DE3333903C2 - Defrosting device for refrigerant evaporator - Google Patents

Abstract

The invention relates to a defrosting device for refrigerant evaporators of interconnected refrigeration systems with a compressor, a condenser, several cooling points and these downstream expansion valves and evaporators as well as with two-way solenoid valves for passing heated gaseous refrigerant through the evaporator in the opposite direction to normal cooling operation, whereby Parallel to the expansion valves there is a check valve that blocks during normal cooling operation, and a feed line to the two-way solenoid valves and a shut-off valve are switched on upstream of the condenser, and the cooling points are provided with condensate pipes and channels. Each two-way solenoid valve is preceded by a heater, which is formed from a pipe that exchanges heat with condensate pipes and gutters in order to avoid excessively high temperatures and prevent the condensate drainage channels and pipes from icing up.

Description

The invention relates to a defrosting device for an air-loaded evaporator according to the preamble of claim 1.

In such known defrosting devices, hot gas defrosting is achieved in that the cooling cycle is temporarily converted into a heating cycle by reversing the direction of the refrigerant, so that the overheating and condensation heat can be used for defrosting. From DE-OS 32 16 948 is a defrosting device with an outdoor heat exchanger which is in a substantially vertical plane having one or more rows of lamellar snakes are known. The heat exchanger, which works as a condenser in the cooling cycle, iced up in the generally during operation in the heating cycle, which is particularly important for the lower part of the outer coils Well. For an effective and quick removal of frost and ice, therefore, different circles of heat exchange fin tubes are required provided, which are acted upon via a four-way switch valve 4 with associated distributors.

DE-OS 28 23 395 relates to a device for defrosting a refrigeration system with which effective defrosting of all evaporator units, and not just those at the inlet and outlet of the evaporator are arranged.

In all of these known defrosting devices, superheated pressurized gas at temperatures up to HO ⁰ C is passed through the evaporator, so that the high temperature of the heated gas can damage the refrigerant evaporator as the aluminum fins with which the copper tubes of the evaporator are detached .

The object of the present invention is therefore to provide a To create a defrosting device that ensures rapid defrosting of the evaporator, but so high Avoids temperatures that cause the aluminum lamellas to become detached

This task is according to claim 1

ίο solved

This ensures that the gas coming from the compressor is initially heated and its overheating is dissipated, while at the same time this overheating to defrost the condensate pipes and channels are used, so that afterwards only sensible heat is supplied to the evaporator, which is sufficient to defrost the evaporator quickly, but does not cause the aluminum fins to detach from their copper tubes

The invention is described below with reference to the exemplary embodiment shown in the accompanying figure explained in more detail

The composite system of refrigeration systems shown has one or more compressor 10 from which or to which enters the compressed refrigerant in a condenser 11, \ ca which it passes to the himereinander switched cooling points 12 of the respective cooling point 12, the refrigerant passes in each case via an expansion valve 13 to an evaporator 14 and from there via a two-way solenoid valve 15 in the flow direction b - c back to the compressor 10.

A shut-off valve 16 in the form of a solenoid valve and a minimum pressure regulator 17 connected in parallel to it are connected upstream of the condenser 11. Solenoid valve 15 branches off. The lines 19 each lead via a desuperheater 20, which is formed from the condensate drainage channels and lines of the cooling points 12. Furthermore, a check valve 21 is arranged parallel to the expansion valve 13 and blocks in the direction of flow from the cooling point 12 to the evaporator 14
To defrost an evaporator 14, which is arranged in a refrigerant line 23 between the two-way solenoid valve 15 and the check valve 21, the two-way solenoid valve 15 connected downstream is opened in direction b-a and closed in direction b-c closed. This can be initiated via a clock or the like. The hot gas leaving the compressor 10 flows through the junction 22 and the corresponding section of the line 18 into the line 19 and is then de-heated in the desuperheater 20, so that only desuperheated gas reaches the evaporator 14 to be defrosted, which then works as a condenser is condensed and fed through the check valve 21 of the liquefaction line. During the defrosting of the evaporator 14 to be defrosted, the waste heat of the remaining evaporators 14, which continue to work as such, is used by diverting the compressed gas through the desuperheater without using additional energy both to defrost the evaporator 14 and to defrost the condensate pipes and channels, without overheated gas entering the evaporator 14.

The defrosting process can, for example, be terminated thermostatically, for which purpose the two-way solenoid valve 15 open in the forward direction 6 — c

and in the flow direction b-a is closed and the solenoid valve 16 is opened, so that the expansion valve 13 also works again

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Claims (2)

Patent claims: 1. Defrosting device for an air-loaded evaporator (14) with aluminum fins of a refrigeration system, with a refrigeration circuit, which is through a compressor (10), a condenser (11) and this downstream expansion valves (13) and evaporators (14) is formed, the evaporator (14) are each arranged in a switchable refrigerant line (23), and being heated Condensate pipes and channels are provided, characterized in that between the compressor (10) and the condenser (11) one after the other a branch point (22) for a defrost line (18) and a shut-off valve (16) is provided, the defrosting line (18) each via a Two-way solenoid valve (15) connected to the surrounding refrigerant lines (23) of the evaporator (14) is, and that every Zwerwegc solenoid valve! (15) during normal operation of the refrigeration system in a first position, the defrost line (18) closes and establishes a connection between compressor (10) and evaporator (14), and in one during defrosting second position interrupts the connection and the defrost line (18) via a desuperheater (20) to the Evaporator (14) is connected, the desuperheater (20) from one with the condensate pipes and channels in Heat exchange standing line is formed. 2. Defrosting for a pressurized air Evaporator according to Claim 1, characterized in that a minimum pressure regulator is parallel to the shut-off valve (16) (17) is switched