JP3155538U - Reduced water generator - Google Patents

Abstract

[PROBLEMS] To achieve the reduction of water in a state of being accommodated in a bathtub, while being applicable to the reduction of air in a room away from the bathtub and further to the reduction of drinking water. The structure of the reduced water production | generation apparatus which does is provided. A pair of plate electrodes 4 are respectively attached to the bottom 11 of a dish-shaped container for containing water, and the container 1 has holes 5 through which oxygen and hydrogen based on electrolysis pass on the upper side. An apparatus for generating reduced water based on the fact that a DC power source 6 is provided in a support part 3 that connects or integrally forms the covering part 2 that is connected and supports the container 1 or the covering part 2 from below. [Selection] Figure 1

Description

  The present invention relates to an apparatus for generating reduced water by applying a DC voltage, which has a compact shape and enables versatile use.

  In general, when the value of redox potential (ORP value) measured by using a silver-silver chloride electrode is +200 mV as an oxidation-reduction potential of water, an intermediate value is set, and water having a potential lower than the intermediate value is water. Is called reduced water.

  The reduced water generation device inevitably employs a pair of electrodes (the silver-silver chloride electrode is used for measuring the oxidation-reduction potential, but is actually rarely used as the pair of electrodes). However, in most cases, the pair of electrodes are provided substantially in parallel in a state of protruding from the bottom to the upper side of the container.

  However, in the case of such an electrode projecting structure, a container that inevitably contains water requires a peripheral wall along the projecting direction, which is extremely inconvenient to carry.

  In view of such a situation, for example, Patent Documents 1 and 2 propose a configuration in which a pair of plate-like electrodes is installed in a state substantially parallel to the bottom of a container or a water tank.

  However, even in such a configuration, a sufficiently compact shape is never realized.

  Incidentally, even in these configurations, it is used to reduce the water in the bathtub, but because it is not compact enough in shape, the reduced water generator is installed outside the bathtub to circulate the water and accommodate it in the bathtub The water is not reduced in the state of being.

JP 2001-79548 A JP 2006-130473 A

  The present invention is convenient to carry and reduces water in a state where it is housed in a bathtub, while applying it to reducing air in a room away from the bathtub, and also to reducing drinking water. It is an object of the present invention to provide a configuration of a reduced water generator that enables multipurpose use.

In order to solve the above problems, the basic configuration of the present invention is as follows.
(1) A covering portion in which a pair of plate-like electrodes are attached to the bottom of a dish-shaped container that contains water, and the container has holes through which oxygen and hydrogen based on electrolysis pass on the upper side. A reduced water generating device based on the fact that a DC power source is provided in a support portion that connects or integrally forms the vessel from below.
(2) A covering portion in which a pair of plate electrodes are attached to the bottom of a dish-shaped container for containing water, and the container has holes through which oxygen and hydrogen based on electrolysis pass on the upper side. A reduced water generator based on the fact that a DC power source is provided in a support part that connects or integrally forms the support part from below.
Consists of.

  In the present invention based on the basic configurations (1) and (2), on the one hand, the user realizes the reduction of water in a state where the reduced water generating device is accommodated in the bathtub, while the device is used as a normal device. In addition to being installed in the room and containing water in the container, it can be used not only for reducing air by generating hydrogen based on hydrolysis in the air in the room, but also for reducing drinking water It becomes.

An embodiment of the basic configuration (1) is shown, (a) is a sectional view, and (b) is a plan view from above. It is sectional drawing which shows embodiment of the said basic structure (2) (The state of a top view is the same as FIG.1 (b), and abbreviate | omits). The structure of sectional drawing by the Example which shows the state which covered the reduced water production | generation apparatus with the lid | cover which has provided the electric fan inside is shown. Either one of the pair of electrodes has a shape surrounding the other, or one electrode has a convex shape and the other electrode has a concave shape, and the convex convex region enters the concave concave region. The case of the shape is shown.

  In the basic configurations (1) and (2), a plate-like container 1 in which a pair of plate-like electrodes 4 are bonded to the bottom 11, a covering part 2 having a hole 5, and a DC power source 6, respectively. The support part 3 provided with is used as a constituent element.

  In the DC power source 6, a power source via a rectifier for an AC power source normally transmitted to the home or a portable DC battery such as a battery is used.

  In the basic configuration (1), as shown in FIG. 1A, the support part 3 supports the container 1, and the container 1 and the covering part 2 are integrally formed or connected to each other. Both cases can be employed (in FIG. 1A, the shape in the case of connection is shown).

  On the other hand, in the basic configuration (2), the support portion 3 supports the covering portion 2, while the container 1 and the covering portion 2 can be both formed integrally and connected to each other. Yes, this point is not different from the case of (1).

In the covering portion 2, as shown in FIG. 1 (b), holes 5 for allowing oxygen (O ₂ ) and hydrogen (H ₂ ) generated by hydrolysis to pass therethrough are provided. The shape and position are not particularly limited.
However, as shown in FIG. 1B, in the case of a configuration in which a plurality of holes 5 are provided at positions corresponding to the respective electrodes 4, it is appropriate for preventing the risk of recombination of hydrogen and oxygen. It is.

  In either case of the basic configuration (1) or (2), the device of the present invention is accommodated in a bathtub based on a compact configuration in which a pair of flat plate electrodes 4 are provided in a dish-like container 1. The reduction of water can be realized in the state.

  Furthermore, in the case of the basic configuration (1), the strength of the material for the covering portion 2, the container 1 and the support portion 3 is set to a predetermined level or more, and in the case of the basic configuration (2), the support portion 3 and the covering portion. By setting the strength of the material 2 to a predetermined level or more, the body can be placed on the covering portion 2 to support the body during bathing.

  Based on such a compact configuration, when the apparatus according to the present invention is moved and installed in a room, the hydrogen is reduced and purified by volatilizing hydrolyzed hydrogen into the room. It is also possible to contribute to the health of people.

  The shape of the covering portion 2 is not particularly limited. However, as shown in FIGS. 1A and 2, when the shape is depressed toward the center portion, the body is in a stable state. On the other hand, when the apparatus is installed in the room, hydrolysis can be continued by accommodating water up to the upper side of the recess, reducing the air in the room, and drinking water. It is also possible to use it for the reduction.

When water is accommodated in the concave portion of the covering portion 2, in order to prevent the water from escaping to the outside, a fan is accommodated on the upper side of the covering portion 2 as shown in FIG. An embodiment in which a lid 8 having a plurality of holes 5 through which oxygen or hydrogen is passed by decomposition is disposed on the upper side of the apparatus is very advantageous in preventing the dissipation of water and realizing a wide distribution of hydrogen. It is.
Even in the case of the hole 5 provided in the lid 8, if the hole 5 is provided at a position corresponding to the anode and the cathode, respectively, it is appropriate in that the risk of recombination of oxygen and hydrogen can be prevented. Is the same as in the case of the hole 5 provided in the covering portion 2.

  1 (a) and 1 (b), the plate-like electrodes 4 are arranged at positions independent of each other, but as shown in FIGS. 4 (a) and 4 (b), the electrode 4 on one side is the other side. The shape surrounding the side electrode 4, or one of the pair of electrodes 4 is the shape surrounding the other, or one electrode 4 is convex and the other electrode 4 is concave, In the shape in which the convex convex region enters the concave concave region, the area of the bottom 11 of the dish-shaped container can be effectively used for the arrangement of the electrodes 4.

  The embodiment is characterized in that a constant current circuit is employed as the DC power source 6 for the pair of electrodes 4.

  As already disclosed in Japanese Patent Application No. 2007-263882, the reduced water generating apparatus that applies a constant current has a reduction voltage with a substantially constant magnitude, and consequently, hydrolyzes oxygen and hydrogen in a stable state. There is the greatest technical advantage that can be done, and this point is naturally valid in the present invention.

  The present invention can be used in all fields of a reduced water generator intended for multipurpose use due to its compact configuration.

DESCRIPTION OF SYMBOLS 1 Container 11 Container bottom part 2 Covering part 3 Support part 4 Electrode 41 Power supply 5 Hole 6 DC power supply 7 Boundary part (A special material may be installed for boundary part formation, and it may not install.)
8 Lid 9 Fan 91 Fan support

Claims (7)

  A pair of plate-like electrodes are attached to the bottom of a dish-like container that contains water, and a covering part having holes through which oxygen and hydrogen based on electrolysis pass is connected to the container on the upper side. Or a reduced water generator based on the fact that a DC power source is provided in a support part that is integrally formed and supports the container from below.   A pair of plate-like electrodes are attached to the bottom of a dish-like container that contains water, and a covering part having holes through which oxygen and hydrogen based on electrolysis pass is connected to the container on the upper side. Or a reduced water generator based on the fact that a DC power source is provided in a support portion that is integrally formed and supports the covering portion from below.   The reduced water generating apparatus according to any one of claims 1 and 2, wherein the covering portion has a shape that is recessed downward from a peripheral portion to a central portion.   Either one of the pair of electrodes has a shape surrounding the other, or one electrode has a convex shape and the other electrode has a concave shape, and the convex convex region enters the concave concave region. The reduced-water production | generation apparatus of any one of Claims 1, 2, 3 characterized by the above-mentioned.   The lid according to any one of claims 1, 2, 3, and 4, characterized in that an electric fan is housed on the upper side of the covering portion, and a lid is provided with a hole for allowing oxygen or hydrogen to pass through hydrolysis. The reduced water production | generation apparatus of description.   The reduced water generating apparatus according to any one of claims 1, 2, 3, 4, and 5, wherein a constant current circuit is connected to the DC power source.   The reduced water generating apparatus according to any one of claims 1, 2, 3, 4, 5, and 6, wherein the holes through which oxygen or hydrogen passes are located at positions corresponding to the anode or the cathode, respectively.

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