25. The quantity of water to be filled from this determined reference water level to a set water level is determined by a poured hot water quantity computing part 26 and the hot water filling is conducted in conformity with procedures set beforehand.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an automatic filling device having an automatic bath filling function and an automatic filling control method thereof.

[0002]

2. Description of the Related Art As an automatic water filling device, the hot water produced by a hot water supply heat exchanger of a hot water supply source is sent to a reheating circulation pipe and dropped into a bathtub through this reheating circulation pipe to perform automatic water filling. Water heaters with hot water filling function are widely used.

FIG. 7 shows a piping system of a water heater with a water filling function of this type. In the figure, a reheating heat exchanger 7 is provided above a bath burner 6, one end of a pipe 17 is connected to the inlet side of the reheating heat exchanger 7, and the other end of the pipe 17 is circulated. It is connected to the discharge side of the pump 18. The conduit 17 is provided with a bath temperature sensor 9 such as a thermistor for detecting the temperature of water flow.

On the suction side of the circulation pump 18, a reheating circuit is provided.
14 return pipes 15 are connected, and the return pipe 15 is a circulation port.
Is connected to the side wall of the bathtub 1 via a circulation fitting 2. The return pipe 15 is provided with a reburning running water switch 16 as a running water detection sensor that detects water flow and outputs an ON signal. The outlet side of the reheating heat exchanger 7 is connected to the inlet side of the forward pipe 20 of the reheating circuit 14, and the outlet side of the forward pipe 20 is connected to the bathtub side wall via the circulation fitting 2.

In FIG. 7, the outlet side of the forward pipe 20 is shown below the return port side of the return pipe 15 so that the piping system can be easily understood, but the outlet side of the forward pipe 20 and the return pipe 15 are shown. The return fitting side may be attached to the circulating metal fitting 2 so as to have substantially the same height.

A hot water supply heat exchanger 5 as a hot water supply source is provided above the hot water supply burner 4, and a water supply pipe 11 is connected to the inlet side of the hot water supply heat exchanger 5, and the water supply pipe 11 is used for supplying water such as tap water. The water supply pipe 11 is provided with a main flow sensor 10. A hot water supply pipe 12 is connected to the outlet side of the hot water supply heat exchanger 5, and the hot water supply pipe 12 is guided to a desired hot water supply place such as a kitchen.

The hot water supply pipe 12 is branched from a hot water filling pipe 21 as a hot water filling passage.
A pouring solenoid valve 24 as a pouring control valve, and a flow rate detection sensor 19 for detecting a flow rate of the pouring water are provided. Further, a pressure sensor 13 as a water level detection sensor for detecting the bath water level is provided in the water filling pipe 21 downstream of the pouring electromagnetic valve 24. In the drawing, reference numeral 33 denotes a gas pipe, 42 denotes an incoming water temperature sensor, and 43 denotes an outgoing water temperature sensor.

A hot water supply operation, a reheating operation, and a pouring water filling operation of the hot water supply device with hot water filling function are performed by a control device 34, and a remote control 35 is connected to the control device 34. By the water level setting button etc. of this remote control 35,
By filling a designated water level, the filling of the designated water level is possible.

In this type of water heater with a hot water filling function, a set water level and a set temperature of hot water are designated by a remote control 35, and when an automatic operation switch of the remote control 35 is turned on, a pouring solenoid valve is provided.
24 is opened, and water enters the hot water supply heat exchanger 5 from the water supply pipe 11. The hot water supply burner 4 burns when the main flow rate sensor 10 detects the flow of water through the water supply pipe 11, and the water passing through the hot water supply heat exchanger 5 is heated by this combustion thermal power to become hot water. It passes through the tension pipe 21 and enters the reheating circuit 14, and the return pipe 15 and the outgoing pipe of the reheating circuit 14.
It is poured into bathtub 1 through 20.

Normally, the hot water from the hot water supply heat exchanger 5 is dropped intermittently by a predetermined amount of water, and every time the intermittent dropping of hot water is completed, the circulation pump 18 is dropped.
Is activated only for a short time, and it is determined whether or not the water level of the bathtub 1 has reached the height position of the circulating metal fittings, based on the signal of the reheating water switch 16. When an ON signal is supplied from the reheating water switch 16, it is determined that the bathtub water level has reached the circulating metal fitting 2, and then the water amount of the specified set water level is dropped at once and the specified set water level is reached. The hot water is over.

[0011] In order to perform the pouring operation accurately,
An automatic filling device 8 as shown in FIG. 8 is provided in the control device 34 of the automatic filling device of this type, and the automatic filling device 8 includes the pouring amount calculation part 26 and the operation control part 27. And is configured.

The operation control section 27 has a filling sequence program for preparing and storing filling condition data, and controls the filling operation in the storage mode in accordance with this sequence program. Further, the operation control unit 27 uses the water filling condition data created and stored by the operation in the storage mode (for example, PQ characteristic data indicating the relationship between the bath water level and the bath water amount as shown in FIG. 9). A sequence program for actual filling is also built in, and the filling operation in the execution mode for actually filling is controlled according to this sequence program.

The pouring amount calculation unit 26 calculates the pouring amount of the filling water based on the detected water level of the bathtub 1 detected by the pressure sensor 13, and when the circulation pump 18 is driven, the reheating water is added. After the flow of hot and cold water in the bathtub 1 is detected by the switch 16, the pouring amount from the detected water level of the bathtub hot water detected by the pressure sensor 13 to the designated set water level is calculated, and this calculation result is used as the operation control unit 27. Add to.

FIG. 10 is a flow chart showing the filling operation in the storage mode according to the sequence program. The operation of the conventional water heater with a water filling function having the system configuration shown in FIG. 7 will be described below based on this flowchart. First, at the time of operation in the storage mode, when an automatic switch provided on the remote controller 35 or the like is turned on in step 101, the step
At 102, as shown in FIG.
(Liter) is dropped into the bathtub 1 and then, in step 103, when the circulation pump 18 is driven for a short time, it is confirmed in step 104 that the reheating water switch 16 is turned off.

Next, in step 105, a predetermined amount of pouring water, that is, an operation of intermittently dropping B liters (for example, 10 liters) of hot and cold water of a unit amount of water shown in FIG. 6 is performed. After the amount of hot water is dropped, in step 106, the circulation pump 18 is driven for a short time, and in step 107, it is judged whether or not the reheating water switch 16 is turned on. Hereinafter, the signal detection operation of the reheating water switch 16 by the pouring and the activation of the circulation pump 18 after the pouring is referred to as a bathtub hot water checking operation.

Then, when the bathtub water level reaches the water level exceeding the circulation fitting 2 and the detection of the circulation of hot water in the reheating circuit 14 is first performed, in step 108, the water level at this time is determined by the pressure value P _A is detected by the pressure sensor 13.
The operation control unit 27 determines the detected water level value as the reference water level slightly above the connection portion of the reheating circuit 14 to the bathtub 1 (the position of the circulating metal fitting 2), and determines the bathtub water amount (first the running water detection sensor). There determines the accumulated flow) that is poured into the bathtub 1 by detecting the flowing water as a reference water amount Q _a bathtub.

Next, in step 109, condition data (PQ characteristic data) for filling the water as shown in FIG. 9 is created and stored in the operation controller 27. Then, pouring is performed until the bath water level reaches the set water level, and when the set water level is reached, the process proceeds to step 110. At step 110, the circulating pump 18 is driven while the pouring electromagnetic valve 24 is closed to detect the bath water temperature, and at step 111, the bath temperature is adjusted to the preset temperature designated by the remote controller 35 in advance. Until it is judged that the bath temperature has been reached, the reheating operation in step 112 is performed, and when the bath temperature reaches the set temperature, step 113
Boil the buzzer and sound.

Various methods have been considered as the method of creating the PQ characteristic data in step 109. For example, when hot water having a water amount of C liter shown in FIG. Is detected by the pressure sensor 13 as the pressure value P _B , and the C liter is detected as the pressure difference (P _B -P
Divide by the value of _A ) to obtain the opening area S of the bathtub 1,
When the bath water level exceeds P _A , Q = PS can be obtained.

On the other hand, the operation in the execution mode is performed, for example, after the automatic switch is turned on and the circulating pump 18 is driven to confirm that the reheating pump 16 is turned off. The operation is repeatedly performed, and the pressure detection (the detection of the bathtub water level) by the pressure sensor 13 is performed when the reheating water switch 16 first detects the flowing water. Then, the detected water level is set as a reference water level, and the pouring amount from the reference water level to the designated set water level is calculated by the PQ
On the basis of the characteristic data, the pouring amount calculation unit 26 pours the pouring amount of the pouring amount obtained by, for example, the calculation of the opening area S × (set water level−detected water level). And, below,
Perform the same operation as steps 111 to 113 in FIG. 10 in the storage mode so that the bath temperature becomes the set temperature.

[0020]

By the way, in the automatic filling operation as described above, in the operation of the storage mode,
After the step 105 in FIG. 10 of the bathtub hot water check operation up to step 107, in order to detect the water level of the bathtub 1 to be detected is the reference level P _A is the creation of P-Q characteristic data is performed in step 108, the It is very important to accurately detect the reference water level. Further, even in the operation in the execution mode, since the water filling up to the set water level is performed based on the detected water level (reference water level) of the bathtub 1 detected after the bathtub hot water confirmation operation, the water level detection of the bathtub 1 is performed. It is important to do exactly.

However, the water level of the bathtub 1 is
When the circulating pump 18 is driven, the reheating water switch 16 is turned on. However, when the water level of the bathtub 1 is near the circulating metal fitting 2, the recirculating pump 18 is driven by In some cases, the air is sucked into the air, which causes a problem that the pressure sensor 13 cannot accurately detect the water level.

In addition, the water in the bathtub 1 is washed, for example, by washing or the like until the pressure detection (bath water level detection) is performed after it is confirmed by the bath water confirmation operation that the reheating water switch 16 is on. When used, and when this causes the water level of the bathtub to drop below the circulation port, the water may collapse because the inlet side of the return pipe 15, which is the circulation port, is open to the atmosphere. 1 is home 2
When it is installed on the floor and the main body of the water heater with a water filling function is installed on the first floor of the house, the return pipe 15 may become empty partway. In such a case, not only the pressure sensor 13 cannot accurately detect the water level in the bathtub, but sometimes it is determined that the pressure sensor 13 is out of order.

The present invention has been made to solve the above problems, and an object thereof is to be able to accurately detect a reference water level slightly above the connection portion of a reheating circulation path to a bathtub. Accordingly, it is an object of the present invention to provide an automatic water filling device and an automatic water filling control method capable of performing an accurate automatic water filling operation based on this reference water level.

[0024]

Means for Solving the Problems To achieve the above object, the present invention provides means for solving the problems by the following constitution. That is, in the automatic water filling device according to the first aspect of the present invention, the hot water supply source is connected to the reheating circulation path connected to the side wall of the bathtub through the water filling passage, and the hot water of the hot water supply source is connected to the water filling passage. A piping system for dropping the water into the bathtub through the reheating circulation path is provided, and a circulation pump for circulating hot water in the bathtub and a flowing water detection sensor for detecting the flow of the hot water are provided in the reheating circulation path. A water level detection sensor for detecting the water level and a flow rate detection sensor for detecting the amount of water dropped from the hot water supply source to the bath are provided, and up to a reference water level slightly above the connection portion of the reheating circulation path to the bath. After confirming the pouring, in an automatic water filling device that performs pouring from the reference water level to the set water level according to a predetermined procedure, for pouring a predetermined amount of water and starting the circulation pump after pouring the water. The signal detection of running water detection sensor repeated a tub of hot water confirmation operation to be performed that,
First, after the flowing water is detected by the flowing water detection sensor, the purge pouring drive unit that performs the purge pouring to remove the air in the reheating circulation path from the hot water supply source and the water level detection sensor after the purge pouring It has a reference water level confirmation unit for confirming and confirming the detected water level as a reference water level, and pouring from the reference water level to the set water level is the amount of water from the confirmed reference water level to the set water level confirmed by the reference water level confirmation unit. It is configured by pouring molten metal.

Further, the automatic water filling device of the second invention is
A hot water supply source is connected to the reheating circulation path connected to the side wall of the bathtub through a water filling passage, and a piping system for dropping hot water from the hot water supply source into the bathtub through the water filling passage and the reheating circulation passage is provided. The reheating circulation path is equipped with a circulation pump that circulates the hot water in the bathtub and a running water detection sensor that detects the flow of hot water, and a water level detection sensor that detects the water level of the bathtub and a drop from the hot water source to the bathtub. A flow rate detection sensor that detects the amount of water taken in is provided,
In an automatic water filling device that performs pouring from the reference water level to a set water level according to a predetermined procedure after confirming pouring to a reference water level slightly above the connection to the bathtub of the reheating circulation path, After confirming that the running water is not detected by the running water detection sensor by starting the circulation pump, the purge pouring drive unit for performing the purge pouring to remove the air in the additional heating circulation path from the hot water supply source, and the purge After pouring and purging pouring water, the water level detection sensor detects the water level in the bathtub, and after the water level is detected, the circulating pump is activated. When it does, it has a reference water level confirmation unit that confirms and confirms the water level detection value by the water level detection sensor as a reference water level before that, It is configured as characterized by being adapted to pouring the water to the set water level from the defined reference water level determined by the reference water level decision unit.

Further, in the operation of the filling mode, the purge pouring drive unit detects running water by starting the circulating pump after pouring the pouring water at the lower side of the connection portion of the reheating circulation path. When running water is detected by the signal detection of the sensor, it is configured to perform purge pouring to remove the air in the reheating circulation path from the hot water supply source, and detect the water level detected by the water level detection sensor after this purge pouring The fact that the water level is determined is also a characteristic configuration of the automatic water filling device according to the first and second inventions.

Further, a pouring electromagnetic valve is provided in the pouring passage, and a water level detecting sensor is provided in the pouring passage downstream of the pouring electromagnetic valve. It has a characteristic structure of the automatic water filling device of the second invention.

Further, in the automatic filling control method according to the first aspect of the present invention, the hot water of the hot water supply source is dropped into the bathtub of the additional heating circulation path by dropping it through the additional heating circulation path equipped with a circulation pump. An automatic filling control method that performs pouring from the reference water level to the set water level according to a predetermined procedure after confirming pouring to a reference water level slightly above the connection part of After confirming the flow of hot water in the bathtub hot water by activating the circulating pump after pouring the water and detecting the flow of hot water in the circulation route, the hot water source is first detected after the flow of hot water is detected. Purge pouring to remove the air in the reheating circuit is performed, after which the bath water level is detected and the detected water level is confirmed and confirmed as the reference water level, and then from this confirmed reference water level to the set water level. The amount of water in advance It is configured as characterized by pouring according meth procedure.

Further, in the automatic filling control method according to the second aspect of the present invention, the hot water of the hot water supply source is dropped into the bathtub of the additional heating circulation path by dropping it through the additional heating circulation path equipped with the circulation pump. An automatic filling control method of performing pouring from a reference water level to a set water level according to a predetermined procedure after confirming pouring to a reference water level slightly above the connection part of the circulating pump. After confirming that no running water is detected in the hot water recirculation circuit of the bathtub hot water, purge pouring to remove the air in the reheating circuit from the hot water supply source and the bathtub by the water level detection sensor after the purge pouring When the water level is detected for the first time after performing the water flow detection confirmation operation in the bathtub hot water recirculation circuit by detecting the water level and starting the circulation pump after this water level detection, the water level before that is detected. To confirm confirmed based water the water level detection value of the sensor output, it is configured as characterized by pouring according to a predetermined procedure the amount of water to the set water level from the determined reference level thereafter.

Further, in the operation of the hot water filling execution mode, after pouring the water by aiming for the water level below the connection part of the reheating circulation path, the running water is detected by the signal detection of the running water detection sensor by starting the circulation pump. It is also possible to perform the purge pouring to remove the air in the reheating circulation path from the hot water supply source and to determine the water level detected by the water level detection sensor as the detected water level after the purge pouring.
The invention is characterized by the automatic filling control method.

In the first aspect of the present invention having the above-mentioned structure, after the bath hot water confirmation operation is performed and the flow of hot water in the bath is first detected by the running water detection sensor, the air in the reheating circulation path is removed from the hot water supply source. By performing the purge pouring for removing, the air in the hot water filling passage and the air in the reheating circulation passage are removed. Then, since the detected water level detected by the water level detection sensor after this purge pouring is determined as the reference water level, the determined confirmed reference water level has no influence of the air in the water filling passage and the reheating circulation passage. An accurate water level that has not been received and the amount of water from the fixed reference water level to the set water level are poured according to a predetermined procedure, whereby accurate automatic water filling is performed and the above problem is solved.

In the second aspect of the present invention having the above-mentioned structure, after confirming that the flowing water detection sensor does not detect the flowing water when the circulation pump is started, the air in the reheating circulation path is removed from the hot water supply source. Purging pouring to remove is performed, and since the air in the reheating circulation path is removed from the hot water supply source by this purging pouring, the detected water level in the bathtub detected by the water level detection sensor after this purging pouring is It is an accurate value that is completely unaffected by air. And even if the circulation pump is started after this water level detection and air enters the reheating circulation path at this time, there is no effect on the detected water level value detected before the circulation pump is started, and the circulation pump is started. When the flow of water in the bathtub hot water recirculation circuit is detected for the first time, the water level detection value before that is confirmed as the reference water level, and the confirmed reference water level becomes an accurate water level. By performing the amount of water from to the set water level according to a predetermined procedure, the above problem can be solved as in the case of the first invention.

[0033]

Embodiments of the present invention will be described below with reference to the drawings. In the description of the present embodiment, the same reference numerals are given to the same parts as those in the conventional example, and the overlapping description will be omitted. FIG. 1 shows a main configuration of a control unit of an embodiment of an automatic water filling device according to the present invention.
The automatic water filling device of the present embodiment example has the system configuration shown in FIG. 7, like the conventional example. The characteristic of this embodiment is different from the conventional example is that the automatic filling controller 8 for performing automatic filling control is formed by a unique circuit having the configuration shown in FIG. In the present embodiment, the automatic filling controller 8 includes an operation controller 27, a purge pouring drive unit 23, a reference water level determination unit 25, and a pouring amount calculation unit 26.

In this embodiment as well, the operation control section 27 controls the filling operation in the storage mode according to the sequence program of the filling operation in the storage mode, and performs the filling operation in the execution mode according to the sequence program in the execution mode. Although it controls, in the present embodiment example, the operation control unit 27,
When operating in the memory mode, the same bathtub hot water confirmation operation as in the conventional example is repeated, and when the reheating water flow switch 16 first detects running water, the bath water first detection signal in the memory mode is sent to the purge pouring drive unit 23. Add.

Further, the operation control section 27 controls the actual water filling operation based on the condition data of the water filling prepared by the operation of the storage mode during the operation of the execution mode. After confirming that the reheating water flow switch 16 is turned off, perform pouring so that it is below the connection port of the return pipe 15 of P. Add to 23.

Upon receiving the bathtub hot water first detection signal in the storage mode, the purge pouring drive unit 23 removes the air in the reheating circulation passage 14 from the hot water supply heat exchanger 5 side via the hot water filling pipe 21. Perform purge pouring. That is, the purge pouring drive unit 23
In the operation of the storage mode, the bath hot water confirmation operation is performed, and after the hot water reflow switch 16 first detects the flow of hot water in the bath 1, the purge pouring is performed. Further, the purge pouring drive unit 23, when operating in the execution mode,
The purge pouring is also performed when the bathtub hot water detection non-signal in the execution mode is added from the operation control unit 27. And
The purge pouring drive unit 23, at the end of these purge pouring,
The purge pouring end signal is sent to the reference water level determination unit 25 and the operation control unit 27.
Add to and.

When the purge pouring drive unit 23 receives the purge pouring end signal during the operation in the execution mode, the operation control unit 27 activates the circulation pump 18 to detect the signal from the reheating water flow switch 16. Bathtub hot water reheating circuit
Perform the operation to detect the flow at 14. Then, the reheating water switch 16 is turned on, and when the flow of the hot water of the bathtub is detected, the bathtub hot water initial detection signal in the execution mode is added to the reference water level determination unit 25, while the reheating water switch 16 is turned off and the bathtub. When the flow of hot and cold water is not detected, a bathtub hot and cold water detection no signal in the execution mode is added to the purge pouring drive unit 23 as in the above.

The reference water level determination unit 25 is a purge pouring drive unit 23.
In response to the purge pouring end signal from, the water level detected by the pressure sensor 13 after the pouring pouring is fixed as the reference water level during the operation in the storage mode. The detected water level detected by the pressure sensor 13 after the hot water is taken in, this detected water level value is determined as the reference water level, and this value is added to the pouring amount calculation unit 26.

Further, the reference water level determination unit 25, during the operation in the execution mode, detects the pressure detected by the pressure sensor 13 after the purge pouring every time the purging pouring drive unit 23 performs the purging pouring operation. When the bathtub hot water first detection signal in the execution mode is taken in from the operation control unit 27, the pressure detected by the pressure sensor 13 (water level detection value) before that is determined as the reference water level, and this value is calculated. 26
Add to

The pouring amount calculation unit 26 calculates the pouring amount of the filling in the same manner as in the conventional example, but the pouring from the standard water level to the set water level is confirmed by the standard water level determining unit 25. The amount of water from the reference water level to the set water level is calculated and obtained, and this value is added to the operation control unit 27. Then, the operation control unit 27 receives the calculated value and performs the pouring from the reference water level to the set water level by pouring the amount of water from the fixed reference water level to the set water level.

The example of the present embodiment is configured as described above. Next, the automatic filling operation in the storage mode of the example of the present embodiment will be described based on the flowcharts of FIGS. 2 and 3, the same operation as that of the conventional example is given the same step number as in FIG. 10, and the detailed description thereof is omitted. First, when the automatic switch is turned on in step 101 of FIG. 2, the operations from step 101 to step 107 are performed in the same manner as in the conventional example. Then, in the present embodiment, when the hot water flow confirmation operation from step 105 to step 107 is performed once or more and the hot water flow in the bathtub 1 is first detected by the reheating water flow switch 16 in step 107. From the operation control unit 27 to the purge pouring drive unit 23
The bathtub hot water first detection signal is added.

Then, in step S1, the pouring solenoid valve 24 is opened by the purge pouring drive unit 23, and the hot water heat exchanger 5
10 from the side through the water filling pipe 21 and the reheating circuit 14
Purging of liters of molten metal is performed, and the air in the hot water filling passage 21 and the air in the reheating circulation passage 14 are removed from the hot water supply heat exchanger 7 side.

Next, after this pouring of molten metal, step 108 is performed.
Then, the pressure sensor 13 detects the bath water level as pressure detection, and the detected water level (detected pressure) is taken into the reference water level determination unit 25, and is determined as the determined reference water level by the reference water level determination unit 25. The value of the fixed reference water level is added to the pouring amount calculation unit 26.

In this embodiment, the reference water level detection confirmation operation in the storage mode is performed as described above, and the pouring from the confirmed reference water level to the set water level is performed according to the following operation procedure.

That is, when the circulation pump 18 is driven in step 201 of FIG. 2 and the reheating water flow switch 16 is turned on in step 202, step 20 of FIG.
At 5, the pouring of 30 liters is performed as the water amount C liter shown in FIG. 6, and at step 206, the pressure detection by the pressure sensor 13 is performed. Then, it is judged in step 207 whether or not the detected pressure P _B is normal, that is, whether or not P _B is larger than P _{A. When} P _B is equal to or less than P _A , an error is generated in step 208. To be done. When P _B is larger than P _A , the opening area S of the bathtub 1 is calculated from the value obtained by dividing the water amount C liter (30 liters) by the pressure difference (P _B −P _A ), as in the conventional example. -Create Q characteristic data. By doing so, pouring from the standard water level to the set water level is created as water volume data corresponding to the bath water level from the fixed standard water level to the set water level.

Next, in step 209 of FIG. 3, the bath level P
Calculation of the pouring amount Q from _B to the set water level is the pouring amount calculation unit 26.
And a value Q _C of 75% of this Q is calculated. Then, at step 210, whether the amount of water Q _B above this value Q _C correspond to bath water level P _B is determined, Q _C
Is greater than or equal to Q _B , the amount of water Q _{C is} poured in at step 211, the pressure is detected at step 212, and the routine proceeds to step 213. On the other hand, when it is determined in step 210 that the water amount Q _B is larger than the water amount Q _C , the process directly proceeds to step 213, and the operations from step 213 to step 215 perform pouring to the set water level. Since the pouring to the set water level is performed based on the PQ characteristic data created by the operations up to step 207,
The pouring from the standard water level to the set water level is performed by pouring the amount of water from the fixed standard water level to the fixed water level.

In the present embodiment, when the bathtub 1 is plugged or the like, the bath water level cannot reach the standard water level or the set water level, no matter how many times pouring is repeated. Since waste occurs, a limiter is provided to detect the plugged state. When the reheating water flow switch 16 is not turned on in step 107 or step 202 of FIG. 2, it is determined in step 203 whether or not the pouring amount up to that point is less than or equal to the limiter, and when it exceeds the limiter, step 204 is performed. The error signal is output with. In addition, steps 213 to 215 in FIG.
Even if the bath water level does not reach the set water level even after repeating the operations up to, it is determined in step 216 whether the pouring amount is below the limiter. If it exceeds the limiter, an error signal is output in step 217. .

Next, the automatic filling operation in the execution mode of this embodiment will be described with reference to the flow charts shown in FIGS. First, in step 301 of FIG. 4, when the automatic switch in the execution mode is turned on, step 302
Then, the circulation pump 18 is driven, and at step 303, it is confirmed that the reheating water flow switch 16 is turned off, and the routine proceeds to step 304. In step 304, a small amount of molten metal such as 10 liters is poured, and the circulation pump 18 in step 305 is used.
Driving and the confirmation of turning off of the additional heating water switch 16 in step 306 are performed in sequence, and when the additional heating water switch 16 is off, the process proceeds to step 307. In step 303,
When the additional heating water switch 16 is turned on, and when the additional heating water switch 16 is turned on in step 306, the process proceeds to step 316.

In step 307, based on the water filling control data created by the operation in the storage mode, X liter is poured so that the bath water level is below the return port of the return pipe 15 of the reheating circulation circuit 14. Hot water is made. Then, the circulation pump 18 is driven in step 308 and the turning-off running water switch 16 is checked in turn off in step 309.When the turning-up running water switch 16 is off, the operation controller 27
No signal for bathtub hot water detection in run mode is purge hot water drive
23, go to step 310. When the additional reheating water switch 16 is on, the process proceeds to step 316.

In step 310, the purge pouring drive unit 23 performs the purging pouring. At the time of this purge pouring, in the present embodiment, based on the water filling condition data (PQ characteristic data), Y liters such that the water level of the bathtub is slightly above the return port of the return pipe 15 are set. Asked, Y
Litter is poured. After this pouring, in step 311, pressure detection by the pressure sensor 13 (detection of the water level in the bathtub 1) is performed. Thereafter, in step 312, the circulation pump 18 is started, and in step 313, it is confirmed whether or not the ON signal of the reheating steam switch 16 has been detected.

Then, in step 313, when the reheating water running switch 16 is off, in step 314, it is determined whether or not the pouring amount poured from the start of automatic filling in the execution mode to step 313 is less than or equal to the limiter. If it exceeds the limiter, an error signal is output in step 315. When the pouring amount is less than or equal to the limiter, the operation from step 310 to step 313, that is, the operation of purging pouring → water level detection → bath hot water flow detection is repeated.

Then, the bathtub hot water confirmation operation in this execution mode is repeated, and the additional reheating water switch 16 is firstly sent.
When the running water is detected, the operation control unit 27 adds the bathtub hot water initial detection signal in the execution mode to the reference water level determination unit 25, and the reference water level determination unit 25 causes the pressure sensor 13 in front of it.
The detected pressure (water level detection value) P1 is determined as the reference water level, and the reference water level detection determination operation ends.

Next, in step 322 of FIG. 5, the pouring from the fixed reference water level to the set water level is performed, and then the pressure detection (P _n ) in step 323 is performed, and step 324.
Then, it is confirmed whether or not the bath water level is equal to or higher than the set water level. Then, unless it is determined in step 329 that the pouring amount into the bathtub exceeds the limiter, the operations from step 322 to step 324 are performed until the bathtub water level reaches the set water level, and when the bathtub water level becomes equal to or higher than the set water level,
The boiling operation from step 325 to step 328
The operation is similar to the operation from step 110 to step 113 in FIG.

The steps 303, 306, 30 in FIG.
9, the reheating water switch 16 is turned on and the
If you proceed to 316, step 316 to step 318
Up to the set temperature by
Then, in step 319, the purge pouring drive unit 23
Pour liters of purge. Then, after this purge pouring, pressure detection is performed in step 320 to determine this water level as the detected water level, and then the process proceeds to step 321 in FIG. 5 and when it is determined in step 321 that the bath water level is less than the set water level, Proceeding to step 322, the operation after step 322 is performed in the same manner as described above. On the other hand, when it is determined in step 321 that the bath water level is equal to or higher than the set water level, step 325
Then, the boiling operation is performed in the same manner as described above.

According to the present embodiment, the above-mentioned operation results in
In the storage mode operation, after the flow of hot and cold water is first detected in the bathtub by the bathtub hot and cold water confirmation operation in step 107 of FIG. 2, in step S1, the hot water supply heat exchanger 5 side is connected via the filling pipe 21. Purge pouring to remove air in the reheating circulation path 14 is performed, and the inside of the hot water filling pipe 21 and the reheating circulation path 14 are removed.
In order to perform pressure detection (bath water level detection) by the pressure sensor 13 in step 108 after completely removing the air inside, the detected pressure is affected by the air in the filling pipe 21 and the reheating circulation path 14. It is detected as an accurate value without receiving any error.

Then, this accurate detected water level is fixed as the fixed reference water level, and PQ is determined based on this fixed reference water level.
Characteristic data is created and the amount of water from the defined reference water level to the set water level is poured based on the PQ characteristic data in accordance with the procedure given in advance, so that a very accurate filling operation can be performed. .

Further, according to the present embodiment, during the operation in the execution mode, as shown in steps 310 to 313 of FIG. 4, the operations of purge pouring → water level detection → bath water flow detection are performed, When the reheating water switch 16 first detects running water by repeating this operation, the pressure detected by the pressure sensor 13 (water level detection value) before that is decided as the reference water level. It is possible to accurately detect and determine the reference water level. That is, since the bathtub water level is detected before the circulation pump 18 is started in step 312, even if air is introduced into the reheating circulation path 14 by starting the circulation pump 18,
The water level detection value of the bathtub 1 detected before this is an accurate value that is not affected by air at all.

Then, based on the value of the definite reference water level that is detected and confirmed accurately, the pouring from the reference water level to the set water level is performed by pouring the pouring amount from the definite reference water level to the set water level. Also in the above, the automatic filling operation can be accurately performed.

Further, in the present embodiment, in the operation in the execution mode, step 30 in FIG. 4 performed at the start of the operation.
After detecting the signal of the reheating water flow switch 16 in 3 and pouring the water at the lower side of the connection part of the reheating circulation path 7 in steps 304 and 307 in the figure, the circulation pump 18 starts When running water is detected by the signal detection of the burning running water switch 16, the purge pouring is performed, and the water level detected by the water level detection sensor after the purging pouring is determined as the detected water level, so that the residual water is left in the bathtub 1. Even when the operation of the execution mode is started in the state where
By accurately detecting and confirming the water level of and the pouring from the confirmed detected water level to the set water level, the automatic filling operation can be accurately performed.

Moreover, in this embodiment, the pressure sensor 13
Is provided in the pipe 21 for filling water on the downstream side of the pouring solenoid valve 24, and as described above, the pouring solenoid valve 24 is opened by the purge pouring drive unit 23 to perform the purge pouring. sometimes,
It is possible to more reliably perform air purging in the vicinity of the pressure sensor 13 than when the pressure sensor 13 is provided in the pipe 21 for filling water, and when performing pressure detection after purging the molten metal, it is even more accurate. The water level can be detected.

The present invention is not limited to the above-mentioned embodiments, but can take various modes. For example,
In the above embodiment, the reference water level detection confirming operation in the storage mode operation and the reference water level detection confirming operation in the execution mode are different operations, but the reference water level detection confirming operation is performed in both the storage mode and the execution mode as follows. Likewise.

For example, the operation in the storage mode is performed in the same manner as in the above-described embodiment, and during the operation in the execution mode, the pressure detection in step 311 in FIG. 4 is omitted, and in step 313, the reheating water switch 16 is turned on. After that, as shown in step S1 of FIG. 2, purge pouring (for example, pouring of 10 liters) is performed to remove the air in the reheating circulation path 14 from the hot water supply heat exchanger 5 side, and this purging pouring is performed. Pressure sensor 13 after hot water
The pressure may be detected by and the detected pressure may be determined as the reference water level.

On the contrary, when operating in the storage mode,
In step 105 of FIG. 2, after performing 10 liters of purged pouring, the pressure sensor 13 detects the pressure, and then the circulation pump 18 is driven in step 106 and the signal of the reheating water switch 16 in step 107 is output. Detection is performed, and the operation of purging pouring water → pressure detection → circulating pump 18 startup → signal detection of the reheating water flow switch 16 is repeated, and when the reheating water flow switch 16 first detects water flow, The pressure detected by the pressure detection may be determined as the reference water level.

Contrary to the above embodiment, the reference water level detection confirmation operation is performed. In the memory mode operation, the operations from step 310 to step 313 in FIG. When it is detected, the previous water level detection value is set as the reference water level, and during the operation of the execution mode, as shown in steps 107 to 108 of FIG. 2, purging after confirmation of the ON signal of the reheating water switch 16 is performed. The detected water level detected after hot water may be set as the reference water level.

However, in the operation of the execution mode, it is necessary until the bathtub water level is slightly above the return port of the return pipe 15 of the reheating circulation path 14 based on the water filling control data created by the operation of the storage mode. However, since the pouring amount is not known during the operation in the storage mode, the pouring water switch 16 is turned on during the operation in the storage mode as in the above embodiment. The reference water level detection confirmation operation can be performed more efficiently by performing the purge pouring and detecting the bath water level.

Further, in the automatic water filling device and the automatic water filling control method of the present invention, the reference water level detection and determination operation is performed by the characteristic operation as in the above-described embodiment, and the determination reference water level is determined from the determined reference water level. Since the operation up to the set water level is performed according to the predetermined operation procedure, the pouring control operation before the reference water level detection confirmation operation and the specific pouring operation after the reference water level detection confirmation operation are the above. The operation is not limited to the operation in the embodiment, but may be set appropriately.

[0067]

According to the first aspect of the present invention, pouring of a predetermined amount of water into a bath is performed, and after the pouring, the circulating pump is activated to run hot water in the bathtub. The bathtub hot water check operation with detection is repeated, and after the bathtub hot water flow is first detected, purge pouring is performed to remove the air in the circulation circuit from the hot water source, and then the bath water level is detected to detect this. Since the water level is set as the reference water level, the accurate bathtub water level can be detected without being affected by the air, with the air in the water filling passage and the reheating circulation path removed by purge pouring. Therefore, it is possible to obtain an accurate reference water level by confirming this detected water level as the reference water level.

Further, in the second aspect of the present invention, after confirming that the circulating pump is started and no running water is detected in the bath water hot water recirculation route, purge pouring is performed, and the bath water level is detected after the purging pouring. In order to perform the operation to detect the flow of hot water in the bathtub by starting the circulation pump after that, even if air enters the reheating circulation path by starting the circulation pump, the bathtub detected before that The water level detection value can be detected as an accurate value that is not affected by air. Therefore, 1
When the flow of hot and cold water in the bathtub is first detected after performing the operation more than once, the bathtub water level detection value before that is determined as the reference water level, whereby the reference water level can be accurately obtained and determined.

As described above, in both the first invention and the second invention, since the reference water level can be accurately detected and confirmed, the pouring from the reference water level to the set water level is determined from the reference water level to the set water level. By performing the pouring with the pouring amount up to, the automatic filling operation can be accurately performed.

Further, in the operation of the hot water filling execution mode, after pouring water by aiming for the water level below the connection part of the reheating circulation path, the running water is detected by the signal detection of the running water detection sensor by starting the circulation pump. According to the present invention, when the hot water supply source performs the purge pouring to remove the air in the reheating circulation path and the water level detected by the water level detection sensor after the purge pouring is determined as the detected water level, Even when the operation of the execution mode is started with residual water, the water level in the bathtub can be detected and confirmed accurately.Therefore, accurate pouring from the confirmed detected water level to the set water level is required. The automatic filling operation can be performed.

Further, according to the present invention, the pouring electromagnetic valve is provided in the pouring passage, and the water level detecting sensor is provided in the pouring passage downstream of the pouring electromagnetic valve.
Compared to when the water level detection sensor is installed in the reheating circuit,
By the purge pouring, the air around the water level detection sensor can be removed more reliably, and the reference water level detection confirmation operation can be performed more completely and accurately.

[Brief description of drawings]

FIG. 1 is a block diagram showing a main configuration of a control section of an embodiment of an automatic water filling device according to the present invention.

FIG. 2 is a flowchart showing an operation in a storage mode in the automatic water filling device according to the embodiment.

FIG. 3 is a flowchart following the operation of FIG. 2 in the memory mode of the automatic water filling device according to the embodiment.

FIG. 4 is a flowchart showing an operation in an execution mode in the automatic water filling device according to the embodiment.

FIG. 5 is a flowchart showing the operation of the execution mode in the automatic water filling device of the above-described embodiment following FIG.

FIG. 6 is an explanatory view of the pouring amount at each stage in the filling operation in the storage mode of the automatic filling device.

FIG. 7 is an explanatory diagram of a system configuration example of a water heater with a water filling function as an automatic water filling device.

FIG. 8 is a block diagram illustrating a configuration example of a main part of a control unit of a conventional automatic water filling device.

FIG. 9 is a graph showing an example of water filling condition data created by an operation in a storage mode of an automatic water filling device.

FIG. 10 is a flowchart showing the operation of the storage mode of the conventional automatic water filling device.

[Explanation of symbols]

 8 Automatic water filling control unit 14 Reheating circuit 16 Reheating water switch 18 Circulation pump 21 Water filling pipe 23 Purging pouring drive unit 25 Standard water level determination unit 27 Operation control unit

Claims (7)

[Claims] 1. A hot water supply source is connected to a reheating circulation path connected to a side wall of a bathtub through a water filling passage, and the hot water of the hot water supply source is dropped into the bathtub through the water filling passage and the reheating circulation path. A piping system is provided, a circulation pump for circulating hot water in the bathtub and a flowing water detection sensor for detecting the flow of hot water are provided in the reheating circulation path, and a water level detection sensor for detecting the bath water level and hot water supply. A flow rate detection sensor for detecting the amount of water dropped from the water source into the bathtub is provided, and the reference water level is confirmed after confirming pouring to a reference water level slightly above the connection portion of the reheating circulation path to the bathtub. To the set water level according to a predetermined procedure, automatic pouring equipment, pouring a predetermined amount of predetermined and the signal detection of the running water detection sensor by starting the circulation pump after this pouring Repeating the bath water check operation to perform, the purge pouring drive unit for performing the purge pouring to remove the air in the reheating circulation circuit from the hot water source after the flowing water is first detected by the flowing water detection sensor, and this purging It has a reference water level confirmation unit that confirms and confirms the detected water level detected by the water level detection sensor as a reference water level after pouring, and pouring from the reference water level to the set water level is confirmed by the reference water level determination unit. An automatic water filling device characterized by pouring the amount of water from the fixed standard water level to the set water level. 2. A hot water supply source is connected to a reheating circulation path connected to a side wall of the bathtub through a water filling passage, and the hot water of the hot water supply source is dropped into the bathtub through the water filling passage and the reheating circulation passage. A piping system is provided, a circulation pump for circulating hot water in the bathtub and a flowing water detection sensor for detecting the flow of hot water are provided in the reheating circulation path, and a water level detection sensor for detecting the bath water level and hot water supply. A flow rate detection sensor for detecting the amount of water dropped from the water source into the bathtub is provided, and the reference water level is confirmed after confirming pouring to a reference water level slightly above the connection portion of the reheating circulation path to the bathtub. In the automatic water filling device that performs pouring from the set water level according to a predetermined procedure, after confirming that running water is not detected by the running water detection sensor by starting the circulation pump, After the pouring pouring drive unit for performing the purging pouring to remove the air in the reheating circulation path from the hot water supply source, the purging pouring and the water level detection sensor for the bath after the purging pouring and the water level detection sensor after the purging pouring The signal detection confirmation operation of the running water detection sensor by activating the circulating pump is performed once or more, and when the running water detection sensor detects running water for the first time, the water level detection value from the preceding water level detection sensor is confirmed and confirmed as the reference water level. And a reference water level determination unit that
The automatic water filling device is characterized in that the pouring from the reference water level to the set water level is performed by pouring the amount of water from the fixed reference water level set by the reference water level setting unit to the set water level. 3. The purge pouring drive unit, in the operation of the hot water filling execution mode, pours water by aiming for the water level below the connection part of the reheating circulation path, and then the running water detection sensor by starting the circulation pump. When the running water is detected by the signal detection of the above, it is configured to perform the purge pouring to remove the air in the reheating circulation circuit from the hot water supply source, and detect the water level detected by the water level detection sensor after the purging pouring. The automatic water filling device according to claim 1 or 2, characterized in that 4. A pouring electromagnetic valve is provided in the pouring passage, and a water level detection sensor is provided in the pouring passage downstream of the pouring electromagnetic valve. 1
Alternatively, the automatic water filling device according to claim 2 or claim 3. 5. The pouring of hot water from the hot water supply source into the hot water circulation path provided with a circulation pump to a reference water level slightly above the connection to the bathtub of the hot water circulation path through the hot water circulation path equipped with a circulation pump. It is an automatic filling control method that performs pouring from the reference water level to a set water level according to a predetermined procedure after confirming the hot water, and pouring a predetermined amount of water and starting the circulation pump after the pouring. By repeating the bathtub hot and cold water recirculation detection by the bathtub and the bathtub hot and cold water confirmation operation,
First, after the flow of hot water in the bathtub is detected, purge hot water is removed from the hot water supply source to remove the air in the reheating circuit, and after that, the bath water level is detected and the detected water level is confirmed as the reference water level. The automatic filling method is characterized in that the amount of water from the fixed reference water level to the set water level is poured according to a predetermined procedure. 6. The pouring of the hot water of the hot water supply source through a hot water passage through a hot water recirculation circuit equipped with a circulation pump to a reference water level slightly above the connection to the bathtub of the reheat hot water circulation path. An automatic water filling control method in which hot water is poured from the reference water level to a set water level in accordance with a predetermined procedure after confirming hot water, and running water in the bathtub hot water reheating circulation path is not detected by starting the circulation pump. After confirming that, the purge pouring that removes the air in the reheating circulation path from the hot water supply source, the bath water level detection by the water level detection sensor after this purge pouring, and the start of the circulation pump after this water level detection When the running water detection confirmation operation in the bathtub hot water recirculation circuit is performed one or more times and the running water is first detected, the water level detection value by the water level detection sensor before that is confirmed as the reference water level. The automatic filling control method is characterized in that the amount of water from the fixed reference water level to the set water level is poured according to a predetermined procedure. 7. In the operation of the hot water filling execution mode, after pouring water by aiming for the water level below the connection part of the reheating circulation path, running water is detected by the signal detection of the running water detection sensor by starting the circulation pump. 6. When it is spoiled, purge pouring to remove the air in the reheating circulation path from the hot water supply source is performed, and the water level detected by the water level detection sensor after this purging pouring is determined as the detected water level.
Alternatively, the automatic hot water filling control method according to claim 6.