KR20140132994A - Oxygen generator using solid oxygen - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oxygen generator using solid oxygen, and more particularly, to an oxygen generator using solid oxygen, which is capable of selectively generating oxygen generated naturally by contact between moisture in the atmosphere and solid oxygen, To an oxygen generator using solid oxygen which is simple to carry and use.

Description

OXYGEN GENERATOR USING SOLID OXYGEN USING SOLID OXYGEN

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an oxygen generator using solid oxygen, and more particularly, to an oxygen generator using solid oxygen, which is capable of selectively generating oxygen generated naturally by contact between moisture in the atmosphere and solid oxygen, To an oxygen generator using solid oxygen which is simple to carry and use.

Air pollution, especially carbon dioxide, carbon monoxide, and sulfur dioxide, among pollution problems that are being seriously posed both domestically and globally, have a very detrimental effect on public health. Although they contain only a small amount of air, they also cause headache, respiratory distress, asphyxia and many other adult diseases. Despite the intensification of pollution due to these gases, various air purifiers manufactured and sold for general household and commercial use are mostly used for removing dust in the air, purifying the air by discharging anion, deodorizing using activated carbon, And the need for air purifiers or air purifiers for removing carbon dioxide and other acid gases and carbon monoxide has been increased.

In order to solve such a problem, Korean Patent No. 10-0272929 discloses a composition comprising 1 to 90% of excess potassium, 99 to 10% of calcium oxide or calcium hydroxide, 1 to 90% of excess potassium oxide and calcium oxide or calcium hydroxide of 99 to 10% (Hokparite) of copper oxide, manganese oxide or a mixture of copper oxide and manganese oxide in an amount of 95 to 10% by weight of a composition consisting of 5 to 90% .

However, the patent has a problem in that a large amount of oxygen can not be supplied in a short period of time because oxygen is continuously generated for 4 to 6 months.

As a result, the conventional solid oxygen has a problem in that it can not supply an appropriate amount of oxygen depending on the use purpose, the time and place, etc., because it can not select naturally generated oxygen and oxygen which is generated forcibly. Therefore, there is a need to develop an oxygen generator capable of controlling the amount of oxygen generated from solid oxygen.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a fuel cell system and a fuel cell system which are capable of generating oxygen naturally generated by contact between moisture and solid oxygen in the atmosphere, Which can supply oxygen to the oxygen generator.

It is also an object of the present invention to provide an oxygen generator using solid oxygen which can easily control the amount of generated oxygen.

It is also an object of the present invention to provide an oxygen generator having excellent humidity control and air purifying function and using solid oxygen.

It is another object of the present invention to provide an oxygen generator using solid oxygen which provides a large amount of oxygen in a short period of time and is excellent in portability.

According to an aspect of the present invention, there is provided an oxygen generator using solid oxygen, comprising: a body having an oxygen outlet; An air suction means accommodated in the body and forcibly introducing outside air into the body through an air inlet; A water receiving unit for receiving water and generating moisture by the air introduced by the air suction unit; And an oxygen generating unit that receives solid oxygen and generates moisture by contacting moisture generated by the water receiving unit with the solid oxygen in communication with the water receiving unit.

The body of the oxygen generator using solid oxygen according to the present invention includes an upper body, a central body, and a lower body detachably coupled to each other. The body includes a first space portion for receiving the air suction means, A second space part located above the first space part and containing the solid oxygen and a third space part surrounding the first and second space parts and having the water tub part formed at a lower end part thereof, 3, a moisture inlet is formed between the space portions, moisture generated in the third space portion flows into the second space portion, and when the body falls, the water in the water receiving portion is not discharged to the moisture inlet Width.

In addition, the water tank of the oxygen generator using solid oxygen according to the present invention is equipped with a water-filled body accommodated in the water, an aeration hose having one end communicated with the first space and the other end connected with the body, The air introduced by the means is aerated in the water of the water receiving portion to generate moisture, and a filter is formed on the upper portion.

Also, an oxygen outlet of the oxygen generator using solid oxygen according to the present invention is formed in the upper body, and a valve and an oxygen discharge hose are connected, and the oxygen discharge hose includes a mask, an earring type, a headset type, A first oxygen outlet to which any one of the jet bodies is mounted; And a second oxygen discharge port configured to be opened and closed so as to be opened when the air suction means is closed and when the air suction means is not operated.

Also, the oxygen generator using solid oxygen according to the present invention comprises a body having an oxygen outlet; An air suction means accommodated in the body and forcibly introducing outside air into the body through an air inlet; A water receiving part for receiving the water and an ultrasonic wave generating device for ejecting the water to the lower part by the vibration of the ultrasonic wave by the moisture of the small particles; And an oxygen generating unit that receives solid oxygen and generates moisture by contacting moisture generated by the water receiving unit with the solid oxygen in communication with the water receiving unit.

According to the oxygen generator using solid oxygen according to the present invention having the above-described structure, oxygen generated naturally by contact between moisture in the atmosphere and solid oxygen, and oxygen which is generated compulsively by generating moisture can be selectively supplied It is effective.

In addition, according to the oxygen generator using solid oxygen according to the present invention, the amount of generated oxygen can be easily controlled.

In addition, according to the oxygen generator using solid oxygen according to the present invention, the humidity control and the air purification function are excellent.

In addition, according to the oxygen generator using solid oxygen according to the present invention, a large amount of oxygen is supplied in a short period of time, and at the same time, an excellent portability is obtained.

1 is a perspective view showing a grip type hyperthermia treatment apparatus according to the present invention.
2 is a side view showing a grip type hyperthermia treatment apparatus according to the present invention.
3 is an exploded perspective view of a grip type hyperthermia treatment apparatus according to the present invention.
4 is a block diagram showing a controller according to the present invention.
5 is a cross-sectional view showing a power cord unit according to the present invention.
6 is a view showing a state where the grip type hyperthermia treatment apparatus according to the present invention is placed on a cradle.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings and the following description. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are being provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

In the description of the present invention, the same or similar components are denoted by the same or similar reference numerals, and a detailed description thereof will be omitted.

FIG. 1 is a perspective view showing an embodiment of an oxygen generator using solid oxygen according to the present invention, FIG. 2 is a longitudinal sectional view showing an embodiment of an oxygen generator using solid oxygen according to the present invention, and FIGS. FIG. 3B is a plan view showing a lower body and a center body according to the present invention, and FIGS. 4A and 4B are sectional views showing a second oxygen outlet according to the present invention.

1 to 4B, the oxygen generator using solid oxygen according to the present invention mainly includes a body 10, an air suction means 30, a water receiving portion 50, and an oxygen generating portion 70 can do.

Specifically, the oxygen generator using solid oxygen according to the present invention includes a body 10 having an oxygen outlet 110, and a body 10 accommodated in the body 10, A water receiving unit 50 for receiving water and generating moisture by the air introduced by the air suction unit 30, a solid oxygen sensor 71 for detecting the solid oxygen 71 And an oxygen generating unit 70 communicating with the water receiving unit 50 to generate moisture by contacting the solid oxygen 71 with moisture generated in the water receiving unit 50.

The body 10 may have a cylindrical box shape comprising an upper body 11, a central body 13, and a lower body 17.

The upper body 11 and the central body 13 and the central body 13 and the lower body 17 are each tightly coupled by a locking device 18.

The structure and shape of the locking device 18 are not particularly limited as long as the locking device 18 serves to separate the upper body 11, the central body 13 and the lower body 17 from each other.

The upper body 11 is formed with an oxygen outlet 110 for discharging oxygen generated inside the body 10.

The oxygen outlet 110 may include a first oxygen outlet 110 and a second oxygen outlet 120.

The first oxygen outlet 110 discharges a large amount of oxygen when the air suction means 30 operates.

A valve 113 and an oxygen outlet hose 115 may be connected to the first oxygen outlet 110.

The valve 113 may control the amount of oxygen discharged from the first oxygen outlet 110 and the oxygen discharge hose 115 may be equipped with a sprayer 117.

The jetting body 117 may be configured to be worn on a human body, and may include a mask, an earring type, a headset type, and a head wear type.

In addition, the jetting body 117 may be configured to discharge oxygen from the inside of the vehicle or inside the vehicle without being worn by the human body.

The second oxygen outlet 120 may serve to discharge oxygen naturally generated by the contact of the solid oxygen 71 with the moisture in the air when the air suction means 30 does not operate.

The second oxygen outlet 120 includes a hole 121 formed in the upper body 11 and a lid 122 and a lid 123 opening and closing the hole 121 and coupling the lid 122 to the lid 122. [ .

Oxygen generated naturally by the contact of the moisture in the air with the solid oxygen is discharged through the holes. When the air suction means is forcibly operated to generate a large amount of oxygen, the hole 121 is closed by the lid 123 So that oxygen can be discharged to the first oxygen outlet 110 (see FIG. 4A).

The second oxygen outlet 120 includes an opening 125 and a guide groove 126 formed in the upper body 11 and a moving lid 127 movably coupled to the guide groove 126 .

As described above, the second oxygen outlet 120 may have a structure in which the moving lid 127 moves in the lateral direction to open and close the opening 125 (see FIG. 4B).

The body 10 has a first space 14 for accommodating the air suction means 30 and a second space 14 for storing the solid oxygen 71, And a third space portion 16 surrounding the first and second space portions 14 and 15 and having the water receiving portion 50 formed at the lower end thereof.

A moisture inlet port 150 is formed between the second space part 15 and the third space part 16 so that moisture generated in the third space part 16 flows into the second space part 15 .

It is preferable that the third space 16 has a width such that water of the water receiving portion 50 is not discharged to the moisture inlet 150 when the body 10 is collapsed.

The central body 13 is coupled to the upper body 11 and the lower body 17 and is connected to the first space 14, the second space 15 and the third space 16 Is formed.

The first space portion 14 provides a space for accommodating the air suction means 30, as described above.

The air suction means 30 includes a motor 31 removably coupled to the lower body 17, a fan 32 mounted on the motor 31, And an air intake part 33 formed therein. The structure in which the motor 31 and the lower body 17 are detachably coupled may be implemented in various ways (for example, a screw connection method), and detailed description and drawings are omitted.

The motor 31 may be supplied with external power through a power terminal 170 formed in the lower body 17. The motor 31 may be charged using the external power source so that the motor 31 can operate even in the absence of an external power source.

The water receiving portion 50 formed in the third space portion 16 includes a widthwise body 51 immersed in the water and one end communicated with the first space portion 14 and the other end connected to the width body 51 And the air introduced by the air suction means 30 is aerated in the water of the water receiving portion 50 to generate moisture.

A filter (53) may be formed on the upper end of the water receiving part (50).

The filter 53 may exemplify a filter made of a paper material, and may act to purify the aeration air while allowing the generation of moisture to be increased.

The moisture or humid air generated by the aeration is supplied to the second space portion 15 through the moisture inlet 150.

The solid oxygen 71 contained in the second space 15 may be an oxygen generator composition disclosed in Korean Patent No. 10-1130446 or an air purifier composition disclosed in Korean Patent No. 10-1169557, Oxipia " (trade name: Oxygen solid oxygen oxypia cartridge, manufactured by Zelletek) can be exemplified.

The solid oxygen may be prepared in the form of a powder in the form of the composition, or may be formed into a pellet or a block by pressing the powder. However, solid oxygen in the form of a powder is more preferable because it can generate a large amount of oxygen because the contact area with moisture is large.

The solid oxygen (71) is contained in the second space (15) by being contained in solid oxygen (73) having an open top. The solid oxygen 73 is fixed to the upper end of the central body 13 and a through hole 153 is formed in the solid oxygen 73 so that moisture can be introduced into the solid oxygen 73.

The oxygen generated from the solid oxygen 71 is discharged to the first oxygen outlet 110 and / or the second oxygen outlet 120.

Hereinafter, another embodiment of the oxygen generator using solid oxygen according to the present invention will be described in detail. However, the same or similar configurations among the above-described contents will not be described in detail.

5 is a longitudinal sectional view showing another embodiment of the oxygen generator using solid oxygen according to the present invention.

5, the oxygen generator using solid oxygen according to the present invention may include a body 10, an air suction means 30, a water receiving portion 50, and an oxygen generating portion 70 .

Specifically, the oxygen generator using solid oxygen according to the present invention includes a body 10 having an oxygen outlet 110, and a body 10 accommodated in the body 10, (50) for receiving water and an ultrasonic wave generating device (90) for blowing the received water with the moisture of the small particles by the vibration of the ultrasonic waves are installed in the lower part, And an oxygen generating unit 70 which receives the solid oxygen 71 and communicates with the water receiving unit 50 to generate moisture by moisture generated in the water receiving unit 50 by contacting the solid oxygen 71 .

In this embodiment, the most important feature is that moisture is not generated by the method of aeration (see Fig. 2).

The air introduced into the body 10 and specifically into the first space 14 by the air suction means 30 does not flow into the water receiving portion 50 but is located above the water receiving portion 50 And is supplied to the third space portion 16 through the through hole 153 formed between the first space portion 14 and the third space portion 16.

The air supplied to the third space part 16 serves to facilitate the supply of moisture generated in the water receiving part 50 to the second space part 15. However, considering the size and the number of the moisture inlet 150, the operation of the air suction means 30 and the rotation speed of the fan can be appropriately adjusted.

The ultrasonic wave generator 90 is installed at the lower end of the water receiving unit 50 and vibrates water by ultrasonic waves into small particles. The ultrasonic wave generator 90 vibrates within a frequency range of 1 to 3 MHz.

When moisture is generated by using the ultrasonic generator 90, the amount of moisture generated is large and the amount of generated moisture can be easily controlled. Although not shown, the ultrasonic generator may further include an operation unit that is operated by an external power source and can adjust the amount.

It will be appreciated that the present invention described above is merely illustrative and that those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Therefore, it is to be understood that the present invention is not limited to the form described in the foregoing description. Therefore, the true scope of technical protection of the present invention should be determined by the technical idea of the scope of the appended utility model claim. It is to be understood that the appended claims are intended to cover all such modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

10: body 11: upper body
110: oxygen outlet port 111: first oxygen outlet port
113: valve 115: oxygen discharge hose
117: jet body 120: second oxygen outlet
121: hole 122: cover groove
123: lid 125: opening hole
126: guide groove 127: movable cover
13: central body 14: first space part
15: second space part 150: moisture inlet
16: third space part 17: lower body
170: power terminal 18: locking device
30: air suction means 31: motor
32: fan 33: air intake part
50: Water receiving part 51: Width gas
52: Aeration hose 53: Filter
70: oxygen generator 71: solid oxygen
73: solid oxygen container 74: through hole
90: Ultrasonic generator

Claims (5)

A body having an oxygen outlet;
An air suction means accommodated in the body and forcibly introducing outside air into the body through an air inlet;
A water receiving unit for receiving water and generating moisture by the air introduced by the air suction unit;
An oxygen generating unit for receiving solid oxygen and communicating with the water receiving unit to generate oxygen by contacting the solid oxygen with moisture generated in the water receiving unit;
And an oxygen generator using solid oxygen. The method according to claim 1,
The body includes an upper body, a central body and a lower body detachably coupled to each other,
The body includes a first space portion for receiving the air suction means, a second space portion located above the first space portion and containing the solid oxygen, and a second space portion surrounding the first and second space portions, And a third space part formed by the first space part,
A moisture inlet is formed between the second space part and the third space part, moisture generated in the third space part flows into the second space part,
Wherein the third space has a width such that the water in the water receiving portion is not discharged to the moisture inlet when the body is collapsed. 3. The method of claim 2,
Wherein the water tank is provided with a water-filled submerged body accommodated in the water, an aeration hose having one end communicated with the first space portion and the other end connected with the width gas, so that air introduced by the air- Wherein the filter is formed at the upper end of the oxygen generator. 3. The method of claim 2,
The oxygen outlet is formed in the upper body,
A valve and an oxygen discharge hose are connected to the oxygen discharge hose, and the oxygen discharge hose has a first oxygen discharge port to which any one of a mask, an earring type, a headset type, and a head wear type is mounted; And
And a second oxygen discharge port configured to be opened and closed so as to be opened when the air suction means is closed and when the air suction means is not operated. A body having an oxygen outlet;
An air suction means accommodated in the body and forcibly introducing outside air into the body through an air inlet;
A water receiving part for receiving the water and an ultrasonic wave generating device for ejecting the water to the lower part by the vibration of the ultrasonic wave by the moisture of the small particles;
An oxygen generating unit for receiving solid oxygen and communicating with the water receiving unit to generate oxygen by contacting the solid oxygen with moisture generated in the water receiving unit;
And an oxygen generator using solid oxygen.

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