DE19847773C2 - Device for enriching used air with oxygen - Google Patents

Description

The invention relates to a device for the enrichment of ver needed air with oxygen. This "air improvement car mat "can be used, for example, in bedrooms, sports rooms and in many other use cases to enrich the ver needed breathing air with oxygen. Such devices have a mixing chamber in which the used air drawn in from the room atmosphere and in which you have oxygen available in a controlled amount is mixed in a suitable manner, after which the oxygen enriched air is returned to the room atmosphere.

From US 2,242,108 is a device for enriching air known with oxygen gas, with the aim of improved Oxygen evaporation for liquid oxygen. The amount and rate of evaporation of oxygen is to regulate the contact of the flow air with the Surface of the liquid oxygen can be reached. The vaporizer consists of a considerable hori vessel zonal diameter, so that the poured liquid Oxygen has a sufficiently large surface. The container has an opening at the top and a heat-insulating jacket lung. Air is brought into the evaporation space of the vessel a blower via a feed pipe in via a valve regulated quantity or speed supplied. The one from the Feed pipe exiting air flow is in its area almost point-like perpendicular to the surface of the river directed oxygen. Depending on its intensity it penetrates the cold and heavy, above the liquid oxygen lying oxygen gas or not. Air with high Ge dizziness causes violent movement of the surface of the liquid oxygen, whereby its evaporation surface surface and evaporation due to the generation of heat is increased.  

The air should be mixed with part of the oxygen gas be deflected and by convection in the evaporation climb up the room and leave the vessel again enriched. With this relatively large device, which alone is its Possible uses can be restricted at first Line the amount of air conveyed through it regulated the. However, it is difficult to get the oxygen in the Add the desired amount and the oxygen content hold a desired value. It is also shorter Intervals necessary supply of the device with the liquid Oxygen consuming and not harmless for the operator person. Nor can it be guaranteed that the the proposed shutdown measures are actually an uncontrolled one escapes liquid or gaseous oxygen can be prevented. It is feared that the great waiter surface of the liquid oxygen also to unwanted vermi during the idle period of the device and therefore too little wanted consumption of oxygen.

The object of the invention is to demonstrate a device, where an intensive mixing of the used air with the added oxygen and with which the ge desired oxygen content can be regulated and reproduced which is economical in the consumption of oxygen has great size and can be manufactured and operated with little effort bar and safe to use.

The object is achieved with the device according to claim 1. The fact that the ver flowing longitudinally through the mixing chamber needed air from over the approximately over the area of the Mixing chamber finely distributed swirl nozzles distributed and precisely regulated in the amount of oxygen gas across flows in, particularly good mixing is achieved. Ge desired oxygen levels can be reached quickly and can be easily reproduced. Because of the possible intense mixing  the dimensions of the mixing chamber are kept small , the external dimensions of the device are also small.

The nozzle assembly is a rake-shaped oxygen distributor formed, which extends over the surface of the mixing chamber expands so that the swirl nozzles cover almost the whole Let oxygen gas flow out over the surface.

The swirl nozzles are on the large bottom surface of the Mixing chamber arranged. Then the oxygen gas passes across below in the used air along one side to the other side flowed through mixing chamber. This is a very practical, because space-saving design.

In that the nozzle assembly is arranged outside the mixing chamber is net and only the swirl nozzles in the mixing chamber, and to protrude into the flowing air becomes an additional one Whirl effect achieved.

Are the swirling protruding into the mixing chamber nozzles arranged inclined so that the flowing air and the many oxygen flows at an acute angle cut, will also intensify vermi achieved.

Another embodiment of the invention provides for the rain based on the amount of oxygen escaping the comparison of the actual / target values, the pressure regulator using a circuit with the oxygen measuring probe, the setting reg To connect users and displays in an active connection.

The easy recognizability, handling and reproducibility Due to the desired values, the display values are according to a  Execution of the invention specified in real numbers.

According to the invention, the pressure vessel for receiving the liquid oxygen as an oxygen cartridge with high pressure ver end cap formed. This is a change part, which is inexpensive, simple and safe to manufacture position, transport, storage and handling.

One embodiment of the invention provides that the oxygen pa trone over their high pressure cap with one for printing regulator releasably connect leading pressure hose. This will change the empty oxygen cartridge relieved against an oxygen-filled one.

An embodiment of the invention can also be seen therein, that the detachable connection from one at the end of the pressure cunning ches upstream cannula, which by the suitable existing material high pressure cap into the inside of the oxygen cartridge can.

The oxygen cartridge is expediently used as an exchange gene formed barrel which if necessary also for others Applications can be used and therefore due to the higher number of pieces len is cheaper to manufacture and obtain.

Finally, an embodiment of the invention for easy handling cheap, according to the cartridge slot is accessible from the outside in the housing of the device. This will quick replacement possible without opening the device or to disassemble.

The invention is intended to be used in one exemplary embodiment below are explained in more detail.

In the accompanying drawing:  

Fig. 1 apparatus for enriching air with oxygen consumed in a perspective view;

Fig. 2 apparatus according to Fig. 1, in a different perspective view;

Fig. 3 mixing chamber of the apparatus of Fig. 1, in view, shown without lateral boundary,

Fig. 4 Mixing chamber according to Fig. 3, shown in plan view, without upper limit,

Fig. 5 device in perspective view, FIGS. 1 and Fig. 2, without outer limits of the device and the cartridge shaft.

Fig. 6 device according to Fig. 5, in a different perspective view, without external limits of the device.

Fig. 7 representation of the oxygen cartridge.

The housing encloses device, as shown in FIGS. 1 and Fig. 2 can be seen. Through the air intake grille 2 , for example, used breathing air is sucked into the mixing chamber 13 of the device by means of the motor-driven fan 14 , as can be seen in FIG. 3, after the connection of the device to the power source via the power switch 4 . The display 5 shows on a display the oxygen content in the room air determined by the oxygen measuring probe 8 in numerical form, which also serves as the actual value. With the setting controller 6 , the desired oxygen content in the room air can be set, which is shown on the display 7 and at the same time serves as a setpoint. In the cartridge shaft 9 , the oxygen cartridge 10 shown in FIG. 7 is inserted after the cannula 18 shown in FIG. 5 is pushed by hand through the high pressure cap 20 and the connection of the liquid oxygen in the oxygen cartridge 10 , via the pressure hose 11 , was produced with the pressure regulator 12 . As a result of the constant setpoint / actual value comparison, the pressure controller 12 regulates the flow of oxygen so that the setpoint 6 specified with the setting controller 6 , which is indicated on the display 7 for the desired room air oxygen content, is reached and kept constant. In a corresponding circuit arrangement, not shown, the pressure regulator 12 constantly compares the difference between the setpoint and the actual value, which are indicated on the display 5 and the display 7 . Via the distributor hose 21 , the pressure regulator 12 allows the corresponding amount of oxygen to enter the oxygen distributor 16 which forwards it to the nozzle assembly 15 . This is rechenför shaped and its individual tubes are approximately below the entire bottom surface of the mixing chamber 13 , as can be seen from Fig. 4. On the nozzle assembly 15 , the entangling nozzles 19 are arranged. With their opening, as shown in FIG. 3, they protrude at least partially through the bottom of the mixing chamber 13 into the interior thereof. The room air drawn in by the fan 14 via the air intake grille 2 in the mixing chamber 13 and at the same time in the housing 1 flows across the entire width of the mixing chamber 13 in the direction of the air outlet grille 3 in the mixing chamber 13 and in the housing 1 . Transversely to this air flow occurs over the Bodenflä surface of the mixing chamber 13 distributed oxygen from the openings of the swirling nozzles 19 into the mixing chamber 13 and is extremely intensely and uniformly mixed with the used air. Because the swirling nozzles 19 partially protrude into the mixing chamber 13 , the swirling effect is intensified. The inclination of the oxygen streams emerging from the openings of the intermingling nozzles 19 can be varied to increase the intermingling effect. From the air outlet grille 3 , the air improved by the added oxygen enters the room again, the room air oxygen content of which is constantly monitored by means of the oxygen measuring probe 8 . The cartridge shaft 9 , according to FIG. 6, for receiving the oxygen cartridge 10 is expediently accessible from the outside of the housing 1 of the device, which is built on a mounting frame 17 , in order to enable rapid replacement. The cartridge shaft 9 can be covered with an easily detachable closure cover.

List of the reference symbols used

1

casing

2nd

Air intake grille

3rd

Air outlet grille

4

Power switch

5

Display (for indoor air oxygen content)

6

Adjuster

7

Display (for the desired room air oxygen content)

8th

Oxygen measuring probe

9

Cartridge slot

10th

Oxygen cartridge

11

pressure hose

12th

Pressure regulator

13

Mixing chamber

14

fan

15

Nozzle assembly

16

Oxygen distributor

17th

Mounting frame

18th

Cannula

19th

Swirl nozzle

20th

High pressure cap

21

Distribution hose

Claims (9)

1. Device for enriching used air with oxygen characterized by the following features:

• - a mixing chamber ( 13 ) arranged in a housing ( 1 ),
• - A substantially over the width of the Mischkam mer ( 13 ) extending fan ( 14 ) for sucking in the used air through an air intake grille ( 2 ) and for transporting this air over
• - In the bottom surface of the mixing chamber ( 13 ) arranged and in the mixing chamber ( 13 ) protruding Ver swirling nozzles ( 19 ) of an oxygen distributor ( 16 ), from which gaseous oxygen escapes essentially transversely to the used air flowing through the mixing chamber ( 13 ),
• - The swirling nozzles ( 19 ) are located on an outside of the mixing chamber ( 13 ) located as a rake-shaped oxygen distributor nozzle assembly ( 15 ), which via a distributor hose ( 21 ), a pressure regulator ( 12 ) and a pressure hose ( 11 ) with a Oxygen cartridge ( 10 ) is connected,
• - An air intake grille ( 2 ) located opposite the air outlet grille ( 3 ), through which oxygen-enriched air escapes.

2. Apparatus according to claim 1, characterized in that the swirling nozzles ( 19 ) are inclined so that the direction of exit of the oxygen and the direction of the fan ( 14 ) coming along through the mixing chamber ( 13 ) flowing used air in one cut acute angle. 3. Device according to one of claims 1 or 2, characterized in that with the pressure regulator ( 12 ) for regulating the amount of oxygen emerging from the oxygen cartridge ( 10 ) on the basis of constant setpoint / actual value comparisons

• an oxygen measuring probe ( 8 ) for determining the oxygen content contained in the room atmosphere,
• - a display ( 5 ) for the oxygen content in the room atmosphere,
• - A setting controller ( 6 ) for the desired Oxygen content in the room atmosphere,
• - A display ( 7 ) for the oxygen content selected in the room atmosphere on the setting controller ( 6 ) and
• - A power supply switchable via the power switch ( 4 )

is in operative connection. 4. Apparatus according to claim 3, characterized in that the display ( 5 ) for the oxygen content in the room atmosphere and the display ( 7 ) for the selected oxygen content in the room atmosphere are designed as digital displays. 5. Device according to one of the claims 1 to 4, characterized in that the oxygen cartridge ( 10 ) formed as a pressure vessel for receiving the liquid oxygen has a high-pressure cap ( 20 ). 6. Apparatus according to claim 5, characterized in that the oxygen cartridge ( 10 ) via the high-pressure closure cap ( 20 ) with the pressure regulator ( 12 ) leading pressure hose ( 11 ) is releasably connectable. 7. Apparatus according to claim 6, characterized in that a cannula ( 18 ) is arranged at the beginning of the pressure hose ( 11 ) and the high-pressure cap ( 20 ) consists of a material pierceable with the cannula ( 18 ). 8. Device according to one of the claims 5 to 7, characterized in that the oxygen cartridge ( 10 ) is designed as an exchange vessel. 9. Apparatus according to claim 8, characterized in that the oxygen cartridge ( 10 ) in a cartridge shaft ( 9 ) accessible from the outside of the housing ( 1 ) is angeord net.