DE8619146U1 - Ballast for air conditioning systems - Google Patents

Description

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Ballast for air conditioning systems

The innovation concerns a ballast for air conditioning systems^ for insertion into the supply air flow*

In air conditioning systems, air is usually roughly cleaned by a valve star sn^sssu^fc, &bgr;&pgr; a» filter fleece and then, after being treated with regard to temperature, humidity and, if necessary, other parameters, it is released into the room to be air-conditioned.

The innovation is based on the task of giving the air introduced into the room such a quality by means of a ballast that can be inserted into the supply air flow that the living conditions in the air-conditioned room are improved.

The stated problem is solved according to the innovation in that the ballast consists of a housing with an air inlet opening at one end and an air outlet opening at the opposite end, that a membrane arrangement is provided between the air inlet opening in the housing, which has a greater permeability for oxygen than nitrogen, and that at least one outlet for the excess nitrogen is provided in the housing.

Membranes for separating at least one gas from

a gas mixture, i.e. membranes that act during the permeation of a

gas have less resistance than another gas of the

mixture are known and do not form part of the present innovation.

When used in an air conditioning system in the form of a pre-determination device, the oxygen concentration in the room

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supplied air mixture increased and at the same time the nitrogen content is reduced accordingly - for example, up to 30% increased
Oxygen intake is harmless to the human organism even over a longer period of time, but it has a stimulating effect, increases the ability to concentrate and compensates for stress-causing influences .

The ballast can be placed between the fan that draws in the outside air and the conditioning unit of an air conditioning system. However, it is more advantageous to integrate the generation of the air flow into the ballast and to place a first
fan and a second fan between the membrane and the outlet opening. Then the ballast can
be connected directly to the processing unit*

In implementing the innovation, it is appropriate if
the outlet opening and the inlet opening are each formed by a nozzle and the fans are arranged in the nozzles, and if a filter fleece is arranged in the nozzle forming the inlet opening in the direction of flow in front of the fan
is.

For flow reasons it is advantageous
if the housing is cylindrical and the smaller diameter nozzles are arranged coaxially at both ends.

The excess nitrogen can be permanently removed by
The nitrogen can be discharged to the outside atmosphere via lines connected to the storage space in the housing, but the excess nitrogen can also be discharged intermittently via a controlled valve.

The innovation is explained below using the drawings

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The examples shown here are explained in more detail. The drawing shows!

Fig. 1 a ballast in perspective view with the housing partially cut away and

Fig. 2 a ballast in the same representation

as in Fig. 1, but with a different embodiment of the membrane arrangement.

The ballast shown in Fig. 1 contains a cylindrical housing 1, at both ends of which are coaxially attached nozzles 2 and ¹¹ with a smaller diameter, which have an inlet opening 3 and an outlet opening 5. In the nozzle 2 there is a fan 6, through which air can be sucked in in the direction of the arrow 7 and conveyed through the housing 1 to the nozzle ¹¹ , in which a second fan 8 is arranged, which sucks in the air supplied to it and discharges it in the direction of the arrow 9 from the outlet opening 5. A filter fleece 10 can also be arranged in front of the nozzle 2, which can be attached to the nozzle 2 by means of a fastening sleeve 11, e.g. via a screw connection, so that the air sucked in by the fan 6 can be cleaned of dust particles.

Inside the housing 1, in the middle area in the direction of flow, several disk-shaped membranes 12 are arranged one behind the other, which are circular like the housing 1 and have a diameter that corresponds approximately to the inner diameter of the housing. These membranes have a greater permeability for oxygen than for nitrogen, so that the oxygen content of the air sucked in by the fan 6 preferentially passes through the membrane arrangement, while the nitrogen content is retained, which accumulates in the storage space of the housing in front of the membrane arrangement and is discharged through an outlet 13.

into the free atmosphere. The nitrogen can be discharged continuously, but it can also be discharged intermittently and depending on the pressure through a valve arranged in the outlet 13.

As already mentioned, membranes for gas separation of the type built into the housing 1 are known per se, which, with the appropriate ballast, ensure that an air mixture with an increased oxygen content can be supplied to the room to be air-conditioned in an air conditioning system, which increases the performance of the air in the room to be air-conditioned.

And thereby especially for office I

and factory buildings is an advantage.

The ballast shown in Fig* 1 can be used in one

i> can be introduced into the supply air flow of an air conditioning system in a

;■ and only needs to be installed in front of the air conditioning unit

to be connected.

(, Fig. 2 shows another embodiment of a

^! * the innovation designed ballast, in which for the same

Parts have been given the same reference numerals as in Fig. 1. The embodiment according to Fig. 2 differs from the embodiment shown in Fig. 1 only in the _membrane arrangement 14, which here consists of a system of thin tubes.

Ii, which are arranged close to one another in the housing 1 parallel to the flow direction and essentially fill the housing. This membrane system causes a different migration speed of oxygen and nitrogen, which enables separation. The separated nitrogen is discharged to the outside atmosphere through pipes 15. A membrane arrangement of this type is also known and therefore does not form part of the present innovation.

Claims (1)

EIKENBERGf & SRUMWERJSTEDT PATENT ATTORNEYS IN HANNOVER Wolfgang Haberland 303/1 Protection claims 1. Ballast for air conditioning systems for insertion into the supply air flow, characterized in that the ballast consists of a housing (1) with an air inlet opening (3) at one end and an air outlet opening (5) at the opposite end, that a membrane arrangement (12 or 14) is provided between the air inlet opening (3) and the air outlet opening (5) in the housing (1), which has a greater permeability for oxygen than for nitrogen, and that at least one outlet (13, 15) for the excess nitrogen is provided in the housing (1). 2. Ballast according to claim 1, characterized in that a first fan (6) is arranged between the inlet opening (3) and the membrane arrangement (12 or 14) and a second fan (8) is arranged between the membrane arrangement (12 or 14) and the outlet opening (5). 3. Ballast according to claim 2, characterized in that the inlet opening (3) and the outlet opening (5) are each formed by a support (2, M) , and that the fans (6, 8) are arranged in the supports. a &bgr;· a a a H. Ballast according to claim 3, characterized in that a filter fleece (10) is arranged in the nozzle (2) forming the inlet opening (3) in the flow direction in front of the fan (6). 5. Ballast according to one of the preceding claims, characterized in that the outlet (13) contains a controllable valve. 6. Ballast according to one of the preceding claims, characterized in that the housing (1) is cylindrical and the smaller diameter nozzles (2, 4) are arranged coaxially at both ends. 7. Ballast according to claim 6, characterized in that the membrane arrangement (12) consists of one or more disks arranged one behind the other, which are arranged perpendicular to the flow direction in the housing (1) and whose diameter corresponds approximately to the inner diameter of the housing, 8. Ballast according to claim 6, characterized in that the membrane arrangement (14) consists of a system of thin tubes which are arranged closely next to one another in the housing (1) parallel to the flow direction. It H I II III I · I I Il l#* ·· I I 41 * I II· I I I I I I *i *i it* a