JP4586401B2 - Alkaline ion water conditioner - Google Patents

Description

  The present invention relates to an alkali ion water conditioner for electrolyzing raw water such as tap water to produce alkaline ionized water used for drinking and medical purposes, and acidic ionized water used for lotion, sterilization washing water, etc. Is.

  In recent years, alkali ion water conditioners have become widespread as continuous electrolysis type ion generators. This alkali ion water conditioner electrolyzes tap water or the like in an electrolytic cell to generate acidic water on the anode side and alkaline water on the cathode side (see, for example, Patent Document 1).

  First, a conventional continuous electrolysis type alkaline ion water conditioner will be described. 4 (a) is an external front view of a conventional alkaline ionized water device, FIG. 4 (b) is an external side view of the alkaline ionized water device of (a), and FIG. 4 (c) is an alkaline ion of (a). Fig. 5 (a) is a front view of a partially crushed structure of a conventional alkaline ionized water body, and Fig. 5 (b) is a partially crushed portion of the alkaline ionized water body of (a). FIG. 7 is a side view of a partially crushed structure of the structure, and FIG. 6 is a diagram showing a reflector of a conventional alkaline ionized water device.

  4 (a) (b) (c) and FIGS. 5 (a) and 5 (b), 1 is a raw water pipe connected from a faucet or the like for discharging tap water, and 2 is connected by a faucet and a raw water pipe 1. The alkali ion water conditioner body, 3 is a cartridge unit equipped with activated carbon that adsorbs residual chlorine, trihalomethane, musty odor, etc. in raw water, and a hollow fiber membrane that removes general bacteria and impurities with high accuracy. The flow rate detecting means 5 provided for detecting the accumulation of water is provided with a calcium supply unit 5 for imparting calcium ions such as calcium glycerophosphate and calcium lactate to the raw water to increase the raw water conductivity, and 6 is provided via the flow rate detecting means 4. Electrolyzer that electrolyzes water to produce alkaline water and acid water, 7 is electrolyzed in electrolyzer 6, a discharge pipe that discharges alkali ion water and acidic water from the main body, and 8 is electrolyzed in electrolyzer 6. From the water discharge pipe 7 Acid water when Rukariion water is discharged, when the acidic water is discharged is a drain pipe alkali ion water flows out. The water flowing out from the discharge pipe 7 and the drain pipe 8 can freely select alkaline ionized water, acidic ionized water, or purified water by a water quality selection operation using the operation panel 9 provided on the surface of the main body. The raw water flows from A in the figure into the alkaline ionized water body 2 and flows in the alphabetical order in the J direction.

Next, the illumination of light when water is discharged from the conventional alkaline ionized water body 2 will be described. 5 (a), 5 (b), 6 (a), 6 (b), and 6 (c), 10 is a surface panel constituting the surface of the alkaline ionized water body 2 and 11 is inside the alkaline watered body 2. A light source 12 provided is a reflector that projects the light source 11 on the front panel 10. The light source 11 is attached to the substrate 13, and a claw 14 provided on the reflecting plate 12 fixes the substrate 13. The substrate 13 is fixed to the reflecting plate 12 so that each of the light source portions provided on the reflecting plate 12 is arranged at the center of the cone shape. The shape of the reflecting plate 12 is such that the diameter is small on the light source 11 side, and the diameter increases toward the front panel 10 side. When water is passed through the alkali ion water conditioner, it passes through the raw water pipe 1 connected from the faucet, passes through the cartridge 3, and reaches the flow rate detection means 4. Then, when an output signal from the flow rate detection means 4 is read, a controller (not shown) provided inside the main body turns on the light source 11 in order of (1), (2), (3), (4). The plurality of light sources 11 are transmitted through the surface panel 10 through the reflector 12 and light is emitted as if the light emitted from the plurality of light sources is synchronized with the flow of water by providing a time difference in the light emission time. Illumination effect of light while turning off.
JP 2001-087766 A

  As described above, in the conventional alkaline ionized water device, an illumination effect is produced that creates a light flow synchronized with the flow of water by providing a time difference in the light emission time of light emitted from several light sources arranged side by side. However, since the light emitted from each light source is condensed and emitted in a cone shape by each reflecting plate, it is bright near the cone opening of each reflecting plate 12 arranged several times, and between adjacent lights The dark area became too strong, the boundary was clear, and the problem remained in directing the smooth movement of light according to the flow of water. As a method of suppressing the contrast at this boundary, a method of separating the distance between the reflecting plate 12 and the front panel 10 is conceivable, but the alkali ion water adjuster main body needs to be downsized, and the internal space cannot be secured sufficiently. Therefore, it is difficult to take a distance.

  Accordingly, an object of the present invention is to provide an alkaline ionized water device that can make a visually smooth flow of water by an illumination effect and can be used comfortably.

In order to solve this problem, the present invention provides a plurality of light sources that emit light in synchronization with the flow of water, and a light-transmitting or semi-light-transmitting display that is provided on the surface of the main body and projects light from the light sources from the inside. An alkali ion water conditioner provided between a plate, a light source and a display plate, and having a plurality of openings for allowing light from the light source to pass therethrough and a reflecting plate for reflecting scattered light from the display plate In each of the openings, stepped portions that are recessed from the surface of the reflecting plate are formed. The diameter B of the stepped portion on the display plate side, the diameter A of the opening, the incident angle θ of the light source, and the steps Between the depths C, there is a relationship of B> 2C / tan θ + A.

  According to the present invention, by providing a time difference between the light emission times of a plurality of light sources arranged side by side, an illumination effect that creates a flow of light synchronized with the discharge of water is obtained, and at the same time, the contrast of light near the opening of the reflector is reduced. By suppressing it, it is possible to give an image of a smooth water flow with a gradation effect of adjacent light.

A first aspect of the present invention is a plurality of light sources that emit light in synchronization with the flow of water, a light-transmitting or semi-light-transmitting display plate that is provided on the surface of the main body and projects light from the light sources from the inside. The alkali ion water conditioner is provided between the light source and the display plate, and is provided with a plurality of openings for allowing light from the light source to pass therethrough and a reflection plate for reflecting scattered light from the display plate. Stepped portions that are recessed from the surface of the reflecting plate are formed around the openings, respectively, and the diameter B of the stepped portion on the display plate side, the diameter A of the opening, the incident angle θ of the light source, and the depth of the steps. Illumination effect that creates a flow of light synchronized with the flow of water by providing a time difference between the light emission times of a plurality of light sources arranged side by side with an alkali ion water conditioner having a relationship of B> 2C / tan θ + A between C At the same time causing reflection By suppressing the contrast of light in the vicinity of the opening of the plate with certainty, it is possible to give an image of a smooth water flow with a gradation effect of adjacent light.

The second form of the present invention is a form that is subordinate to the first form, wherein the depth C of the stepped portion is an alkali ion arrangement in which C ≦ L with respect to the distance L between the display panel and the light source. It is a water container, and the contrast of light in the vicinity of the opening of the reflecting plate can be more reliably suppressed, and a smooth water flow can be imaged by the gradation effect of adjacent light.

According to a third aspect of the present invention, there are provided a plurality of light sources that emit light in synchronization with a flow of water, a light-transmitting or semi-light-transmitting display plate that is provided on the surface of the main body and projects light from the light sources from the inside. The alkali ion water conditioner is provided between the light source and the display plate, and is provided with a plurality of openings for allowing light from the light source to pass therethrough and a reflection plate for reflecting scattered light from the display plate. Te, around the opening is stepped portion recessed from the reflector surface, each formed, between the step portion and the opening, a cone-shaped inclined portion is large in diameter of the light source side diameter smaller panel side are provided, step The diameter of the portion is larger than the diameter on the display side of the cone-shaped inclined portion, the diameter B of the step portion is larger than the diameter D of the cone tip, and the incident angle θ to the display plate of the cone and the depth C of the step are B> 2C / Alkaline ion water conditioner with tanθ + D relationship By creating a time difference in the light emission time of the light source, an illumination effect that creates a light flow synchronized with the flow of water is produced, and at the same time, the light is condensed at the center of the reflector and the center and the peripheral edge of the reflector are separated. By increasing the contrast, the contrast of light in the vicinity of the opening of the reflecting plate can be surely suppressed, and a gradation effect of the adjacent light can be provided to give a smooth flow of water.

The fourth form of the present invention is a form subordinate to the third form, wherein the depth C of the stepped portion is an alkali ion control in which C <L with respect to the distance L between the display panel and the light source. It is a water container, and the contrast of light in the vicinity of the opening of the reflecting plate can be more reliably suppressed, and a smooth water flow can be imaged by the gradation effect of adjacent light.

(Embodiment 1)
Hereinafter, an alkaline ionized water device according to Embodiment 1 of the present invention will be described with reference to the drawings. Fig.1 (a) is a structure side view of the alkaline ionized water apparatus in Embodiment 1 of this invention, FIG.1 (b) is a partial crushing structure front view of the alkaline ionized water body of (a). 1 (a) and 1 (b), the same reference numerals as those used in the description of the conventional example are basically the same in the first embodiment, and the detailed description is given to the conventional example. Omitted.

  As shown in FIGS. 1 (a) and 1 (b), 1 is a raw water pipe connected from a faucet or the like for discharging tap water, 2 is an alkali ion water conditioner main body connected to the faucet or the like by the raw water pipe 1, 3 is a cartridge unit equipped with activated carbon that adsorbs residual chlorine, trihalomethane, musty odor, etc. in raw water and a hollow fiber membrane that accurately removes general bacteria and impurities. 4 is provided to detect the accumulated amount of water flow. The flow rate detection means 5 is a calcium supply unit for imparting calcium ions such as calcium glycerophosphate and calcium lactate to the raw water to increase the raw water conductivity, and 6 is an electrolyzer for electrolyzing the water that has passed through the flow rate detection means 4. An electrolytic cell for generating water and acidic water, 7 is electrolyzed in the electrolytic cell 6, a water discharge pipe for discharging alkaline ion water and acidic water from the main body, and 8 is electrolyzed in the electrolytic cell 6 and alkaline ionized water from the water discharge pipe 7. But Acid water when you are out, when the acidic water is discharged is a drain pipe alkali ion water flows out. Water discharged from the discharge pipe 7 and the drain pipe 8 can be freely selected from alkaline ionized water, acidic ionized water, and purified water by a water quality selection operation using the operation panel 9 provided on the surface of the main body. Reference numeral 10 denotes a surface panel that projects light emitted from a light source 11 described later from the inside of the alkali ion water adjuster body 2 and is made of a light transmissive or semi-light transmissive resin.

When water is passed through the alkaline ionized water device, impurities are removed by the hollow fiber membrane or the like of the cartridge section 3 while passing through the cartridge 3 through the raw water pipe 1 connected from the faucet and flowing from C to D. , E reaches the flow rate detection means 4. Then, when an output signal from the flow rate detection means 4 is read, a controller (not shown) provided inside the main body turns on the light source 11 in order of (1), (2), (3), (4). The plurality of light sources 11 are transmitted through the surface panel 10 through the reflector 12, and light emitted from the plurality of light sources is turned on / off in synchronization with the flow of water by providing a time difference in light emission time. However, the light illumination effect is obtained. Then, while flowing from G to H and I, electrolysis is performed in the electrolytic cell 6, and ion water that discharges alkali ion water or acid water in the direction of J from the water discharge pipe 7 and does not need to be discharged from the drain pipe 8 Drained. In the present invention, to synchronize with the flow of water means to read the output signal from the flow rate detection means 4 and turn on the light source 11 in order according to the flow speed by the controller. Moreover, when the flow rate detection means 4 detects the flow volume more than predetermined, you may light the light source 11 in order according to the speed of a flow with a controller. That is, when the flow rate is extremely small, it may be possible to save power by not lighting.

  Next, the light source 11 and the reflecting plate 12 provided inside the alkaline ionized water body 2 according to Embodiment 1 of the present invention will be described. FIG. 2A is a front view of a reflector incorporated in the alkaline ionized water device according to Embodiment 1 of the present invention, FIG. 2B is a sectional view of the reflector of FIG. () Is a partially enlarged view of the reflector of (b). 2A, 2B, and 2C, 11 is a light source, 12 is a reflecting plate, 13 is a substrate, and 14 is a nail. Reference numeral 15 denotes an opening provided on the surface of the reflecting plate 12 on the surface panel 10 side, 16 denotes a stepped portion formed in the opening 15, and 17 denotes a cylindrical opening formed in the center of the opening 15. A plurality of openings 15 are provided side by side, the bottom surface is a hole in the stepped portion 16, and an opening 17 is formed in the center of each hole.

  The light source 11 is attached to the substrate 13, and a claw 14 provided on the reflecting plate 12 fixes the substrate 13. At this time, the substrate 13 is fixed at a predetermined position of the reflector 12 so that the light source 11 coincides with the center of each opening 15 (center of the opening 17). The shape of the step portion 16 is such that the diameter of the cylindrical opening 17 covering the light source 11 is A, the diameter of the step portion 16 is B, the depth of the step portion 16 is C, and the incident angle of light from the light source 11 to the front panel 10. Is θ, B> 2C / tan θ + A as shown in FIG.

  By adopting this shape, the light represented by S in FIG. 2A can be darkened by scattering light from the bright part. At this time, the depth C of the stepped portion 16 may be any depth as long as C ≦ L, where L is the distance from the light source 11 to the tip of the reflector 12 (on the front panel 10 side).

  As described above, the alkali ion water conditioner of Embodiment 1 provides an illumination effect that creates a flow of light synchronized with the discharge of water by providing a time difference in the light emission times of the light sources 11 arranged in parallel. A step 16 is provided in the opening 15 of the reflector 12 that reflects the light from the light source 11 toward the front panel 10, and the amount of light between the cone-shaped portion of the light shown in FIG. The difference can be reduced, a gradation effect can be realized in the flow of raw water, and a smooth flow of water can be imaged by looking at the front panel 10.

(Embodiment 2)
The alkaline ionized water apparatus of Embodiment 2 of this invention is demonstrated using drawing. FIG. 3A is a front view of a reflecting plate built in an alkaline ionized water apparatus according to Embodiment 2 of the present invention, FIG. 3B is a cross-sectional view of the reflecting plate of FIG. ) Is a partially enlarged view of the reflector of FIG. 3A, 3 </ b> B, and 3 </ b> C, 11 is a light source, 12 is a reflector, 13 is a substrate, 14 is a claw, 15 is an opening, 16 is a step, 17 is an opening, and 18 is an opening 15. It is a cone-shaped cone-shaped inclined part formed in the center.

The basic configuration of the alkaline ionized water device of the second embodiment is the same as that of the first embodiment, and the light source 11 is attached to the substrate 13, and the substrate 13 is fixed by the claws 14 provided on the reflector 12. . At this time, the light source 11 is fixed so as to be positioned at the center of each cone-shaped cone-shaped inclined portion 18. The cone-shaped inclined portion 18 has a small diameter on the light source 11 side and increases in diameter toward the front panel 10 side. The opening 15 on the front panel 10 side is provided with a step 16 having a diameter wider than the opening.

  The step portion 16 is represented by B> 2C / tan θ + D, where B is the diameter of the step portion 16, D is the maximum diameter of the cone-shaped cone-shaped inclined portion 18, and θ is the spread angle of the cone-shaped inclined portion 18. . By adopting this shape, the light indicated by S in FIG. 2A scatters light from the bright part and can be darkened. At this time, the depth C of the stepped portion 16 may be any depth as long as C <L, where L is the distance from the light source 11 to the tip portion (front panel side) of the reflecting plate 12.

  As described above, the alkaline ionized water device of Embodiment 2 obtains an illumination effect that creates a flow of light synchronized with the discharge of water by providing a time difference in the light emission times of the light sources 11 arranged in parallel. A cone-shaped inclined portion 18 and a stepped portion 16 are provided in the opening portion 15 of the reflection plate 12 that reflects light from the light source 11 toward the front panel 10, and the light is condensed at the center of the reflection plate 12. By strengthening the contrast with the peripheral edge, the contrast of light near the opening of the reflector 12 can be suppressed, and a gradation effect can be realized in the flow of raw water. Can be imaged.

  The alkaline ionized water device of the present invention produces alkaline ionized water used for drinking and medical use, or acidic ionized water used for lotion, sterilizing washing water, etc., and has an image of visually smooth water flow. By making it possible, it can be utilized for an alkali ion water conditioner or the like that comfortably uses these ionized water.

(A) Front view of partially crushed structure of alkaline ionized water device according to Embodiment 1 of the present invention, (b) Structure side view of alkaline ionized water body of (a) (A) The front view of the reflecting plate built in the alkaline ionized water apparatus in Embodiment 1 of this invention, (b) Sectional drawing of the reflecting plate of (a), (c) of the reflecting plate of (b) Partial enlarged view (A) The front view of the reflecting plate built in the alkaline ionized water apparatus in Embodiment 2 of this invention, (b) Sectional drawing of the reflecting plate of (a), (c) of the reflecting plate of (b) Partial enlarged view (A) Appearance front view of conventional alkaline ionized water device, (b) Appearance side view of alkaline ionized water device of (a), (c) Appearance plan view of alkaline ionized water device of (a) (A) Partially crushed structure front view of conventional alkaline ionized water body, (b) Partially crushed structure side view of partially crushed structure of alkaline ionized water body of (a) The figure which shows the reflecting plate of the conventional alkaline ionized water device

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Raw water pipe 2 Alkali ion water conditioner main body 3 Cartridge part 4 Flow rate detection means 5 Calcium supply part 6 Electrolytic tank 7 Drain pipe 8 Drain pipe 9 Operation panel 10 Surface panel 11 Light source 12 Reflector 13 Substrate 14 Claw 15 Opening 16 Step Part 17 Opening 18 Cone-shaped inclined part

Claims (5)

A plurality of light sources that emit light in synchronization with the flow of water, a light-transmitting or semi-light-transmitting display plate that is provided on the surface of the main body and projects light from the light source, and the light source and the display plate An alkali ion water conditioner installed in between and formed with a plurality of apertures through which light from the light source passes and a reflector for reflecting scattered light from the display plate is provided. Are each formed with a stepped portion that is recessed from the surface of the reflector, and is between the diameter B of the stepped portion on the display plate side, the diameter A of the opening, the incident angle θ of the light source, and the depth C of the step. B> 2C / tan θ + A Alkaline ion water conditioner characterized by having a relationship . 2. The alkaline ionized water device according to claim 1 , wherein a depth C of the stepped portion is in a relationship of C ≦ L with respect to a distance L between the display plate and the light source . A plurality of light sources that emit light in synchronization with the flow of water, a light-transmitting or semi-light-transmitting display plate that is provided on the surface of the main body and projects light from the light source, and the light source and the display plate An alkali ion water conditioner installed in between and formed with a plurality of apertures through which light from the light source passes and a reflector for reflecting scattered light from the display plate is provided. Is formed with a stepped portion that is recessed from the surface of the reflector, and a cone-shaped inclined portion having a small diameter on the light source side and a large diameter on the display plate side is provided between the stepped portion and the opening. The diameter of the portion is larger than the diameter on the display side of the cone-shaped inclined portion, and the diameter B of the step portion is smaller than the diameter D of the tip of the cone with respect to the incident angle θ of the cone to the display plate and the depth of the step. C is B> 2C / tanθ + D Alkaline ion water conditioner characterized by that. 4. The alkaline ionized water device according to claim 3, wherein the depth C of the stepped portion has a relationship of C <L with respect to a distance L between the display plate and the light source. The alkaline water conditioner according to any one of claims 1 to 4, further comprising a plurality of light sources that sequentially emit light according to a predetermined flow of water.

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