DE202022104633U1 - Generator of a liquid saturated with gas - Google Patents

Abstract

Generator of a liquid saturated with gas, in particular with hydrogen, oxygen or ozone, comprising a container (1) for the liquid (2), at least one pipe (3) for the gas supply and at least one drive device (4) with a stirrer (5) , characterized in that in the vessel (1) in the saturated liquid area (2) there is a hollow bell (6), the bell (6) being placed in the bottom down position and the agitator (5) located in the area covered by this bell (6).

Description

field of technology

The invention relates to a generator of a liquid saturated with gas, in particular with hydrogen, oxygen or ozone.

State of the art

Currently there is a lot of emphasis on a healthy lifestyle, which is important to reduce a number of health problems. One of the most popular ways to improve and support health is to use different types of liquids, especially drinking water, saturated with gas, especially hydrogen, oxygen or ozone.

Hydrogen has significant benefits in treating metabolic disorders, dementia, inflammation and a host of other health complications. With its antioxidant effects, it strengthens the body's immunity and defences. Therefore, so-called hydrogen water in which drinking water is saturated with hydrogen has recently attracted attention. Because of its undeniable health benefits, great importance is attached to the highest possible hydrogen content in the water.

Oxygen is used to increase physical activity, reduce fatigue and improve brain activity and for general regeneration of the organism. Conventional drinking water contains 7-9 mg/l oxygen, after which values of 120 mg/l can be reached.

Ozone is used to disinfect water and kill pathogens, e.g. when washing fruits and vegetables with ozone-saturated water.

With regard to the effects of saturated liquids, especially drinking water with gases, there are increased requirements for the use of devices that produce saturated liquids under domestic conditions. With these devices, the focus is primarily on safety, efficiency and size.

Conventional diffusers are often used to saturate liquids with gas, in particular with ozone, oxygen, hydrogen or other gases. They consist of a tube ending in a diffusion element or an outlet with a perforated membrane for the introduction of gas into the liquid. The diffuser connected to the pipe for gas supply is freely immersed at the bottom of the container with the liquid. Depending on the type of material used in the diffuser, the gas is forced into the liquid through its porous surface in the form of bubbles of various sizes.

Electrolytic cells are also currently used to obtain a liquid saturated with hydrogen or oxygen, gaseous oxygen and hydrogen being produced by the electrolysis of water. The water is saturated by distributing the resulting gas bubbles in the water.

It is the patent application of the invention US20130043124 known, the basis of which is a portable gas generator consisting of an electrolytic cell with a membrane for separating the cathode and anode parts, a tank for supplying water through a pipe to the anode part, further from a supply of the generated gas, which runs in the lower part of the tank with water for saturation, and fixed circular discs fixed in the central part of the tank with water, on the bottom of which an electrolytic cell with a membrane is placed. The membrane consists of a solid polymer electrolyte, with hydrogen then being released from the cathode part of the cell into the water in the vessel. The solid circular discs serve to catch the rising hydrogen bubbles. In the case of a generator for saturating water with oxygen, the anode part is replaced by the cathode part and vice versa, with subsequent addition of oxygen to the water in the tank.

The patent application of the invention JP4801877 describes a hydrogen generator comprising a container for saturated liquid, in particular water, an electrolytic cell immersed in water and a drive device in the form of an electric motor for the agitator shaft, and a support with an arm to which the electrolytic cell and the agitator shaft are attached. The agitator shaft is provided with blades at its lower part and is located in the tank space. During the agitation and circulation of the water, the hydrogen exiting the cathode and the oxygen exiting the anode of the electrolytic cell are swept along by the movement of the water, reducing the number of larger bubbles formed while increasing the number of small bubbles. This increases saturation efficiency as large bubbles tend to escape from the water while small bubbles are better dispersed in the water and remain in that state.

A significant disadvantage of the existing inventions is the gradual connection of individual ones rising gas bubbles into larger bubbles and their subsequent escape from the surface of the liquid. This leads to a reduction in the total gas concentration in the liquid, an increase in the required amount of gas supplied and at the same time an increase in the time it takes to reach the desired saturation levels. Immediate consumption of the saturated liquid is then required due to the size of the contained bubbles as the saturated gas content rapidly decreases. Another disadvantage is the relatively frequent clogging of the electrodes, diffuser or perforated membrane with minerals and impurities contained in the saturated liquid. This reduces the effectiveness of the saturated liquid and at the same time makes it difficult to keep the equipment hygienically clean.

subject of the invention

The above disadvantages are eliminated by a generator of a liquid saturated with gas, in particular with hydrogen, oxygen or ozone, which according to the invention comprises a tank for the liquid, at least one tube for the gas supply and at least one drive device with a stirrer whose The basis is that in the saturated liquid holding space there is a hollow bell, which is placed in the bottom-up position, and an agitator, which is located in the area inside this bell. This means an area in the container that is inside and below the cavity of the bell jar, i.e. under the cavity of the bell jar.

When saturated liquid is present in the container, the entire bubble is preferably below the surface of the liquid.

Preferably, the bell has at least one drainage opening in its upper part for discharging the air accumulated in the bell chamber when immersed above the surface of the saturated liquid. At the same time, this opening supports the circulation of the liquid in the entire volume of the container.

The agitator is preferably arranged on the shaft extending from the drive device.

The bell can preferably be provided with a passage opening for the agitator shaft.

The stirrer is preferably provided with a foaming spring in the lower end part.

Alternatively, the lower part of the container is provided with an inwardly extending bulge, the stirrer being provided with at least one magnetic support. Together with this magnetic support, it is rotatably supported on a projection formed in the container by this bulge.

Outside the container, inside the space of the bulge, at least one magnet is preferably arranged to ensure the movement of the magnetic support, the drive device being under the bulge and the magnet being fixed to a shaft extending from this drive device.

The stirrer is preferably arranged in the cavity of the bell. The resulting vortex thus occurs mainly in the cavity of the bell. Air is not drawn from the space above the surface of the liquid that is not covered by the bell jar.

Alternatively, the stirrer is placed below the level of the cavity of the bowl, which is mainly used at stirrer speeds of less than 2,000 rpm, when the vortex also occurs mainly in the cavity of the bowl and no air from the space above the surface of the Liquid that is not covered by the bell body is sucked in.

In a preferred embodiment, the bell has a dome shape.

In another embodiment, the bell has a cylindrical shape.

In another equivalent embodiment, the bell has a conical shape.

The present invention of the generator is suitable for household use as well as a portable device. Micro and nano gas bubbles formed in the liquid are stable, they do not immediately escape from the liquid surface. Since there is no form of electrolysis in the liquid, not only drinking water can be used as a liquid, but also juices, coffee, tea and other types of drinks, which increases the attractiveness of using it in a regular drinking regime.

The advantage of the present invention also lies in the simple maintenance and cleaning. Other undeniable advantages are a significantly lower consumption of the gas used, while at the same time significantly reducing the time to saturate the liquid. For example, if a liquid with a volume of 400 ml with hydrogen becomes saturated, this liquid is saturated within 20-30 seconds.

Using the generator is very simple, it does not require a special type of container, nor is the saturated liquid level determined.

character list

• 1 Schnitt durch den Generator mit einer kuppelförmigen Glocke mit einer Durchgangsöffnung für den Rührer mit einer Aufschäumfeder und mit einer Ablauföffnung
• 2 Ansicht von oben auf den Generator nach vorheriger Abbildung
• 3 Ansicht von unten auf den Generator nach 1 und 2, beim Schnitt A-A in der 1
• 4 Schnitt durch den Generator mit einer konischen Glocke mit einer Durchgangsöffnung für den Rührer
• 5 Schnitt durch den Generator mit einer zylindrischen Glocke mit einer Durchgangsöffnung für den Rührer und einer Ablauföffnung
• 6 Schnitt durch den Generator mit einer zylindrischen Glocke, mit einer Ablauföffnung im Körper der Glocke und mit einer Durchgangsöffnung für die Welle im unteren Teil des Behälters des Generators
• 7 Schnitt durch den Generator mit einer zylindrischen Glocke mit einer Ablauföffnung im Körper der Glocke und einer Ausbuchtung im unteren Teil des Behälters des Generators

The invention is explained in more detail with reference to the accompanying drawings. Show it:

• 1 Section through the generator with a dome-shaped bell with a passage opening for the stirrer with a foaming spring and with a drain opening
• 2 Top view of the generator as shown in the previous figure
• 3 Bottom view of the generator after 1 and 2 , at cut AA in the 1
• 4 Section through the generator with a conical bell with a through hole for the stirrer
• 5 Section through the generator with a cylindrical bell with a passage opening for the stirrer and a drain opening
• 6 Section through the generator with a cylindrical bell, with a drainage hole in the body of the bell and with a passage hole for the shaft in the lower part of the generator's container
• 7 Section through the generator with a cylindrical bell with a drain hole in the body of the bell and a bulge in the lower part of the generator's container

exemplary embodiments

The examples according to the invention of the generator of a liquid saturated with gas, in particular with hydrogen, oxygen or ozone, are described in 1 until 7 shown.

1 until 3 show an example of an embodiment of the gas-saturated liquid generator with a dome-shaped bell 6. The present gas-saturated liquid generator consists of a container 1 for the liquid 2, a pipe 3 for the gas supply and a drive device 4 with a stirrer 5. In the tank 1, in the space for the saturated liquid 2, there is a hollow bell 6, which prevents air from being sucked in from above the surface of the liquid 2. The bell 6 is in the bottom up position and the stirrer 5 is in the space covered by this bell 6, in case of the presence of saturated liquid 2 in the container 1 the whole bell 6 is under its surface. The drive device 4 of the stirrer 5 is located under the container 1, while the stirrer 5 is placed on the shaft 9 extending from the drive device 4, outside the vertical axis of the bell 6. In this embodiment, the stirrer 5 is provided with a foaming spring 7 at its end portion. The bell 6 has in its upper part a drain hole 8 for discharging the air accumulated in the bell room when immersed above the surface of the saturated liquid 2 and is also provided with a through hole 10 for the shaft 9 of the stirrer 5. 2 shows a top view of the body of the generator and 3 shows a view from below. The dome-shaped shape of the bell 6 allows for its easy cleaning and efficient evacuation of the air accumulated in the highest point of the body of the bell 6 when immersed above the surface of the liquid 2 through the drain hole 8. At the same time, it represents an optimal variant of the turbulence formed in the area of the cavity 14 of bell 6.

4 shows a variant of the generator with a conical bell 6, which is provided with a through hole 10 for the shaft 9 of the stirrer 5. The driving device 4 is located above the container 1, and the stirrer 5 in the cavity 14 of the bell 6. When immersing the body of the bell 6 under the surface of the liquid 2, the air accumulated in the area of the bell 6 is gradually pushed out by the saturated gas that accumulates at the top of the conical cavity 14 of the bell 6

5 shows alternatively a generator with a cylindrical bell 6, which has arranged in its upper part a drainage opening 8 for the air discharge. The accumulated air is pushed out to the highest point of the bell 6 and thus escapes through the outlet opening 8 for air drainage above the surface of the liquid 2. The body of the bell 6 in this alternative embodiment offers a space with the largest volume of the cavity for the created vortex 14

Another example of the invention is a generator according to 6 . The container 1 of the generator is provided with a through hole 10 for the shaft 9 of the stirrer 5, and this at its lower part. The bell 6 has a cylindrical shape with a drain hole 8 in its upper part. The driving device 4 in this invention is located outside the lower part of the container 1. Due to the absence of the through hole 10 for the shaft 9 of the stirrer 5 in the body of the bell 6, handling with the bell 6 is much easier and safer, including maintenance and Cleaning.

How out 7 As can be seen, this alternative embodiment shows the gas-saturated liquid generator where the lower part of the container 1 is provided with an inwardly extending bulge 11. The stirrer 5 is provided with a magnetic support 12 . Together with this magnetic carrier 12, it is rotatably supported on a projection formed by this bulge 11. A magnet 13 is also arranged outside the container 1 within the space of the bulge 11 to ensure the movement of the magnetic carrier 12 . The drive device 4 is located under the bulge 11 and the magnet 13 is fixed to a shaft 9 extending from the drive device 4 . As in the previous example, the absence of the through hole 10 for the shaft 9 of the stirrer 5 in the body of the bell 6 also allows easier and safer handling of the bell 6, including its cleaning. The body of the stirrer 5 is easily removable for possible replacement or cleaning.

For illustration, we indicate the minimum revolutions of the stirrer 5, which is 100 rpm. reach. Higher efficiency is achieved at speeds of 3,000 rpm and more. By rotating the stirrer 5, a vortex is created in the area under the bell 6, which creates a vacuum and helps to suck the saturation gas and keep it under the area of the bell 6, continuously saturating the liquid 2 with gas in the form of micro and nano bubbles becomes.

The present invention has a number of combinations, in particular with regard to the combination of the shape of the bell 6, the arrangement of the stirrer 5, both in the area of the container 1 and outside, the use of the foaming spring 7, the number of drainage openings 8 and the Number of tubes 3 for supplying the saturation gas. Their mutual combination can affect the resulting efficiency of saturating the liquid 2 with gas.

The outlet opening 8 for evacuating the air over the surface of the liquid 2 can be provided with a non-return valve which prevents air from being sucked back into the area of the bell 6 . Re-sucking of the air can also be prevented by maintaining a sufficiently high level of the surface of the liquid 2 above the drain hole 8 for air discharge, if the level of the surface of the liquid 2 is higher than 5 mm. It should be understood that the particular examples of the invention described herein are presented by way of illustration and not as a limitation of the invention to the embodiments described herein.

The generator according to this invention can be used for the production of a gas-saturated liquid, in particular with hydrogen, oxygen or ozone, in domestic conditions and as a portable device.

reference list

1

container

2

liquid

3

Pipe

4

drive device

5

stirrer

6

Bell jar

7

frothing spring

8th

drain hole

9

Wave

10

passage opening

11

bulge

12

magnetic carrier

13

magnet

14

cavity

QUOTES INCLUDED IN DESCRIPTION

This list of documents cited by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent Literature Cited

• US20130043124 [0009]
• JP 4801877 [0010]

Claims (13)

Generator of a liquid saturated with gas, in particular with hydrogen, oxygen or ozone, comprising a container (1) for the liquid (2), at least one pipe (3) for the gas supply and at least one drive device (4) with a stirrer (5) , characterized in that in the vessel (1) in the saturated liquid area (2) there is a hollow bell (6), the bell (6) being placed in the bottom down position and the agitator (5) located in the area covered by this bell (6). Generator of a liquid saturated with gas claim 1 , characterized in that when the saturated liquid (2) is present in the container (1), the entire bell (6) is below its surface. Generator of a liquid saturated with gas claim 1 and 2 , characterized in that the bell (6) has arranged at its upper part at least one drainage opening (8) for the evacuation of accumulated air over the surface of the saturated liquid (2). Generator of a liquid saturated with gas claim 1 until 3 , characterized in that the stirrer (5) is arranged on the shaft (9) extending from the drive device (4). Generator of a liquid saturated with gas claim 4 , characterized in that the bell (6) is provided with a through hole (10) for the shaft (9) of the stirrer (5). Generator of a liquid saturated with gas claim 4 and 5 , characterized in that the stirrer (5) is provided with a foaming spring (7) at its lower end part. Generator of a liquid saturated with gas claim 1 until 3 , characterized in that the lower part of the container (1) is provided with an inwardly extending bulge (11), the stirrer (5) being provided with at least one magnetic support (12) and together with this magnetic support (12 ) is rotatably supported on a projection formed in the container (1) by this bulge (11). Generator of a liquid saturated with gas claim 7 , characterized in that at least one magnet (13) is placed outside the container (1) inside the space of the bulge (11) to ensure the movement of the magnetic support (12), the drive device (4) being located under the bulge ( 11) and the magnet (13) is fixed to a shaft (9) extending from the drive device (4). Gas-saturated liquid generator according to any of Claims 1 until 8th , characterized in that the stirrer (5) is arranged in the cavity (14) of the bell (6). Generator of a liquid saturated with gas claim 1 until 8th , characterized in that the stirrer (5) is placed below the level of the cavity (14) of the bell (6). Generator of a liquid saturated with gas claim 1 until 10 , characterized in that the bell (6) has a dome shape. Gas-saturated liquid generator according to any of Claims 1 until 10 , characterized in that the bell (6) has a cylindrical shape. Gas-saturated liquid generator according to any of Claims 1 until 10 , characterized in that the bell (6) has a conical shape.

Images