JP3811520B2 - Bathtub water level detection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a water level detection method for a bathtub in which water in the bathtub is circulated in a circulation path and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
[0002]
[Prior art]
As a conventional method for detecting the water level in a bathtub, for example, a bathtub and a heater are connected by a circulation path, the water in the bathtub is circulated, the air in the circulation path is discharged, and then the water pressure in the circulation path is measured with a pressure sensor. Some have detected and measured the water level of the bathtub from the detected value.
[0003]
[Problems to be solved by the invention]
However, in such a conventional water level detection method for a bathtub, if there is a water level in the vicinity of the height of the inlet / outlet leading to the circulation path established on the side wall of the bathtub, air on the water surface passes through the inlet / outlet as it circulates. The pressure is detected in an inappropriate state because it is drawn into the circulation path, and there is a problem that an accurate water level cannot be measured.
The present invention has been made paying attention to such a conventional problem, and by detecting pressure detection in an improper state in which air on the water surface is drawn into the circulation path through the inlet / outlet, the inaccurate water level is determined. It aims at providing the water level detection method of the bathtub which can prevent a measurement.
[0004]
[Means for Solving the Problems]
The gist of the present invention for achieving this object resides in the invention described in the following items.
1 Water in the bathtub (18) is circulated in the circulation path (12 ) by the pump (15) , and the water level of the bathtub (18) is determined by the output value of the pressure sensor (19) provided in the circulation path (12). In the method for detecting the water level in a bathtub,
The output difference between the output value of the pressure sensor (19) before or after circulation and the output value of the pressure sensor (19) during circulation is detected in advance in an appropriate detection state in which air is not drawn into the circulation path (12). It is determined whether or not it is in an appropriate detection state where air is not drawn into the circulation path (12) depending on whether or not the output difference between the two output values is within an error range. (12) The water level detection method of the bathtub characterized by making it the appropriate detection state which supplied hot water to the water level which is not drawn in .
[0005]
2 Water in the bathtub (18) is circulated in the circulation path (12 ) by the pump (15) , and the water level of the bathtub (18) is determined by the output value of the pressure sensor (19) provided in the circulation path (12). In the method for detecting the water level in a bathtub,
It is determined whether or not the amplitude of the output value of the pressure sensor (19) during the circulation is equal to or less than a reference value, whether or not it is in an appropriate detection state in which air is not drawn into the circulation path (12) , A method for detecting a water level in a bathtub, wherein a proper detection state in which hot water is supplied to a water level that does not draw air into the circulation path (12) is set .
[0006]
3 Water in the bathtub (18) is circulated in the circulation path (12 ) by the pump (15) , and the water level of the bathtub (18) is determined by the output value of the pressure sensor (19) provided in the circulation path (12). In the method for detecting the water level in a bathtub,
Air is not drawn into the circulation path (12) depending on whether the output difference between the output value of the pressure sensor (19) before the circulation start and the output value of the pressure sensor (19) after the circulation is within the error range. A water level detection method for a bathtub characterized by determining whether or not it is in an appropriate detection state, and setting an appropriate detection state in which hot water is supplied to a water level that does not draw air into the circulation path (12) .
[0007]
4 If the air is not in the proper detection state where the air is not drawn into the circulation path (12), the water level is increased by pouring water, the air is brought into the proper detection state where the air is not drawn into the circulation path (12), The method for detecting a water level in a bathtub according to any one of claims 1 to 3, wherein the water level is detected.
[0008]
5 Water in the bathtub (18) is circulated in the circulation path (12 ) by the pump (15) , and the water level of the bathtub (18) is determined by the output value of the pressure sensor (19) provided in the circulation path (12). In the water level detection device for bathtubs,
The output difference between the output value of the pressure sensor (19) before or after circulation and the output value of the pressure sensor (19) during circulation is detected in advance in an appropriate detection state in which air is not drawn into the circulation path (12). An arithmetic unit (33) for determining whether or not an appropriate detection state in which air is not drawn into the circulation path (12) depending on whether or not the output difference between the two output values is within an error range. A water level detection device for a bathtub, wherein the water level detection device is in an appropriate detection state in which hot water is supplied to a water level that does not draw air into the circulation path (12) .
[0009]
6 Water in the bathtub (18) is circulated in the circulation path (12 ) by the pump (15) , and the water level of the bathtub (18) is determined by the output value of the pressure sensor (19) provided in the circulation path (12). In the water level detection device for bathtubs,
An operation for determining whether or not the fluctuation range of the output value of the pressure sensor (19) during the circulation is equal to or less than a reference value, and determining whether or not it is in an appropriate detection state in which air is not drawn into the circulation path (12). A water level detection device for a bathtub, which is provided with a portion (33) and is in an appropriate detection state in which hot water is supplied to a water level that does not draw air into the circulation path (12) .
[0010]
7 Water in the bathtub (18) is circulated in the circulation path (12 ) by the pump (15) , and the water level of the bathtub (18) is determined by the output value of the pressure sensor (19) provided in the circulation path (12). In the water level detection device for bathtubs,
Air is not drawn into the circulation path (12) depending on whether the output difference between the output value of the pressure sensor (19) before the circulation start and the output value of the pressure sensor (19) after the circulation is within the error range. A water level detection device for a bathtub, which has a calculation unit (33) for determining whether or not it is in an appropriate detection state and is in an appropriate detection state in which hot water is supplied to a water level that does not draw air into the circulation path (12). .
[0011]
Next, the operation of the invention described in each of the above items will be described.
In the water level detection method of the bathtub of Claim 1,
The output value of the pressure sensor (19) before circulation is obtained.
Next, for example, the pump is operated to circulate the water in the bathtub (18) in the circulation path (12), and the output value of the pressure sensor (19) during the circulation is obtained.
Next, an output difference between the output value of the pressure sensor (19) before circulation and the output value of the pressure sensor (19) during circulation is calculated, and the calculated output difference and air are drawn into the circulation path (12). The output difference between the two output values detected in advance in an appropriate detection state is compared.
[0012]
As a result of comparison, if both pressure differences are within the measurement error range, it is determined that the output value of the pressure sensor (19) during circulation is an output value in an appropriate detection state, and the water level is calculated from the output value. can do.
On the other hand, as a result of comparison, if both pressure differences are outside the measurement error range, it is determined that the output value of the pressure sensor (19) during circulation is an output value in an inappropriate detection state, and based on the output value The calculated water level can be dealt with as inaccurate.
Although the output difference between the output value of the pressure sensor (19) before circulation and the output value of the pressure sensor (19) during circulation was calculated, the output value of the pressure sensor (19) after circulation and the pressure sensor during circulation ( The output difference from the output value of 19) may be calculated.
[0013]
In the bathtub water level detection method according to claim 2,
Since it is determined whether or not it is an appropriate detection state in which air is not drawn into the circulation path (12) from the fluctuation width of the output value of the pressure sensor (19) during circulation, the fluctuation width is, for example, If it is a comparatively small amplitude detected in advance in the proper detection state, it is determined that the output value of the pressure sensor (19) during circulation is the output value in the proper detection state, and the water level is determined from the output value. Can be calculated.
[0014]
On the other hand, if the amplitude is larger than the amplitude detected in advance in the proper detection state, for example, it is determined that the output value of the pressure sensor (19) during circulation is the output value in the inappropriate detection state, The calculated value of the water level based on the output value can be dealt with as inaccurate.
[0015]
In the bathtub water level detection method according to claim 3,
Whether or not it is an appropriate detection state in which air is not drawn into the circulation path (12) from the output difference between the output value of the pressure sensor (19) before the start of circulation and the output value of the pressure sensor (19) after the end of circulation. If the output difference is a relatively small difference that is detected in advance in an appropriate detection state, for example, the output value of the pressure sensor (19) during circulation is an output in the appropriate detection state. It is determined that the value is a value, and the water level can be calculated from the output value.
On the other hand, if the output difference is larger than the output difference detected in advance in the proper detection state, for example, it is determined that the output value of the pressure sensor (19) during circulation is the output value in the inappropriate detection state, The calculated value of the water level based on the output value can be dealt with as inaccurate.
[0016]
In the bathtub water level detection method according to claim 4,
If it is not in the proper detection state where the air is not drawn into the circulation path (12), the water level is increased by pouring water, and after changing to the proper detection state where the air is not drawn into the circulation path (12), the water level is again adjusted. Since detection is performed, pressure detection in an appropriate detection state is eliminated, and the water level can be accurately calculated from the output value of the pressure sensor (19).
[0017]
In the bathtub water level detection device according to claim 5,
The computing unit (33) calculates the output difference between the output value of the pressure sensor (19) before circulation and the output value of the pressure sensor (19) during circulation, and calculates the calculated output difference and air to the circulation path ( 12) The output difference between the two output values detected in advance in an appropriate detection state not drawn in is compared.
As a result of comparison, if both pressure differences are within the measurement error range, it is determined that the output value of the pressure sensor (19) during circulation is an output value in an appropriate detection state, and the water level is calculated from the output value. can do.
[0018]
On the other hand, as a result of comparison, if both pressure differences are outside the measurement error range, it is determined that the output value of the pressure sensor (19) during circulation is an output value in an inappropriate detection state, and based on the output value The calculated water level can be dealt with as inaccurate.
Although the output difference between the output value of the pressure sensor (19) before circulation and the output value of the pressure sensor (19) during circulation was calculated, the output value of the pressure sensor (19) after circulation and the pressure sensor during circulation ( The output difference from the output value of 19) may be calculated.
[0019]
In the bathtub water level detection device according to claim 6,
Since the calculation unit (33) is configured to determine whether or not it is an appropriate detection state in which air is not drawn into the circulation path (12) from the fluctuation range of the output value of the pressure sensor (19) during circulation. If the fluctuation width is, for example, a relatively small fluctuation width that is detected in advance in an appropriate detection state, it is determined that the output value of the pressure sensor (19) during circulation is the output value in the appropriate detection state. The water level can be calculated from the output value.
On the other hand, if the amplitude is larger than the amplitude detected in advance in the proper detection state, for example, it is determined that the output value of the pressure sensor (19) during circulation is the output value in the inappropriate detection state, The calculated value of the water level based on the output value can be dealt with as inaccurate.
[0020]
In the bathtub water level detection device according to claim 7,
The calculation unit (33) is configured so that air is not drawn into the circulation path (12) from the output difference between the output value of the pressure sensor (19) before the start of circulation and the output value of the pressure sensor (19) after the end of circulation. Since it is determined whether or not it is in a detection state, if the output difference is a relatively small difference that is detected in advance in an appropriate detection state, for example, the output value of the pressure sensor (19) during circulation Is an output value in an appropriate detection state, and the water level can be calculated from the output value.
On the other hand, if the output difference is larger than the output difference detected in advance in the proper detection state, for example, it is determined that the output value of the pressure sensor (19) during circulation is the output value in the inappropriate detection state, The calculated value of the water level based on the output value can be dealt with as inaccurate.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
Each figure shows an embodiment of the present invention.
As shown in FIG. 2, the present invention is applied to a bathtub 10, and the bathtub 10 includes a tub 18, a circulation pipe 12 for remedy that is a circulation path for circulating water in the tub 18, and The circulation pipe 12 is composed of a return pipe 12a connected to the forward pipe 12b via a circulation pump 15, and the heater comprises a remedy burner 13 and a remedy heat exchanger. Consists of.
[0022]
A gas supply pipe is connected to the burner 13 for remedy via a gas valve 13a, and a thermistor 16 and a running water sensor 17 for detecting water flow and outputting a detection signal are provided on the return pipe 12a. .
The heater is provided with a hot water heater capable of pouring hot water. A water supply pipe 21 is connected to the inlet side of the heat exchanger 25 for the hot water heater, the water supply pipe 21 is connected to a water supply source such as a water supply, and a flow rate sensor 20 is interposed in the water supply pipe 21. A hot water supply pipe 22 is connected to the outlet side of the heat exchanger 25 for the hot water heater, and the hot water supply pipe 22 is extended to a desired hot water supply place such as a kitchen.
[0023]
A hot water filling pipe 26 is branched into the hot water supply pipe 22. The hot water filling pipe 26 has a pouring electromagnetic valve 24 as a pouring control valve, a flow rate detection sensor 29 for detecting the flow rate of the hot water filling, and a bathtub water level. A pressure sensor 23 as a water level detection sensor to be detected is provided. The tip end of the hot water filling pipe 26 is connected to the inlet side of the heat exchanger 14 in the circulation pipe 12. Thereby, memorial operation and pouring hot water operation are possible. Further, a hot water supply burner hot water pipe 25 a is provided below the hot water supply heat exchanger 25, a water supply temperature sensor 27 is provided in the water supply pipe 21, and a hot water temperature sensor 28 is provided in the hot water supply pipe 22. Is provided.
[0024]
As shown in FIG. 1, the output signal of the pressure sensor 23 is AD converted, written to the storage unit 34, read into the calculation unit 33, and subjected to calculation processing, and then a reference output value that is a buffer of the determination unit 30. The data is written in the memory 31 and the actual output value memory 32. In the writing to the reference output value memory 31, the water level of the bathtub 18 is set in a predetermined appropriate state in advance to operate the circulation pump 15, the air in the circulation line 12 is discharged, and new air is supplied to the circulation line 12. It is performed in a proper state not to be drawn into. At this time, the memory contents of the reference output value memory 31 include the output difference between the output value of the pressure sensor 23 before circulation and the output value of the pressure sensor 23 during circulation, and the fluctuation width of the output value of the pressure sensor 23 during circulation. In addition, the output difference information between the output value of the pressure sensor 23 before the start of circulation and the output value of the pressure sensor 23 after the end of circulation corresponds to the output information.
[0025]
Writing to the actual output value memory 32 is performed in actual water level measurement during operation. At this time, the memory contents of the actual output value memory 32 are similarly the output difference between the output value of the pressure sensor 23 before circulation and the output value of the pressure sensor 23 during circulation, and the output of the pressure sensor 23 during circulation. The value fluctuation range, and information on the output difference between the output value of the pressure sensor 23 before the start of circulation and the output value of the pressure sensor 23 after the end of circulation correspond to each other. The memory areas of the reference output value memory 31 and the actual output value memory 32 may be provided in the storage unit 34 without being specially provided in the determination unit 30.
[0026]
As shown in FIGS. 3A and 3B, the following is observed through experiments. That is, in the inappropriate pressure detection state shown in FIG. 3B in which the water level of the bathtub 18 is in the vicinity of the entrance / exit of the circulation conduit 12 and air is drawn into the circulation conduit 12 during circulation, the pressure before circulation The output difference between the output value of the sensor 23 and the output value of the pressure sensor 23 during circulation is smaller than the output difference in the proper pressure detection state shown in FIG. Further, in the inappropriate pressure detection state shown in FIG. 3B, the fluctuation range (maximum value P _MAX -minimum value P _MIN ) of the output value of the pressure sensor 23 during circulation is the appropriate value shown in FIG. It is larger than the fluctuation range of the pressure value in the normal pressure detection state. Further, in the inappropriate pressure detection state shown in FIG. 3B, the output difference between the output value of the pressure sensor 23 before the start of circulation and the output value of the pressure sensor 23 after the end of circulation is shown in FIG. It is larger than the output difference in the proper pressure detection state shown (the output difference in the proper case is almost equal to 0). The degree of magnitude, such as output difference and output difference in an appropriate pressure detection state, is also sought by experiments.
[0027]
A control panel 40 that can be remotely operated is connected to the storage unit 34, and an operation switch, a chasing operation switch, and a hot water temperature display unit are disposed on the control panel 40. The storage unit 34 stores a water level control program and a memory control program for the bathtub 18.
In the water level control program, the storage unit 34 outputs a start signal to the drive circuit 35, the circulation pump 15 is energized by the drive circuit 35, the circulation pump 15 is started, and the water in the bathtub 18 is connected to the circulation line 12. Will circulate. When the water in the bathtub 18 circulates in the circulation pipe 12, the pressure sensor 23 outputs an output value that is a dynamic pressure during the circulation to the storage unit 34.
[0028]
On the other hand, before the storage unit 34 outputs the start signal, that is, before the start of circulation, the output value that is the static pressure before circulation from the pressure sensor 23 is periodically written in the storage unit 34. When the circulating output value is written in the storage unit 34, a predetermined number of the circulating output values are read out to the calculation unit 33, and the calculation unit 33 calculates the fluctuation width of the output value in the predetermined number of output values. The calculated fluctuation width is written in the actual output value memory 32. Further, when the circulating output value is written in the storage unit 34, the circulating output value and the pre-circulating output value are read to the computing unit 33, and the computing unit 33 circulates the pre-circulating output value and the circulating value. The pressure difference from the output value inside is calculated, and the calculated pressure difference is written in the actual output value memory 32. Further, when the output value after the end of circulation is written in the storage unit 34, the arithmetic unit 33 writes the output difference between the output value before the start of circulation and the output value after the end of circulation in the actual output value memory 32.
[0029]
The calculation unit 33 reads each information in the actual output value memory 32 and each information in the reference output value memory 31 corresponding to each information in accordance with the water level control program, compares the information, and compares the information of the comparison result. The data is output to the storage unit 34. As a comparison between the two, the storage unit 34 outputs a valve drive signal to the drive circuit 35 when information indicating that the pressure detection state is inappropriate is written as information of the comparison result. The hot-water valve actuator 36 is energized, whereby the hot-water valve 24 is opened, hot water on the hot water supply side flows into the circulation line 12 via the water supply pipe 21, and the forward pipe 12b of the circulation line 12 flows. The hot water (about 10 liters) is poured into the bathtub 18 and the water level of the bathtub 18 is increased accordingly, and the water level of the bathtub 18 is increased, so that an appropriate pressure detection state is obtained.
[0030]
On the other hand, when the determination information that the pressure detection state is appropriate is written in the storage unit 34 as the information of the comparison result, the valve drive signal is not output to the drive circuit 35, and the pouring valve 24 remains closed, When the correct water level of the bathtub 18 is calculated based on the output value of the pressure sensor 23 without pouring into the bathtub 18 and the accurate water level is calculated, the storage unit 34 controls the drive circuit 35 to perform gas valve control. A signal is output, the actuator for the gas valve is energized by the drive circuit 35, the actuator for the gas valve is activated, the gas valve 13a is opened, the combustion burner 13 is ignited, and combustion is started, A memorial operation is performed.
[0031]
Next, the operation will be described.
The operation of this embodiment will be described based on the flowcharts shown in FIGS.
When the automatic hot water filling switch of the control panel 40 is turned on in step 101 of FIG. 4, the hot water filling program in the storage unit 34 is started. In step 102, A liter (40 liters) of priming water is first dropped into the bathtub 18. Next, when the circulation pump 15 is operated for a short time in step 103, it is determined in step 104 whether or not the running water sensor 17 is off. When the running water sensor 17 is not turned off, a storage error notification is performed at step 123.
[0032]
Next, in step 105, B liter (10 liters) of unit water volume is dropped intermittently, and every time this unit water volume of hot water is dropped, in step 106, the circulation pump 15 is turned on for a short time. In step 107, it is determined whether or not the running water sensor 17 is on, and a bath hot / cold water confirming operation is performed to confirm that the hot water circulation in the circulation pipe 12 is first detected.
If the running water sensor 17 is on, the pressure sensor 23 outputs a predetermined number of output values to the storage unit 34 in step 125. When a predetermined number of output values are written in the storage unit 34, the arithmetic unit 33 calculates the maximum value P _MAX and the minimum value P _MIN from the predetermined number of output values, and the minimum value P _MAX from the maximum value P _{MAX. MIN} is subtracted and the subtraction value is recorded in the actual output value memory 32.
[0033]
Next, at step 126, it is determined whether or not the subtraction value recorded in the actual output value memory 32 is less than or equal to the reference value recorded in the reference output value memory 31.
At this time, if the water level of the bathtub 18 is in the vicinity of the return port of the return pipe 12a, when the circulation pump 15 is operated, air may be taken into the circulation pipe 12 and hot water in the bathtub 18 may circulate. Since the output value of the pressure sensor 23 greatly fluctuates beyond the reference value and an error occurs in the water level detection, the subtraction value recorded in the actual output value memory 32 is recorded in the reference output value memory 31. After the hot water check operation of the bathtub 18 so that the water level is such that the air is not taken into the circulation pipe 12, C liters (about 10 liters) of hot water set as the initial reference water amount is further added. The hot water is poured in step 108, the water level at this time is set as the reference water level, and the pressure of this reference water level is detected by the pressure sensor 23 in step 109.
[0034]
The value of C liter is determined as the amount of hot water to be supplied to the reference water level after the bathtub hot water confirmation operation (initial reference water amount), and is stored in the initial reference water amount data memory as the initial reference water amount storage unit.
On the other hand, if the subtraction value recorded in the actual output value memory 32 is equal to or smaller than the reference value recorded in the reference output value memory 31 in step 126, the water level at this time is set as the reference water level in step 109. .
[0035]
Next, in step 110, hot water of D liters (30 liters) is supplied, and in step 111, the water level at this time is detected by the pressure sensor 23 as the pressure value PB. In step 112, a pressure difference ΔP = Pb−Pa is obtained, and in step 113, it is determined whether or not the pressure difference ΔP is equal to or greater than Xcm. The value of X is a value set based on the expected amount of the water level difference that rises by pouring D liters in step 110, and is set to an appropriate value greater than zero.
[0036]
When the pressure difference ΔP is less than Xcm, an error is notified at step 124, and when the pressure difference ΔP is equal to or greater than Xcm, the process proceeds to step 114. In step 114, the opening area S of the bathtub 18 is calculated by dividing the D liter by the value of the pressure difference Pb-Pa. Note that the hot water condition data created by the operations from step 101 to step 114 is stored in the storage unit 34.
[0037]
Next, in step 116, it is determined whether or not the water level at this time has reached a preset water level designated in advance by the remote controller 45 or the like, and until the bathtub water level reaches the set water level by the operations of step 117 and step 118. When pouring is performed and the set water level is reached, the routine proceeds to step 119. Then, in step 119, the circulating pump 15 is driven in a state in which the pouring electromagnetic valve 24 is closed, and in step 120, until it is determined that the bath temperature reaches the set temperature specified on the control panel 40, step The memorial operation by 121 is performed, and when the bath temperature reaches the set temperature, it is boiled at step 122 and a buzzer is sounded.
[0038]
The operation in the execution mode is based on the condition data stored during the operation in the storage mode. First, it is determined whether or not the running water sensor 17 is turned on when the circulation pump 15 is driven for a short time. When it is confirmed that the flowing water sensor 17 is turned on for the first time, C liters as the initial reference water amount is poured, thereby pouring up to the reference water level. Then, both of the pouring from the reference water level to the designated set water level are determined by, for example, calculating the opening area SX (set water level-detected water level) and pouring the obtained pouring amount. Pour hot water up to the water level.
[0039]
In the above-described embodiment, the step 126 determines whether or not the subtraction value recorded in the actual output value memory 32 is equal to or less than the reference value recorded in the reference output value memory 31. The output difference between the output value of the pressure sensor 23 before circulation and the output value of the pressure sensor 23 during circulation, and the both output values previously detected in an appropriate detection state in which air is not drawn into the bathtub 18 It is possible to determine whether or not the detection state is appropriate from the output difference between the output value of the pressure sensor 23 and the reference value for the output difference. From the output difference from the output value of the pressure sensor 23, the comparison may be made with a reference value for the output value to determine whether or not it is an appropriate detection state in which air is not drawn into the circulation path.
[0040]
【The invention's effect】
According to the water level detection method for a bathtub according to the present invention, it is possible to discriminate pressure detection in an inappropriate state in which air on the water surface is drawn into the circulation path through the inlet / outlet, thereby preventing inaccurate measurement of the water level. .
[Brief description of the drawings]
FIG. 1 is a block diagram of a water level detection device showing an embodiment of the present invention.
FIG. 2 is a conceptual diagram of a bath tub showing an embodiment of the present invention.
FIG. 3 is an experimental result diagram of a water level detection device showing an embodiment of the present invention.
FIG. 4 is a flow chart of a water level detection device showing an embodiment of the present invention.
FIG. 5 is a flow chart of a water level detection device showing an embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Bath pot 12 ... Circulation line 13 ... Burner 14 ... Heat exchanger 15 ... Pump 16 ... Thermistor 17 ... Flowing water sensor 18 ... Bath 20 ... Flow rate sensor 21 ... Water supply pipe 22 ... Hot water supply pipe 23 ... Pressure sensor 24 ... Pouring water Solenoid valve 30 ... determining unit 31 ... reference output value memory 32 ... actual output value memory 33 ... calculating unit 34 ... storage unit 35 ... driving circuit 36 ... actuator 40 for pouring valve ... control panel

Claims (7)

In the water level detection method for a bathtub, wherein water in the bathtub is circulated in a circulation path by a pump , and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
The output difference between the output value of the pressure sensor in the circulation and the output value of the pressure sensor after the circulation before or circulation, of the two output values previously detected in an appropriate detection state does not draw air into the circulation path Depending on whether or not it is within the error range for the output difference , it is determined whether or not it is in an appropriate detection state where air is not drawn into the circulation path, and an appropriate detection state where hot water is supplied to a water level where air is not drawn into the circulation path A method for detecting a water level in a bathtub. In the water level detection method for a bathtub, wherein water in the bathtub is circulated in a circulation path by a pump , and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
It is determined whether the fluctuation of the output value of the pressure sensor during circulation is below the reference value, whether it is in a proper detection state where air is not drawn into the circulation path, and air is drawn into the circulation path A method for detecting the water level in a bathtub, characterized in that an appropriate detection state is provided in which hot water is supplied up to no water level . In the water level detection method for a bathtub, wherein water in the bathtub is circulated in a circulation path by a pump , and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
Whether or not it is an appropriate detection state in which air is not drawn into the circulation path depending on whether or not the output difference between the pressure sensor output value before the circulation start and the pressure sensor output value after the circulation is within the error range The water level detection method of the bathtub characterized by making it into the appropriate detection state which supplied hot water to the water level which does not draw air into a circulation path .   When it is not in the proper detection state where the air is not drawn into the circulation path, the water level is increased by pouring water, and after changing to the proper detection state where air is not drawn into the circulation path, the water level is detected again. The water level detection method of the bathtub of Claims 1, 2, and 3 characterized by the above-mentioned. In the water level detection device for a bathtub, in which water in the bathtub is circulated in a circulation path by a pump , and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
The output difference between the output value of the pressure sensor in the circulation and the output value of the pressure sensor after the circulation before or circulation, of the two output values previously detected in an appropriate detection state does not draw air into the circulation path Equipped with a calculation unit that determines whether air is in the proper detection state that does not draw air into the circulation path depending on whether it is within the error range for the output difference , and is appropriate for supplying hot water to a water level that does not draw air into the circulation path A water level detection device for a bathtub, characterized in that it is in a state of detection. In the water level detection device for a bathtub, in which water in the bathtub is circulated in a circulation path by a pump , and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
A calculation unit is provided for determining whether or not the fluctuation of the output value of the pressure sensor during circulation is equal to or less than a reference value, and for determining whether or not an appropriate detection state in which air is not drawn into the circulation path is provided . A water level detection device for a bathtub, which is in an appropriate detection state in which hot water is supplied up to a water level that is not drawn into the circulation path . In the water level detection device for a bathtub, in which water in the bathtub is circulated in a circulation path by a pump , and the water level of the bathtub is detected by an output value of a pressure sensor provided in the circulation path.
Whether or not it is an appropriate detection state in which air is not drawn into the circulation path depending on whether or not the output difference between the pressure sensor output value before the circulation start and the pressure sensor output value after the circulation is within the error range A water level detection device for a bathtub, characterized in that a proper detection state in which hot water is supplied to a water level that does not draw air into the circulation path is provided.

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