JP6303705B2 - Bathroom sterilizer - Google Patents

Description

  The present invention relates to a bathroom sterilizer.

  Conventionally, as a bathroom device, a mist nozzle is arranged on the upper wall surface of the bathroom, and hot water is made into a mist form and sprayed in the bathroom together with warm air, so that the bathing person is encouraged to sweat and so-called mist is promoted. Sauna is known.

  Conventionally, a water treatment apparatus that generates a sterilizing factor by causing discharge in water is known. For example, Patent Document 1 discloses this type of water treatment apparatus. The water treatment device of Patent Document 1 purifies the humidifying water stored in the tank. That is, this water treatment device causes discharge in the water stored in the tank, and sterilizes the water in the tank using a sterilization factor such as a hydroxyl radical generated by the discharge.

JP 2011-092920 A

  By the way, in the above mist sauna and a normal bathroom where this is not done, there are a lot of steam, droplets, and mist in the water, and if they are left unattended, mold will propagate on the walls and ceiling of the bathroom. There are drawbacks.

  This invention is made in view of the point which concerns, The objective is to sterilize and purify the wall surface and ceiling of a bathroom as needed using the water treatment apparatus which produces | generates sterilization water. .

In order to achieve the above object, the bathroom sterilization apparatus of the first invention comprises a sterilizing water generating means (10) for generating sterilizing water and a sterilizing water generating means (10) at the time of request for purification of the bathroom (55). Sterilizing water supply means (98) for supplying the generated sterilizing water to the bathroom (55), and the sterilizing water generating means (10) includes a pair of electrodes (31, 32) disposed in the water tank (11). ), A power source (33) for applying a voltage between the pair of electrodes (31, 32), and a current between the pair of electrodes (31, 32). An insulating partition plate (15) having a through-hole (35) that forms a path and causes discharge, and generates a sterilizing factor by discharge in the through-hole (35), so that the inside of the water tank (11) The water pipe (86) and the water pipe (86) are connected to the water pipe (86) to spray the water flowing in from the water pipe (86). Characterized in that it comprises a spray device (40) supplied to the water tank (11) Te.

  In the first aspect of the invention, when the bathroom is required to be purified, sterilizing water is supplied to the bathroom, so that the bathroom is well purified and sterilized.

In the first aspect of the invention, in the sterilizing water generating means, underwater discharge is generated in the through hole of the partition plate, so that sterilizing water containing a sterilizing factor is generated in the water tank.

2nd invention is the said bathroom sterilizer, The injection means (60a) which injects water into the said bathroom (55) in mist form, The water supply means (60) which supplies water to the said injection means (60a) The sterilized water supply means (98) is configured to block the water supply path from the water supply means (60) to the injection means (60a) and to produce the sterilized water generated by the sterilized water generation means (10). Water is supplied from the jetting means (60a) to the bathroom (55), and an insulating material disposed in the sterilizing water supply path (89) from the sterilizing water supply means (98) to the jetting means (60a). It has an opening / closing means (102).

In the second aspect of the invention, in the normal time, a mist sauna is performed in which mist-like hot water is jetted into the bathroom to encourage the bather to sweat. On the other hand, when the bathroom is required to be purified, the opening / closing means is opened to form a sterilizing water supply path, and sterilizing water is supplied to the bathroom, so that the walls and ceiling of the bathroom are purified and sterilized. Here, since the opening / closing means has an insulating property, when the sterilizing water generating means generates the sterilizing water, the current flowing in the water by the voltage applied between the pair of electrodes is interrupted by the insulating opening / closing means, It is prevented that leakage flows into the sterilizing water supply path to the means side, and the supplied electric power is used efficiently.

According to a third invention, in the first or second invention, the power source (33) is configured to apply an alternating waveform pulse voltage in which positive and negative are switched to the pair of electrodes (31, 32). The spray device (40) includes a first lane (21a) in which one of the pair of electrodes (31, 32) is disposed and a second lane (21b) in which the other of the pair of electrodes is disposed. It is provided correspondingly.

  As described above, according to the first invention, it is possible to supply sterilized water to the bathroom and to sterilize and purify the bathroom well.

In addition, according to the first invention, highly sterilized water can be obtained by underwater discharge.

Furthermore, according to the second aspect of the invention, it is possible to prevent the electricity flowing in the water from leaking into the sterilizing water supply path when generating the sterilizing water, and to use the input power efficiently.

1 is an overall schematic configuration diagram of a mist sauna spraying system including a bathroom sterilizer according to Embodiment 1. FIG. FIG. 2 is a diagram showing a water piping system around the sterilizing water generator. FIG. 3 is an overall configuration diagram of the sterilizing water generator. FIG. 4 is a schematic sectional view showing the discharge unit. FIG. 5 is a diagram showing voltage waveforms generated by the high voltage generator. FIG. 6 is an enlarged view around the discharge hole of the discharge unit. FIG. 7 is a view showing a water piping system around the sterilizing water generator according to the second embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1)
FIG. 1 shows an overall schematic configuration of a mist sauna spraying system including a bathroom sterilizer according to the first embodiment.

  In the mist sauna spraying system of the figure, a bathroom heater / dryer (60) with a mist nozzle (60a) is arranged on the upper wall surface of the bathroom (55) where the bathtub (50) is arranged. In addition, a heat source device (70) for supplying hot water to the bathtub (50) and the bathroom heater / dryer (60) is disposed outside the bathroom (55). Furthermore, as shown in FIG. 2, the sterilizing water production | generation apparatus (10) of this embodiment is arrange | positioned at the ceiling back of the said bathroom (55).

  As shown in FIG. 1, a water supply pipe (81), a gas pipe (82), and a hot water supply pipe (83) are connected to the heat source unit (70) and supplied from the gas pipe (82). The heated gas is burned in the heat source machine (70), and the water supplied from the water supply pipe (81) is heated to generate hot water. This hot water can be supplied to the bathtub (50) through the hot water supply pipe (83).

  The bathroom heater / dryer with mist (60) and the heat source machine (70) are connected with two hot water supply pipes for heating (91) and (92) housed in a protective pipe (90), The hot water generated by the heat source device (70) is circulated to the bathroom heating dryer (60), and the air heated by the hot water is blown out to the bathroom (55) to heat or dry the bathroom (55). .

  Further, a branch water supply pipe (84) branched from the water supply pipe (81) connected to the heat source machine (70) is connected to the bathroom heating dryer with mist (60). The bathroom heater / dryer (60) heats the water supplied from the branch water supply pipe (84) with a built-in heat exchanger (not shown) and sends it as hot water to the mist nozzle (60a). It is configured as a mist sauna such that the nozzle (60a) is misted and supplied to the bathroom (55) to encourage the bather to sweat. The bathroom heater / dryer (60) with mist constitutes the water supply means of the present invention. Further, the mist nozzle (60a) constitutes an injection means of the present invention.

  In the bathroom heating / drying machine (60), surplus hot water is discharged to the lower part of the bathroom (55) through the drain pipe (45) through the drain port (46) opened near the lower part of the bathtub (50). In FIG. 1, the bathroom heater / dryer (60) is connected to a power line (95) arranged behind the ceiling, and the power line (96) branched from this connection point is placed in the protective tube (90). Housed and connected to a heat source machine (70) outside the bathroom.

  As shown in FIG. 2, the branch water supply pipe (84) connected to the bathroom heater / dryer (60) is connected to the sterilizing water generator (10) via the three branch pipe (85) and the water supply pipe (86). ). The sterilizing water generating device (sterilizing water generating means) (10) gives sterilizing components to the water supplied from the water supply pipe (86) to generate water (sterilizing water) containing the sterilizing components. This sterilized water is mist from the mist nozzle (60a) via a three-branch pipe (88) arranged in a water pipe (87) that supplies hot water from the bathroom heater / dryer (60) to the mist nozzle (60a). Sprayed into the bathroom (55).

  The water pipe (87) from the bathroom heater / dryer (60) to the three-branch pipe (88) has an electric control valve that adjusts the amount of hot water from the bathroom heater / dryer (60) to the mist nozzle (60a). (100) is arranged. In addition, the water supply pipe (86) from the branch water supply pipe (84) to the sterilized water generator (10) is provided with an electric adjustment valve (101) that adjusts the amount of water supplied to the sterilized water generator (10). Is done.

  Furthermore, the sterilizing water generator (10) has a treatment tank (11) as a water tank for storing water, and generates a sterilization factor in the water stored in the treatment tank (11), thereby including the sterilization factor. Produces water (sterilized water). This processing tank (11) is a sealed type whose upper surface is closed by a top plate (11a). The sterilizing water generated in the treatment tank (11) is supplied to the mist nozzle (60a) through the sterilizing water supply passage (sterilizing water supply means) (98). The sterilizing water supply passage (98) includes a water pipe (89) up to the three-branch pipe (88), an electric regulating valve (102) disposed in the water pipe (89), and the three-branch pipe A water pipe (99) from (88) to the mist nozzle (60a) is arranged. The water pipe (89) includes a branch pipe (89a) (see FIG. 3 to be described later) provided separately for four lanes (21a, 21b, 22a, 22b) to be described later of the sterilizing water generator (10), and four of these. The branch pipes (89a) are gathered into a single collection pipe (89b), and the electric control valves (102) are arranged in the four branch pipes (89a). These regulating valves (102) adjust the amount of sterilizing water supplied from the sterilizing water generator (10) to the mist nozzle (60a). And these regulating valves (102) are comprised by resin, such as a polyethylene resin and a phenol resin, which was excellent in electrical insulation. Therefore, this regulating valve (102) constitutes the insulating opening / closing means of the present invention.

  A check valve (105) is disposed in the collecting pipe (89b) of the water pipe (89). This check valve (105) prevents water from the bathroom heater / dryer (60) from flowing from the water pipe (87) through the three-branch pipe (88) into the sterilized water generator (10). is there. Since the check valve (105) is arranged in one collecting pipe (89b) of the water pipe (89), the structure is simpler than that in the case where it is arranged in four branch pipes (89a). Low price.

―Configuration of sterilizing water generator (10) ―
Next, a specific configuration of the sterilizing water generator (10) will be described. The sterilizing water generator (10) shown in FIG. 2 has the structure shown in FIGS. 3 and 4 in detail. In FIG.3 and FIG.4, the schematic structure which removed the top plate (11a) of the processing tank (11) is shown. In this figure, the sterilizing water production | generation apparatus (10) produces | generates a sterilizing factor in the water which flowed in in the processing tank (11) from the water piping (86), and produces | generates sterilizing water.

  The said sterilizing water production | generation apparatus (10) is connected to the water piping (86) through the spraying apparatus (40). The sterilizing water generator (10) includes a treatment tank (11) for storing water and a plurality of discharge units (30a, 30b). The sterilizing water generator (10) supplies the water introduced from the water pipe (86) to the treatment tank (11) from the spray device (40), and discharges (30a, 30b) in the water of the treatment tank (11). ) To produce sterilizing factors to produce sterilized water.

  The said processing tank (11) is formed in a substantially rectangular shape in plan view, and is a box-shaped water tank. Specifically, the treatment tank (11) is formed from a bottom (12) formed in a substantially rectangular flat plate in plan view and a horizontally long substantially rectangular flat plate, and from both long sides of the bottom (12), respectively. It is formed with a long wall portion (13, 13) extending upward and a short wall portion (14a, 14b) formed on a vertically long, substantially rectangular flat plate and extending upward from both short sides of the bottom portion (12). Yes.

  Inside the processing tank (11), a plurality of partition plates (15) are arranged at predetermined intervals in the width direction. Each partition plate (15) is formed in a horizontally long and substantially rectangular flat plate, and is arranged along the longitudinal direction of the treatment tank (11) so that the inside of the treatment tank (11) has a plurality of lanes (21a to 22b). It is divided into. Each partition plate (15) is formed of a material having electrical insulation. Moreover, the opening part (16) is formed in the partition plate (15,15) arrange | positioned at the 1st flow path (21) and 2nd flow path (22) which are mentioned later. In the treatment tank (11), first to fourth lanes (21a to 22b) are formed in order from the front side in FIG. 3 by the partition plates (15). In addition, the number of the lanes (21a to 22b) formed in the treatment tank (11) is an example, and can be freely changed according to the amount of sterilizing water generated by the sterilizing water generator (10).

  In each lane (21a-22b), the first and second lanes (21a, 21b) are paired to form a first flow path (21), and the third and fourth lanes (22a, 22b) are formed. A second channel (22) is formed as a pair.

  As shown in FIG. 4, the plurality of discharge units (30a, 30b) includes a first discharge unit (30a) and a second discharge unit (30b). One discharge unit (30a, 30b) is provided for each pair of lanes (21a, 21b, 22a, 22b) described above.

  The first discharge unit (30a) generates sterilizing water by generating a sterilizing factor in the water of the first flow path (21). The first discharge unit (30a) is connected to the electrode pair (31, 32) and the electrode pair (31, 32), and a high voltage generating unit (applied with a predetermined voltage to the electrode pair (31, 32)) 33) and the partition plate (15) in which the opening (16) described above is formed. The partition plate (15) is provided with a discharge member (34). In addition, a 2nd discharge unit (30b) produces | generates a disinfection factor in the water of a 2nd flow path (22), and produces | generates disinfection water. Since the specific configuration of the second discharge unit (30b) is the same as that of the first discharge unit (30a), description thereof is omitted.

  The electrode pair (31, 32) is for generating discharge in water, and is composed of a hot side electrode (31) and a neutral side electrode (32). The electrode (31) is formed in a flat plate shape and is disposed in the first lane (21a). The electrode (31) is connected to the high voltage generator (33). The electrode (32) is formed in a flat plate shape and is disposed in the second lane (21b). The electrode (32) is connected to the high voltage generator (33). The electrode (31) and the electrode (32) are disposed so as to be substantially parallel to each other. These electrodes (31, 32) are made of, for example, a metal material having high corrosion resistance.

  The high voltage generator (33) is configured by a power source that applies a predetermined voltage to the electrode pair (31, 32). In the present embodiment, for example, as shown in FIG. 5, the high voltage generator (33) is configured to apply a pulse voltage having an alternating waveform in which positive and negative are switched to the electrode pair (31, 32). ing. The duty of this alternating wave (square wave) is adjusted so that the ratios of the positive electrode side and the negative electrode side are equal. The voltage applied to the electrode pair (31, 32) is an example, and is not limited to a square wave but may be a sine wave or the like as long as it is an alternating voltage.

  The discharge member (34) is a plate-like insulating member. The discharge member (34) is made of an electrically insulating material such as ceramics. The ceramic is aluminum nitride, silicon nitride, zirconia or alumina. The discharge member (34) is disposed so as to block the opening (16) formed in the partition plate (15) that partitions the first lane (21a) and the second lane (21b). The discharge member (34) has a minute discharge hole (35) as a through hole penetrating in the thickness direction of the discharge member (34) at a substantially central position. This discharge hole (35) is designed, for example, to have an electric resistance of several MΩ. The discharge hole (35) forms a current path between the electrode (31) and the electrode (32). The discharge hole (35) as described above serves as a current density concentration portion that increases the current density of the current path between the electrode pair (31, 32). As shown in FIG. 6, when voltage is applied to the electrode (31) and the electrode (32), the current density in the current path increases in the discharge hole (35) of the discharge member (34), thereby Is vaporized by Joule heat to form bubbles (C). In the bubble (C), the interface between the bubble (C) and water serves as an electrode to generate discharge (spark discharge). That is, in this discharge, since the electrode (31) and the electrode (32) do not become discharge electrodes, deterioration of the electrodes (31, 32) due to discharge can be suppressed.

  The spraying device (40) is connected to the water pipe (86), sprays the water introduced from the water pipe (86), and supplies it to the treatment tank (11). The spray device (40) includes a nozzle header (41) and a plurality of spray nozzles (42) corresponding to the lanes (21a to 22b).

  The nozzle header (41) is formed in an elongated tubular shape, and is provided so as to be orthogonal to the water pipe (86). The water pipe (86) is connected to the side surface of the nozzle header (41), and the water flowing in from the water pipe (86) The spray nozzles (42) are provided so as to be divided.

  A plurality of the spray nozzles (42) are provided at predetermined intervals in the longitudinal direction of the nozzle header (41). The spray nozzle (42) is provided corresponding to each lane (21a-22b). The water flowing through the water pipe (86) flows into the nozzle header (41) from the inflow part (86a) and becomes granular (droplets) from the spray nozzle (42) toward the corresponding lane (21a-22b). Sprayed. At this time, since the water sprayed from the spray nozzle (42) becomes granular (droplets), air is interposed between the particles (between the droplets), and the electrical resistance is increased. By carrying out like this, the water which flows in from the inflow part (86a) of a water piping (86) and the water which flows through a processing tank (11) will be electrically insulated. In addition, by spraying with the spray nozzle (42), the electrical resistance between the water of the inflow part (86a) of the water pipe (86) and the water of the treatment tank (11) becomes several hundred MΩ or more.

―Driving operation―
During the mist sauna in the bathroom (55), the bathroom heater / dryer (60) starts operating, the water supplied from the branch water supply pipe (84) is heated, and the regulating valve (102) is controlled to be closed. The other regulating valve (100) is controlled to open. As a result, the supply of sterilized water from the sterilized water generator (10) is shut off, and the supply of hot water from the bathroom heater / dryer (60) is allowed, and the hot water is mist-like from the mist nozzle (60a). Sprayed into the bathroom (55), mist-like hot water spreads throughout the bathroom (55).

  The sterilizing water generator (10) has a control valve (101) opened in advance when the bathroom heater / dryer (60) is stopped or in the mist sauna in the bathroom (55). Water is supplied from the spray device (40) to the treatment tank (11) via (86), and an alternating pulse voltage of the high voltage generator (33) is applied to the pair of electrodes (31, 32). . In addition, the regulating valve (102) disposed in the water pipe (89) serving as the sterilizing water supply path is controlled to be closed. Thereby, in the treatment tank (11), a spark discharge is generated in the discharge hole (35) of the discharge member (34), a sterilizing factor such as a hydroxyl radical is generated in the water, and sterilized water is generated. Be prepared.

  When purification of the bathroom (55) is required, the other regulating valve (102) is controlled to open together with the regulating valve (100). As a result, the hot water is supplied from the bathroom heater / dryer (60) to the mist nozzle (60a), and the sterilized water in the treatment tank (11) of the sterilized water generator (10) is supplied to the three-branch pipe (88) and the water pipe. Through (99), the mist is sprayed and supplied from the mist nozzle (60a). As a result, mist-like sterilizing water spreads throughout the bathroom (55), and the wall and ceiling of the bathroom (55) are sterilized and purified by such sterilizing water.

-Effect of the embodiment-
In this embodiment, when the purification of the bathroom (55) is required, the sterilized water generated by the sterilizing water generator (10) is mist from the mist nozzle (60a) arranged on the ceiling of the bathroom (55) to the bathroom (55). Sprayed in the form of a spray and spread throughout the bathroom (55). Therefore, it is possible to satisfactorily sterilize and purify the wall surface and ceiling of the bathroom (55) as necessary.

  In particular, in the sterilizing water generating device (10), the sterilizing factor, which is an active species such as a hydroxyl radical, is generated by spark discharge in the stored water in the treatment tank (11). 55) can be sprayed to effectively sterilize the entire wall and ceiling of the bathroom (55).

  Moreover, in the sterilizing water production | generation apparatus (10), since the adjustment valve (102) which has the insulating property comprised with resin is arrange | positioned with respect to the water piping (89) used as the supply path | route of sterilizing water, At the time of sterilizing water generation in 11), the discharge energy leaks from the trifurcated pipe (88) through the water pipe (99) to the mist nozzle (60a) side, or through the water pipes (87), (84) (70) No leakage. Therefore, spark discharge can be reliably generated in the through hole (35) of the discharge member (34) in the treatment tank (11).

  In addition, water is supplied into the treatment tank (11) by supplying water to each lane (21a to 22b) in a granular form (droplet) from each spray nozzle (42) of the spray device (40). Therefore, it is possible to increase the electrical resistance between the grains and to insulate between the water from the water pipe (84) and the water in the treatment tank (11), and reliably generate a spark discharge in the treatment tank (11). be able to.

  In the present embodiment, the sterilizing water generator (10) operates when the bathroom heater / dryer (60) is stopped to create sterilizing water in the treatment tank (11). It goes without saying that it may be operated simultaneously when the purification of (55) is requested, and sprayed and supplied from the mist nozzle (60a) to the bathroom (55) while generating sterilizing water.

(Embodiment 2)
FIG. 7 shows a water piping system around the sterilizing water generator of Embodiment 2 of the present invention.

  In the present embodiment, the ejector (97) is disposed at the position of the three-branch pipe (88) in FIG. The ejector (97) is directly connected to the sterilizing water supply passage (98).

Therefore, in this embodiment, the sterilizing water produced | generated in the processing tank (11) of the sterilizing water production | generation apparatus (10) is attracted | sucked by the negative pressure which arises in an ejector (97), and is a mist nozzle through a water piping (99). (60a) is sprayed in a mist form. As a result, the mist-like sterilizing water spreads vigorously throughout the bathroom (55), and the wall and ceiling of the bathroom (55) are surely sterilized and purified by such sterilizing water .

  As described above, the present invention is useful as a bathroom sterilizer that supplies sterilized water to a bathroom.

10 Bathroom sterilizer (sterilized water generating means)
11 Treatment tank (water tank)
15 Partition plates 31, 32 Electrode 33 High voltage generator (power supply)
35 Discharge hole (through hole)
55 Bathroom 60 Bathroom heating dryer (water supply means)
60a Mist nozzle (jetting means)
98 Sterilized water supply passage (sterilized water supply means)
102 Regulating valve (opening / closing means)

Claims (3)

Sterilizing water generating means (10) for generating sterilizing water;
Sterilizing water supply means (98) for supplying the bathroom (55) with the sterilizing water generated by the sterilizing water generating means (10) when the bathroom (55) is required to be purified ;
The sterilizing water generating means (10)
A pair of electrodes (31, 32) disposed in the aquarium (11);
A power source (33) for applying a voltage between the pair of electrodes (31, 32);
Insulating partition plate (15) having a through hole (35) disposed between the pair of electrodes (31, 32) and forming a current path between the pair of electrodes (31, 32) to cause discharge And
It is configured to generate a sterilizing factor by discharge in the through hole (35), and generate sterilizing water in the water tank (11),
Water pipe (86),
A bathroom sterilization device comprising: a spraying device (40) connected to the water pipe (86) and spraying water flowing from the water pipe (86) to supply the water tank (11); apparatus. In claim 1,
Spray means (60a) for spraying water into the bathroom (55) in the form of a mist;
Water supply means (60) for supplying water to the injection means (60a),
The sterilizing water supply means (98)
The water supply path from the water supply means (60) to the injection means (60a) is blocked, and the sterilized water generated by the sterilization water generation means (10) is transferred from the injection means (60a) to the bathroom (55). As well as
A bathroom sterilizer comprising an insulating opening / closing means (102) disposed in a sterilizing water supply path (89) from the sterilizing water supply means (98) to the spray means (60a). In claim 1 or 2,
The power source (33) is configured to apply a pulse voltage of an alternating waveform in which positive and negative are switched to the pair of electrodes (31, 32),
The spray device (40) corresponds to a first lane (21a) in which one of the pair of electrodes (31, 32) is disposed and a second lane (21b) in which the other of the pair of electrodes is disposed. A bathroom sterilizer characterized by being provided.

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