JP5181051B2 - Bathroom water reforming system - Google Patents

Description

The present invention relates to a reforming system for water supplied to a bathroom.

Water discharged from a currant or shower provided in the bathroom is generally tap water (see, for example, Patent Document 1). By the way, tap water contains a lot of dissolved substances such as calcium, magnesium, and silicon, so if you wash the bathroom with tap water, the tap water remaining in the bathroom will evaporate and cause dirt in the bathroom. In addition, since tap water contains components necessary for the growth of bacteria, contamination by microorganisms is likely to occur in the bathroom. In addition, tap water containing mineral components generates metal soap, and there is also a problem that the cleaning power of the soap is reduced due to the generation of the metal soap.

JP 2003-190037 A

  The present invention has been made in view of the above-described conventional problems, and it is an object of the present invention to provide a bathroom water reforming system that can prevent scale dirt and microorganisms from adhering in the bathroom. is there.

Bathroom water reforming system according to the present invention in order to solve the above problems, the dissolution contained in the water supplied from the water supply source to the water supply path 3 connecting the water discharger 2 provided in a water supply and bathroom 1 comprising a removal means 7 for removing the material dissolved by removing water, the removal means 7 obtained by separating by the removing means 7 in the concentrated water containing dissolved substances and removal water to remove dissolved material substance Water from a water supply source from which water has not been removed and mixed water obtained by mixing the removed water and water from a water supply source from which dissolved substances have not been removed by the removing means 7 from the water discharge unit 2. A water reforming system for a bathroom that can be selectively discharged, and a mixing ratio for adjusting a mixing ratio of water from which dissolved substances are removed and water that has not been removed in the mixed water discharged from the water discharge unit 2 Adjusting means, The discharge portion 25 for discharging the concentrated water in the chamber 1 is provided, characterized in that the concentrated water was switchable or discharged to the outside of either or the bathroom 1 discharged from the discharge portion 25 .

  Water from which dissolved substances have been removed by the removing means 7 can be discharged from the water discharge section 2 provided in the bathroom 1, and a person in the bathroom 1 can use the water to rinse the inside of the bathroom 1 and wash the body. And since the water discharged from this water discharge part 2 in the bathroom 1 removes dissolved substances, such as calcium, magnesium, and silicon, it can prevent that the dirt by a scale dirt and microorganisms adheres in the bathroom 1. FIG. Further, in this case, since the mineral component is removed from the water discharged from the water discharger 2, the generation of metal soap can be suppressed, and this can prevent the soap detergency from being reduced. Further, when the removal means 7 removes dissolved substances from the dissolved water, water containing the dissolved substances separated and generated, that is, concentrated water rich in minerals, can be discharged from the discharge unit 25 into the bathroom 1. Can use this in the bathroom 1.

Further , when the water from which the dissolved substance has been removed is unnecessary, the water from which the dissolved substance has not been removed can be discharged by the removing means 7 and the load on the removing means 7 can be reduced.

Moreover , when high-purity water that contains almost no dissolved substance is unnecessary, it is possible to discharge mixed water obtained by mixing water from which the dissolved substance has been removed from the water discharge unit 2 and water from which the dissolved substance has not been removed by the removing means 7, The load applied to the removing means 7 can be reduced. Further, when the mixed water is discharged, the mixing ratio of the water from which the dissolved substance is removed and the water from which the dissolved substance is not removed can be adjusted to a desired mixing ratio, and a mixed water having a desired mixing ratio can be obtained.

  In the present invention, water from which dissolved substances such as calcium, magnesium, and silicon are removed can be discharged into the bathroom from the water discharger, and it is possible to prevent scale dirt and dirt due to microorganisms from occurring in the bathroom. Moreover, generation | occurrence | production of metal soap can be suppressed and it can prevent that the cleaning power of soap falls. In addition, when the removal water from which the dissolved substance is removed by the removing means is generated, the water containing the dissolved substance separated and generated, that is, the concentrated water rich in minerals can be discharged from the discharge part into the bathroom, and the user can discharge it. It can be used in the bathroom.

It is a schematic block diagram which shows the water reforming system of the bathroom of an example of this invention. It is a schematic block diagram which shows the water reforming system of the bathroom of another example. It is a schematic block diagram which shows the water reforming system of the bathroom of another example. It is a schematic block diagram which shows the water reforming system of the bathroom of another example.

  Hereinafter, the present invention will be described based on embodiments shown in the accompanying drawings. The bathroom water reforming system of an example shown in FIG. 1 is provided with a removing means 7 for removing dissolved substances in a water supply path 3 that connects a water supply source and a water discharge section 2 provided in the bathroom 1.

  The water supply source is constituted by a water supply that supplies tap water to the water supply channel 3 through a water heater. The water supplied from the water supply source may be well water or water supplied from a storage tank.

  A shower 5 connected to the currant 5 and the currant 5 provided on the wall or counter of the bathroom 1 is provided as the water discharger 2. The downstream end of the water supply channel 3 constituted by a single channel is connected to the currant 5, and the treated water supplied from the water supply channel 3 and from which dissolved substances are removed by the removing means 7 is supplied to the currant 5 or the shower. It can be selectively discharged from either one of the devices 6.

  The removing means 7 is composed of a reverse osmosis membrane device 7a that removes impurities such as dissolved substances contained in water supplied from a water supply source to purify the water, and the reverse osmosis membrane device 7a includes a prefilter 8 and a pump 9. The reverse osmosis membrane filter 10 is provided.

  The prefilter 8 is composed of a fiber filter and an activated carbon filter. The fiber filter removes relatively large dust, sediment, rust, small pieces, etc. of 5 μm or more contained in water, and the activated carbon filter is water that has passed through the fiber filter. Residual chlorine, odor turbidity, organic compounds, chlorinated hydrocarbons, etc. are removed. The pump 9 pressurizes the water pretreated by the prefilter 8 and supplies it to the reverse osmosis membrane filter 10. The water supplied from the pump 9 permeates the reverse osmosis membrane filter 10, so that the prefilter 8 Then, impurities such as dissolved substances such as calcium, magnesium, and silicon that have not been removed are almost completely removed to generate permeated water (removed water). At this time, concentrated water containing a high concentration of the dissolved substance or the like is separated and produced as a secondary. The permeated water and the concentrated water separated and generated by the reverse osmosis membrane filter 10 are supplied as treated water to the water discharger 2 via the downstream water supply channel 3, and the concentrated water is supplied to the bathroom 1. It is discharged outside. The reverse osmosis membrane device 7a generates pure water having a conductivity of 1 μS / cm or less as permeate.

When using the water reforming system, pump both reverse osmosis unit 7a and for supplying water to the water discharge portion 2 through a reverse osmosis unit 7a from the water supply source by operating the operation portion provided in Curran 5 9 Drive. As a result, water (pure water) from which impurities such as dissolved substances have been removed by the reverse osmosis membrane device 7 a is discharged into the bathroom 1 from the water outlet 5 a of the currant 5 or the shower nozzle 6 a of the shower device 6.

  The bathroom water reforming system of the present example described above can discharge water from which dissolved substances have been removed by the removing means 7 (reverse osmosis membrane device 7a) from the water discharge section 2 provided in the bathroom 1. Therefore, a person in the bathroom 1 can use the water to rinse the bathroom 1 and wash his body. And since the water discharged from the water discharge part 2 in the bathroom 1 removes dissolved substances such as calcium, magnesium, and silicon, it prevents the dirt and microorganisms from adhering in the bathroom 1. it can. Moreover, since the water discharged from the water discharge part 2 is a thing from which the mineral component was removed, generation | occurrence | production of metal soap can be suppressed and it can prevent that the cleaning power of soap falls by this. In addition, since the reverse osmosis membrane device 7a can also reduce the residual chlorine concentration contained in the water supplied from the water supply source, the water discharger 2 can discharge water with less irritation to the skin, and can be used for people with sensitive skin. It is valid.

  In this example, the removing means 7 is constituted by the reverse osmosis membrane device 7a. However, other removing means 7 conventionally used can be used as long as the dissolved substance can be removed to produce high purity water. May be.

  Next, another example of the water reforming system is shown in FIG. In the following explanation, the same number is given about the same composition as an example, and the duplicate explanation is omitted.

  The water reforming system of another example shown in FIG. 2 is treated water that is water from which dissolved substances have been removed by removing means 7, or non-treated water that is water from which dissolved substances have not been removed by removing means 7, or Of the mixed water obtained by mixing the treated water and the non-treated water, any one type of water can be selectively discharged from the water discharger 2, and the mixing ratio of the treated water and the non-treated water in the mixed water It is provided with a mixing ratio adjusting means for adjusting.

  The water supply path 3 includes a main flow path 14 that connects the water supply source and the water discharge unit 2, and a sub flow path 15 that is a bypass path of the main flow path 14. Only the reverse osmosis membrane device 7a is provided. In the main channel 14, downstream of the branch point 18 with the sub-channel 15 and upstream of the junction 19 with the sub-channel 15, and upstream of the reverse osmosis membrane device 7 a in the sub-channel 15. Are provided with valves 16 and 17 comprising electromagnetic valves having a flow rate adjusting function.

  The water reforming system of this example can selectively discharge any one of the treated water, non-treated water, or mixed water from the currant 5 or the shower device 6.

  That is, when the treated water is discharged from the water discharger 2, water is supplied from the water supply source to the water supply channel 3, the valve 16 is closed and the valve 17 is opened, and the pump 9 of the reverse osmosis membrane device 7a is driven. . As a result, the water supplied to the water supply channel 3 flows toward the sub-flow channel 15 and is processed by the reverse osmosis membrane device 7a as in the example, and then discharged from the water discharge unit 2 as treated water.

  Moreover, when discharging non-process water from the water discharge part 2, water is supplied to the water supply path 3 from a water supply source, and the valve 17 is closed and the valve 16 is opened. As a result, the water supplied to the water supply channel 3 does not flow to the side of the sub-flow channel 15 provided with the reverse osmosis membrane device 7a but flows through the main channel 14 and is not treated by the reverse osmosis membrane device 7a from the water discharge part 2. It is discharged as water.

  Moreover, when discharging mixed water from the water discharge part 2, water is supplied to the water supply path 3 from a water supply source, the valves 16 and 17 are opened together, and the pump 9 of the reverse osmosis membrane device 7a is driven. Moreover, the opening degree of each valve 16 and 17 at this time becomes an opening degree according to a mixture ratio set in advance by operation of an operation unit (not shown). As a result, the water supplied to the water supply channel 3 flows into the main flow channel 14 and the sub flow channel 15, and then passes through the sub flow channel 15 at the junction 19 to be treated with the treated water and the main flow processed by the reverse osmosis membrane device 7a. Untreated water that has not been treated after passing through the passage 14 joins, and the treated water and the untreated water are mixed at a ratio corresponding to the degree of opening of the valves 16 and 17. Then, the treated water and the non-treated water are discharged from the water discharge unit 2 as a mixed water mixed at a predetermined mixing ratio. That is, in this example, the mixing ratio adjusting means is constituted by the valves 16 and 17 having a flow rate adjusting function.

  As described above, the water reforming system of this example is a treated water that is water from which dissolved substances have been removed by the removing means 7, or non-treated water that is water from which dissolved substances have not been removed by the removing means 7, or Since any one kind of water can be selectively discharged from the water discharger 2 among the mixed water obtained by mixing the treated water and the non-treated water, water is necessary but water from which dissolved substances are removed is unnecessary. When the water from which the dissolved substance has been removed is necessary or when high purity water is not necessary, the untreated water or the mixed water can be discharged from the water discharger 2 and the load on the removing means 7 can be reduced. Moreover, when discharging mixed water, the mixing ratio of treated water and non-treated water can be adjusted to a desired mixing ratio, and mixed water having a necessary mixing ratio can be obtained.

  Next, another example of the water reforming system is shown in FIG. In the following description, the same components as those of the water reforming system of the other example shown in FIG.

  In this example, in addition to the currant 5 and the shower device 6, the water discharge unit 2 includes a spraying device 20 that sprays the water from which the dissolved substance has been removed by the removing means 7 into the bathroom 1. In addition, the upstream end of the branch path 22 is connected to the branch point 23 on the downstream side of the reverse osmosis membrane device 7 a in the sub-flow path 15, and the downstream side of the branch path 22 is connected to the spraying device 20. The branch point 23 is provided with a valve 24 composed of a three-way electromagnetic valve. By switching the valve 24, the water from which the dissolved substance has been removed by the reverse osmosis membrane device 7a is supplied to the spray device 20, and the spray device 2 has. A large number of nozzles 20a can be sprayed into the bathroom 1.

That is, in case of discharging the treated water from the spraying device 20 supplies water to the water supply passage 3 from the water supply source and closes the valve 16 is opened together valve 17, switching valve 24 to the spraying device 20, reverse osmosis The pump 9 of the membrane device 7a is driven. As a result, the water supplied to the water supply channel 3 flows to the sub-flow channel 15 side and is processed by the reverse osmosis membrane device 7a, and then discharged from the spraying device 20 through the branch channel 22 as treated water.

  Further, in order to discharge treated water from the currant 5 or the shower device 6, water is supplied from the water supply source to the water supply channel 3, the valve 16 is closed and the valve 17 is opened, and the valve 24 is switched to the main flow channel 14 side. The pump 9 of the osmotic membrane device 7a is driven. As a result, the water supplied to the water supply channel 3 flows to the sub-flow channel 15 side and is processed by the reverse osmosis membrane device 7a, and then discharged as treated water from the currant 5 and the shower device 6 through the main flow channel 14. .

  The water reforming system of this example can spray the water from which dissolved substances have been removed by the removing means 7 by the spraying device 20 into the bathroom 1, and can wash a wide area in the bathroom 1 using the sprayed water.

  In addition, although discharge of the treated water from the said spraying apparatus 20 may be performed by switching the valve 24 manually, you may make it discharge treated water from the spraying apparatus 20 automatically, for example after bathing. Here, as an example of the determination after bathing, for example, a human body detection sensor is provided in the bathroom 1, and after a person enters the bathroom 1 and the person is detected by the human body detection sensor, the person comes out of the bathroom 1 and is detected by the human body detection sensor. When it stops detecting a person, it is mentioned that it is after bathing.

  Next, another example of the water reforming system is shown in FIG. In the following description, the same components as those of the water reforming system of the other example shown in FIG.

  In the water reforming system of still another example shown in FIG. 4, a separate curan is provided in the bathroom 1 as a discharge unit 25 that discharges water containing dissolved substances removed by the removing means 7. The discharge unit 25 is connected to the reverse osmosis membrane filter 10 of the reverse osmosis membrane device 7 a through the concentrated water channel 26, and a drainage channel 28 is connected to the concentrated water channel 26. A valve 29 made of a three-way solenoid valve is provided at a branch point 27 of the concentrated water channel 26 with the drainage channel 28. By switching the valve 29, the concentrated water supplied from the reverse osmosis membrane device 7a is passed through the concentrated water channel 26. It can be discharged into the bathroom 1 from the discharge part 25.

That is, in order to discharge concentrated water from the discharge unit 25 into the bathroom 1, when the treated water is discharged from the water discharge unit 2 described above, that is, water is supplied from the water supply source to the water supply path 3 and the valve 16 is closed. when both open the valve 17, when driving the pump 9 of the reverse osmosis unit 7a, it switches the valve 29 to the discharge section 25 side. Thereby, the concentrated water separated and generated when the permeated water (removed water) is generated by the reverse osmosis membrane device 7 a is discharged from the discharge unit 25 into the bathroom 1 through the concentrated water flow channel 26. Further, in order to prevent the concentrated water from being discharged from the discharge section 25 when the treated water is discharged from the water discharge section 2, the valve 29 is switched to the drainage channel 28 side, and the concentrated water generated by the reverse osmosis membrane device 7a. Is drained to the outside of the bathroom 1 through the drainage channel 28.

  The water reforming system of this example can discharge water containing dissolved substances removed by the removing means 7, that is, concentrated water containing abundant minerals, from the discharge unit 25 into the bathroom 1. Available.

  In this example, the drainage channel 28 is branched from the concentrated water channel 26 and the valve 29 is switched so that the concentrated water can be discharged from the drainage channel 28. However, the drainage channel 28 and the valve 29 are not provided, and the water discharge unit Concentrated water may be discharged from the discharge unit 25 at all times when the treated water is discharged from 2. Also in this example, as in the example of FIG. 3, the upstream end of the branch path 22 is connected to the branch point 23 downstream of the reverse osmosis membrane device 7 a in the sub-flow path 15, and the downstream side of the branch path 22 is connected to the downstream end of the branch path 22. It is good also as connecting to the spraying device 20 and being able to switch whether discharge of treated water from the spraying device 20 or discharge of treated water from the currant 5 or the shower device 6 is possible.

DESCRIPTION OF SYMBOLS 1 Bathroom 2 Water discharge part 3 Water supply path 7 Removal means 7a Reverse osmosis membrane apparatus 25 Discharge part

Claims (1)

Comprising a removal means for removing the dissolved material contained in the supplied water from the water supply source to the water supply path connecting the water discharge portion provided in a water supply and in the bathroom, removing water to remove dissolved material by the removal means And the concentrated water containing the dissolved substance, the removed water, the water from the water source from which the dissolved substance has not been removed by the removing means, and the dissolved substance is removed by the removed water and the removing means. It is a bathroom water reforming system that can selectively discharge any of the mixed water mixed with water from a water supply source that is not supplied from the water discharge unit, and dissolves in the mixed water discharged from the water discharge unit Mixing ratio adjusting means for adjusting the mixing ratio of the water from which the substance has been removed and the water from which the substance has not been removed is provided, and a discharge part for discharging the concentrated water is provided in the bathroom, and the concentrated water is discharged Discharge from part Luke or water reforming system bathroom, characterized in that the or discharged to the outside of the bathroom and can be switched.

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