DE7431897U - DEFROSTING DEVICE FOR HEAT PUMPS - Google Patents

Description

Erich Gross September 16, 1974

7553 Muggensturm
Bahnhofsplatζ 12

Defrosting device for heat pumps

Refrigeration compressors that work as heat pumps are increasingly used in central heating systems or for heating swimming pools and the like. used.

As a heat reserve: the heat gobbled up over the evaporator is withdrawn, serves in addition to groundwater, sewage and the like. in many cases the air. This has the gate part that air is always and everywhere available as a heat reservoir. the The disadvantage is that the air temperature fluctuates more than that of the groundwater, and that to achieve it the required heat exchange large evaporators are used must be, over which the air must be passed at great speed. Especially at high Humidity leads to rapid freezing of the evaporator lines; the efficiency of the system is thereby degraded.

It has been suggested to defrost the evaporator coils to be carried out by means of an additional electrical heater. Since icing up of the evaporator results in a change in the If the evaporator temperature is noticeable, it can be measured and used as a control variable for automatic defrosting be won. This method is also used in cooling systems. Since defrosting in unfavorable weather conditions Sometimes it has to be done several times a day, due to the electrical defrosting that is provided, considerable Electricity costs »i arise.

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The object of the invention is to eliminate these disadvantages and to create a particularly economical defrosting device.

According to the invention there is a device for defrosting the Evaporator of a heat pump of the refrigeration compressor type in that the evaporator has an evaporator coil attached fins and an additional pipe coil for the flow of a heat transfer medium, which in thermal contact with the fins of the evaporator coil stands.

During the defrosting process, the water that has been heated up by the CIb heat pump flows through this additional drill snake. This arrangement has the essential advantage over the previously known ones that the energy costs for defrosting are significantly reduced, because the calories obtained by the heat pump are approximately three times the electrical energy used to operate the heat pump.

When using a heat store for the water, the is connected to the radiator system via the flow and return, a heat exchanger for the defrosting device is expediently arranged in the return, as this the heating system is disturbed the least.

The invention is described in more detail with reference to Figures 1 and 2, of which Figure 1 shows the schematic structure of a ^ Entralheizungsanlage and Figure 2 an exemplary embodiment shows for a heat exchanger of the defrosting device according to the invention.

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The central heating system consists of a storage tank 1, whose water content through the heat exchanger 2 from the Heat pump 3 is brought to the desired temperature The evaporator coils 4 of the heat pump are housed in the air. Dao heated water is from the storage tank The mixing valve 7 and the radiator circuit are supplied via flow 5 and return 6.

The way the heat pump works is known and needs not to be described in more detail. To defrost the evaporator To enable it to snake when icing has occurred, there is an additional heating coil in the heat exchange fins 8 9 housed. In it there is glysanthin, which if necessary via the heat exchanger 10 from the return water of the storage tank is heated and after opening the valve 11 is pumped around by means of the pump 12. The defrosting process, that of opening the valve 11 and starting the pump 12 can run automatically in a known manner. Defrosting is therefore carried out using the relatively cheap thermal energy that is obtained by means of the heat pump.

The heat exchanger 10 is in Pig. 2a and b are shown again in more detail.

The return line 6 of the storage tank 1 is within of the heat exchanger 10 designed so that the greatest possible heat dissipation is made possible. This is the line somewhat expanded, and this extension 13 is provided with metal sheets, which allow the heat to be quickly given off to the im Heat exchangers allow existing glysanthin.

The valve 11 and the pump 12 are of a device controlled to measure the evaporation temperature. The heat exchanger is located in the return of the storage tank

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because it disrupts the control circuit of the radiator system the least when the defrosting process is switched on.

The invention is not restricted to this exemplary embodiment. There are also other shapes, for example a heat exchanger conceivable in which the energy obtained with the heat pump is used to defrost the evaporator coils is used.

Claims (1)

Protection claim Door direction for defrosting the evaporator of a heat pump of the type of air compressor (3), characterized in that that the evaporator consists of the evaporator coil (4) with attached fins (8) and that it has an additional drilling coil for the flow of a heat transfer medium has, which with the fins (8) of the evaporator coil (4) is in thermal contact.