JP3672961B2 - Bathtub cleaning equipment - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a bath apparatus, and more particularly to a bathtub hot water cleaning apparatus that performs cleaning processing such as filtration, heat retention, and sterilization while forcibly circulating hot water in the bathtub. It is related with the apparatus which can cut | disconnect the power supply to a heater temporarily according to this.
[0002]
[Prior art]
Recently, the hot water in the bathtub has been actively used to keep the hot water in the bathtub clean and suitable temperature, so that it can be comfortably bathed anytime for 24 hours and save water.
[0003]
One example of such a bath water purifier is as shown in FIG. 6, where 1 is a bathtub, 2 is hot water, 3 is a hot water pipe for pumping up hot water 2 in the bathtub 1, and 4 is a hot water pipe. 3 is an apparatus main body in which devices for purifying the hot water pumped up in 3 are arranged together, and 9 is a fountain pipe for causing the hot water processed in the apparatus main body 4 to be ejected into the bathtub 1 again.
[0004]
In order to remove dirt in the bath water, the apparatus main body 4 is forced to have a filtration tank 5 loaded with various granular filter media such as activated carbon, activated stone, porous ceramic balls, or a fibrous filter alone or in combination, and hot water. Cleaning processing equipment such as a circulation pump 6 for circulating, a heater 7 for keeping hot water at an appropriate temperature, and an ozonizer 8 for sterilizing hot water with ozone are provided.
[0005]
Reference numeral 10 denotes a prefilter attached to the tip of the hot water suction pipe 3 in order to remove large dirt before pumping it up into the apparatus main body 4, and reference numeral 11 jets hot water after cleaning treatment into the bathtub 1 as a jet flow having a high flow velocity. The intake pipe 12 is a jet nozzle connected to the ejector section.
[0006]
An electromagnetic valve 13 for opening and closing the pipe line is provided at the tip of the intake pipe 12 connected to the ejector portion of the jet nozzle 11, and an ozonizer 8 is provided in the middle. When the electromagnetic valve 13 is opened, the intake force of the jet nozzle 11 Then, air is sucked in from the intake pipe 12, and this air is mixed into hot water in the ejector section 24, and air is spouted into the bathtub 1 together with hot water from the jet nozzle 11 to form a bubble bath. Further, when the ozonizer 8 is operated, the air sucked in Is ozonized and ejected into the bathtub 1 to sterilize the hot water 2 with ozone.
[0007]
Further, in this apparatus, in order to remove dirt from the filter medium of the filtration tank 5, so-called backwashing is performed by backflowing hot water into the tank, or hot water is flown through a bypass pipe having a low resistance in order to strengthen the jet flow. Switching valves 14 and 15 are respectively provided in the hot water pipe 3 and the fountain pipe 9 so that the paths can be switched.
[0008]
Reference numeral 16 denotes a bypass pipe in which a hot water pipe 3 and a fountain pipe 9 are connected via switching valves 14 and 15 to form a bypass pipe that prevents hot water from passing through the filtration tank 5 having a high resistance. The hot water discharge pipe is connected to the hot water suction pipe 3 via a switching valve 14 for discharging hot water.
[0009]
18 is a check valve provided in the hot water suction pipe 3 to prevent the hot water in the pipe from being drained when the water is filled, or to flow back to the bathtub 1 when the operation of the circulation pump is stopped. No. 19 has hot water in the bathtub, or air is sucked into the pipe line due to damage to the device or other reasons, and the hot water absorption capacity of the circulation pump is lost, so that the hot water does not flow in the circulation path. The pressure difference based on the pressure difference between the suction side and the discharge side of the circulation pump 6 serving as a water shortage sensor acting as a safety device for preventing the heater 7 from being broken or even causing the heater 7 to become empty. A sensor 20 is a hot water temperature sensor that constantly detects the temperature of the hot water and sends it to the control device in order to control the power supply to the heater 7 and keep the temperature of the hot water at an appropriate temperature.
[0010]
In the apparatus configured as described above, the user can operate by setting various operation modes as necessary. Usually, the apparatus is operated in the cleaning mode, and the hot water 2 in the bathtub 1 is After removing large dirt with the prefilter 10, it is filtered with the filtration tank 5, heated with the heater 7, and then ozonized air is ejected from the jet nozzle 11 at the tip of the fountain pipe 9 and sterilized with ozone.
[0011]
Thus, when the apparatus is operated in the cleaning mode, the ozonized air is constantly blown into the bathtub 1, so that the bather does not inhale ozonated air during bathing. The bathing mode for cutting ozone sterilization can be set only for the bathing time. When the bathing mode is set, the operation of the ozonizer 8 is stopped at the same time as the solenoid valve 13 is closed, and the time is about 1 hour. During the set bathing mode time, the spray of ozonized air into the bathtub is stopped.
[0012]
In addition, a jet mode is set to jet a jet stream mixed with air into the bath so that the bather can enjoy the so-called bubble bath.When the jet mode is set in the bath mode, the electromagnetic mode is set. When only the valve 13 is opened and the air sucked from the intake pipe 12 is jetted into the bathtub 1 together with hot water from the jet nozzle 11 to form a bubble bath, the switching valves 14 and 15 are switched when particularly strong is set even in the jet mode. The hot water 2 in the bathtub 1 pumped up from the hot water suction pipe 3 is allowed to flow directly to the hot water pipe 9 via the bypass pipe 16 without flowing through the filtration tank 5 and the heater 7.
[0013]
Then, the resistance of the hot water circulation path decreases and the flow rate of hot water flowing through the jet nozzle 11 increases, and at the same time, the degree of negative pressure formed in the ejector section 24 increases and the amount of intake air from the intake pipe 12 increases. The strength of the flow increases.
[0014]
Further, when it is desired to continue the cleaning process and wash the filter medium in the filtration tank 5, the switching valves 14 and 15 are switched, and the hot water 2 in the bathtub 1 pumped up from the suction pipe 3 is passed through the bypass pipe 16 into the filtration tank 5. Are also provided, such as a backwash mode in which the water is discharged from the hot water pipe 17 and so-called backwashing, and a quiet mode in which the amount of ozone sucked in at midnight is reduced to reduce device noise.
[0015]
[Problems to be solved by the invention]
However, since the device configured as described above consumes a large amount of power, there is a problem in that it is inconvenient to use other electrical devices in the home because the device is installed in a bathroom.
[0016]
That is, in recent homes, various electric devices with large power consumption such as a hair dryer of about 1200 W, a microwave oven, an air conditioner, a clothes dryer, a hot plate, etc. have already been used, and a heater of about 800 W is installed here. Therefore, if a bath water purifier that consumes as much as 900W and is used continuously for 24 hours is deployed, the total power consumption in the home when using the electrical appliances as described above is The ampere breaker of the distribution board often falls over 30A which is the contracted power of the power distribution board.
[0017]
The problem of the ampere breaker being affected by the total power consumption in the home can be solved by increasing the contract power even though the electricity bill will be high, but next the consumption in the same wiring system The problem that the circuit breaker for wiring affected by the amount of electric power falls arises.
[0018]
In other words, the distribution circuit breaker of the distribution board is 15 to 20A, and if this inner bath water cleaning device consumes 9A, the power consumption is large in the same wiring system even in the case of 20A as well as the capacity of 15A. When using electrical equipment, the circuit breaker will fall beyond its capacity.
[0019]
The bath water cleaning device is installed in the bathroom, but since there is no outlet in the bathroom, it is usually connected to an outlet in the next dressing room or kitchen.
[0020]
The place is a dressing room, the kitchen is a place where high power consumption electrical equipment such as hair dryers, clothes dryers, microwave ovens, and hot plates are used. Therefore, the circuit breaker for wiring often falls over the capacity.
[0021]
For this reason, when trying to use electric devices with large power consumption as described above in the dressing room or kitchen, the stop means of the operating condition input means is operated so as not to drop the circuit breaker. Therefore, the operation of the apparatus must be stopped, or the heater must be turned off by operating the hot water temperature input means that also functions as the on / off switch.
[0022]
However, when the operation of the bath water cleaning device is stopped or the heating with the heater is stopped in order to use electric devices with large power consumption, when the use of the electric devices is finished, the operation condition input means is used again. Often this is forgotten even though the operation of the key has to be started and the heater turned on.
[0023]
If the operation of the device is stopped or the heater is turned off, the hot water temperature will be lowered and cleaning will be insufficient, but it will be raised to an appropriate temperature once the hot water temperature is lowered. It takes a long time, and when you want to take a bath, you stop taking a bath.
[0024]
The present invention eliminates the drawbacks of the prior art as described above, and cleans the bath water so that even if the heater is turned off in order to use electric appliances with large power consumption, the temperature of the hot water is not lowered due to forgetting to put it in. An object is to provide an apparatus.
[0025]
[Means for Solving the Problems]
The present invention comprises a filtering means for pumping hot water in a bathtub from a hot water pipe by a circulation pump and filtering hot water dirt, a sterilizing means for sterilizing hot water, and a heat retaining heater for keeping hot water at a predetermined temperature. In the bathtub hot water purifying apparatus for returning the hot water from the fountain pipe to the bathtub again, the heater temporary cutting means for temporarily cutting the electric power to the heat retaining heater, and the electric power by the heater temporary cutting means Corresponding to the display means for displaying that the supply is cut, a timer for measuring a predetermined time during which the temperature of the hot water does not drop significantly when cutting by the heater temporary cutting means, and the heater temporary cutting means, The power supply to the heater is cut off for the measurement time of the timer, and the problem is solved by automatically supplying power to the heater after the timer ends. It could be.
Further, the present invention comprises a filtering means for pumping hot water in a bathtub from a hot water suction pipe by a circulation pump and filtering hot water dirt, a sterilizing means for sterilizing hot water, and a heat retaining heater for keeping hot water at a predetermined temperature, In a bathtub hot water cleaning device that performs warming and cleaning processing and returns hot water from the fountain pipe to the bathtub again, a heater temporary cutting means for temporarily cutting power to the heat retaining heater, and the heater temporary cutting means Corresponding to a display means for displaying that the power supply is cut off, a timer for measuring a predetermined time during which the temperature of the hot water is not significantly lowered during the cutting by the heater temporary cutting means, and the heater temporary cutting means The power supply to the heater is cut off for the measurement time of the timer, and the power is automatically supplied to the heater after the timer ends, and before the timer ends. It was possible to solve the problem by that so as to release the cut control by operating the input unit when the power supply disconnected.
[0026]
[Effects of the Invention]
The present invention is configured as described above, and the heater condition cutting input means is arranged in the operation condition input means for inputting the operation conditions of various devices, and the electric equipment having a large power consumption in the same wiring system as the bath water purifier If this is operated, the heater with high power consumption is cut off, and even when an electric device with high power consumption is used, the circuit breaker for wiring does not fall.
[0027]
When the heater is turned off by operating the heater temporary cutting input means, the heater is cut only for a fixed time of about 1 hour set in the program stored in the temporary cutting heater control program storage means of the control means. As a result, it is no longer possible to forget to insert the hot water as if it was cut using conventional hot water temperature input means.
[0028]
Furthermore, the heater temporary disconnection is canceled when there is an operation of an input means other than the heater temporary disconnection input means of the operating condition input means in the program stored in the temporary disconnection heater control program storage means as in the second claim. If the program is set as described above, the heater is always turned off for a certain period of time because the heater is temporarily cut off, and a certain period of time is not necessarily required to return to the bathing temperature.
[0029]
As a result, for example, even when the heater is temporarily turned off, if you want to take a bath after the use of electric devices with large power consumption, if you operate the bath mode input means, the heater will turn on immediately and the heater's cutting time will be short. Almost no hot water temperature is lowered, and bathing at an appropriate temperature can be performed immediately.
[0030]
【Example】
Next, embodiments of the present invention will be described with reference to the drawings.
[0031]
FIG. 1 is a control block diagram showing a basic configuration of the present invention. Reference numeral 21 denotes operating condition input means which is a key input device provided with various input keys. In addition to various conventional operating condition input means such as operation / stop, hot water temperature, bathing mode, silent mode, backwash mode, jet mode including strong operation, etc., heater temporary cutting input means 22 is provided. Is a hot water temperature sensor such as a thermistor provided to detect the hot water temperature in the hot water circulation path.
[0032]
23 is a timer for setting all the time or time necessary for controlling the device by the control means and measuring the passage of time or time. This timer 23 is naturally operated by temporarily disconnecting the heater. It also functions as a heater temporary disconnection timer 24 that sets a disconnection time when the operation is performed and measures the elapse of the disconnection time.
[0033]
Reference numeral 25 denotes control means which is a micro computer for overall control of the apparatus. This control means 25 is used for various operation control by the operation control means 26 and the operation control means 26 which are CPUs as a central processing unit. The operation program storage means 27 which is a program ROM storing necessary programs and data, and a RAM 29 for temporarily storing data for arithmetic processing at the time of operation control in the operation control means 25, the heater described above A timer 23 that also functions as a temporary disconnection timer 24 is a part of the control means 24.
[0034]
Of course, the operation program storage means 26 of the control means 25 also includes a temporary cutting heater control program storage means 28 storing a heater control program including an operation of temporarily disconnecting the heater for about one hour.
[0035]
Reference numeral 30 denotes a heater drive relay circuit that turns on and off the power supply to the heater 7 by opening and closing of the relay. The heater 7 inputs the hot water temperature of the operating condition input means 21 by the control means 25 via the heater drive relay circuit 30. ON / OFF control is performed based on the program stored in the temporary cutting heater control program storage means 28 in accordance with the input from the means and the heater temporary cutting input means 22.
[0036]
That is, the heater 7 is turned on and off according to the input by the hot water temperature input means of the operating condition input means 21 and simultaneously the hot water temperature is set. The hot water temperature set based on the detected temperature of the hot water temperature by the hot water temperature sensor 20 is set. The heater drive relay circuit 30 is opened and closed so as to be cut for the time stored in the temporary cut heater control program storage means 28 according to the input of the heater temporary cut input means 22. Be controlled.
[0037]
Reference numeral 31 denotes a pump drive circuit that supplies drive power to the circulation pump 6, and 32 is a display drive that supplies drive power to a display device 33 that displays the operation state of the apparatus such as the set and detected hot water temperature and the input operation mode. The display device 33 includes a heater temporary disconnection display device 34 for displaying that the heater is temporarily disconnected.
[0038]
The operation of the apparatus of the present invention basically configured as described above is controlled by the control means 25 based on the program stored in the operation program storage means 27 in accordance with the input from the operation condition input means 21. The heater temporary cutting control based on the program stored in the temporary cutting heater control program storage means 28 will be described with reference to the flow charts of FIGS.
[0039]
First, the ON / OFF control by opening / closing of the relay through the heater drive relay circuit 30 of the heater 7 will be described with reference to FIG. 2. In the first step S 101, the temperature of the circulating hot water is detected by the hot water temperature sensor 20, and the second In step S102, the detected hot water temperature is compared with the set hot water temperature to determine whether or not the hot water temperature is equal to or lower than the set temperature.
[0040]
If the hot water temperature is determined to be equal to or higher than the set temperature as a result of the determination in the second step S102, the heater 7 is turned off in the third step S103, and the hot water temperature is determined to be lower than the set temperature. In step S104, it is determined whether or not the heater temporary disconnection operation is being performed, depending on whether or not the disconnection time is set in the heater temporary disconnection timer 24.
[0041]
If the cutting time is set in the heater temporary cutting timer 24 in the fourth step S104 and it is determined that the heater is temporarily cut off, the hot water temperature is lower than the set temperature but the heater 7 is turned off. If the cutting time is not set and it is determined that the heater is not temporarily cut, the heater 7 is turned on as the fifth step S105 because the hot water temperature is not higher than the set temperature.
[0042]
As described above, the heater 7 determines whether or not the cutting time is set in the heater temporary disconnection timer 24 not only when the hot water temperature detected by the hot water temperature sensor 20 is equal to or higher than the set temperature but also when the temperature is lower than the set temperature. The heater is turned off when the heater is temporarily cut off, and is controlled to be turned on only when the hot water temperature is lower than the set temperature and the heater temporary cut timer 24 is not set with a cutting time. Is done.
[0043]
Next, an input key processing program in the operating condition setting means 21 which is a key input device will be described with reference to FIG. 3. In the first step S201, operation states of various input keys in the operating condition setting means 21 are read, and the second In step S202, it is determined whether or not the heater temporary cutting means 22 is key-input.
[0044]
When it is determined in the second step S202 that the heater temporary cutting means 22 has been key-inputted, in the third step S203, a cutting time is set in the heater temporary cutting timer 24, and it is determined that no key input has been input. In step S204, it is determined whether or not a hot water temperature input key has been input.
[0045]
If it is determined in the fourth step S204 that the hot water temperature input key has been input, the hot water temperature input in the fifth step S205 is set first, and then the heater temporary disconnection timer 24 is set in the sixth step S206. The heater 7 is cleared, and the heater 7 can be turned on and off based on the hot water temperature detected by the hot water temperature sensor 20.
[0046]
If it is determined in the fourth step S204 that the hot water temperature input key has not been input, the hot water temperature setting is not performed, and an operating condition input key other than the temporary heater disconnection and the hot water temperature is input as the seventh step S207. If it is determined that any one of the operating condition input keys has been input, the operating conditions corresponding to the key input are first set in the eighth step S208, and then the above described sixth step S206. Then, the heater temporary disconnection timer 24 is cleared.
[0047]
As described above, in the key processing program, the heater temporary disconnection timer 24 is cleared when there is no key input by the heater temporary disconnection input means 22, but there is a key input and the disconnection time is set in the heater temporary disconnection timer 24. However, the heater temporary disconnection timer 24 is cleared when there is a key input for hot water temperature and other operating conditions.
[0048]
As a result, even if the heater temporary disconnection operation is performed by the input of the heater temporary disconnection input means 22 of the operation condition input means 21, there is a key input other than the hot water temperature or other heater temporary disconnection by the operation condition input means 21. The heater temporary disconnection timer 24 is cleared and the heater temporary disconnection operation is canceled. When a hot water temperature is input, the heater 7 is turned on and off to maintain the set hot water temperature, and the heater is again turned on. When temporary disconnection is input, a disconnection time is set in the timer and the heater can be temporarily disconnected.
[0049]
Next, the display processing program for displaying the heater temporary cutting operation will be described with reference to FIG. 4. The hot water temperature and the hot water temperature sensor which are input by the operating condition input means 21 and set in the control means 25 in the first step S301. The hot water temperature detected at 20 is displayed on the display device 33.
[0050]
In the second step S302, it is determined whether or not the cutting time is set in the heater temporary cutting timer 24. If it is determined that the cutting time is not set in the heater temporary cutting timer, it is displayed as a third step S303. The display of the heater temporary cutting display device 34 provided in the device 33 is turned off.
[0051]
On the other hand, when it is determined in the second step S302 that the cutting time is set in the heater temporary cutting timer 24, the heater temporary cutting display device 34 provided on the display device 33 is turned on to display the heater temporary cutting operation. Is displayed.
[0052]
After displaying whether or not the heater temporary disconnection operation is being performed on the heater temporary disconnection display device 34 of the display device 33 as described above, the operation condition input means 21 of the display device 33 in the fifth step S305. Lights the display of other operating conditions according to the input.
[0053]
As described above, when the heater is temporarily disconnected by the input from the heater temporary disconnection input means 22 of the operation condition input means 21, this is displayed on the heater temporary disconnection display device 34 of the display device 33. It has become.
[0054]
Finally, the interrupt processing program of the timer 23 that also functions as the heater temporary disconnection timer 24 will be described with reference to FIG. 5. The key processing shown in FIG. 3 is performed in the first step S401, and the program shown in FIG. 4 in the second step S402. Display processing is performed to determine whether or not the heater temporary disconnection time is set in the heater temporary disconnection timer 24 which is the timer 23 in the third step S403.
[0055]
If it is determined in the third step S403 that the heater temporary disconnection time is set in the heater temporary disconnection timer 24, the heater temporary disconnection timer 24 measures the elapse of the heater temporary disconnection time in the fourth step S404, and the heater When it is determined that the temporary disconnection time is not set, the time and time necessary for operation in various operation modes input by the bath 23 and other operation condition setting means 21 in the fifth step S405 are input. And timer processing such as time and time measurement is performed.
[0056]
As described above, the timer processing program immediately causes the timer 23 to function as the heater temporary disconnection timer 24 when there is an input from the heater temporary disconnection input means 22 of the operation condition input means 21, and the operation of the heater temporary disconnection is performed. The setting of the time required for performing and the process of measurement are performed.
[0057]
【The invention's effect】
The present invention is configured and operated as described above, and a key input device as an operating condition input means is provided with a heater temporary disconnection key that temporarily turns off the heater. When this key is operated, the heater Is temporarily cut for the cutting time stored in the control means of about 1 hour, and even if an electric device with high power consumption such as a dryer is used in the same wiring system to which the bath water purifier is connected. There is no need to worry about the circuit breaker falling over the capacity.
[0058]
Moreover, since the heater is turned off automatically after about 1 hour, it is automatically turned on again. For the purpose of using electrical equipment with high power consumption, the heater input key is turned off. Since the heater has been turned off for a long time, the hot water temperature does not drop too much, and it does not take a long time for the hot water temperature to rise to the bathing temperature.
[0059]
Furthermore, even if the heater is temporarily turned off by operating the heater temporary disconnection key, if a key other than the heater temporary disconnection key is operated, the temporary disconnection of the heater is canceled even if the disconnection time has not elapsed, If you want to take a bath, you can start bathing immediately by operating the bathing key, and the heating will start immediately, and the heating time will be short and the hot water temperature will not drop.
[Brief description of the drawings]
FIG. 1 is a basic control block diagram;
[Fig. 2] Heater control flow chart,
FIG. 3 is a key processing flow chart;
FIG. 4 is a display processing flowchart;
[Figure 5] Timer interrupt processing flow chart,
FIG. 6 is a piping diagram of a bath water purifier.
[Brief description of symbols]
DESCRIPTION OF SYMBOLS 1 Bathtub 2 Hot water 3 Suction pipe 4 Apparatus main body 5 Filtration tank 6 Circulation pump 7 Heater 8 Ozonizer 9 Fountain pipe 20 Hot water temperature sensor 21 Operating condition input means 22 Heater temporary cutting input means 24 Heater temporary cutting timer 28 Temporary cutting heater control program Storage means 34 Heater temporary cutting display device

Claims (2)

Hot water in the bathtub is pumped from the hot water suction pipe by a circulation pump, and is equipped with a filtering means for filtering hot water stains, a sterilizing means for sterilizing hot water, and a heat insulation heater for keeping hot water at a predetermined temperature. In the bathtub hot water purifying apparatus which returns hot water from the fountain pipe to the bathtub again, the heater temporary cutting means for temporarily cutting off the power to the heat retaining heater, and the power supply cutting by the heater temporary cutting means Display means for displaying that, a timer for measuring a predetermined time during which the temperature of the hot water is kept at the time of cutting by the heater temporary cutting means, and a power to the heater corresponding to the heater temporary cutting means The bathtub hot water cleaning device is characterized in that the supply is cut off for the measurement time of the timer and the heater is automatically supplied with electric power after the timer ends . Hot water in the bathtub is pumped from the hot water suction pipe by a circulation pump, and is equipped with a filtering means for filtering hot water stains, a sterilizing means for sterilizing hot water, and a heat insulation heater for keeping hot water at a predetermined temperature. In the bathtub hot water purifying apparatus which returns hot water from the fountain pipe to the bathtub again, the heater temporary cutting means for temporarily cutting off the power to the heat retaining heater, and the power supply cutting by the heater temporary cutting means Display means for displaying that, a timer for measuring a predetermined time during which the temperature of the hot water is kept at the time of cutting by the heater temporary cutting means, and a power to the heater corresponding to the heater temporary cutting means The supply is cut only for the measurement time of the timer so that power is automatically supplied to the heater after the timer ends, and when the power supply is cut before the timer ends. Bath water cleaning apparatus being characterized in that so as to release the cut control by operating the input means.

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