CN106904720B - Device for generating plain water - Google Patents

Abstract

The invention discloses a device for generating water, which comprises a water container, a reaction container and a hydrogen-generating substance, wherein the hydrogen is generated by utilizing the substance or substance mixture for generating hydrogen, then the hydrogen is dissolved in water or combined with mineral substances in the water to generate water rich in hydrogen or active hydrogen ions (H & lt- & gt), and then the water is sealed in the container, so that the device has the following advantages: the drinking water containing hydrogen ions is simply and quickly prepared; can be matched with any mineral water bottle or other drinking water cup for use, and is simple and convenient to carry and use; electricity is not needed; the disposable storage bag is disposable, the storage problem of repeated use is not required to be considered, and waste is avoided; the rate of generating the water is many times higher than that of the electrolysis method, and no peculiar smell is generated; the water can be quickly prepared by puncturing the film or directly putting the capsule into water in the using process.

Description

Device for generating plain water

Technical Field

The invention relates to the technical field of production of plain water, in particular to a device for producing plain water.

Background

Hydrogen rich Water is also called plain Water (Hydrogen Water). Modern medicine considers that the decomposition of substances is an acidification (oxidation) process, and a large amount of peroxy radicals are generated in human bodies by breathing oxygen, smoking, drinking, pollution sources in the environment and the like, and can arbitrarily destroy cell tissues to cause gene diseases and body aging. Active hydrogen can effectively remove free radicals in vivo, and the hydrogen-rich water has oxidation resistance exceeding that of all known human antioxidants such as vitamin C, carrot, lecithin and the like, and has strong prevention and treatment effects on various symptoms caused by free radicals such as allergic dermatitis, constipation, hypertension, diabetes, cancer and the like. The hydrogen-rich water is drunk frequently, so that the metabolism can be well promoted, each cell can automatically keep a healthy state, the body rust can be removed, and the aging can be delayed.

There are several methods of producing hydrogen-rich water:

1. the hydrogen rod is also called a hydrogen rod of a water element. Introduced by japan. Hydrogen is produced by the reaction of magnesium with water. When the hydrogen water rod is put into a container filled with drinking water, small hydrogen bubbles are generated around the hydrogen water rod. The use of a hydrogen water rod in a closed container is somewhat more effective. Hydrogen readily escapes from the water if used in an open vessel. In addition, the magnesium particles are easy to oxidize, and the effect is obviously reduced along with the increase of the using times. The concentration of hydrogen produced therefrom depends on the number of uses, whether the vessel is closed, the reaction time, and the like. The stick body is cleaned regularly, otherwise various bacteria are easy to breed in the stick body.

2. The hydrogen-rich water machine (filter element type) is internally provided with filter elements such as PP cotton, activated carbon, magnesium particles or tourmaline, and when water flows through the magnesium particle filter element or the tourmaline microelectrolysis filter element, micro hydrogen is generated and flows out along with the water flow. The hydrogen-rich water machine is basically provided with a metal magnesium particle filter element or a tourmaline micro-electrolysis filter element on the basis of a domestic water purifier. The magnesium particle filter element in the filter element is easy to oxidize, and the effect is obviously reduced along with the increase of the using times. Moreover, the contact time between the water flow and the filter element is limited, and the hydrogen content is very low.

3. The electrolytic hydrogen-rich water machine adopts a method of electrolyzing water, which is one of the water electrolyzing machines, and the electrolyzed water has been considered to have auxiliary treatment effect on certain diseases during the past decades. In Japan, electrolyzed water is approved and popularized by the national health administration. The past theory holds that the medical effect of the electrolyzed water is because the electrolyzed water has a weak alkaline and small molecular group structure. Since the discovery of the medical effect of hydrogen molecules, it is now believed that the nature of the electrolyzed water effect is also the hydrogen effect. The electrolysis type hydrogen-rich water machine is divided into two types, one type is directly connected into a tap water pipe, filter elements such as PP cotton and active carbon are utilized to purify water firstly, and then the water is electrolyzed through an electrolytic cell, and the other type is that clean drinking water is directly injected into an electrolysis device for electrolysis and poured out after certain electrolysis time. The electrode of the hydrogen-rich water electrolyzing machine is very critical, the inferior electrode is easy to be oxidized, and the heavy metal content in the water is increased due to the electrolysis. The hydrogen yield of the hydrogen-rich water electrolyzing machine is related to the electrodes for electrolyzing water, the electrolysis time, the structural form of an electrolytic bath and the like, and the hydrogen-rich water electrolyzing machine has use limitation.

Disclosure of Invention

In order to solve the above problems of the conventional aqueous vegetarian water generation apparatus, the present invention provides an apparatus for generating aqueous vegetarian water.

The technical scheme adopted by the invention for realizing the purpose is as follows: a device for producing water plain water comprises water containers 5 and 30, a reaction container and a hydrogen production substance 3, wherein the reaction container is a combination of a water container and the hydrogen production substance container or a capsule membrane 31 with the hydrogen production substance arranged inside, the water container and the hydrogen production substance container are separated by a breakable membrane 9, and the reaction container is sealed in the water container after the water and the hydrogen production substance react; the capsule membrane 31 is permeable to water and air, and the capsule membrane 31 with the hydrogen-producing substance therein is sealed in a water container.

The water container is a water bottle 5 or a water bag 30, the water bottle 5 is provided with a bottle cap 1, and the bottle cap 1 and the water bottle 5 are installed through bottle cap threads 7 and water bottle threads 12.

The reaction container is a container 4 or a capsule with an integral structure or a hydrogen production substance container 19 and a water container 18 with a split structure, a membrane 9 is arranged between water 2 and the hydrogen production substance 3 in the container 4, and a top thin film 8 is arranged above the water surface at the upper part of the container 4; the water container 18 is provided inside with a film 9 for sealing water.

The center of the bottle cap 1 adopting the container 4 is provided with a needle 13 for puncturing the membrane 9, the bottle cap 1 and the container 4 are installed through a bottle cap internal thread 6 and a container external thread 11, or the bottle cap 1 and the container 4 are installed through a bottle cap buckle 14 and a container buckle 15, or the bottle cap 1 and the container 4 are installed through a bottle cap taper hole 16 and a container taper surface 17, the bottom of the container 4 is provided with a one-way valve 10, the membrane 9 is punctured through the combination of the bottle cap 1 and the container 4, and then the water is generated through the combination of the bottle cap 1 and the water bottle 5.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen-producing substance container 19, when the water container 18 is arranged at the upper part of the hydrogen-producing substance container 19, a one-way valve 10 is arranged at the bottom of the hydrogen-producing substance container 19, the water container 18 and the hydrogen-producing substance container 19 are installed through a hydrogen-producing substance container thread 24 and a water container thread 23, or the water container 18 and the hydrogen-producing substance container 19 are installed through a hydrogen-producing substance container buckle 22 and a water container buckle 21, or the water container 18 and the hydrogen-producing substance container 19 are installed through a water container conical hole 20 and a conical surface of the hydrogen-producing substance container; when the hydrogen-producing substance container 19 is arranged at the upper part of the water container 18, the bottom of the water container 18 is provided with the one-way valve 10, the water container 18 and the hydrogen-producing substance container 19 are installed through the hydrogen-producing substance container threads 25 and the water container threads 26, or the water container 18 and the hydrogen-producing substance container 19 are installed through the hydrogen-producing substance container buckle 27 and the water container buckle 28, or the water container 18 and the hydrogen-producing substance container 19 are installed through the hydrogen-producing substance container taper hole 29 and the water container taper surface; the membrane 9 is punctured through the combination of the water container 18 and the hydrogen-producing substance container 19, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bottle 5 or the water bag 30, the water bottle 5 is sealed through the bottle cap thread 7 and the water bottle thread 12 to produce the hydrogen water, and the water bag 30 is sealed through the bag opening to produce the hydrogen water.

The capsule is composed of an outer film 32 and an inner film 9, wherein hydrogen producing substances 3 are placed in the film 9, water 2 is placed between the film 9 and the outer film 32, or the water 2 is placed in the film 9, the hydrogen producing substances 3 are placed between the film 9 and the outer film 32, the film 9 is damaged by squeezing the capsule, then the capsule is placed in a water bottle 5 or a water bag 30, the water bottle 5 is installed and sealed through a bottle cap thread 7 and a water bottle thread 12 to produce the water, and the water bag 30 is sealed through a bag opening to produce the water.

The device for generating the plain water of the invention is made by using the substance or the substance mixture for generating the hydrogen to generate the hydrogen by bottling or bagging the hydrogen-rich water, then dissolving the hydrogen in the water or combining the hydrogen with the mineral substance in the water to generate the water rich in the hydrogen or active hydrogen ions (H & lt- & gt), and then sealing the water in a container, and has the following advantages: the drinking water containing hydrogen ions is simply and quickly prepared; can be matched with any mineral water bottle or other drinking water cup for use, and is simple and convenient to carry and use; electricity is not needed; the disposable storage bag is disposable, the storage problem of repeated use is not required to be considered, and waste is avoided; the rate of generating the water is many times higher than that of the electrolysis method, and no peculiar smell is generated; the water can be quickly prepared by puncturing the film or directly putting the capsule into water in the using process.

Drawings

Fig. 1 is a structural view of an apparatus for producing plain water according to an embodiment of the present invention.

Fig. 2 is a structural view of an apparatus for generating plain water according to an embodiment of the present invention.

FIG. 3 is a structural diagram of an apparatus for generating plain water according to an embodiment of the present invention.

FIG. 4 is a structural view of an apparatus for producing plain water according to the fourth embodiment of the present invention.

FIG. 5 is a schematic diagram of an apparatus for producing a water-containing solution according to an embodiment of the present invention.

Fig. 6 is a structural view of a device for generating plain water according to six embodiments of the present invention.

FIG. 7 is a schematic diagram of an apparatus for producing plain water according to a seventh embodiment of the present invention.

Fig. 8 is a structural view of an apparatus for producing plain water according to an eighth embodiment of the present invention.

FIG. 9 is a block diagram of an apparatus for producing plain water according to the ninth embodiment of the present invention.

Fig. 10 is a structural view of an apparatus for producing plain water according to the tenth embodiment of the present invention.

FIG. 11 is a view showing the structure of an apparatus for producing plain water according to the eleventh embodiment of the present invention.

FIG. 12 is a view showing the structure of an apparatus for producing a plain water according to a twelfth embodiment of the present invention.

FIG. 13 is a structural view of an apparatus for producing plain water according to the thirteenth embodiment of the present invention.

FIG. 14 is a view showing the structure of an apparatus for producing plain water in accordance with a fourteenth embodiment of the present invention.

Fig. 15 is a structural view of an apparatus for producing plain water in accordance with a fifteenth embodiment of the present invention.

Fig. 16 is a structural view of an apparatus for producing plain water according to a sixteenth embodiment of the present invention.

FIG. 17 is a schematic diagram of an apparatus for producing a plain water according to seventeenth embodiment of the present invention.

Fig. 18 is a structural view of an apparatus for producing plain water according to eighteen embodiments of the present invention.

Fig. 19 is a structural view of an apparatus for producing plain water according to nineteenth embodiment of the present invention.

Fig. 20 is a structural view of an apparatus for producing plain water according to the twenty embodiments of the present invention.

Fig. 21 is a structural view of an apparatus for producing a hydrous water according to twenty one embodiment of the present invention.

Detailed Description

In the first embodiment, as shown in fig. 1, a reaction vessel is a vessel 4 with an integrated structure, a membrane 9 is arranged between water 2 and a hydrogen-producing substance 3 in the vessel 4, and a top thin film 8 is arranged above the water surface at the upper part of the vessel 4; the hydrogen-producing substance is a substance or a substance mixture which is added with water to produce hydrogen.

The center of the bottle cap 1 is provided with a needle 13 for puncturing the membrane 9, the bottle cap 1 and the container 4 are installed through the bottle cap internal thread 6 and the container external thread 11, the bottom of the container 4 is provided with a one-way valve 10 for allowing gas to be discharged, the membrane 9 is punctured through the combination of the bottle cap 1 and the container 4, and then the water is generated through the combination of the bottle cap 1 and the water bottle 5.

Before drinking water, the bottle cap 1 and the container 4 are combined together through the bottle cap internal threads 6 and the container external threads 11, at the moment, the needle punctures the membrane 9, so that the water 2 contacts with the hydrogen-producing substance 3 and reacts to produce hydrogen, at the moment, the bottle cap 1 and the water bottle 5 are rapidly combined together through threads, and the hydrogen is combined with the water and mineral substances in the water to produce water rich in hydrogen or active hydrogen ions.

In the second embodiment, as shown in fig. 2, the reaction vessel is a vessel 4 with an integrated structure, a membrane 9 is arranged between the water 2 and the hydrogen-producing substance 3 in the vessel 4, and a top thin film 8 is arranged above the water surface at the upper part of the vessel 4; the hydrogen-producing substance is a substance or a substance mixture which is added with water to produce hydrogen.

The center of the bottle cap 1 is provided with a needle 13 for puncturing the membrane 9, the bottle cap 1 and the container 4 are installed through a bottle cap buckle 14 and a container buckle 15, the bottom of the container 4 is provided with a one-way valve 10, the membrane 9 is punctured through the combination of the bottle cap 1 and the container 4, and then the water plain water is generated through the combination of the bottle cap 1 and the water bottle 5.

Before drinking water, the bottle cap 1 and the container 4 are combined together through the buckle, at the moment, the needle punctures the membrane 9, so that the water 2 contacts with the hydrogen-producing substance 3 and reacts to produce hydrogen, at the moment, the bottle cap 1 and the water bottle 5 are rapidly combined together through the screw thread, and the hydrogen is combined with the water and mineral substances in the water to produce water rich in hydrogen or active hydrogen ions.

In the third embodiment, as shown in fig. 3, the reaction vessel is a vessel 4 with an integrated structure, a membrane 9 is arranged between the water 2 and the hydrogen-producing substance 3 in the vessel 4, and a top thin film 8 is arranged above the water surface at the upper part of the vessel 4; the hydrogen-producing substance is a substance or a substance mixture which is added with water to produce hydrogen.

The center of the bottle cap 1 is provided with a needle 13 for puncturing the membrane 9, the bottle cap 1 and the container 4 are installed through a bottle cap taper hole 16 and a container taper surface 17, the bottom of the container 4 is provided with a one-way valve 10, the membrane 9 is punctured through the combination of the bottle cap 1 and the container 4, and then the water plain water is generated through the combination of the bottle cap 1 and the water bottle 5.

Before drinking water, the bottle cap 1 and the container 4 are combined together through the taper, at the moment, the needle punctures the membrane 9, so that the water 2 contacts with the hydrogen-producing substance 3 and reacts to produce hydrogen, at the moment, the bottle cap 1 and the water bottle 5 are quickly combined together through the screw thread, and the hydrogen is combined with the water and mineral substances in the water to produce water rich in hydrogen or active hydrogen ions.

In the fourth embodiment, as shown in fig. 4, the reaction vessel is a hydrogen-generating substance container 19 and a water container 18 which are separate bodies, a membrane 9 for sealing water is provided inside the water container 18, and water is sealed inside the water container 18.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the water container 18 is arranged at the upper part of the hydrogen production substance container 19, and the bottom of the hydrogen production substance container 19 is provided with a one-way valve 10 for allowing gas to be discharged. The water container 18 and the hydrogen-producing substance container 19 are arranged through a water container taper hole 20 and a hydrogen-producing substance container taper surface; the combination of the water container 18 and the hydrogen-producing substance container 19 punctures the membrane 9, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bottle 5, and the water bottle 5 is sealed by the bottle cap thread 7 and the water bottle thread 12 to produce water.

The two tapered containers are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly put into the water bottle 5, at this time, the bottle cap 1 and the water bottle 5 are rapidly combined together through threads, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the fifth embodiment, as shown in fig. 5, the reaction vessel is a hydrogen-generating substance vessel 19 and a water containing vessel 18 which are separate bodies, a membrane 9 for sealing water is provided inside the water containing vessel 18, and water is sealed in the water containing vessel 18.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the water container 18 is arranged at the upper part of the hydrogen production substance container 19, and the bottom of the hydrogen production substance container 19 is provided with a one-way valve 10 for allowing gas to be discharged. The water container 18 and the hydrogen-producing substance container 19 are arranged through a hydrogen-producing substance container buckle 22 and a water container buckle 21; the combination of the water container 18 and the hydrogen-producing substance container 19 punctures the membrane 9, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bottle 5, and the water bottle 5 is sealed by the bottle cap thread 7 and the water bottle thread 12 to produce water.

The two containers with the buckles are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly placed into the water bottle 5, at the moment, the bottle cap 1 and the water bottle 5 are rapidly combined together through threads, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the sixth embodiment, as shown in fig. 6, the reaction vessel is a hydrogen-generating substance vessel 19 and a water containing vessel 18 which are separate bodies, a membrane 9 for sealing water is provided inside the water containing vessel 18, and water is sealed in the water containing vessel 18.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the water container 18 is arranged at the upper part of the hydrogen production substance container 19, and the bottom of the hydrogen production substance container 19 is provided with a one-way valve 10 for allowing gas to be discharged. The water container 18 and the hydrogen-producing substance container 19 are arranged through a hydrogen-producing substance container thread 25 and a water container thread 26; the combination of the water container 18 and the hydrogen-producing substance container 19 punctures the membrane 9, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bottle 5, and the water bottle 5 is sealed by the bottle cap thread 7 and the water bottle thread 12 to produce water.

The two containers with screw threads are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen-generating substance container 19 and the water container 18 are rapidly put into the water bottle 5, at this time, the bottle cap 1 and the water bottle 5 are rapidly combined together through the screw threads, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the seventh embodiment, as shown in fig. 7, the reaction vessel is a hydrogen-generating substance vessel 19 and a water-holding vessel 18 which are separate bodies, a membrane 9 is provided between water 2 and a hydrogen-generating substance 3 in a vessel 4, and a membrane 9 for sealing water is provided inside the water-holding vessel 18.

The needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the hydrogen production substance container 19 is arranged on the upper portion of the water containing container 18, the one-way valve 10 is arranged at the bottom of the water containing container 18 and allows gas to be discharged, the water containing container 18 and the hydrogen production substance container 19 are installed through the hydrogen production substance container threads 25 and the water container threads 26, the membrane 9 is punctured through the combination of the water containing container 18 and the hydrogen production substance container 19, then the combined water containing container 18 and the hydrogen production substance container 19 are arranged in the water bottle 5, and the water bottle 5 is installed and sealed through the bottle cap threads 7 and the water bottle threads 12 to generate water.

The two containers with threads are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water 2 reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen-generating substance container 19 and the water container 18 are rapidly placed into the water bottle 5, at this time, the bottle cap 1 and the water bottle 5 are rapidly combined together through the threads, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In example eight, as shown in fig. 8, the reaction vessel is a hydrogen-generating substance vessel 19 and a water-holding vessel 18 which are separate bodies, a membrane 9 is provided between water 2 and a hydrogen-generating substance 3 in a vessel 4, and a membrane 9 for sealing water is provided inside the water-holding vessel 18.

The needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production material container 19, the hydrogen production material container 19 is arranged on the upper portion of the water container 18, the one-way valve 10 is arranged at the bottom of the water container 18, gas is allowed to be discharged, the water container 18 and the hydrogen production material container 19 are installed through the hydrogen production material container buckle 27 and the water container buckle 28, the membrane 9 is punctured through the combination of the water container 18 and the hydrogen production material container 19, then the combined water container 18 and the hydrogen production material container 19 are arranged in the water bottle 5, and the water bottle 5 is installed and sealed to generate water through the bottle cap threads 7 and the water bottle threads 12.

The two containers with the buckles are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water 2 reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly placed into the water bottle 5, at the moment, the bottle cap 1 and the water bottle 5 are rapidly combined together through threads, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the ninth embodiment, as shown in fig. 9, the reaction vessel is a hydrogen-generating substance vessel 19 and a water-holding vessel 18 which are separate bodies, a membrane 9 is provided between water 2 and a hydrogen-generating substance 3 in a vessel 4, and a membrane 9 for sealing water is provided inside the water-holding vessel 18.

The needle 13 that is used for puncturing membrane 9 is located to the center in the hydrogen production material container 19, hydrogen production material container 19 is arranged in dress water container 18 upper portion, dress water container 18 bottom is equipped with check valve 10, allow gaseous emission, dress water container 18 and hydrogen production material container 19 are through hydrogen production material container taper hole 29 and dress water container conical surface installation, puncture membrane 9 through the combination of dress water container 18 and hydrogen production material container 19, then the dress water container 18 that will combine with hydrogen production material container 19 is arranged in water-jug 5, water-jug 5 is installed through bottle lid screw thread 7 and water-jug screw thread 12 and is sealed to produce plain water.

The two tapered containers are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water 2 reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly placed into the water bottle 5, at this time, the bottle cap 1 and the water bottle 5 are rapidly combined together through threads, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the tenth embodiment, as shown in fig. 10, the reaction vessel is a hydrogen-generating substance container 19 and a water container 18 which are separate bodies, a membrane 9 for sealing water is provided inside the water container 18, and water is sealed inside the water container 18.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the water container 18 is arranged at the upper part of the hydrogen production substance container 19, and the bottom of the hydrogen production substance container 19 is provided with a one-way valve 10 for allowing gas to be discharged. The water container 18 and the hydrogen-producing substance container 19 are arranged through a hydrogen-producing substance container thread 25 and a water container thread 26; the combination of the water container 18 and the hydrogen-producing substance container 19 punctures the membrane 9, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bag 30, and the water bag 30 is sealed by a bag opening to produce the hydrogen water.

The two threaded containers are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly put into the water bag 30, at the moment, the water bag 30 is sealed, and the hydrogen combines with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the eleventh embodiment, as shown in fig. 11, the reaction vessel is a hydrogen generating substance container 19 and a water container 18 which are separate bodies, a membrane 9 for sealing water is provided inside the water container 18, and water is sealed inside the water container 18.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the water container 18 is arranged at the upper part of the hydrogen production substance container 19, and the bottom of the hydrogen production substance container 19 is provided with a one-way valve 10 for allowing gas to be discharged. The water container 18 and the hydrogen-producing substance container 19 are arranged through a hydrogen-producing substance container fastener 27 and a water container fastener 28; the combination of the water container 18 and the hydrogen-producing substance container 19 punctures the membrane 9, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bag 30, and the water bag 30 is sealed by a bag opening to produce the hydrogen water.

The two containers with buckles are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly put into the water bag 30, at this time, the water bag 30 is rapidly sealed, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the twelfth embodiment, as shown in fig. 12, the reaction vessel is a hydrogen generating substance container 19 and a water container 18 which are separate bodies, a membrane 9 for sealing water is provided inside the water container 18, and water is sealed inside the water container 18.

A needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the water container 18 is arranged at the upper part of the hydrogen production substance container 19, and the bottom of the hydrogen production substance container 19 is provided with a one-way valve 10 for allowing gas to be discharged. The water container 18 and the hydrogen-producing substance container 19 are arranged through the hydrogen-producing container taper hole 29 and the water container taper surface; the combination of the water container 18 and the hydrogen-producing substance container 19 punctures the membrane 9, then the combined water container 18 and the hydrogen-producing substance container 19 are placed in the water bag 30, and the water bag 30 is sealed by a bag opening to produce the hydrogen water.

The two tapered containers are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly put into the water bag 30, at this time, the water bag 30 is sealed, and the hydrogen combines with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the thirteenth embodiment, as shown in fig. 13, the reaction vessel is a hydrogen-generating substance vessel 19 and a water-holding vessel 18 which are separate bodies, a membrane 9 is provided between the water 2 and the hydrogen-generating substance 3 in the vessel 4, and a membrane 9 for sealing water is provided inside the water-holding vessel 18.

The needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the hydrogen production substance container 19 is arranged on the upper portion of the water container 18, the one-way valve 10 is arranged at the bottom of the water container 18 and allows gas to be discharged, the water container 18 and the hydrogen production substance container 19 are installed through a water container taper hole 20 and a hydrogen production substance container taper surface, the membrane 9 is punctured through the combination of the water container 18 and the hydrogen production substance container 19, then the combined water container 18 and the hydrogen production substance container 19 are arranged in the water bag 30, and the water bag 30 generates water through bag opening sealing.

The two tapered containers are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water 2 reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly placed into the water bag 30, at this time, the water bag 30 is sealed, and the hydrogen combines with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the fourteenth embodiment, as shown in fig. 14, the reaction vessel is a hydrogen-generating substance container 19 and a water container 18 which are separate bodies, a membrane 9 is provided between the water 2 and the hydrogen-generating substance 3 in the container 4, and a membrane 9 for sealing water is provided inside the water container 18.

The center department is equipped with the needle 13 that is used for puncturing membrane 9 in the hydrogen production material container 19, hydrogen production material container 19 arranges dress water container 18 upper portion in, dress water container 18 bottom is equipped with check valve 10, allow gas escape, dress water container 18 and hydrogen production material container 19 are installed through hydrogen production material container buckle 22 and dress water container buckle 21, puncture membrane 9 through the combination of dress water container 18 and hydrogen production material container 19, then arrange the dress water container 18 that combines and hydrogen production material container 19 in water bag 30, water bag 30 produces plain water through the sack is sealed.

The two containers with buckles are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water 2 reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly placed into the water bag 30, at this time, the water bag 30 is sealed, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In example fifteen, as shown in fig. 15, the reaction vessel is a hydrogen-generating substance vessel 19 and a water containing vessel 18 which are separate bodies, a membrane 9 is provided between water 2 and the hydrogen-generating substance 3 in the vessel 4, and a membrane 9 for sealing water is provided inside the water containing vessel 18.

The needle 13 for puncturing the membrane 9 is arranged at the center in the hydrogen production substance container 19, the hydrogen production substance container 19 is arranged on the upper portion of the water container 18, the one-way valve 10 is arranged at the bottom of the water container 18 and allows gas to be discharged, the water container 18 and the hydrogen production substance container 19 are installed through the hydrogen production substance container threads 24 and the water container threads 23, the membrane 9 is punctured through the combination of the water container 18 and the hydrogen production substance container 19, then the combined water container 18 and the hydrogen production substance container 19 are arranged in the water bag 30, and the water bag 30 generates water through the sealing of the bag opening.

The two threaded containers are combined with each other, the needle point punctures the membrane 9 of the sealing water, the water 2 reacts with the substance or the mixture of the substances which can generate hydrogen when meeting water to generate hydrogen, the hydrogen is discharged through the one-way valve 10, the combined hydrogen generating substance container 19 and the water container 18 are rapidly placed into the water bag 30, at this time, the water bag 30 is sealed, and the hydrogen is combined with the water and the mineral substances in the water to generate water which is rich in hydrogen or active hydrogen ions.

In the embodiments one-fifteen, the main structure is to seal the substance or substance mixture generating hydrogen and the water to be reacted in a small container. When the device is used, the sealing membrane is punctured by the needle tip to react with the sealing membrane to release hydrogen, the hydrogen is dissolved in water or combined with minerals in the water to generate water rich in hydrogen or active hydrogen ions (H & lt- & gt), and the water is used for drinking. The connection mode of each structure is three, the connection is realized through a buckle, a threaded connection and a conical opening, each structure is provided with a small hole of a one-way valve or a similar one-way valve, and the small hole of the one-way valve or the similar one-way valve only allows gas in the container to be released, but does not allow external substances to enter the container.

In sixteenth example, as shown in fig. 16, the reaction vessel is a capsule membrane 31 in which the hydrogen generating substance is provided, the capsule membrane 31 is a membrane permeable to water and air, and solid particles and the like are not permeable. The capsule membrane 31 with the hydrogen-producing substance inside is placed in the water bottle 5, the water bottle 5 is installed through the bottle cap thread 7 and the water bottle thread 12, and water is generated in a sealed mode.

Before drinking water, the capsule is directly put into the water bottle 5, the bottle cap is covered, the capsule reacts with water in the water bottle to generate hydrogen, and the hydrogen is combined with the water and mineral substances in the water to generate water rich in hydrogen or active hydrogen ions.

Seventeenth example, as shown in fig. 17, the capsule comprises an outer membrane 32 and an inner membrane 9, wherein the hydrogen generating substance 3 is placed inside the membrane 9, and water 2 is placed between the membrane 9 and the outer membrane 32, the outer membrane is water, the inner membrane is a substance or a mixture of substances generating hydrogen when meeting water, the two are separated by the membrane 9, and the outermost membrane allows only gas to enter and exit but is impermeable to liquid. The membrane 9 is broken by squeezing the capsule, then the capsule is placed in the water bottle 5, and the water bottle 5 is sealed by the bottle cap thread 7 and the water bottle thread 12 to produce plain water.

When in use, the capsule is squeezed by hands to break the membrane 9 at the inner side, at the moment, water contacts with a substance or a substance mixture which can generate hydrogen when meeting water to generate hydrogen, then the capsule is put into a water bottle, the bottle cap is covered, and the hydrogen generated by the capsule is combined with mineral substances in the water to generate water rich in hydrogen or active hydrogen ions.

Eighteen example, as shown in fig. 18, the capsule is composed of an outer membrane 32 and an inner membrane 9, water 2 is placed inside the membrane 9, a hydrogen generating substance 3 is placed between the membrane 9 and the outer membrane 32, the inner side is water, the outer side is a substance or a mixture of substances generating hydrogen when meeting water, the two are separated by the membrane 9, and the outermost membrane allows only gas to enter and exit. The membrane 9 is broken by squeezing the capsule, then the capsule is placed in the water bottle 5, and the water bottle 5 is sealed by the bottle cap thread 7 and the water bottle thread 12 to produce plain water.

When in use, the capsule in figure 2 is squeezed by hand to break the membrane 9 inside, then the water contacts with the substance or substance mixture which can generate hydrogen when meeting water to generate hydrogen, then the capsule is put into a water bottle, the bottle cap is covered, and the hydrogen generated by the capsule is combined with the mineral substances in the water to generate water rich in hydrogen or active hydrogen ions.

Nineteenth example, as shown in fig. 19, the capsule comprises an outer membrane 32 and an inner membrane 9, wherein a hydrogen generating substance 3 is placed inside the membrane 9, water 2 is placed between the membrane 9 and the outer membrane 32, the outer membrane is water, the inner membrane is a substance or a mixture of substances generating hydrogen when meeting water, the substances and the mixture are separated by the membrane 9, and the outermost membrane only allows gas to enter and exit but is impermeable to liquid. The membrane 9 is broken by squeezing the capsule, and then the capsule is placed in a water bag 30, which water bag 30 is sealed to produce plain water.

When in use, the capsule is squeezed by hands to break the membrane 9 at the inner side, at the moment, water contacts with a substance or a substance mixture which can generate hydrogen when meeting water to generate hydrogen, then the capsule is put into the water bag 30, the water bag is sealed, and the hydrogen generated by the capsule is combined with mineral substances in the water to generate water rich in hydrogen or active hydrogen ions.

In example twenty, as shown in fig. 20, the capsule is composed of an outer membrane 32 and an inner membrane 9, water 2 is placed inside the membrane 9, and a hydrogen generating substance 3 is placed between the membrane 9 and the outer membrane 32, the inner side is water, the outer side is a substance or a mixture of substances generating hydrogen when meeting water, the two are separated by the membrane 9, and the outermost membrane allows only gas to enter and exit. The membrane 9 is broken by squeezing the capsule, and then the capsule is placed in the water bag 30, and the water bottle 30 is sealed to produce plain water.

When in use, the capsule in figure 2 is squeezed by hand to break the membrane 9 inside, then the water contacts with the substance or substance mixture which can generate hydrogen when meeting water to generate hydrogen, then the capsule is put into the water bag 30, the water bag is sealed, and the hydrogen generated by the capsule is combined with the mineral substances in the water to generate water rich in hydrogen or active hydrogen ions.

In twenty one example, as shown in fig. 21, the reaction vessel is a capsule membrane 31 in which the hydrogen generating substance is provided, and the capsule membrane 31 is a membrane permeable to water and air, and is impermeable to solid particles and the like. The capsule membrane 31 with the hydrogen-producing substance inside is placed in the water bag 30, and the water bag 30 is sealed to produce hydrogen water.

Before drinking water, the capsule is directly put into the water bag 30, the water bag is sealed, the capsule reacts with water in the water bag to generate hydrogen, and the hydrogen is combined with the water and mineral substances in the water to generate water rich in hydrogen or active hydrogen ions.

Sixteen to twenty one examples are the structures in which the substance or substance mixture generating hydrogen and the water to be reacted are sealed inside the spherical capsule by a sealing film inside, and a film like a one-way valve is provided outside to allow only the internal gas to permeate outside but not the external substance.

While the invention has been described with reference to exemplary embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (4)

1. An apparatus for producing plain water, characterized by: the device comprises a water container, a reaction container and a hydrogen-producing substance (3), wherein the reaction container is a combination of a water container and a hydrogen-producing substance container, the water container and the hydrogen-producing substance container are separated by a breakable membrane (9), and the reaction container is placed in the water container and sealed after the water and the hydrogen-producing substance react; the water container is a water bottle (5), the water bottle (5) is provided with a bottle cap (1), and the bottle cap (1) and the water bottle (5) are installed through bottle cap threads (7) and water bottle threads (12); the reaction container is a container (4) with an integrated structure, a membrane (9) is arranged between water (2) in the container (4) and the hydrogen-producing substance (3), and a top thin film (8) is arranged on the upper part of the container (4) above the water surface; the water generating bottle is characterized in that a needle (13) used for puncturing the membrane (9) is arranged at the center of the bottle cap (1), the bottle cap (1) and the container (4) are installed through a bottle cap internal thread (6) and a container external thread (11), or the bottle cap (1) and the container (4) are installed through a bottle cap buckle (14) and a container buckle (15), or the bottle cap (1) and the container (4) are installed through a bottle cap taper hole (16) and a container taper surface (17), a one-way valve (10) is arranged at the bottom of the container (4), the membrane (9) is punctured through the combination of the bottle cap (1) and the container (4), and then plain water is generated through the combination of the bottle cap (1) and the water bottle.

2. An apparatus for producing aqueous vegetarian water according to claim 1, wherein: the reaction vessel is a hydrogen-producing substance vessel (19) and a water containing vessel (18) which are of split structures, a membrane (9) for sealing water is arranged inside the water containing vessel (18), a needle (13) for puncturing the membrane (9) is arranged at the center in the hydrogen production substance container (19), when the water container (18) is arranged on the upper part of the hydrogen-producing substance container (19), the bottom of the hydrogen-producing substance container (19) is provided with a one-way valve (10), the water container (18) and the hydrogen-producing substance container (19) are arranged through a hydrogen-producing substance container screw thread (24) and a water container screw thread (23), or the water container (18) and the hydrogen-producing substance container (19) are installed through a hydrogen-producing substance container fastener (22) and a water container fastener (21), or the water container (18) and the hydrogen-producing substance container (19) are arranged through the water container taper hole (20) and the hydrogen-producing substance container taper surface; when the hydrogen-producing substance container (19) is arranged at the upper part of the water container (18), the bottom of the water container (18) is provided with a one-way valve (10), the water container (18) and the hydrogen-producing substance container (19) are installed through a hydrogen-producing substance container thread (25) and a water container thread (26), or the water container (18) and the hydrogen-producing substance container (19) are installed through a hydrogen-producing substance container buckle (27) and a water container buckle (28), or the water container (18) and the hydrogen-producing substance container (19) are installed through a hydrogen-producing substance container conical hole (29) and a water container conical surface; the membrane (9) is punctured through the combination of the water container (18) and the hydrogen-producing substance container (19), then the combined water container (18) and the hydrogen-producing substance container (19) are placed in the water bottle (5), and the water bottle (5) is installed and sealed through the bottle cap thread (7) and the water bottle thread (12) to produce the hydrogen water.

3. An apparatus for producing aqueous vegetarian water according to claim 1, wherein: the reaction container is a capsule, the capsule is composed of an outer side film (32) and an inner film (9), hydrogen production substances (3) are placed inside the film (9), water (2) is placed between the film (9) and the outer side film (32), or the water (2) is placed inside the film (9), the hydrogen production substances (3) are placed between the film (9) and the outer side film (32), the film (9) is damaged by extruding the capsule, then the capsule is placed in the water bottle (5), and the water bottle (5) is installed and sealed through a bottle cap thread (7) and a water bottle thread (12) to produce the water.

4. The apparatus for generating aqueous vegetable water according to claim 2 or 3, wherein the water container is a water bag (30), and the water bag (30) is sealed by a bag opening to generate aqueous vegetable water.

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