RU180883U1 - OXYGEN LIQUIDATING DEVICE - Google Patents

Abstract

The device relates to the production of drinks that are saturated with gas, in particular oxygen. A device for saturating a liquid with oxygen includes a liquid container with a lid that provides a hermetic closure of the container. In the upper part of the tank volume, a nozzle is installed for supplying oxygen to the tank at a pressure higher than atmospheric pressure outside the tank, and an ejector mixer, in which the inlet pipe of the mixer for supplying liquid is in communication with a part of the volume of the tank filled with liquid. The output of the mixer is brought out from the indicated tank. The inlet nozzle of the gas supply of the ejector mixer and the nozzle for oxygen supply are located above the limit level of filling the tank with liquid.

Description

The utility model relates to devices for the production of drinks saturated with gas, in particular oxygen.

Various types of devices for oxygenating liquids are known.

In the copyright certificate SU 492488, publication 06/29/1976, IPC C02D 1/04, the design of an apparatus for making oxygen cocktails is disclosed, including a container, an oxygen supply pipe mounted at the bottom of the container under the atomizer, and a liquid supply pipe installed in the upper part capacities.

In the international application WO 200236250, publication 05/10/2002, IPC B01F 03/04 discloses the design of a device for producing an oxygen-enriched liquid. Oxygen and liquid are introduced through separate paths into the mixing chamber. The mixing chamber is located inside the ejector, which is connected to the oxygen cartridge and to the fluid supply device.

The closest analogue is the design of patent CH193911, publication 11/15/1937, class 33C. The saturation of juices with oxygen takes place in an ejector mixer containing an inlet nozzle for supplying gas and an inlet pipe of the mixer for supplying liquid.

The technical result achieved in the claimed utility model is to simplify the design with the possibility of operation with oxygen concentrators or oxygen cylinders.

A device for saturating a liquid with oxygen includes a liquid container with a lid that provides hermetic closure of the container. In the upper part of the tank volume, a nozzle is installed for supplying oxygen to the tank at a pressure higher than atmospheric pressure outside the tank, and an ejector mixer, in which the inlet pipe of the mixer for supplying liquid is in communication with a part of the volume of the tank filled with liquid. The output of the mixer is brought out from the indicated tank. The inlet nozzle of the gas supply of the ejector mixer and the nozzle for oxygen supply are located above the limit level of filling the tank with liquid.

The main design feature of the device is the location of the ejector mixer inside the tank. In this case, the inlet nozzle of the mixer is in communication with the internal volume of the tank into which oxygen is supplied under pressure. Thus, the stable operation of the ejector mixer is ensured by the gas pressure on the liquid inside the tank.

In particular, said oxygen supply nozzle may be mounted on the same axis as the gas inlet nozzle of said ejector mixer. In this case, the oxygen flow is directly directed to the inlet nozzle of the ejector mixer.

In addition, the inlet pipe for supplying fluid to the ejector mixer can be communicated with the lower part of the volume of the tank through the tube.

In particular, the ejector mixer comprises a gas inlet nozzle, a low pressure chamber, a mixing chamber and a mixer outlet, arranged in series, while a liquid inlet is connected to the low pressure chamber and connected to the liquid inlet.

The design of the utility model is illustrated by drawings.

In FIG. 1 shows the design of a device with a tank having a wide neck.

In FIG. 2 shows a design of a device with a container having a narrow neck.

In FIG. 3 shows an example of the construction of an ejector mixer.

In FIG. 4 shows the design of an ejector mixer with an nozzle for making oxygen foam.

A device for saturating a liquid with oxygen, includes a container 1 (Fig. 1, Fig. 2) with a cover 2, which provides a hermetic closure of the container 1. Sealed cover seals and locking devices are not shown in the figures. A nozzle 4 is mounted in the lid 2 for supplying oxygen to the container 1. An ejector mixer 3 is installed in the upper part of the internal volume of the vessel 1. The design of the mixer 3 is shown in FIG. 3. It has a conical inlet nozzle 5 in communication with the upper part of the internal volume of the tank 1, a low-pressure chamber 6 and a mixing chamber 7. The inlet pipe 8 for supplying liquid to the mixer 3 is in communication with the lower part of the internal volume of the tank 1 by means of a tube 10. Liquid from the pipe 8 is supplied to the low-pressure chamber 6. The output 9 of the mixer 3 is brought out from the tank 1.

The device is designed for use primarily with oxygen concentrators. These devices emit oxygen enriched air from the surrounding atmosphere. The characteristic parameters of the air flow at the outlet of the most common models of oxygen concentrators are as follows: oxygen content 90-95%. Flow 1-2 l / min, gauge pressure 0.5 atm. Such an air flow is too weak to allow using known device designs for pumping and oxygenating a liquid.

In the device for saturating the liquid with oxygen can also be used containers 1 with a narrow neck (Fig. 2). In this case, the ejector mixer 3 is also installed in the upper part of the tank 1.

The device for saturating the liquid with oxygen can be additionally equipped with an output diffuser 11 (Fig. 4) for the production of foam with a blowing agent 12 mounted on the end of the diffuser 11.

A device for saturating a liquid with oxygen works as follows. The tank 1 is filled with liquid 13. The fitting 4 is connected to an oxygen concentrator, or to a cylinder with oxygen, providing its supply in the operating mode. Oxygen is supplied to the tank 1, in which excess pressure is created. The pressure helps to lift the liquid through the tube 10 into the low pressure chamber 6 of the ejector mixer 3. Oxygen also flows into the chamber 6 under pressure through the conical inlet nozzle 5, creating a low pressure zone under the air stream, which also helps to lift the liquid through the tube 10 into the low pressure chamber 6 Next, the air flow and the liquid pass through the mixing chamber 7, where the liquid is saturated with oxygen. Oxygen-saturated liquid exits through outlet 9 from tank 1.

A characteristic feature of the device is that the air under pressure from the line is not supplied directly to the ejector nozzle, but to the closed volume of the vessel with the liquid 13, where it does two work: it enters under pressure into the inlet nozzle 5 and pushes the liquid through the pipe 8 into the ejector mixer 3.

The contact of the liquid 13 with the air mixture occurs in the mixing chamber 7 in the fine phase, when the surface area of the liquid in contact with air is maximum. The saturation of the liquid with oxygen occurs during the pumping of the liquid from the tank 1, which allows you to clearly determine the moment when the liquid is left in the tank and to avoid inefficient energy consumption.

When generating oxygen foam, an diffuser 11 with a blowing agent 12 is installed at the exit of the ejector mixer 3 (Fig. 4).

A device for saturating a liquid with oxygen can be produced industrially, simply by design and efficiently.

Claims (4)

1. A device for saturating a liquid with oxygen, including a liquid container with a lid that provides hermetic closure of the container, a nozzle for supplying oxygen to the container under a pressure exceeding atmospheric pressure outside the container, and an ejector mixer with an inlet pipe the mixer for supplying liquid is in communication with a part of the volume of the tank filled with liquid, and the outlet of the mixer is brought out from the specified tank, while the inlet nozzle of the gas supply of the specified ejector esitelya and said nozzle for supplying oxygen are located above the limit level of filling liquid tank. 2. The device according to p. 1, characterized in that the said fitting for supplying oxygen is installed on the same axis with the inlet nozzle of the gas supply of the specified ejector mixer. 3. The device according to claim 1, characterized in that the inlet pipe for supplying liquid to the ejector mixer is in communication with the lower part of the tank volume by means of a tube. 4. The device according to claim 1, characterized in that the ejector mixer comprises a gas inlet nozzle, a low pressure chamber, a mixing chamber and a mixer outlet, sequentially, while a liquid inlet is connected to the low pressure chamber and connected to the inlet for supplying liquids.

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