JP4451152B2 - Bath water circulation device - Google Patents

Description

The present invention relates to a bath water apparatus, and more particularly to a bath water sterilizer in a bath water cleaning apparatus.

A device has been developed in which bath water in a bathtub is purified, sterilized and circulated by a circulation pump, and the purified bath water is sent again into the bathtub. For purification and sterilization using these devices, use an ultraviolet sterilizer or high-pressure discharge type ozone generator that sterilizes by passing the bath water through a sterilization tank with a built-in ultraviolet lamp after processing in a filtration tank made of activated carbon, barley stone, etc. Ozone was sterilized by generating ozone and mixing the ozone into bath water to sterilize.

The conventional bath water apparatus not only removes stains of the bath water as described above, but also provides a bath water apparatus that can perform bathing comfortably for 24 hours by simultaneously performing sterilization and heat insulation.

Since sterilization with chlorine is more efficient than other sterilizations and effective in a short time, it is suitable for rapid sterilization and sterilization of a large amount of water, and is often used for sterilization of tap water, etc. . However, although chlorine is effective in removing bacteria in bath water, harmful organic chlorine compounds represented by trihalomethane are generated by the chlorine component. For this reason, it was dangerous if the child accidentally swallowed the bath water in which these organochlorine compounds were generated. The chlorine component is easy to volatilize, so if it is circulated by the equipment repeatedly, it will be safe to some extent. The problem which occurs etc. occurred. With a conventional non-woven fabric filter, it was possible to remove fine dust from the bath water, but not an organic chlorine compound. In addition to physical purification (filtering), the purification of the bath water can be done by generating a microbial bed inside the device to decompose organic matter that is a breeding source of germs in the bath water and to propagate the germs. Purification to prevent it was also done. However, when the chlorine component in the bath water described above flows into the apparatus, the generated microbial bed is destroyed and the purification function is lowered. An object of the present invention is to provide an apparatus for bathing in a comfortable environment for bathers by improving the drawbacks of the prior art as described above.

In order to achieve the above object, the present invention comprises a purification unit for pumping bath water in a bathtub with a circulation pump, removing hair from the bath water with a pre-filter, and circulating through a circulation path to clean the bath water. In the bath water circulation device that purifies and sterilizes with the sterilizer for sterilizing the bath water, returns to the bathtub after heat treatment,
The purification section provided in the circulation path is provided with a dechlorination filter for adsorbing chlorine, trihalomethane, etc. contained in the treated bath water sterilized by addition of chlorine, and after the dechlorination filter, It is equipped with a purification part that arranges a purification filter for removing fine dust in the bath water, and the bath water after treatment is sterilized by the addition of chlorine. A bath in which chlorine or trihalomethane is adsorbed by the dechlorination filter, and fine dust in the bath water to which chlorine or trihalomethane is adsorbed is removed by a purification filter so that clean bath water is jetted into the bathtub. The problem was solved by using a water circulation device.
Further, the present invention provides a purification and sterilization treatment and a heat retention treatment by a purification unit for pumping bath water in a bathtub with a circulation pump and circulating it through a circulation path to purify the bath water and a sterilization device for sterilizing the bath water. In the bath water circulation device for returning to the bath, the purification section provided in the circulation path has a dechlorination filter for adsorbing chlorine, trihalomethane, etc. contained in the bath water after sterilization by addition of chlorine. Bath water after treatment, disposed on the upstream side of the circulation channel from a purification filter for removing fine dust in the water, and sterilizing the purification filter for removing fine dust in the bath water by adding chlorine A purification unit is provided on the downstream side of the dechlorination filter for adsorbing chlorine, trihalomethane, etc. contained in the water, and the bath water is circulated by operation with respect to the treated bath water sterilized by addition of chlorine. The chlorine water, trihalomethane, etc. contained in the bath water are adsorbed by the dechlorination filter, and the bath water purified by removing fine dust in the bath water adsorbed by chlorine, trihalomethane, etc. is removed by the purification filter. The problem was solved by using a bath water circulation device that sprayed into the bathtub.

According to the present invention, for the bath water after the cleaning treatment sterilized by adding chlorine, it is circulated by the operation, and the chlorine, trihalomethane, etc. contained in the bath water are adsorbed and purified by the purification section, The effect of removing the organic chlorine compound (trihalomethane) generated in the water easily and efficiently is exhibited. In addition, by providing a purification filter after the dechlorination filter, it is possible to form a microbial bed in the filter and piping, and to decompose organic components that are difficult to remove with a normal filter, etc., always providing clean bath water it can. In addition to the bactericidal effect due to the addition of chlorine, it was possible to supply safe bathing water to the human body by adsorbing and removing the generated chlorine during bathing in response to the effect of chlorine on the human body.

In addition to the bactericidal effect of adding chlorine, the bath water circulation that circulates the bath water in the bathtub to supply the safe bath water by adsorbing and removing the generated chlorine when bathing in response to the effect of chlorine on the human body In the device, a purification section that adsorbs chlorine, trihalomethane, etc. contained in the bath water after the cleaning treatment is arranged in the circulation path, and the chlorine contained in the bath water is circulated by the operation after the cleaning processing sterilized by adding chlorine. This was realized by spraying bath water purified by adsorbing or trihalomethane or the like in the purification section into the bathtub.

The basic structure of claims 1 and 2 of the present invention will be described with reference to FIGS. FIG. 1 shows the appearance and internal mechanism of the present invention, and shows the flow of bath water. FIG. 2 is a functional block diagram showing an embodiment of the present invention.
1 and 2, the apparatus main body A circulates the bath water by sucking the bath water in the bathtub and removing the hair and the like, the purifying unit 3 for cleaning the bath water, and the bath water. A circulation pump 4 for heating, a heater 7 for heating the bath water, a sterilizer 10 for sterilizing the bath water, and a jet nozzle 12 which is a discharge port for returning the purified and sterilized bath water to the bathtub again. It is configured.
The purification unit 3 includes a dechlorination filter unit 3a and a purification filter unit 3b. The purification filter 3b is a filter configured in a pleated shape or a cylindrical shape with a nonwoven fabric or a non-woven paper, and is for the purpose of removing fine dust in the bath water.

The dechlorination filter 3a is formed of a dechlorination material such as calcium sulfite or nickel peroxide and adsorbs an organic chlorine compound in the bath water. Since the shape of the dechlorination material is in the form of particles or stone (pellet), it can be used as it is stored in a mesh bag or case, or it can be knitted into a fiber filter or the like.

Organochlorine compounds in bath water are harmful substances represented by trihalomethane, and are carcinogenic substances that affect the human body. These are usually generated by chlorine contained in tap water. In addition, since it is also contained in tap water, it is said that care should be taken such as boiling and drinking when drinking.

In addition, dichloroisocyanurate tablets are commercially available as bath water detergents in order to boil and use the previous day's hot water again. This bleaches dirt generated in the bath water with chlorine, which is the main ingredient of the tablet, and disinfects germs.

However, as described above, harmful substances such as trihalomethane, which is an organic chlorine compound, are generated by the chlorine component. When trihalomethane or the like is generated in the bath water, it is safe because it is not absorbed directly from the skin, but there is also a risk that an infant may accidentally drink it. By attaching the dechlorination filter 3a to the main unit, the bath water It can also handle safety.

As the sterilization apparatus 8, an ozone sterilization apparatus using a sterilization action using ozone, an ultraviolet sterilization apparatus using a sterilization action using an ultraviolet lamp, an electrolytic sterilization apparatus using water electrolysis, and the like are used.

A basic description of the main unit A according to the first embodiment of the present invention will be given based on the flowchart of FIG. 3 and the control block diagram of FIG.

When the main unit A is first turned on by the power switch 13 of the bath water circulating apparatus main unit A in S1, the operation is started. In S2, when the power is turned on, the circulation pump control unit 5 instructs to drive the circulation pump 4, and the bath water of the bath water device is circulated.

In S3, a flow rate sensor 6 is installed to check whether the purification unit 3 and the piping for circulating the bath water are clogged with dust or dirt, and detects the flow rate. Whether the flow rate detected by the flow rate sensor 6 is appropriate is confirmed at T1, and if normal, the process proceeds to YES, and if the flow rate is insufficient, the process proceeds to S11 with NO.

In S11, it is confirmed that an abnormality has occurred, and the energization to the circulation pump is stopped. In S12, the flow is displayed on the display device 14 composed of a liquid crystal panel installed in the bath water circulation device, or with a warning buzzer or the like. The user is warned that an abnormality has occurred.

When the flow rate is appropriate, the bath water is passed to the purification unit 3. The purification unit 3 is constituted by a case or tank in which a dechlorination filter 3a is housed in the upper part and a purification filter 3b is housed in the lower part.

In FIG. 5, the outside of the filter is constituted by a dechlorination filter 3a and the inside is constituted by a purification filter 3b. These are stored for the purpose of removing chlorine components first when purifying bath water.

In S4, the bath water is passed through a dechlorination filter unit 3a built in the bath water purification unit 3 to remove and adsorb chlorine components contained in the bath water. The bath water from which the chlorine component has been removed is subjected to removal of fine dust and substances other than the chlorine component by the purification filter unit 3b in S5.

Next, in S6, the organic component that is a breeding source of miscellaneous bacteria such as proteins in the bath water is decomposed and removed by the action of microorganisms in the microorganism bed by the filter of the purification filter section 3b.

In S7, the bath water is heated by the heater 7. In S8, the temperature of the bath water is detected by the temperature sensor 9 provided in the pipe. When the temperature is lower than the temperature set by the temperature setting key in T2, a signal is sent by the heating control relay switch 8 to The switch is turned on and the bath water is heated.

When the temperature of the bath water is high, the heater 7 is turned off to adjust the temperature. If the temperature of the bath water exceeds the set range, it is confirmed that an abnormality has occurred in S11 due to abnormal heating of the heater 7, etc., and energization is stopped in S11 as in the case of an abnormal flow rate. In step S12, the display device 14 issues an abnormality warning.

Next, in S9, when the sterilization process is started by the sterilization apparatus 10, a current value is detected. In the case of ultraviolet sterilization, an accident such as damage to the ultraviolet lamp may occur, leading to an electric leakage accident. Therefore, it is necessary to confirm whether the current value is appropriate as a safety measure.

At T3, it is determined whether the value is appropriate. If the value is normal, the process goes to S10 and sterilization by the sterilizer 10 is started. The bath water is sterilized by the sterilizer 10 for 24 hours, and the germs generated in the bath water are sterilized.

If an abnormality occurs in T3, in S11, it is confirmed that the abnormality has occurred, the energization to the sterilizer 8 is stopped, and a display device configured by a liquid crystal panel installed in the bath water circulation device in S12. 14 or a warning buzzer or the like to warn the user that an abnormality has occurred in the flow rate.

In T5, it is confirmed whether or not the abnormality has been canceled. If the abnormality has been canceled, the program returns to S2. If the abnormality is not released, the abnormality warning is continued in S12. The bath water circulating apparatus A is continuously operated until the operation stop of the apparatus is selected at T4.

Next, the form of the Example of Claim 2 is shown. FIG. 6 is a schematic diagram of an embodiment of the present invention, and FIG. 7 is a functional block diagram thereof. The embodiment of the present invention will be described with reference to the flowchart of FIG.

When the power is turned on by the power switch 13 of the bath water circulation device main body A in S13, the main body device A starts its operation. In S14, when the power is turned on, the circulation pump control unit 5 instructs the circulation pump 4 to be driven, whereby the bath water of the bath water device is circulated.

In S15, a flow rate sensor 6 is installed to check whether the purification unit 3 or the piping for circulating the bath water is clogged with dust or dirt, and detects the flow rate. Whether or not the flow rate detected by the flow rate sensor 6 is appropriate is confirmed at T6. If it is normal, the process proceeds to YES. If the flow rate is insufficient, the process proceeds to S22 with NO.

In S22, it is confirmed that an abnormality has occurred, and the power supply to the circulation pump 4 is stopped. In S23, the display is made on the display device 14 constituted by a liquid crystal panel installed in the bath water circulation device, or a warning buzzer or the like is used. Warn the user that an abnormality has occurred in the flow rate.

If the flow rate is appropriate, whether to remove the chlorine component of the bath water is selected at T7. When the dechlorination process is performed (YES), the timer 22 is activated in S24 by the operation of the dechlorination process start key 20 at T7. The timer 22 is for returning the flow direction of the bath water to the original by an OFF signal of the timer after a predetermined time has passed to perform the dechlorination process.

In S25, time is measured. In S26, the flow rate adjustment valve C is opened along with the operation of the timer 22, and in S27, the flow rate adjustment valve D is closed. Thereby, the flow of the bath water is changed from the direction of the purification filter 3b to the direction of the dechlorination filter 3a.

The bath water is passed through the dechlorination filter 3a in S28, and the chlorine component in the bath water is adsorbed and removed by the filter.

In T12, it is confirmed whether the time measured in S25 has reached the timer end time. If the time has come (YES), an OFF signal is received, and in S29, the flow control valve C is closed, and in S30. Open the flow control valve D. Thereby, the flow direction of the bath water is changed to the purification filter 3b.

The bath water from which the chlorine component has been adsorbed and removed in S28 is passed through the purification filter 3b in S16, and miscellaneous components such as fine dust and dirt in the bath water are removed. In S17, the organic component that is a breeding source of various germs that could not be removed by the filter is decomposed by the purification filter 3b and the microorganism bed generated inside the pipe, and the bath water is purified.

In T7, when the bath water is sufficiently circulated and stirred, the chlorine component is volatilized and there is no residual chlorine, or when there is no need to perform dechlorination, the flow direction of the bath water is not changed (NO) The flow control valve C is closed and the flow control valve D is open. As a result, the bath water is not passed through the dechlorination filter 3a, but is passed through only the purification filter 3b in S16 to remove miscellaneous components.

In S18, the bath water is heated by the heater 7. In S19, the temperature of the bath water is detected by the temperature sensor 9 provided in the pipe. When the temperature is lower than the temperature set by the temperature setting key in T8, a signal is sent by the heating control relay switch 8 and the heater 7 The switch is turned on and the bath water is heated.

When the temperature of the bath water is high, the heater 7 is turned off to adjust the temperature. When the temperature of the bath water exceeds the set range, due to abnormal heating of the heater 7, etc., the energization is stopped in S22 as in the case of abnormal flow, until the abnormality is canceled in T11. In step S23, the display device 14 issues an abnormality warning.

Next, in S20, the current value is detected when the sterilization process is started by the sterilizer 10. At T9, it is determined whether the value is appropriate. If the value is normal, the process goes to S21 and sterilization by the sterilizer 10 is started. The bath water is sterilized by the sterilizer 10 for 24 hours, and the germs generated in the bath water are sterilized.

If an abnormality occurs in T9, in S22, it is confirmed that the abnormality has occurred, the energization to the sterilizer 10 is stopped, and a display device configured by a liquid crystal panel installed in the bath water circulation device in S23. 14 or a warning buzzer or the like to warn the user that an abnormality has occurred in the flow rate.

In T11, it is confirmed whether or not the abnormality has been canceled. If the abnormality has been canceled, the program returns to S14. If the abnormality is not released, the abnormality warning is continued in S23. The bath water circulating apparatus A is continuously operated until the operation stop of the apparatus is selected at T10.

The basic configuration of claims 4, 5 and 6 of the present invention is as shown in FIG. 9, the functional block diagram of which is shown in FIG. 10, and the control block diagram of FIG. The embodiment of the present invention will be described with reference to the flowchart of FIG.

When the power is turned on by the power switch 13 of the bath water circulation device main body A in S31, the main body device A is started to operate. In S32, when the power is turned on, the circulation pump control unit 5 instructs the circulation pump 4 to be driven, and thereby the bath water of the bath water apparatus is circulated.

In S33, the flow rate of the bath water is detected by the flow rate sensor 6. Whether the flow rate detected by the flow rate sensor 6 is appropriate is confirmed at T13. If it is normal, the process proceeds to YES. If the flow rate is insufficient, the process proceeds to S39 with NO.

In S39, after confirming that an abnormality has occurred, the energization to the circulation pump is stopped, and in S40, the flow is displayed on the display device 14 composed of a liquid crystal panel installed in the bath water circulation device, or with a warning buzzer or the like. The user is warned that an abnormality has occurred.

If the flow rate is appropriate, miscellaneous components of the bath water are removed by the purification filter 3b in S34. Next, in S35, the organic component is removed by the microbial bed in the bath water, and the process proceeds to the electrolytic sterilization routine in S36.

The electrolytic sterilization routine will be described based on the flowchart of FIG. At T18, it is determined whether to perform electrolytic sterilization. This is performed by operating the electrolytic sterilization start command switch 20. If switch 20 is operated (YES), it will go to S35 and the operation timer 22 for electrolytic sterilization will operate.

If the electrolytic sterilization start command switch 20 of the electrolytic sterilizer 18 is not operated at T18, the program returns to the routine of FIG. When the timer is activated in S35, time measurement by the timer 22 is started in S36. The timer used here is shown using the timer used for changing the flow direction to the dechlorination filter 3a.

In S <b> 37, energization for electrolysis of the bath water is started to the electrolytic sterilizer 18. At the start of energization, in order to increase the chlorine generation efficiency by the electrolytic sterilizer 18, a salt content adding unit that supplies salt such as salt is provided in the electrolytic sterilizer 18, and an appropriate amount of salt is supplied. The supply of salt is performed by opening the electromagnetic valve of the salt addition unit for a certain period of time in accordance with the operation of the electrolytic sterilization start command switch 20 and adding salt.

Here, the current value is detected by the current sensor 21 for safety in S38, and it is confirmed whether or not a leakage has occurred. If the current value is normal at T17 (YES), the electrode plate of the electrolytic sterilizer 18 is energized, and electrolytic sterilization by electrolysis of the bath water is started.

In S39, in response to the operation of the start command switch 20 to the electrolytic sterilizer 18, the flow control valve E is opened to change the flow direction of the bath water, and the flow control valve F is closed in S40. Thereby, the flow direction of the bath water is changed to the dechlorination filter 3a, and the chlorine component is removed by the dechlorination filter 3a in S41.

At T18, it is determined whether the time associated with the timer operation has elapsed. If the timer end time is not reached at T18 (NO), the process returns to S36 as it is, and the operation is repeated until the predetermined time is reached.

If an abnormality occurs at T17 (NO), the process goes to S45, where the occurrence of the abnormality is confirmed, and energization to the electrolytic sterilizer 18 is stopped at S46. In S47, an abnormality warning is given by the display device 14 when an abnormality occurs. If the abnormality is not canceled at T21 (NO), the abnormality warning is continued at S47 as it is.

When the timer reaches the predetermined time at T18 (YES), the current supply to the electrolytic sterilizer 18 is stopped and the electrolytic sterilization ends at S42. With the completion of the electrolytic sterilization, the flow control valve E is closed in S42, and the flow control valve F is opened in S44. Thereby, the bath water ends the water flow to the dechlorination filter 3a.

When the electrolytic sterilization ends, the program returns to the routine shown in FIG. When the electrolytic sterilization routine is completed, the bath water is heated in S37. In S38, the temperature of the bath water is detected by the temperature sensor 6 built in the pipe of the apparatus main body A.

If an abnormality such as a heating abnormality occurs at T14 (NO), the process goes to S39, and if normal, the process goes to T15. The bath water circulating apparatus A is continuously operated until the operation stop of the apparatus is selected at T15.

Overview of mechanism showing one embodiment of the present invention Functional block diagram of an embodiment of the present invention The flowchart figure which shows one Example of this invention Control block diagram showing an embodiment of the present invention Overview of mechanism showing one embodiment of the present invention Overview of mechanism showing one embodiment of the present invention Functional block diagram showing an embodiment of the present invention The flowchart figure which shows one Example of this invention Overview of mechanism showing one embodiment of the present invention Functional block diagram showing an embodiment of the present invention The flowchart figure which shows one Example of this invention The flowchart figure which shows the electrolytic sterilization process of one Example of this invention.

Explanation of symbols

A: bath water circulation device, B: control unit (CPU), 1: bathtub, 2: pre-filter, 3: purification unit, 3a: dechlorination filter unit, 3b: normal filter unit, 4: circulation pump, 5: circulation pump Control means, 6: flow sensor, 7: heater, 8: heater control means, 9: temperature sensor, 10: bath water sterilizer, 11: sterilizer control means, 12: spout (jet nozzle), 13: Bath water circulation device power switch, 14: display device, 15: bath water direction change control means, 16: flow rate adjustment valve C or E, 17: flow rate adjustment valve D or F, 18: electrolytic sterilization device, 19: electrolytic sterilization control means , 20: Electrolytic sterilization start command means (switch) or dechlorination start key, 21: Current sensor, 22: Timer, 23: Salt addition unit

Claims (2)

The bath water in the bathtub is pumped up with a circulation pump, hair is removed from the bath water with a pre-filter, and is circulated through the circulation path to purify the bath water and a sterilizer for sterilizing the bath water. in purification sterilization, the bath water circulating device for returning to the bath by incubating process,
The purification section provided in the circulation path is provided with a dechlorination filter for adsorbing chlorine, trihalomethane, etc. contained in the bath water after treatment sterilized by addition of chlorine,
After the dechlorination filter, a purification unit for disposing a purification filter for removing fine dust in the bath water is provided,
For the treated bath water sterilized by addition of chlorine, the bath water was circulated by operation, and chlorine, trihalomethane, etc. contained in the bath water were adsorbed by the dechlorination filter, and chlorine, trihalomethane, etc. were adsorbed. A bath water circulation device characterized by ejecting clean bath water into a bathtub by removing fine dust in the bath water with a purification filter . The bath water in the bathtub is pumped up with a circulation pump and circulated through the circulation path to purify the bath water and the sterilizer to sterilize the bath water. In the water circulation device,
A dechlorination filter for adsorbing chlorine, trihalomethane, etc. contained in the treated bath water sterilized by adding chlorine to the purification section provided in the circulation path is for removing fine dust in the bath water. Arranged upstream of the circulation flow path from the purification filter,
A purification unit disposed on the downstream side of the dechlorination filter for adsorbing chlorine, trihalomethane, etc. contained in the treated bath water after sterilizing the purification filter for removing fine dust in the bath water by adding chlorine With
For the treated bath water sterilized by the addition of chlorine, the bath water is circulated by operation, and chlorine, trihalomethane, etc. contained in the bath water are adsorbed by the dechlorination filter, and chlorine, trihalomethane, etc. are adsorbed. A bath water circulation apparatus characterized in that fine water in bath water is removed by the purification filter, and the bath water purified by jetting is ejected to a bathtub.

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