DEP0052199DA - - Google Patents

Description

Afefcauvorrichtang

In the case of vaporization systems that are installed in quay tai layers, ice formation takes place on the transfer surfaces, resulting in a . is stronger, the lower the temperature of the tree or the evaporating refrigerant is · Since the cold transfer from the evaporator to the cold room air is severely impaired by the accumulation of ice, it is necessary that the evaporator is defrosted more often. So far this has been done in the following way

1.) S ₈ S cooling system is sprinkled with tap water, so that in this way the lis formed is brought to melt

2.) With warm outside air, which is sucked in from the outside by a fan and blown over the cooling system. This design requires that the cooling system is insulated during the defrosting process

Wall is separated from the rest of the cooling space, which makes the facility more expensive and complicated.

Further, the defrosting takes a relatively Laige _f and there is also a risk that the cooling air is also warmed ·

3>) By switching the refrigerant circuit, it is so that the evaporator that is to be defrosted as a condenser works and so the system is defrosted from the inside using the compression heat. This circuit requires attentive operation, otherwise damage to the system can easily occur.

Compared to the three aforementioned defrosting methods, the new method, which is described below, works as follows:

An evaporator system of known construction, consisting of from adjacent pipe wall en a, on which in certain At intervals to enlarge the surface, lamellar strips b are drawn out of sheet metal, is given an additional pipe system c. Both drilling systems have common lamellae b. The refrigerant evaporates in the pipe walls a. whereby the cold is transferred to the sheet metal lamellas and the above-mentioned icing then takes place as a result of the conditions in the cold room.

In order to melt the lis, the Pipe system c introduced a heating means that melts the ice on the fins «The heat effect is first transferred to the lamellar strips, whereby the defrosting process begins here. Thermal conduction then becomes the Heat also transferred to the evaporator tube walls a and then the lis formed on the tubes also to melt brought.

It is achieved in this way a relatively low temperature on the evaporator pipe system a, so that thereby a dangerous rise in pressure in the evaporator tubes is avoided «At the same time, any additional Water ran away into the tree. Settling is the Very little heat development, since the drilling system c noise supplied immediately through the slats b and then is absorbed by the evaporator tubes a.

The defrosting process is carried out automatically by in the power supply to the pipe system c for a certain period of time by means of a timer is switched on, which is sufficient to defrost the same and at the same time the refrigeration machine for a particular one Period is switched off «

Claims (2)

Patent claim 1 «) Defrosting device for cooling systems in% hl rooms, thereby marked! that in addition to the evaporation pipe system (a) a pipe system (c) lies through which a heating medium flows and that both systems have common lamellae. 2.) iibtou device according to claim 1, characterized in that that the heating device is switched on by a timer, which is also used for a certain Period of time dxe switches off the refrigeration machine.