CN202161650U - gas supply bottle - Google Patents

Abstract

The utility model discloses a gas supply bottle, it includes: a bottle body having a top, a shoulder, an interior space; the embedded part is connected to one side of the shoulder part of the bottle body and is provided with an opening part, a first connecting end and a valve body, and an angle theta is formed between the axis of the embedded part and the axis of the bottle body and is smaller than 85 degrees; a release portion, this release portion has a second link, a connecting portion, a valve body, the utility model discloses can provide the selective release of gas in the inner space to this gas supply bottle has portable, repeatedly usable's characteristics.

Description

gas supply bottle

technical field

The utility model relates to a gas supply bottle, in particular to a gas supply bottle which is easy to carry and can provide specific gas for human breathing at any time.

Background technique

When the human body is in a special situation, especially in a polluted, tired or special high temperature and high pressure environment, it is often necessary to use a special gas supply device for the human body to breathe in order to obtain special nutrients to support the human body to restore normal operation, and currently on the market The way to provide special gas for the human body is to use a high-pressure filled gas cylinder with a respirator for the user to wear and breathe.

However, the above-mentioned types of filled gas cylinders are usually based on cost considerations. The gas cylinders themselves are all large-sized steel cylinders, and after the specific gas filled in the gas cylinder is released after use, it must be recycled to a specific factory to refill the gas. However, the oversized and heavy filled gas cylinders are generally limited by the volume and weight of the filled gas cylinders and must be sent back to the manufacturing plant for refilling or replacement. Inconvenient factors such as different gases make it difficult for ordinary users to obtain specific gases for breathing when needed, which is the biggest defect of existing products.

It is further explained that in addition to the commonly known oxygen, the above-mentioned specific gas also has the newly discovered "active hydrogen ion (H ^- )" existing in hydrogen. Hydrogen can not only replace the fuel cell of the next generation of pollution-free energy in industry, but also It is indispensable to the life and health of the human body, because 63% of the elements that make up the human body are hydrogen, and special hydrogen ions have been discovered by scientists to be the key fuel and energy source of the human body, which can affect the overall health of every cell in the human body Health status, it is generally known that oxygen is an important element for the body. Human beings cannot survive without oxygen, but oxygen can also generate active oxygen (free radicals) in the body, which can damage the DNA of cells or mitochondria and cause physical discomfort. Promote aging and even cause major diseases such as cancer. On the contrary, when hydrogen ions breathe into the human body, hydrogen ions will enter every cell of the human body to replace excess oxygen and form another important key fuel and energy source for the human body. Improve human health at the same time.

However, regardless of the above-mentioned oxygen or hydrogen, they are of great help to the human body, and the current technology can also release oxygen or hydrogen ions into the air through chemical changes in contact with water. Among them, "Silica Hydride Powder )” minerals, which can make hydrogen ions attach to its surface stably for a long time. When water contacts, hydrogen ions will be released stably and for a long time. Powder) is made into food for users to take to promote human health; however, the hydrogenated silica gel powder (Silica Hydride Powder) can directly provide human respiration through the hydrogen ions released by it. No proper structural design can provide the user with effective collection and supply of respiratory hydrogen ions.

Utility model content

In view of the above-mentioned problems in the prior art, the purpose of this utility model is to provide a gas supply bottle, which is easy to carry and can provide specific gas for human breathing at any time.

In order to achieve the above purpose, a gas supply bottle provided by the utility model includes:

A bottle body with a top on its upper part and a shoulder in the middle section;

An insertion part, which is connected to the shoulder side of the bottle body, wherein the insertion part has an opening, a first connection end and a valve body, and there is a gap between the opening and the first connection end. A through hole, the center of the hole is provided with a valve, the outside of the valve is connected to the valve body, the first connecting end is connected to the shoulder side of the bottle body, the axis of the insertion part is connected to the The axis of the bottle forms an angle θ, and the angle θ is less than 85°;

A release part, the release part has a second connection end, a connection part, and a valve body, there is a through tunnel between the second connection end and the connection part, a valve is arranged in the center of the tunnel, and the The outside of the valve is connected to the valve body;

A respirator having a conduit communicating with the connecting portion of the release portion.

Preferably, the bottle body is made of a metal material capable of suppressing hydrogen penetration.

Preferably, a pressure gauge is provided on the top of the bottle body, the pressure gauge has an indicating part, and the pressure gauge passes through and is connected above the top.

Preferably, the opening of the opening of the insertion part is provided with a sealing cover.

Preferably, the channel between the opening and the first connecting end provides at least one container for sending powder and water into the channel of the valve body and into the inner space of the bottle body.

As a preference, a condensing device is provided between the connecting part of the release part and the respirator, and the condensing device has at least one flow channel seat and a receiving part, wherein the flow channel seat has a plurality of flow channels, and makes A connecting portion between both sides of the plurality of flow channels and the release portion is connected to the conduit.

Preferably, the inserting part provides powder and water through at least one container from the outside, and then is sent into the inserting part and then put into the inner space of the bottle body.

The gas supply bottle provided by the utility model has a variety of specifications, is light and handy and is suitable for carrying around, which avoids the defects of being unable to carry, reuse and replace different gases at any time due to the heavy bottle body of the existing high-pressure gas filling bottle.

Description of drawings

Fig. 1 is a three-dimensional schematic diagram of the gas supply bottle of the present invention.

Fig. 2 is a schematic diagram of powder and water insertion action when using the gas supply bottle of the present utility model.

Fig. 3 is a schematic diagram of the gas release state generated by the mixing of powder and water when using the gas supply bottle of the present utility model.

Explanation of main reference signs

10 bottle body 101 inner space

11 Top 12 Shoulders

20 Pressure gauge 21 Indication department

30 Insertion part 31 Opening part

32 first connecting end 33 sealing cover

34 valve body 341 valve

40 release part 41 second connection end

42 Connecting part 43 Valve body

431 valve

50 Coagulation device 51 Accommodating part

52 runner seat 53 filter tube

54 the third connection end

60 respirator 61 catheter

70 containers 80 containers

A gas W water

S powder

Detailed ways

As shown in Figure 1 and Figure 2, a gas supply bottle of the present invention, the gas supply method and its structure in use are mainly to mix specific powder with water to generate gas and put it into the gas supply bottle, And when the user needs to open to provide breathing, so as to obtain the nutritional needs of the human body, wherein the gas supply method at least has the following steps:

1. Provide a gas supply bottle, which at least includes a bottle body with a specific volume, an insertion part, a release part, a respirator and at least one container; in this embodiment, the powder is in the form of Hydrogenated silica gel powder (Silica Hydride Powder) is used as a substance that generates hydrogen ions. However, hydrogenated silica gel powder is mixed with water to produce hydrogen ions, which are the smallest known elements in the universe. Therefore, in this embodiment, the body of the gas supply bottle is punched out of a metal that is sufficiently capable of suppressing hydrogen penetration, and the center of the insertion part has a valve body structure, which is connected to the On one side of the bottle body, the hole size of the valve body is smaller than that when the valve body is opened, in order to provide the at least one container to send the powder and water into the hole hole of the valve body and enter the bottle body, and the release The release part is connected to the other side of the bottle body. The release part also has a valve body in the center. The other side of the release part is connected to a respirator. To the respirator, which provides the human body with breathing, and the respirator is used to cover the nose of the human body for the human body to absorb the gas more comprehensively, and at least one container provides powder and water from the outside and sends it into the device into the Ministry.

2. Provide a specific amount of water and a specific gas powder, wherein the amount and ratio of the water and powder are limited to a dose limit of less than 150kg/cm ₂ when the gas pressure generated after mixing in the bottle is limited.

3. The water and powder are respectively sent from the insertion part of the gas supply bottle into the inner space of the bottle for mixing. At this time, the release part is closed, and the insertion part is closed after the water and powder are inserted into the bottle; The release part is closed before the powder and water are put into the bottle, and then the insertion part is closed after the powder and water are put into the bottle. At this time, the mixed powder and water start to mix and generate gas in the bottle. A certain pressure is generated in the inner space, and the maximum withstand value of the inner space pressure of the bottle is limited to 150kg/ _cm2 as the design basis for the thickness and strength of the bottle, so as to avoid the danger of injury to the human body due to excessive pressure .

4. Open the release part to release the gas mixed in the bottle to the respirator for the user to breathe; through the selective opening and closing of the release part, the user can use it anytime and anywhere for a long time and absorb effective nutrients.

Through the implementation of the above method steps, when the powder and water are controlled in a certain amount and ratio, the user can not only operate safely and obtain beneficial nutrients by breathing anytime and anywhere, but also can randomly mix and match different powders and liquids according to needs Specific gas, and can be reused continuously. The most important advantage is that the gas supply bottle provided by the utility model has various specifications, and is light and suitable for carrying around. The defect that it is portable and cannot be reused at any time and cannot be replaced with different gases at any time.

As shown in Fig. 3, in this embodiment, in order to make the application and implementation of the foregoing method steps more effective, the gas supply bottle of the present utility model mainly uses a bottle body 10 as the main body, and the bottle body 10 is sufficient to suppress hydrogen penetration. Metal punching is the main application, but other materials that can inhibit hydrogen penetration are also applicable. There is a top 11 on the top of the bottle body 10, and a shoulder 12 in the middle position, wherein the top 11 is provided with a pressure gauge 20, the pressure gauge 20 has an indicating part 21, the pressure gauge 20 is penetrated and connected above the top 11 and the center position is concentric with the central axis of the bottle body 10, so as to evenly detect the inside of the bottle body 10 The pressure of the gas A generated in the space 101 after mixing the powder S and water W is displayed through the indicator 21 to the pressure value in the inner space 101 to ensure safety.

One side of the shoulder 12 of the bottle body 10 is connected with an insertion portion 30, wherein the insertion portion 30 has an opening 31, a first connecting end 32, a sealing cover 33, a valve body 34 and the valve body 34 It consists of a valve 341 connected inside. There is a through hole between the opening 31 and a first connecting end 32. The valve 341 is arranged in the center of the hole so that the valve body 34 connected to the outside of the valve 341 can be rotated to achieve The effect of opening and closing, the first connecting end 32 is connected to the shoulder 12 side of the bottle body 10, wherein the size of the channel between the opening 31 and the first connecting end 32 is such that the at least one container will Powder and water are sent to the channel of the valve body and enter the inner space 101 of the bottle body 10; and the insertion part 30 of this embodiment can be introduced smoothly when the powder and water are inserted, so the insertion part 30 The axis of the bottle body 10 forms an angle θ with the axis of the bottle body 10, and the angle θ is less than 85°; the sealing cover 33 is screwed to the opening 31 after powder and water are inserted and the valve 341 is closed. Outside the opening, it has the function of sealing and anti-leakage.

The other side of the shoulder 12 of the bottle body 10 is connected to a release portion 40, which is composed of a second connection end 41, a connection portion 42, a valve body 43 and a valve 431 connected to the valve body 43 inside, There is a through hole between the second connecting end 41 and the connecting part 42, and the center of the hole is provided with the valve 431 so that the valve body 43 connected to the outside of the valve 431 can be rotated to achieve the effect of opening and closing, thereby providing the inner space. The gas in 101 is released selectively.

One side of the connecting part 42 of the release part 40 is connected with a respirator 60, but in the structural design of this embodiment, a coagulation device 50 is further provided between the release part 40 and the respirator 60, wherein the coagulation device 50 has a The accommodating part 51, a flow channel seat 52, a filter tube 53 and a third connection end 54, the flow channel seat 52 has a plurality of flow channels inside and extends downwards a filter tube 53, one side of the flow channel seat 52 is connected to The connection part 42 of the release part 40 is connected to the accommodating part 51 under the flow channel seat 52, wherein the accommodating part 51 allows the gas with hydrogen ions to flow into the accommodating part 51 from the flow channel in the flow channel seat 52, Flow out through the filter pipe 53 and condense the moisture on the bottom of the accommodating part 51. This design can further reduce the ratio of water vapor output; the valve 341/431 is a needle valve in this embodiment, but other types of ball valves, etc. Still the design that this valve 341/431 can use.

The third connecting end 54 of the flow channel seat 52 is connected to a conduit 61, and the conduit 61 is connected to a respirator 60. The respirator 60 is used to cover the nose of the human body for the human body to absorb the gas relatively completely, wherein The duct 61 can reduce the probability of water accumulation in the tube and block the gas flow through the above-mentioned effect of moisture condensing on the bottom of the accommodating part 51; and at least one container 70/80 provides powder S and water W automatically The outer packaging is sent into the insertion part 30 described above.

Certainly, what is described above is the preferred embodiment of the present utility model, and it should be pointed out that for those of ordinary skill in the art, some improvements and modifications can be made without departing from the principle of the present utility model. And retouching are also regarded as the scope of protection of the present utility model.

Claims (7)

1. A gas supply bottle, characterized in that, comprising: A bottle body with a top on its upper part and a shoulder in the middle section; An insertion part, which is connected to the shoulder side of the bottle body, wherein the insertion part has an opening, a first connection end and a valve body, and there is a gap between the opening and the first connection end. A through hole, the center of the hole is provided with a valve, the outside of the valve is connected to the valve body, the first connecting end is connected to the shoulder side of the bottle body, the axis of the insertion part is connected to the The axis of the bottle forms an angle θ, and the angle θ is less than 85°; A release part, the release part has a second connection end, a connection part, and a valve body, there is a through hole between the second connection end and the connection part, a valve is arranged in the center of the hole, the The outside of the valve is connected to the valve body; A respirator having a conduit communicating with the connecting portion of the release portion. 2 . The gas supply bottle according to claim 1 , wherein the bottle body is made of a metal material capable of suppressing hydrogen penetration. 3 . 3. The gas supply bottle according to claim 1, wherein a pressure gauge is arranged on the top of the bottle body, the pressure gauge has an indicating part, and the pressure gauge penetrates and is connected above the top . 4. The gas supply bottle according to claim 1, wherein a sealing cap is provided outside the opening of the opening of the inserting portion. 5. The gas supply bottle as claimed in claim 1, wherein the channel between the opening and the first connecting end provides at least one container for sending powder and water into the channel of the valve body into the in the inner space of the bottle. 6. The gas supply bottle as claimed in claim 1, wherein a condensing device is provided between the connecting part of the release part and the respirator, and the condensing device has at least one channel seat and a receiving part, wherein There are a plurality of flow channels in the flow channel seat, and the connecting part between both sides of the multiple flow channels and the release part is connected with the conduit. 7. The gas supply bottle according to claim 1, wherein the inserting part provides powder and water through at least one container from the outside, and then is sent into the inserting part and then inserted into the inner space of the bottle body .

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