DE10103150A1 - ventilation - Google Patents

Abstract

In a ventilation system, a first heat exchanger (1) is provided, in which heat from an exhaust air stream (AB) is transferred to an outside air stream (AU). The ventilation system works with a heat pump (3). DOLLAR A In order to keep the first heat exchanger (1) free from ripening, a second heat exchanger (7) is provided, via which the outside air flow (AU) fed to the first heat exchanger (1) and the condensed refrigerant of a heat pump circuit (3) are guided.

Description

The invention relates to a ventilation system with one of one Outside air flow acted upon the first heat exchanger, this Outside air is previously passed through a second heat exchanger, which is from Refrigerant flows through a heat pump.

Such a ventilation system is used as an air conditioning system in DE 197 02 903 A1 described. In the refrigerant circuit of the heat pump there is an air Refrigerant heat exchanger arranged in the exhaust air flow of an air Air-cross flow heat exchanger. In the cross-flow heat exchanger is heat from the exhaust air of the rooms to be heated on the Transfer outside air flow.

DE 197 02 903 A1 describes that the air refrigerant Heat exchanger can freeze. To defrost it, the Heat pump circuit switched. During defrosting it is Heat generation interrupted for a usable area. The danger of one Icing of the cross-flow heat exchanger is in DE 197 02 903 A1 not seen.  

A similar air conditioning system is known from DE 199 13 861 C1.

The object of the invention is at the beginning of a ventilation system mentioned type the heat exchanger acted upon by the outside air flow to keep them free of frost and ice without the need for an additional radiator is necessary and without reversing the heat pump cycle got to.

According to the invention, the above object is characterized by the features of characterizing part of claim 1 solved. This means that the outside air flow supplied to the first heat exchanger is such is preheated so that there is no frosting or icing of the first heat exchanger can come. Additional primary energy or there is no interruption of heat pump operation required.

The heat exchanger is preferably of the condensed refrigerant Refrigerant circuit of the heat pump, whereby it passes through sensitive heat of the condensed refrigerant is heated. The The outside air flow is preheated by Undercooling. Their use does not cause any additional costs. Because it does not have to increase the absorption capacity of the Compressor of the heat pump can be bought.

Further advantageous embodiments of the invention result from the following description.

The figure shows a partial block diagram of a ventilation system with Heat recovery and heat pump.

A ventilation system has a central unit which, as the first heat exchanger 1, comprises an air-air cross-flow heat exchanger or an air-air counter-flow heat exchanger. An outside air flow AU is conveyed from the environment by the heat exchanger 1 and is supplied to the rooms to be heated as a supply air flow ZU. An exhaust air flow AB from the rooms to be heated is conveyed through the first heat exchanger 1 and leaves it as an exhaust air flow FO. The exhaust air flow AB transfers heat to the outside air flow AU and thus the supply air flow ZU.

The exhaust air flow FO is conducted via an evaporator 2 of a heat pump circuit 3 of a heat pump integrated in the central unit. In the heat pump circuit 3 , the evaporator 2 , a compressor 4 , a condenser 5 or condenser and a controllable expansion valve 6 are arranged in the usual way.

The condenser 5 transfers heat Q to the rooms to be heated, for example via radiators or underfloor heating, and / or a domestic hot water tank, as is described, for example, in DE 197 02 903 A1 and DE 199 13 861 C1.

A second heat exchanger 7 , which is, for example, a finned tube heat exchanger, is connected downstream of the condenser 5 in the flow direction of the refrigerant of the heat pump circuit 3 . This second heat exchanger 7 is flowed through on the one hand by the liquefied refrigerant of the heat pump circuit 3 and on the other hand by the outside air flow AU before it enters the first heat exchanger 1 .

The liquefied refrigerant has, for example, a temperature in the order of 30 ° C. at the outlet 8 of the condenser 5 .

It has been found that at low ambient temperatures, ie low temperatures of the outside air flow AU, in particular below 0 ° C., there is a risk that the first heat exchanger 1 will frost or freeze if the second heat exchanger 7 is not provided.

The outside air flow AU is preheated by means of the second heat exchanger 7 through which the condensed refrigerant flows, which counteracts frosting and / or icing of the first heat exchanger 1 . At the same time, the refrigerant of the heat transfer circuit is further cooled. This is favorable for heat pump operation because it supports the liquefaction of the refrigerant.

In the system described, there is no need for sensors to detect frosting or icing of the first heat exchanger 1 . Accordingly, no control devices are required. An interruption of the heat pump operation or an additional primary energy source for defrosting the first heat exchanger 1 is not necessary.

Claims (7)

1. Ventilation system with a first heat exchanger acted upon by an outside air flow, the first heat exchanger being an air-air heat exchanger in which an exhaust air flow from rooms to be heated transfers thermal energy to the outside air flow, characterized in that
that a second heat exchanger ( 7 ) is provided, through which the outside air flow (AU) fed to the first heat exchanger ( 1 ) is guided,
wherein the second heat exchanger ( 7 ) is acted upon by the refrigerant of the heat pump in order to keep the first heat exchanger ( 1 ) free from ripening and / or ice. 2. Ventilation system according to claim 1, characterized in that the second heat exchanger ( 7 ) is acted upon by condensed refrigerant of the heat pump circuit ( 3 ) of the heat pump, wherein it is heated by sensitive heat of the condensed refrigerant. 3. Ventilation system according to one of the preceding claims, characterized in that the second heat exchanger ( 7 ) lies in the flow direction of the refrigerant behind the condenser ( 5 ) of the heat pump circuit ( 3 ). 4. Ventilation system according to one of the preceding claims, characterized in that the second heat exchanger ( 7 ) is a finned tube heat exchanger. 5. Ventilation system according to one of the preceding claims, characterized in that the first heat exchanger ( 1 ) is a cross-flow heat exchanger or a counterflow heat exchanger. 6. Ventilation system according to one of the preceding claims, characterized, that with the heat pump a heating and / or Process water system is operated. 7. Ventilation system according to one of the preceding claims, characterized in that the heat pump is used only to keep the first heat exchanger ( 1 ) free of ice.