DE2447841C3 - Air conditioners, in particular dehumidifiers - Google Patents

Description

The invention relates to an air conditioner, in particular an air dehumidifier, in whose refrigerant circuit a Compressor, a condenser piping, a throttle point and an evaporator piping arranged are, the evaporator piping or the condenser piping lying in a circle and a The fan impeller coaxial to the circle acts on the piping lying in the circle

Such an air conditioner is in DE-OS 22 08 621 described. The evaporator piping and the condenser piping are located in this air conditioner in one circle each. A fan wheel coaxial to the associated circle acts on the one in the circle horizontal piping. Those acting on the evaporator on the one hand and the condenser on the other hand Air flows are completely separate from each other. Accordingly, two fan wheels are necessary. Both Pipework lies in planes parallel to one another.

The depth of this air conditioner is great.

In an air conditioner according to DE-PS 14 54 612, two tangential fans are used, the separate air flows support financially. One air flow is through the evaporator and the other air flow is through the Condenser promoted. The evaporator on the one hand and the condenser on the other hand are in line divided, the two parts each lying in one plane. However, it is not the vaporizer and the Condenser in a common plane, so that here too a considerable overall depth is accepted must become.

In DE-GM 69 29 817 a room dehumidifier is described in which in the flow direction of the air Evaporator, condenser, fan and compressor are arranged in a straight line one behind the other. Such Room dehumidifiers therefore also have a large installation depth.

The object of the invention is to design an air conditioner of the type mentioned in such a way that it has a small overall depth.
To solve the above problem, the evaporator piping and the condenser piping are essentially in a common plane in an air conditioner of the type mentioned, the circle forms the dividing line of the piping and the single fan impeller conveys air through both piping.

The advantage here is that the device can be built very flat and can also be set up directly in front of a wall, since the air supply and the air discharge can take place on the same side of the device. Furthermore is

advantageous that there is a fan wheel with a large radius can be used, which can run correspondingly slowly and thus at most a low level of noise, brings little drafts and low pressure loss with it. The device can, as a result of being in a common plane lying condenser piping and evaporator piping be constructed so that the air flow flowing through the evaporator is returned directly to the condenser, or that the Air flows are separated from each other.

In an advantageous development of the invention, the fan wheel covers the evaporator piping and the Condenser piping and is designed in a known manner so that there is air through the one Piping pushes and sucks through the other piping

In a preferred embodiment, the evaporator and the condenser piping are through fluidic formed in parallel, radially arranged tubes, wherein in the intersection of the tubes and the circuit described throttle devices are installed in the pipes. In another In the embodiment, the evaporator piping and the condenser piping are each as continuous Formed pipe system

Two preferred exemplary embodiments of the invention are described in more detail below. In the Drawing shows

F i g. 1 schematically shows a dehumidifier from the front, the fan wheel not being shown,

F i g. 2 the device according to FIG. 1, but with a rare fan ¹ , in section H-II from FIG. 1,

F i g. 3 shows another embodiment of the device according to the invention in a corresponding representation F i g. 1 and

F i g. 4 shows a further embodiment of the device according to the invention according to FIG. 1 - 3 in longitudinal section.

A compressor 2 is arranged in a housing 1. The housing 1 only has 3 on its front side Openings for the air duct. All other side surfaces of the housing 1, including the rear wall la, are closed.

The compressor 2 is followed by a condenser, a throttle point and an evaporator This creates a coolant circuit. Superheated cold steam is compressed by the compressor flows into the condenser, where it liquefies, releasing its heat of superheating and evaporation will. The liquid, but still compressed, cooling medium then passes through a throttle point a pressure and thus temperature drop before it gets into the evaporator, where it evaporates Able to absorb heat. Finally, the heat-laden cooling medium returns to the compressor, where it is compressed again. The condenser is from a condenser piping 4 and the evaporator formed by an evaporator piping 5.

In Fig. 1, the condenser piping 4 and the evaporator piping 5 is through fluidic Tubes 6 connected in parallel and arranged in a radial fashion are formed. The tubes 6 are for this on their outer Ends connected to a collecting line 7 and at their inner ends to a distribution line 8. The collecting line 7 and the distribution line 8 are connected to the compressor 2.

A throttle or capillary insert 9 is arranged in each of the tubes 6. The throttle inserts 9 Lieeen viewed in their entirety on a circular line 10. The evaporator piping 5 is located within the circular line 10. The condenser tubing 4 forms a circular ring and lies outside the Circular line 10. All tubes 6 are arranged in one plane

Furthermore, an electrically driven one is in the housing 1 coaxially in front of the radial piping 4 and 5 Fan wheel 11 supported The fan wheel 11 is in its inner ring area 12, which coincides with the evaporator piping 5, designed so that it Air to be dehumidified is sucked in from outside the device and pushed through the evaporator piping 5 The fan wheel 11 is located in its outer ring area 13 on the other hand, by changing the blade formation, so that there is air from the inside of the device through the Condenser piping 4 is sucked in through and blown out to the outside

In addition, a condensate collecting vessel 14 is provided in the housing 1 below the evaporator.

In Fig. 3, the condenser piping 4 and the evaporator piping 5 are each as their own, in themselves continuous pipe system formed. The condenser piping 4 is on the input side via a line 15 connected to the compressor 2. On the output side, a throttle device 16 is provided on which the Evaporator piping 5 is connected on the inlet side. This is on the outlet side via a pipe 17 with the Compressor 2 connected. The condenser piping 4 and the evaporator piping 5 also have at this embodiment concentric, circular outlines. Within the respective circular ring-shaped The piping is laid out in a zigzag, meander or spiral shape. The piping are also here in one plane. In the manner described, the piping 4 and 5 is a fan wheel 11 arranged with a front-side central suction and peripheral pressure area (cf. FIG. 2).

The operation in both embodiments is provided that the compressor 2 and the fan wheel 11 run, the following:

Moist air is sucked in from the room through the central area 12 of the fan wheel 11 and pushed through between the cold evaporator piping 5. The moisture in the air is deposited on the evaporator piping 5 and drips into the condensate collection vessel 14. On the rear wall la of the housing 1, the air is deflected by about 180 ° and sucked in between the warm condenser piping 4 by the peripheral area 13 of the fan wheel 11 and blown back into the room warmed up. This air duct is shown in FIG. 2 represented by arrows A.

A favorable, in particular equally large division of condenser and evaporator pipes is achieved achieved in that the outer diameter of the outer circular ring (capacitor) and that of the inner Circular ring (evaporator) in a ratio of about 3: 2. If necessary, the piping can also be removed arrange one behind the other in several layers, as shown in FIG. 2 is shown schematically. The piping of the individual layers can be offset from one another, so that the air acted directly on one another Enlarged surface.

The dehumidifier is also suitable for training as a portable device, so that he can optionally different places can be used. In particular, it can also be used as a hanging item

Use wall-mounted device. The - outer - condenser piping 4 can also be designed in such a way that it also extends into the corners of the housing 1. In addition, a fan wheel can also be used, which only pushes the air through the evaporator piping 5 pushes through.

According to FIG. 4, it can also be advantageous to place the suction device 12 and the pressure device 13 of the fan wheel 11 as well as the two heat exchangers, ie condenser piping 4 and evaporator piping 5, within their respective concentric assignment with respect to FIG. 1 to 3 to be swapped, as shown in FIG. 4 is shown. The air to be treated is then, as marked by arrows B , sucked in, cooled and dehumidified in the front peripheral area of the device, and subsequently heated and blown back in the central area of the same. In this case, an arrangement of the fan motor 11a, compressor motor 2a and possibly the compressor 2 in the central blow-out area also causes a desired reduction in the operating temperatures caused by friction and additional heating of the inflation air.

A reliable demarcation of the suction area from the blow-out area in front of the fan wheel 11, ie to avoid a possible short-circuit air circulation on the device, can be achieved with an air guide tube 18 separating these areas. This can be attached to the fan wheel 11 or fixed and the fan motor 11a, the compressor motor 2a, and the

to take in compressor 2 itself.

Finally, if the rear wall of the housing la (from FIG. 2) or corresponding air deflection devices are omitted and optionally with the addition of one or both-sided air guide tubes 18 on the fan wheel 2 separately generate usable hot and cold air flows. It is therefore also possible to use a refrigeration unit designed in this way, i.e. with the help of only one fan, and built into a room partition wall adjacent to it Alternately cool or (re) heat rooms by reversing the direction of rotation of the fan wheel.

1 sheet of drawings

Claims (14)

Patent claims: 1. Air conditioning unit, in particular a dehumidifier, in the refrigerant circuit of which a compressor, a Condenser piping, a throttle point and an evaporator piping are arranged, the Evaporator piping or condenser piping are in a circle and one in a circle coaxial fan impeller acts on the piping lying in the circle, characterized in that, that the evaporator piping (5) and the condenser piping (4) essentially in lie on a common plane, the circle (10) forms the dividing line of the pipes (4, 5) and that single fan wheel (11) conveys air through both pipes (4,5) 2. Apparatus according to claim 1, characterized in that the fan wheel (11) the evaporator piping (5) and the condenser piping (4) covered and so in a manner known per se is designed to force air through one tubing and through the other tubing sucks 3. Apparatus according to claim 1 or 2, characterized in that the outer piping (4, 5) has an annular outline 4. Apparatus according to claim 3, characterized in that the outer diameter of the outline of the outer piping (4, 5) and the outer diameter of the formed by the dividing line (10) The outline of the internal piping is approximately 3: 2. 5. Apparatus according to any of the preceding claims, characterized in that the evaporator piping (5) and the condenser piping (4) by means of radial flow connections connected in parallel arranged tubes (6) are formed, wherein in the intersections of the tubes (6) and the Circuit (10) in the pipes (6) throttle devices (9) are installed (Fig. 1). 6. Apparatus according to any one of the preceding claims 1 to 4, characterized in that the Evaporator piping (5) and the condenser piping (4) each as continuous Pipe system are formed (Fig. 3). 7. Apparatus according to claim 6, characterized in that the piping zigzag or meander or are arranged in a spiral (Fig. 3). 8. Apparatus according to any of the preceding claims, characterized in that the evaporator piping (5) and the condenser piping (4) each in several, possibly staggered Layers are arranged. 9. Device according to one of the preceding claims, characterized in that coaxially aligned an air guide tube (18) is arranged for the circle (10) in front of and / or behind the fan wheel (11). 10. Device according to one of the preceding claims, characterized in that within of the circuit (10) the evaporator piping (5) and the fan wheel (11) air through the evaporator piping (5) presses. 11. Apparatus according to any of the preceding claims 2 to 9, characterized in that the Refrigerant circuit is reversible by switching means known per se or the condenser piping (4) lies within the circle (10) and that the fan wheel (11) in its peripheral area (12) sucks and blows its centric area (13) 12. Apparatus according to claim 11, characterized in that the fan motor (Ha], the compressor motor (2a) and the compressor (2) are arranged within the air guide tube (IS) arranged in front of the fan wheel (11). 13. Device according to one of the preceding claims, characterized in that the device is open on both sides for installation in a wall opening 14. Apparatus according to any one of the preceding claims 1 to 12, characterized in that the apparatus has a rear housing wall (la) which directs the air from the one piping (5 or 4) to the other piping (4 or 5).