WO1988005322A1 - Portable oxygen generator - Google Patents

Abstract

In order to obtain an oxygen generator which is easy to carry, safe, and hygienic, a preprocessing tank (9) to temporarily store oxygen generated in a reaction tank (8) is installed betweeen the reaction tank (8) in which water and chemically reactive substances are reacted to produce oxygen and a humidifying tank (10) for the deodorization and humidification of oxygen produced in said reaction tank (8), being placed adjacently with each other. Said preprocessing tank (9) decreases the pressure of oxygen which has been generated explosively in the reaction tank (8) and stores boiling reaction water having bad smell to prevent said reaction water from directly flowing into the humidifying tank (10) and contaminating the inside thereof.

Description

 明 Description

 Portable oxygen generator

 Technical field

 The present invention relates to a portable oxygen generator.

 冃 Kyoto Technology

 In the event of a fire, oxygen deficiency, or harmful gas, an oxygen generator that is easy to carry and yet safe for evacuation or rescue is needed. .

 Even in emergency situations such as those mentioned above, exhaust gas from vehicles and dirty air inside buildings with closed structures, especially in urban areas, will remove us. Experts have pointed out that the lack of fresh oxygen in the living environment is becoming commonplace, and that this is the cause of our health. Therefore, the need for intentional oxygen intake on a daily basis is increasing.

 In addition, it is well known that the effect of inhaling oxygen, due to overwork, hangover, jet lag, etc., is extremely excellent due to the effect of acne. This is also the place.

Therefore, a chemical reactant that reacts with water to generate oxygen by reacting (for example, sodium percarbonate and a water-soluble substance) (Composed of a combination of cracking catalysts) is reacted with water in a small, portable reaction tank to generate oxygen, which is passed through a humidified tank filled with water. An oxygen generator has been developed that can be taken out to allow oxygen inhalation. However, after the start of corrosion with water, as the reaction progresses, a kind of boiling water, water vapor or boiling water reacts from the reaction tank into the humidification tank via the communication pipe. The humidification tank erupted, contaminating the inside of the humidification tank, and had a disadvantage in that oxygen led to the outside was smelled.

 'In addition, in the case of bumping, the temperature and pressure in the reaction tank rapidly increased, so that there was sufficient danger of explosion and the like.

 In view of the above-mentioned drawbacks of conventional technical personnel, this technical problem of Kishiaki can prevent the water in the humidifying tank from being contaminated as much as possible. Another object of the present invention is to provide a portable oxygen generator configured to ensure sufficient safety.

 DISCLOSURE OF THE INVENTION-To achieve the above-mentioned technical problem, the present invention is directed to a small-sized reactor capable of carrying a chemical reactant that generates a reaction by mixing with water to generate oxygen. A portable oxygen generator that reacts with water in the tank to oxidize the oxygen and takes it outside via a humidified tank filled with water to allow oxygen inhalation. A reserve tank is provided between the reaction tank and the humidification tank, and oxygen generated in the reaction tank is supplied to the humidification tank via the reserve tank. It is configured to be sent.

Due to this composition, the internal pressure increases due to the rapid reaction in the reaction tank, and even if steam or boiling water gushes out of the reaction tank, it remains in the spare tank. Therefore, the humidification tank does not directly spill into the humidification tank. It is possible to prevent explosions and the like in advance.

 Brief description of the drawings

 FIG. 1 is a perspective view of an oxygen generator according to the present invention,

 Figure 2 is a plan view of the case body with the lid removed.

 Fig. 3 is a sectional view taken along the line A-A 'in Fig. 1,

 FIG. 4 is a cross-sectional view taken along the line BB ′ of FIG. 1,

 Figure 5 is a perspective view of the reaction tank.

 BEST MODE FOR CARRYING OUT THE INVENTION

 According to the drawings, the portable oxygen generator according to the present invention includes a case * body 1 and a lid 2 attached and detached to and from the case * body 1 independently. The lid 2 is made of, for example, synthetic birch with a bagging sheet 3 adhered to the inner top, for example, and has locking portions 4 on both sides. It has a pair of locking levers 5, 5, and the locking levers 5, 5 are rotatably attached to the lid 2 by the bins 6, 6. .

The case 1 is made of, for example, a synthetic resin, and is provided with a pair of locking projections la, la before and after the upper edge thereof, and a spare tank 9 inside the case. Is stored. The spare tank 9 accommodates the reaction tank 8 with a slight clearance around it, and the space between the reaction tank 8 and the spare tank 9 is provided. Has a large gap around the upper part. The case 1 has an engagement frame 7 protruding from one side of the upper end edge of the body 1. The upper portion of the engagement frame 7 is fitted into the engagement frame 7. For example, a humidifying tongue 10 made of a transparent synthetic resin is attached. Each Tank 8 9 10 is open at the top. The opposite corner inside the reaction tank 8 is provided with a communication hole Πa lib in the longitudinal direction, and the outlet side of the first communication hole 11a lib is opened at the lower part of the spare tank 9 side. are doing . A second communication hole 12 is provided at the upper part of the spare tank 9 toward the humidification tank 10, and the second communication hole 12 extends downward to the humidification tank 10 and is arrested. Ventilation pipe 13 is installed. A filter 13 a made of a porous material is attached to the end of the communication pipe 13, and reaches the inner bottom of the force U wet tank 10.

 Further, the case * body 1 has a handle 14 attached to the left side thereof and the engagement frame 7 attached thereto.

 Next, an example of use will be described. First, when a finger is put on the locking lever 5'5 and lifted upward, the locking portion 44 is detached from the locking projection 1a la. Body 2 is removed from Case * Body 1. Next, water is poured into the reaction tank 8 and the humidification tank 10 up to the respective water leveling lines 8b and 10a. If a water leveling line is not provided, it is desirable to prepare a water tank containing a fixed amount of water in advance. Note that there is no need to replace the water in the humidification tank 10 with the water used.

When the auxiliary tank 9 is lifted up by hand, it can be pulled out together with the humidifying tank 10 from the case body 1 and the engagement frame 7, and the reaction tank can be removed. The tank 8 can be removed from the spare tank 9 by lifting it up by hand, so that the case end 1 and each tank 8 9 10 Reaction tank with internal water This is convenient when replacing the ice inside the 8.

 After the appropriate amount of water has been injected, a certain amount of sodium percarbonate in a separately prepared bag is charged into the reaction tank 8, and then the same separately prepared bag is added. The fixed amount of decomposition catalyst put in the tank is charged, the cover 2 is quickly covered, and the locking levers 5 and 5 are pressed firmly by hand to push the locking portions 4 and 4 into the locking protrusions la. , La, the reaction tank 8, the spare tank 9, and the humidification tank 10 are filled with the outside air and the respective tanks 8, 9 by the packing sheet 3. It is sealed every ten. At the same time, the reaction starts inside the reaction tank 8. This reaction is more intense as the temperature of the water injected into the reaction tank 8 is higher.

 In this reaction, sodium percarbonate, which has been introduced into ice, is first dissociated into sodium carbonate and hydrogen peroxide by water, and the hydrogen peroxide is converted into a decomposition catalyst 19. Thus, the process of decomposition into water and oxygen is followed.

 Thus, the oxygen generated in the reaction tank 8 is sent into the spare tank 9 through the first communication holes 11a and lib, and furthermore, the oxygen is generated in the second communication hole 12 Then, it reaches the humidification tank 10 through the communication pipe 13, passes through the water, and reaches the suction pipe 17 from the outlet 15 through the ventilation pipe 16. Therefore, the oxygen is sucked by putting the suction pipe 17 into the mouth.

Even if the internal pressure in the reaction tank 8 increases due to the bumping phenomenon during the reaction, the pressure is relieved in the preliminary tank 9 so that it is safe and safe. As in the embodiment, the spare tank 9 is In the case of surrounding the tank 8 around the outer periphery of the tank 8, even if the reaction tank 8 is blasted by an explosion, it is safe because there is a spare tank 9 outside the tank 8 There is an advantage. Furthermore, since there is a gap between the spare tank 9 and the case body I, even if the spare tank 9 also explodes, the case 1 It is something that you can do. Next, even if the reaction liquid in the reaction tank 8 leaks out through the first communication holes 11a and li, it is collected in the spare tank 9 and is stored in the humidification tank 10. , It is safe and sanitary without contaminating it.However, only gas passes through the exhaust port 15a and does not allow liquid to pass through. When a Ren-made diaphragm 18 (trade name: MICROTECS) is installed, water vapor will not be sent to the suction pipe 17 as water droplets. It has the advantage of being more secure and sanitary. The suction pipe 17 is provided with a vent hole 17a 'so that outside air can be sucked together with pure oxygen. The suction pipe can be replaced with a suction mask.

 The spare tank 9 may be provided by being attached to one side of the reaction tank 8, and the place where the spare tank 9 is installed is not particularly limited. The advantage of this case is as described above.

As a decomposition catalyst, in addition to manganese dioxide, Fe, Cu, Co. Mi, Cr, Pb, V, 《, or at least one compound different from these compounds It is also possible to use a combination of If it is kept in contact with sodium percarbonate solution, the reaction can proceed explosively and be dangerous, and the reaction will be completed in a very short time. Since these catalysts are not used, these decomposition catalysts are those whose surfaces are hardened with Arabic glue with different concentrations or polyvinyl alcohol with different concentrations. With the passage of time, the device is devised so that it melts sequentially.

 Also, sodium percarbonate may be replaced by a known peroxide compound such as hydrogen peroxide or urea peroxide, and the decomposition catalyst may be used in liquid form from the beginning. Of course.

 In short, various known oxygen generation methods may be tried.

Claims

The scope of the claims

 1. Oxygen is generated by mixing with water to generate oxygen by reacting with water. Oxygen is generated by reacting a chemical reactant with water in a portable small reaction tank. In the case where oxygen is taken out to the outside city via a humidified tank filled with water so that oxygen can be inhaled, 藺A spare tank is provided in the humidifying tank, and oxygen generated in the reaction tank is sent to the humidifying tank via the spare tank. , Portable oxygen generator.

 2. The portable oxygen generating device according to claim 1, characterized in that the spare tank is juxtaposed to the reaction tank.

3. The portable oxygen generator according to claim 1, wherein the spare tank is provided around the outer periphery of the reaction tank.

4. The case body, the spare tank contained in the case body, and the chemical reactant and water that generate oxygen inside the spare tank. , A humidification tank for supplying water to the inside provided below the case body, and a preliminary tank, a reaction tank, and a humidification tank described above. The lid comprises a lid detachably attached to the thick body of the case to seal it from the outside, and a ventilation pipe attached to the lid. The reaction tank is provided with a first communication hole communicating with the auxiliary tank, and the auxiliary tank is provided with a second communication hole toward the humidification tank. An oxygen generator, wherein the second communication hole is provided with a communication pipe for guiding generated oxygen into water.