DE2548342A1 - HEAT PUMP UNIT - Google Patents

Description

FROM KREISLER SCHÜNWaLD MtYER EISHOLD FUES FROM KREISLER KELLER SELTING

PATENT LAWYERS Dr.-Ing. by Kreisler + 1973

Dr.-Ing. K. Schönwald, Cologne Dr.-Ing. Th. Meyer, Cologne Dr.-Ing. K. W. Eishold, Bad Soden Dr. J. F. Fues, Cologne Dipl.-Chem. Alek von Kreisler, Cologne Dipl.-Chem. Carola Keller, Cologne Dipl.-Ing. G. Seifing, Cologne

5 Cologne ι October 28, 1975

DEICHMANNHAUS AT THE MAIN RAILWAY STATION S Ch-DB / Κθ

Henning Brinch Madsen

Bonnesvej 11, DK-267O Greve Strand / Denmark

V / poor pump unit

The invention relates to a heat pump unit in the preamble of claim 1 specified genus, especially for heating and dehumidifying swimming pools.

The most common method for dehumidifying air is to ventilate the damp room, which is in the Heating season when ventilation air is cold, considerable Causes heat loss. At the moment, special dehumidification units are being used Heat pump with associated evaporator and condenser contained, the water vapor of the humid air on one with the evaporator of the heat pump in

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Telephone: (0221) 23454T - 4 · Telex: 8882307 dopa d ■ Telegram: Dompatent Cologne

7548342

Connection standing cooling surface is liquefied, after which the dehumidified air is heated on a heating surface which is in heat-conducting connection with the condenser of the heat pump. The compressor of the heat pump must therefore be in operation when the air needs to be dehumidified, even if if for the water vapor obtained during the liquefaction and from the condenser via the heat pump The heat given off to the air is not actually required. This operating state is uneconomical in summer, if heating is not necessary,

but often, for example in swimming pools, cooling of the air is desired due to solar radiation is.

The purpose of the invention is to create an aggregate for dehumidifying air, the operation of which is more economical than that of the aforementioned known Systems.

This purpose is achieved by means of an air dehumidifying unit with the characteristics specified in claim 1 Features achieved, as in this unit the temperature the cooling surface is sufficiently low to dehumidify the air when the compressor is running is out of order. When the compressor is not working, this is caused by the liquefaction of the air-water vapor The heat energy gained is transferred to the heat reservoir and can be removed from it by starting the compressor be returned to the room air.

Claim 2 characterizes an inexpensive design

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management form of the heat pump unit according to the invention, because in this to achieve the heat exchange indicated in the characterizing part of claim 1 only one Heat exchanger is required.

The features of claim 3 ensure an appropriate regulation in the embodiment according to Claim 2.

As a result of the content of claim 4, a larger cooling surface with a correspondingly larger capacity can be achieved.

An expedient control of the embodiment is achieved by the measures characterized in claim 5 achieved according to claim 4.

Claim 6 identifies an appropriate heat reservoir. Finally, by the in claim 7 marked embodiment of the operating expenses further reduced because the effect factor of the heat pump due to the additional cooling of the coolant condensate and thereby the pool water is heated.

The invention is explained in more detail below with reference to the drawing. Show it

1 shows a first embodiment of the heat pump unit according to the invention,

Fig. 2 shows a second embodiment of the unit and 3 shows the embodiment shown in FIG

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in plan view.

Both embodiments of the heat pump unit according to the invention illustrated in the drawing are used for dehumidifying and heating the room air in relatively small swimming pools as well as for delivery set up by warmth to the basin water.

It is characteristic of the embodiment shown in FIG. 1 that only one heat exchanger 2 is provided is that the heat exchange between the indicated by the arrow P. humid return air, a Coiled pipe system 14 in the ground, frost-free liquid flowing through, as well as that from a compressor 4 sucked gas accomplished. The compressor pressure line is equipped with a heating surface Condenser 5 connected. The unit parts are housed in a housing 1 which is set up in this way is that the return air P. either brushes the heat exchanger 2, or by means of a flap 9 the Heat exchanger is discharged immediately. The flap is adjusted automatically by a flap motor, which is controlled by a hygrostat 10 arranged in the room. The air is blown by a fan 6 driven through the unit and brushes the fins of the heating surface 5. If the compressor 4 in Is in operation, the air is heated. Finally, the air is pushed out in the direction of arrow P. The area of the heat exchanger 2 swept by the room air is provided with fins and thus has a large cooling surface, the temperature of which by means of the circulation pump 3 in

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Circulating frost-free liquid kept at a value close to the temperature of the soil will.

The unit according to the invention offers firstly the advantage that the air P. when stroking between the fins of the heat exchanger 2 is dehumidified even when the compressor 4 is not in operation is. The thermal energy obtained by liquefying the air-water vapor is thus passed through the pipe system 14 released to the ground, so that this heat is not on the heating surface 5 released, but accumulated in the ground will. The dehumidification is controlled by the hygrostat 10, which together with a run time of the Compressor 4 regulating thermostat 11 is arranged in the damp room. The fan 6 starts automatically, as soon as the room requires air circulation.

The usefulness of the unit can be improved with the compressor 4 running in that the coolant condensate from the evaporator 5 can be immediately passed through a heat exchanger 7 by means of a three-way solenoid valve 13 controllable by a water thermostat 12. The heat exchanger 7 may communicate with the water in the swimming pool in thermally conductive connection, so that the Kühlraittelkondensat is further cooled from a temperature of about 35 ° C to about 20 ⁰ C, whereby the effect factor of the heat pump is increased. The heat exchanger 7 is expediently part of the pool filter system, which is provided with a circulation pump 8.

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Pig. 2 and 3 show another embodiment of the aggregate according to the invention. The main difference to the embodiment described above is that the cooling surface 27 is spatially separated from the evaporator 30 of the heat pump, with this however, it is in a heat-exchanging connection via the frost-free liquid, this liquid Forcibly kept in circulation in a pipe system laid in the ground with the aid of the circulation pump 29 will. The unit shown in Fig. 2 and 3 is for dehumidifying and / or heating the room air in a swimming pool as well as for heating the pool water. The unit is in one Housing with a sound-absorbing insulation 45 so that the noise of the compressor 26 penetrates the outside as weakly as possible. The housing has an air duct 3 ^ for the delivery of air-conditioned Air in connection. The unit is also connected to a return flow channel through which Humid air is sucked in from the swimming pool, which first flows through a filter 32 and if necessary is then dehumidified and / or heated as described below.

In addition to the aforementioned compressor 26 and the evaporator 3P_ge | iören ^ ztir "" "heat pump serving as a heating surface Condenser 22, a coolant reservoir 25 * a Drying filter 28, a sight glass 31 and a thermostatic Expansion valve 41. Guaranteed compared to the embodiment described in the first place the large cooling surface 27 has a greater dehumidification capacity, so that the degree of dehumidification as

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Can be controlled much easier described below than in the embodiment of FIG Condensate dripping down from the cooling surface 27 is fed to a condensate outlet 38 via a drain pan 39.

The unit is also provided with means for controlling a predetermined part of the fan 21 by the Unit-driven air flow provided through the heating surface 22, while the rest of the air flow is non-contact is diverted around the heating surface. These means include two motor-operated ones and regulating dampers 24 and 37 set by a room thermostat. These in the first-described embodiment nonexistent arrangement is used when the unit is designed for a large dehumidifying capacity is designed, since it may be necessary to keep the compressor 26 in operation to maintain the temperature to keep the brine liquid low even if the room air is not heated. this does not lead to overheating of the heating surface 22 because the coolant as in the first embodiment its heat via a connection that conducts heat to the filter system of the J.n swimming pool standing heat exchanger emit k ^ n ^ T ^ er ^ over ^^ fteh 36 with plug connections 35 and a three-way valve 23 controlled by a magnet to the coolant circuit connected.

The dehumidification process is controlled by means of a hygrostat located in the swimming pool, which has a solenoid valve 42 for blocking or releasing

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would give the flow of the frost-free liquid through the cooling surface 27 controls. The valve 42 can in the sense a regulation of the flow rate of the frost-free liquid through the cooling surface 27 by one Motor can be operated. Instead of a wall 40 in connection with the inclined cooling surface 27, there is a cooling surface usable, which extend in the transverse direction of the unit over approximately its entire cross-sectional area extends.

As can be seen from the above description, the one illustrated in FIGS. 2 and 3 operates Embodiment for heating and dehumidifying air and for heating water very economical because no heat is lost. The waste heat from the compressor is transferred to the unit Air flowing through is released into the room air. The one obtained from the liquefaction of the air water vapor Energy can be accumulated in the ground, increasing the temperature of the frost-free liquid somewhat increases. This is advantageous because it increases the suction pressure of the compressor when the Energy is released back into the air via the heating surface 22. If the compressor is running, the heat will be released into the pool water and / or the air, the temperature of the frost-free liquid reduced to increase the dehumidification capacity will.

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Claims (7)

Expectations 1. Heat pump unit for dehumidifying air, with a cooling surface and a heating surface for the air as well as a compressor with associated condenser and evaporator, characterized in that that the cooling surface (2; 27) is in a thermally conductive connection with a circulating agent stands, which is in heat exchange with the evaporator (5j 30) and a heat reservoir, its temperature is lower than the dew point of the air. 2. Unit according to claim 1, characterized in that one of the circulated Means through which heat exchanger (2) is provided, both as an evaporator and as a cooling surface. 3. Unit according to claim 2, characterized in that one of a hygrostat (10) controlled regulating flap device (9; 24, 37) is provided, which one of its setting depending on the proportion of air through the heat exchanger. 4. Unit according to claim 1, characterized that in addition to a heat exchanger serving as an evaporator (30) one of the circulating Means through which a cooling surface (27) can flow is provided. 5. Unit according to claim 4, characterized 609820/0994 - io - by a solenoid valve (23) controlled by a hygrostat, which controls the flow of the circulating Releases or blocks by means of the cooling surface (27). 6. Unit according to one or more of claims 1 to 5, characterized in that the circulating agent is a freeze-free Is liquid, and that the soil serves as a heat reservoir. 7. Unit according to one or more of claims 1 to 6, in which the dehumidified cold air flowing past the heating surface for the purpose of heating a swimming pool is heated, characterized in that a second heat exchanger (7) is provided is, the coolant condensate cools from the heating surface (5) and the released heat to the pool water gives away. 609820/0994 ./1 . Blank page