KR200350833Y1 - created material of oxygen and oxygen generator exploit of that's - Google Patents

Abstract

By providing an oxygen generating base material and an oxygen generator using the same, which can generate oxygen with a simpler operation and can be supplied at a lower price, at least water passes through an oxygen generating agent and a catalyst for promoting oxygen generation from the oxygen generating agent. By storing the oxygen-generating materials, which are packaged in the form of tea bags in the form of permeable or permeable materials, in a reaction vessel containing water, oxygen can be easily generated in high concentration. Such oxygen generators are convenient to carry and have excellent economic efficiency. have.

Description

Oxygen-generating materials and portable oxygen generators using them {created material of oxygen and oxygen generator exploit of that's}

The present invention relates to a substrate capable of generating high-efficiency oxygen, and in particular, to an oxygen generating substrate capable of generating high purity oxygen with ease of handling, and a portable oxygen generator portable by using the same.

Originally, oxygen inhalation is one of the actions taken by the injured or the patient. However, with increasing interest in health in recent years, the public has been paying attention to the maintenance of health. Inhalation of high concentrations of oxygen is reported to be effective for fatigue after exercise and metabolism of fat. In such a situation, the general public can easily generate oxygen, and there is a demand for an oxygen generator that can be easily carried.

Background Art Conventionally, for example, a portable oxygen inhaler having an oxygen inhalation mask attached to an upper portion of a steel tube compression-filled with oxygen gas has been proposed. However, these canned oxygen generators are disposable for one time use. As a canned oxygen generator that is used and discarded in this way, the cost goes up and the price increases. In addition, the tube becomes garbage after inhaling oxygen.

Moreover, the amount of oxygen generated as the canned oxygen generator is as small as several liters. Therefore, there is a cumbersome problem of carrying several tubes to prepare for sufficient oxygen supply outdoors.

Therefore, there is a need for a simple oxygen generator that generates oxygen by chemically reacting a hydrogen peroxide-based oxygen generator with water in the presence of a catalyst. As such an oxygen generator, an oxygen generator and a catalyst are put into a plastic container, for example, and oxygen can be easily generated by injecting water. In addition, it is economical because it can be used repeatedly if the oxygen generator and catalyst after the reaction are completed.

Therefore, the oxygen generator for reacting the oxygen generator as described above has a lower cost than the conventional one, and can be easily carried by the general public and perform oxygen suction. Moreover, since various wastes, such as an empty space, do not generate | occur | produce, it is a favorable oxygen generator from an environmental protection standpoint.

As the oxygen generator using the chemical reaction of the hydrogen peroxide-based oxygen generator, when the oxygen generator and the catalyst are packaged at the same time, there is a risk of causing a chemical reaction. However, the separate packaging in this way is complicated and expensive in terms of production cost. In addition, it is cumbersome because it is necessary to open two packages of oxygen generator and catalyst, which are separately packaged, and to put them in a container.

Accordingly, the first object of the present invention is to provide an oxygen generating substrate capable of generating oxygen by an easier operation and further lowering the cost, and a second object of the present invention is as described above. It is to provide an oxygen generator excellent in portability and economical efficiency.

1 is an exemplary view showing the appearance of the oxygen generating substrate of the present invention

Figure 2 is an illustration of an oxygen generator using the oxygen generating substrate of the present invention

Figure 3 is an exemplary view for explaining a method of using the oxygen generator of the present invention

Explanation of symbols on main parts of drawings

1: oxygen generating substrate 2: oxygen generating agent

3: catalyst 4: sheet ash

11: reaction vessel (oxygen generation chamber) 111: water level line

12: first cap 122: humidification tank (oxygen control room)

13: 2nd cap part

The above object is achieved by an oxygen generating substrate in which an oxygen generating agent and a catalyst for promoting oxygen generation from the oxygen generating agent are packaged at least as a sheet material through which water can pass or pass therethrough.

According to the invention of the claims, since the oxygen generating agent and the catalyst are packaged in one sheet material, only one package is opened and placed in water, so that oxygen can be easily generated. Moreover, since the packaging of the material used for generating oxygen can be simplified, the cost can be reduced.

The sheet material is preferably formed in a mesh (mesh) through which water can pass or a porous phase through which water can pass. In addition, the sheet material can be formed as a nonwoven fabric that is resistant to a reaction in which the oxygen generator generates oxygen in the presence of the catalyst and water.

As the oxygen generator, a sodium carbonate / hydrogen peroxide addition compound can be used.

The catalyst may be a hydrogen peroxide degrading enzyme that selectively decomposes hydrogen peroxide to accelerate the reaction.

In addition, mixing the oxygen generator and the catalyst in a weight ratio of 30: 3 to 30: 6 can produce highly efficient oxygen. In such a ratio, even in the case where the volume of the container is made small and portable, the oxygen can be generated with good efficiency.

And an oxygen generating chamber in which the oxygen generating base material is accommodated and a predetermined amount of water is introduced, and an oxygen adjusting chamber disposed adjacent to the oxygen generating chamber and releasing oxygen generated in the oxygen generating chamber to the outside through water. According to the oxygen generator equipped with a high concentration of oxygen can be easily generated. Such an oxygen generator is economical because it can be used repeatedly.

Preferably, the oxygen generating chamber is provided with a water level line which determines the amount of water to be added according to the oxygen generating capacity of the oxygen generating substrate to be stored. According to such an oxygen generator, the oxygen to be used is It is convenient because the amount of water most suitable for the oxygen generating ability of the generating material can be checked at once.

Moreover, a better oxygen generator is provided if a suction mechanism for sucking oxygen that has passed through the oxygen adjusting chamber is attachable.

Hereinafter will be described in detail in accordance with the embodiment of the present invention combined with the drawings.

1 is a view showing the appearance of an oxygen generation substrate 1 according to the embodiment. The oxygen generating substrate 1 is formed in a so-called tea bag shape. The tea bag is mixed with an oxygen generating agent 2 and a catalyst 3 for promoting oxygen generation in the presence of water.

As the oxygen generating agent (2), it is preferable to use a sodium hydrocarbon-hydrogen peroxide addition compound or a sodium carbonate-hydrogen peroxide addition compound. This compound is easy to handle and can generate oxygen more efficiently than other compounds when chemically reacted in the presence of water. In addition, the reaction liquid can also be easily processed.

When water is added to a hydrocarbon sodium-hydrogen peroxide addition compound or the like, hydrogen peroxide is liberated, and hydrogen peroxide decomposes into water and oxygen in the presence of a catalyst, thereby obtaining stable and continuous oxygen.

In the oxygen generating substrate 1, the oxygen generating agent 2 and the catalyst 3 are mixed. The catalyst 3 is preferably treated so as not to promote the reaction of the oxygen generator 2 during storage. As the catalyst 3, a hydrogen peroxide degrading enzyme corresponding to the oxygen generating agent 2 is selected.

The catalyst 3 made of the hydrogen peroxide decomposing enzyme does not generate pure oxygen acting on the hydrogen peroxide depending on the oxygen generating agent 2, but can be dissolved in water as well as in powder to be liquid (water liquefaction). It is necessary to be harmless to the living environment. In view of the above, as the catalyst 3 of the present invention, for example, a commercially available catalyst product such as Leonet (trade name; manufactured by Nagase Bio Chemical Co., Ltd.) can be used. In addition, in order to suppress the catalyst adoption at the time of storage, it is preferable that the catalyst 3 is processed with the following preparations.

The first preparation is a crystalline compound, which is not only powdered like the catalyst (3) but also can be liquefied in water, and can stably pack the catalyst (3) and increase the average on the whole, and furthermore, hydrogen peroxide to water. It is possible to average the dissolution of and to freely delay the dissolution and reaction rate. There is no fouling of the reaction solution there is no harm to the living environment, and cheap is required.

Manganese (sodium sulfate) can be used as a preparation from such a viewpoint. Although the forget-me-not gradually absorbs water and becomes water salt, it is generally used for drying an organic solvent. However, when it is kneaded with the above-mentioned subject and dried, it can maintain its function as a catalyst for a long time. In addition to the forget-me-not, you may use the thing equivalent to this, for example, sodium chloride.

It is preferable to employ | adopt an adhesive as a next preparation. It is required to have sufficient solidification function to permanently dry and maintain the mixed state of the catalyst (3) and the above-mentioned crystalline compound, and to be aqueous solution, and to be harmless to the living environment. do. From this point of view, it is preferable to use, for example, polyvinyl alcohol (PVA), dextrin, or other starch paste.

What is necessary is just to adjust the addition amount of the said crystalline compound and an adhesive with respect to the catalyst 3 according to the oxygen generation flow rate (liters / minute) required when decomposing hydrogen peroxide.

Next, a method of mixing the catalyst 3 and the preparation will be described. The catalyst 3, which is supplied in the liquid phase, is uniformly mixed by supplying an appropriate amount of the catalyst 3 preliminarily contained in the mixing vessel, and the granules are granulated by a machine or the like thereon. The catalyst which suppresses the reaction at the time of phase- or refine | purification and storage is completed. In this case, the drying treatment is easier because the deactivation of the hydrogen peroxide degrading enzyme itself is completely eliminated.

It is also possible to adjust the reaction time as the tableted or granulated catalyst can be arbitrarily changed in size. When introduced into water, the reaction between particles in the micron unit can be stably controlled to freely adjust the dissolution rate and duration of the oxygen generator.

For example, 10% by weight of hydrogen peroxide degrading enzyme is added to the above-mentioned preparations, and the granules having a diameter of 3 mm and a length of 4 mm (average) are prepared, and a drying treatment thereon is carried out to provide an appropriate catalyst for promoting oxygen generation (3). You can get it.

If the catalyst (3) prepared as described above is kept dry, no reaction occurs even when mixed with the oxygen generator (2). These mixtures are made into the tea bag model by the sheet | seat material 4, and this is packaged in the aluminum pack which is not shown in moisture proofing, and long-term storage is attained. In the aluminum pack, an inert gas or the like which suppresses the reaction may be filled. The oxygen generator and the catalyst are preferably mixed in a weight ratio of 30: 3 to 30: 6.

In addition, since the purity of the catalyst 3 to be used is raised to a predetermined value or more, it is also possible to be mixed with the oxygen generating agent 2 without covering the surface as a preparation as described above.

When using the oxygen generating substrate 1, one aluminum pack is opened, and the sheet material 4 is immersed in water to easily generate oxygen. In this case, the sheet material 4 holding the oxygen generator 2 and the catalyst 3 is made of a net or porous material such that water quickly passes therethrough and is resistant to a reaction for generating oxygen from the oxygen generator. It is required to have a material. As an example, what formed non-woven fabrics, such as Alverse (brand name: Japan Unitika Co., Ltd.) into a mesh, can be used suitably.

2 is a view showing the appearance of a portable oxygen generator 10 employing the oxygen generating substrate 1 described above. The oxygen generator 10 accommodates the oxygen generating substrate 1, closes the reaction vessel 11 as an oxygen generating chamber into which a predetermined amount of water is introduced, and the upper opening of the reaction vessel 11, and the first cap portion 12 ) And a second cap portion 13 provided with an oxygen discharge port by blocking an opening provided in the upper portion of the first cap portion 12 thereon.

The reaction vessel 11 is set with a water level line 111 that determines the amount of water to be added according to the oxygen generation capacity of the predetermined oxygen generation base 1 to be stored.

2 illustrates only one water level line 111. However, an oxygen generating substrate having a different oxygen generating capacity may be prepared, and in this case, another level line 111 may be set according to the oxygen generating substrate to be used. By preparing a plurality of oxygen generating substrates 1, it is also possible to adjust the oxygen generation time to a desired length.

A packing 112 is fitted in the upper opening of the reaction vessel 11 so that the first cap portion 12 is set. The first cap portion 12 includes a valve 121 for allowing only the gas generated in the reaction vessel 11 to pass upward, and a humidification tank 122 including the upper portion of the valve 121 to the upper side thereof. have. Water is also injected into this humidification tank 122. The water level line 123 is also set in the humidification tank 122.

That is, the first cap part 12 functions as an oxygen control chamber in which oxygen generated in the reaction vessel 11 is discharged to the outside while passing through water. Since the oxygen generated in the reaction vessel 11 has a relatively low humidity, the humidity is adjusted to facilitate inhalation by humidifying it. In addition, when impurities are contained in the oxygen gas generated in the reaction vessel 11, it also has a function of adjusting the impurities to be high purity oxygen by trapping the impurities with water.

The second cap part 13 having the oxygen outlet 131 attached thereto with the packing 125 mounted thereon is set on the first cap part 12. Oxygen discharge port 131 is able to suck the high purity oxygen. A suction mechanism for sucking appropriate oxygen can be attached to this oxygen discharge port 131.

And, with reference to Figure 3 will be described how to use the appeal generator 10 of the present invention. First, tap water is filled up to the level line 111 of the reaction vessel 11 shown in FIG. 3 (A), and the oxygen generating substrate 1 is introduced into this water. As such, when the oxygen generating substrate 1 is brought into contact with water, a chemical reaction occurs rapidly to start generating oxygen.

Thereafter, as shown in FIG. 3 (B), the set with the second cap portion 13 in the state of filling the humidifying tank 122 of the first cap portion 12 with the water is set on the upper portion of the reaction vessel 11. Let's do it.

In this simple operation, pure and high concentration of oxygen is released from the oxygen outlet 131. By connecting a predetermined suction adapter to the oxygen discharge port 131, even ordinary people can easily suck oxygen.

Although the present invention has been described as the preferred embodiment of the present invention, the present invention is not limited to the specific embodiments described above, and various modifications and changes are possible within the scope of the invention described in the claims.

As described above, according to the oxygen generating substrate of the present invention, oxygen can be generated efficiently. In particular, since the oxygen generator and the catalyst are packaged one by one, it is not complicated and can be easily stored and economical.

In addition, the oxygen generator of the present invention is economical because it is rich in portability and can be repeatedly used by exchanging the oxygen generator and the catalyst. Furthermore, the oxygen generator in the tea bag shape packed with the oxygen generator and the catalyst one by one is only put in the reaction vessel. The operation is simple and useful because it can generate oxygen.

Claims (5)

An oxygen generating substrate, characterized in that an oxygen generating agent and a catalyst for promoting oxygen generation from the oxygen generating agent are packaged in a tea bag shape as a sheet material through which water can pass or pass therethrough. The oxygen generating substrate according to claim 1, wherein the sheet member is formed of a network through which water can pass or a porous phase through which water can pass. Oxygen generating chamber which accommodates the oxygen generation base material of Claim 1, 2, and a fixed quantity of water, and oxygen control chamber which is arrange | positioned adjacent to this oxygen generation chamber and discharges oxygen which generate | occur | produced in this oxygen generation chamber to the outside via water. Portable oxygen generator, characterized in that equipped with. The oxygen generator according to claim 3, wherein the oxygen generating chamber is provided with a water level line in which a quantity of water to be determined is set in accordance with the oxygen generating capacity of the oxygen generating substrate to be stored. The oxygen generator according to claim 4, wherein a suction mechanism for sucking oxygen that has passed through the oxygen adjusting chamber can be attached.