DE8103137U1 - HEAT PUMP UNIT - Google Patents

Description

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The invention relates to a Wärmepümpenaggregat consisting of an evaporator, a switched into the f from the evaporator to a condensate sator leading refrigerant line compressor with oil recooling as well as an expansion valve in a refrigerant from the condenser leading back to the evaporator conduit is disposed.

Heat pump units in compact design are known and enable it, for example, by utilizing the air heat with a comparatively low expenditure of electrical energy to ensure domestic water heating and thus heating energy, save heating oil in particular.

On the one hand, it comes to the design of a heat pump unit on the highest possible coefficient of performance, i.e. a possible to achieve a high ratio of the heat output gained to the electrical energy used, and on the other hand, the construction and to make assembly costs economical. The coefficient of performance depends on the operating conditions, but it can be by using oil recooling in the compressor and, if necessary by using a recuperator, i.e. a heat exchanger between the suction and liquid lines.

In known heat pump units, the oil recooling is thereby achieved that the condensation process in the condensation heat exchanger is interrupted, the refrigerant back into the oil pan of the Compressor, re-evaporated there and then again for condensation is sent to the condensation heat exchanger arranged in the domestic water supply. Although this arrangement has advantages, but requires a considerable amount of piping. i

The object of the invention is therefore to provide a compactly designed heat pump unit of the type mentioned at the beginning with simultaneous positive effect on the coefficient of performance of the heat pump easier to build and thus an even more compact design to enable.

This object is achieved according to the invention in that the refrigerant vapor coming from the evaporator is leading Line connected to the oil dry cooler of the compressor and the output of the oil dry cooler with the input connection of the compressor is connected. Due to this training it is achieved that the compressor works with a suction gas-cooled oil pan, so that it can be isolated and work at higher temperatures is possible, these advantages at piping that is particularly simple and requires little effort can be achieved.

Another advantage is that in principle any capacitors can be integrated into the heat pump unit, because, in contrast to the previously known system with oil recooling, there is an interruption in the condenser circuit or a branch from the capacitor circuit is no longer required. In addition to direct condensation in the service water, this is also problem-free countercurrent condensers, condenser collectors and the like can be used.

Further advantageous refinements of the subject matter of the invention are specified in the subclaims.

An embodiment of the invention is hereinafter referred to described on the drawing; the single figure of the drawing shows a heat pump unit in a schematic manner according to the invention, which is intended for domestic water heating and to a domestic water storage tank, also shown schematically can be flange-mounted.

The air-water heat pump unit according to the drawing includes a Evaporator 1, which with the help of a fan 2 heat from the Absorbs air and thereby evaporates the circulating refrigerant.

The evaporated refrigerant is via a line 6 to a Compressor, which brings the refrigerant vapor to high pressure and thereby further heats it.

It is essential that this compressor 3 with an oil recooling 8 equipped and this oil recooling is switched on in the line coming from the evaporator, so that a suction gas cooling the oil pan results.

For this purpose, the line 6 with the input connection 9 of the oil pan cooling and the output connection 10 of this cooling is fixed to the input 11 of the compressor 3 via a line 7 connected.

The compressor 3 is followed by a condenser 4 in which the refrigerant is liquefied again and the heat of evaporation in the process in the case shown gives off to the service water located in a storage tank.

The refrigerant then returns via an expansion valve 5 to evaporator 1, whereupon the cycle begins again.

By switching on the cooling trough of the compressor 3 in the suction gas line 6, the waste heat from the compressor 3 is used, isolating the compressor and thus allowing the compressor to work at higher temperatures =

The entire heat pump unit is arranged as a closed, compact unit on a carrier plate and can be connected to a Flange can be connected to the respective memory, so that it can be removed and without any opening of the refrigeration circuit can be maintained or retrofitted.

Claims (1)

.1 . Heat pump unit, consisting of an evaporator, a refrigerant line leading from the evaporator to a condenser switched compressor with oil recooling and an expansion valve, which in one the refrigerant from the condenser back to the evaporator leading line is arranged, characterized in that the line (6) carrying refrigerant vapor coming from the evaporator (1) is connected to the oil recooler (8) of the compressor (3) and the output (10) of the oil recooler (8) is connected to the input connection (11) of the compressor (3). MANlTZ · FINSTERWALD · HEYN · MORGAN ■ 8000 MONOHES 23 · R0BERT-K0CH-6TRASSE1 ■ TEL. (089) 22 * 2 11 · TELEX 05-89672 PATMF GRAMKOW ■ ROTERMUNtwtooSTUTtiäARTViP. (& AD.e & NAST / rT) JSEELBERGSTn.23 / 25 ■ TEL. (0711) 567261 CENTRAL TILLS BAYER. VOLKSBANKEN MÖNCHEN ACCOUNT NUMBER 7270 POSTSCHECK: MÖNCHEN 77062-805 •> Il I I I 1 111) '2. Heat pump unit according to claim 1, characterized in that the suction gas-cooled compressor (3) is provided with insulation. 3. Heat pump unit according to claim 1, characterized in that the suction gas-cooled compressor (3) downstream condenser (4) made of one intended for direct arrangement in the medium to be heated Direct capacitor exists. 4. heat pump unit according to claim 1, characterized in that the suction gas-cooled compressor (3) downstream condenser (4) consisting of a coaxial countercurrent condenser consists. 5. Heat pump unit according to claim 1, characterized in that the suction gas-cooled compressor (3) downstream capacitor (4) consists of a capacitor collector. 6. Heat pump unit according to one or more of the preceding Claims, characterized in that all components are attached to a carrier plate and as closed unit is provided with a flange for connection to a heat accumulator.