JP3092265U - Alkaline activated water generator - Google Patents

Abstract

PROBLEM TO BE SOLVED: To produce alkaline activated water having a desired pH value. The structure is simple, inexpensive and easy to operate, and there is a degree of freedom in installation location as long as it can be connected to a water pipe. A casing (2) is provided with a water supply unit (3) for placing a container (1) therein, and a water tank (6) provided therein with three partition plates (7, 8, 9) for meandering the supply water is stored therein. . A water supply pipe 12 connected to a water supply pipe is provided on the upstream side of the water tank 6, and a supply water pipe 15 branched from the water supply pipe 12 on the downstream side and having an electromagnetic supply amount control valve 16 is provided on the way. It is. A discharge pipe 18 for discharging alkali-activated alkaline water is disposed between a water tap 17 provided in the casing 2 and the water tank 6. On the upstream side of the water tank 6, tourmaline, granite, and alkali ore are formed into fine powder, sealed in a water-permeable storage bag, and immersed in an alkali active body 31 stored in a porous container.

Description

[Detailed description of the device]

[0001]

[Technical field to which the device belongs]

  The present invention is a simple method in which tap water is used without an electrolysis means to obtain an alkali having a desired pH value. The present invention relates to an alkaline activated water generator that can generate activated water.

[0002]

[Prior art]

  In recent years, as a mode of using water, for example, drinking water is alkaline water, and lotion is acidic water. Adjust the pH value of water according to the application, such as making it a property, and use water with alkaline water or Is being used as acidic water. This alkaline water A method of generating is disclosed in, for example, Japanese Patent Laid-Open No. 11-57718. As disclosed in JP-A-10-76283. As described above, a method utilizing the property of tourmaline is known.

[0003]   However, the generator using the electrolysis method has a complicated mechanism and is expensive. There is an advantage that acidic water can be selectively generated together with water, but it is an unnecessary function depending on the application. There are a number of drawbacks such as the problem that there is, and that it cannot be used without a commercial power supply There is. Also, the method of using ore such as tourmaline is simple in configuration, Nothing is available that can adjust the pH value of the alkaline water to a value suitable for the intended use such as for beverages. Not planned.

[0004]

[Problems to be solved by the device]

  The present invention has been made in view of the above-mentioned drawbacks of the prior art, and has a simple structure. It is inexpensive, easy to operate, and the pH value can be adjusted to the desired value. In addition, it can be operated with battery power, so there is flexibility in the installation location. It aims at providing a sex water generator.

[0005]

[Means for Solving the Problems]

  Means of the present invention, which is configured to solve the above-mentioned problems, is a generator main body A water tank that makes the supply water injected from the water pipe meander from the upstream side to the downstream side, and A faucet for discharging the formed alkaline activated water from the water tank, and a downstream in the water tank Water supply pipe for replenishing adjusted water to the side of the A pH sensor for detecting the pH value of natural water and the pH sensor provided in the makeup water pipe. And a replenishment amount control valve that controls the replenishment water amount based on the detection value detected by It consists of the alkaline activator immersed in the upstream side of the water tank.

[0006]   And, the alkali activator is fine powder of tourmaline, granite and alkali ore. Powder, a water-permeable bag for containing the fine powder, and a porous container for containing the water-permeable bag It is good to compose from.

[0007]   The fine powder is 50% by weight of finely powdered tourmaline and 25% by weight of finely powdered granite. It is preferable to mix 25% by weight of finely powdered alkali ore in an amount of 25% by weight.

[0008]

[Embodiment of device]

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the figure, 1 is a generator A main body 2 is a casing constituting the generator main body 1, and the casing 2 is a front plate. 2A, the rear plate 2B, the left and right side plates 2C, 2C and the top plate 2D form a square tube shape. The top plate 2D has an opening formed substantially in the center thereof which can be opened and closed by a cover plate 2E. I have made it. Then, the front plate 2A has a recess 3A, and a front end from the lower end of the recess 3A. There is provided a water supply unit 3 consisting of a saucer 3B protruding to the inside, and the saucer 3B is supplied with water. Sometimes a drain pipe 4 is connected to drain the alkaline activated water overflowing from the container a. . A pH display window 5 is provided on the front plate 2A above the water supply unit 3.

[0009]   Reference numeral 6 denotes a water tank housed in the casing 2, and the water tank 6 has a rectangular bottom plate 6A, From the front and rear, left and right side plates 6B, 6C, 6D, 6E standing up from the four sides of the bottom plate 6A. It is configured as a box-shaped container with the upper part open. 7, 8 and 9 are supply water in the water tank 6. Shows three partition plates that are erected in order to make the fluid flow in a meandering shape. Each partition plate 7, 8, 9 Has a vertical dimension shorter than the height of the water tank 6. And the first in the water tank 6 The first partition plate 7 that defines the compartment A is located in the water tank 6 on the upstream side. The gap between the end 7A and the bottom plate 6A is the first flow path 10a. In the aquarium 6 The second partition plate 8 that defines the two compartments B is placed upright from the bottom plate 6A, The upper end 8A side is the second flow path 10b. In addition, on the downstream side in the water tank 6, The third partition plate 9 that defines the third and fourth compartments C and D is arranged near the upper edge of the water tank 6. As a result, the gap between the lower end 9A and the bottom plate 6A becomes the third flow path 10c. It The water tank 6 having the above-described structure is installed along the side plates 2C and 2C of the casing 2. Installed in the casing 2 while being supported by the pair of placed channel members 11, 11. I am doing it.

[0010]   Reference numeral 12 denotes a water supply pipe for supplying water into the water tank 6 having the above-mentioned configuration. A base end 12 is connected to a water pipe through an opening / closing valve 13, and the casing 2 to the water tank 6 are connected. Extends upward in the first compartment A, and its tip 12A is open to the first compartment A. It A float valve 14 is provided on the tip 12A side of the water supply pipe 12, and the water tank The amount of stored water in 6 is kept constant.

[0011]   Reference numeral 15 is a make-up water pipe branched from the water supply pipe 12, and the make-up water pipe 15 is It extends upward in the fourth compartment D of the water tank 6 and its tip 15A is open. And An electromagnetic replenishment amount control valve 16 is provided in the middle of the replenishment water pipe 15. The supply amount control The valve 16 is closed at pH 7 and 5 by a signal from the pH sensor 20 described later, , 4 to control the amount of make-up water supplied to control the alkali concentration within the desired range. It is adjusted to the value of.

[0012]   Reference numeral 17 is an electromagnetic type water tap for discharging the alkali-produced water. It is located above the water part 3 and installed in the casing 2. 18 precedes the hydrant 17 The discharge pipe 18 is connected at its end, and the discharge pipe 18 has a proximal end opening into the fourth compartment D An electromagnetic on-off valve 19 is provided. Further, 20 is an alkaline raw material on the downstream side in the water tank 6. A pH sensor for detecting the pH value of the formed water. The pH sensor 20 is a compartment of the water tank 6. It is located at C and is attached to the third partition plate 9.

[0013]   21 is attached to the front plate 2A of the casing 2 and is based on the signal from the pH sensor 20. Based on the control panel for controlling the supply amount control valve 16, A certain pH meter 22 is located in the pH display window 5 of the casing 2, and the control panel 21 is It is electrically connected to the pH sensor 20 via the. Also, the front plate 2A of the casing 2 There are two sets of three operation buttons 23, 23 located above the water supply unit 3. It The operation buttons 23 are a water supply button 23A, a cleaning fixed amount button 23B, and a water supply button. It is composed of a fixed amount button 23C for use, and by pushing these, the water tap 1 7 is electrically operated to open and close.

[0014]   The electromagnetic replenishment amount control valve 16, the electromagnetic water tap 17, and the electromagnetic on-off valve 1 described above 9. The pH sensor 20 and the control panel 21 are operated by a power battery (not shown). However, it may be configured to operate using a commercial power source.

[0015]   Next, the alkali activator 31 for alkali-activating the supply water in the generator main body 1 Will be described with reference to FIG. In the figure, 32 is molded of synthetic resin, for example. The porous container 32 includes a pair of divided bodies 32A, 32A and each divided body 32A. A large number of water passage holes 32B, 32B, ... The holes 32C, 32C, ... 33 is stored in the porous container 32 In the water-permeable storage bag, the ore fine powder is stored in the water-permeable storage bag 33. here The ore fine powder is 50% by weight of tourmaline formed into fine powder having a particle size of 6 μ, Of 25% by weight and alkaline ore in a ratio of 25% by weight.

[0016]   The alkaline activated water generator according to the present embodiment has the above-mentioned configuration and includes a water supply pipe. If a water pipe can be connected to 12, it can be installed at any place. And The water tank 6 is supplied with supply water from the water supply pipe 12, and the float valve 14 constantly fills the water. It is designed to be maintained. In addition, the alkaline activator 31 It is placed in compartment A in a dipped state and molded into a fine powder from the alkali activator 31. PH 10,12 tourmaline, pH 9,29 granite and pH 9,72 Each component of Lucari ore is dissolved in the feed water.

[0017]   In the water tank 6, the alkalized supply water is discharged from the water tap 19. It flows from the upstream side to the downstream side. That is, from the compartment A of the water tank 6 to the first flow path 10a Through the second flow path 10b into the compartment C, and further into the third flow path 1 through the second flow path 10b. Flow into compartment D through 0c. In this way, the supply water flows in a meandering manner in the water tank 6. By doing so, each component eluted from the alkali activator 31 is uniformly mixed with the feed water. To do. The particle size of tourmaline, granite, and alkaline ores that alkalize the supply water is 6μ. It is molded into fine powder of, and the surface area of each ore is large, so the elution of its components is excellent. There is. In addition, as a result of diligent research on the mixing ratio of ore, 50% by weight of tourmaline, flower The ratio of 25% by weight of granite and 25% by weight of alkaline ore is equivalent to Most suitable for potash activation.

[0018]   The alkaline activated water detected by the pH sensor 20 provided on the third partition plate 9 is then detected. When the pH value is high, the control unit 21 sends a signal to the electromagnetic replenishment amount control valve 16 to set the pH value. By closing the valve at 7,5 and opening it at pH 8,4 The amount of make-up water supplied from the The degree of Lucari is controlled to maintain a pH of around 7.5.

[0019]   Thus, a person who uses the alkaline activated water for drinking or the like should put the container a in the water supply section 3. Place on the plate 3B and press the water supply button 23A or the fixed amount button 23C to supply the water tap 19 It is possible to obtain alkaline activated water whose pH value is appropriately maintained.

[0020]   In addition, in the present embodiment, the structure in which one alkaline activator 31 is accommodated in the water tank 6 is adopted. However, depending on the capacity of the water tank, a plurality of alkaline activators 31 should be accommodated. Is also good.

[0021]

[Effect of device]

  Since the present invention is configured as described above in detail, it has the following effects. (1) In a water tank, supply water with a mineral component that is eluted from an alkaline activator. To mix evenly and detect the pH value to supply the required amount of make-up water. Therefore, alkaline activated water having a desired pH value can be generated. (2) Since the structure is simple, the cost is low and the operation is easy. (3) It is also possible to adjust the pH value of the alkaline activated water to a desired value. (4) The components of ores such as tourmaline are eluted into the feed water to obtain the electric power for electrolysis. Since you don't use energy, you can save running cost. (5) Since it can be operated with a battery power source, there is flexibility in the installation location.

[Brief description of drawings]

FIG. 1 is an external perspective view of an alkaline activated water generator according to an embodiment of the present invention.

FIG. 2 is a vertical sectional view of an alkaline activated water generator.

FIG. 3 is a sectional view taken along the line III-III in FIG.

FIG. 4 is an overall configuration diagram showing an alkali activator with a part thereof broken away.

[Explanation of symbols]

1 Generator body 6 aquarium 12 Water pipe 15 Make-up water pipe 16 Supply amount control valve 17 Water tap 20 pH sensor 31 Alkaline activator 32 Perforated container 33 Water-permeable bag

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁷ Identification code FI C02F 1/00 C02F 1/00 1/68 510 1/68 510B 520 520N 520S 520U 530 530B

Claims (3)

[Scope of utility model registration request] 1. The water generator main body comprises a water tank for flowing feed water injected from a water supply pipe in a meandering manner from upstream to downstream.
A faucet for discharging the generated alkaline activated water from the water tank, a makeup water pipe for replenishing adjusted water to the downstream side of the water tank, and a downstream side of the water tank, the pH value of the alkaline activated water A pH sensor for detection and a replenishment amount control valve provided in the replenishment water pipe for controlling the amount of replenishment water based on the detection value detected by the pH sensor, and the alkali activator is immersed in the upstream side of the water tank. Alkaline activated water generator. 2. The alkaline activator comprises fine powder of tourmaline, granite and alkaline ore, a water-permeable container for containing the fine powder, and a porous container for containing the water-permeable container. The alkaline activated water generator according to claim 1, wherein 3. The fine powder comprises 50 finely powdered tourmaline.
The alkaline activated water generator according to claim 2, wherein the mixture is a mixture of 25% by weight, 25% by weight of finely divided granite and 25% by weight of finely divided alkaline ore.