DE29714545U1 - Back wall condenser for refrigerators and freezers - Google Patents

Description

Note: THERMO KÄLTE GmbH
Industriestrasse 1

99752 Bleicherode

Rear wall condensers for refrigerators and freezers

The innovation concerns a rear wall condenser for refrigerators and freezers with a dryer with desiccant integrated in the closed refrigerant circuit, which is preferably designed as a filter dryer and is provided in the refrigerant circuit on the evaporator side.

Rear wall condensers of this type are well known and are used in all refrigerators and freezers. The task of the rear wall condenser is to dissipate the heat energy extracted from the refrigerator via a coolant. For this purpose, the coolant, which flows through the evaporator and absorbs the heat present in the refrigerator by evaporating, is expanded again in the rear wall condenser by throttling the flow of coolant and is returned from the gaseous to the liquid state. When it is returned to the liquid state, the heat energy from the coolant is released again via the rear wall condenser and discharged outside.

This refrigerant circuit, which consists of a compressor unit, an evaporator unit, the condenser designed as a rear wall condenser and a capillary line, is a closed refrigerant circuit, so that the slightest residual moisture can lead to freezing and/or the smallest dirt particles can lead to blockage of the refrigerant circuit. In order to exclude this as far as possible, a dryer is installed between the rear wall condenser and the capillary line.

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which removes any residual moisture from the coolant or cleans the coolant of the smallest dirt particles.

The dryer is a self-contained unit and is soldered between the outlet of the rear wall condenser and the capillary line.

For manufacturing reasons, the dryer consists of a copper housing in which a desiccant is loosely inserted and which is designed with tapered ends on the inlet side and outlet side, to which the capillary line and the outlet of the rear wall condenser are soldered.

This type of design and the quality of the materials used for the drying unit as well as the effort required to integrate the dryer into the closed refrigerant circuit system is time-consuming and costly. In addition, the dryer must be connected to the outlet of the rear wall condenser and the capillary line with great care, so that on the one hand any possible impairment of the refrigerant circuit due to undesirable constrictions is avoided and on the other hand a closed soldering seam can be achieved, which is unavoidable for the safe functioning of the closed refrigerant circuit. A soldering seam that is not completely tight inevitably leads to rework, so that additional cost increases in the manufacture of the rear wall condenser can become unavoidable. Rather, in order to achieve better handling when connecting the dryer, the housing diameter of the dryer is usually designed to be larger than would be necessary for the actual function of the dryer.

The aim of the innovation is therefore to improve the rear wall condensers with dryers mentioned above by reducing the costs of manufacturing the dryer and its integration into the refrigerant circuit and by largely eliminating negative manufacturing-related influences on the refrigerant circuit.

This object is achieved according to the innovation in that the housing of the dryer is formed by a pipe expansion, preferably at the outlet end of the rear wall condenser, wherein the center line of the housing is preferably the same as the center line of the rear wall condenser.

The desiccant, which is in the form of granules, is loosely introduced into the housing and the end of the housing, which is opposite the capillary line, is closed with a filter sieve, which preferably has a microfine mesh size.

This design ensures that the housing is made of the same material as the rear wall condenser and can be attached to the rear wall condenser without any connecting means. In this way, soldering the housing is not necessary, which on the one hand has a positive effect on the costs of manufacturing the rear wall condenser and on the other hand completely excludes possible impairment of the refrigerant circuit due to inaccuracies when connecting the dryer housing to the rear wall condenser. In fact, this design means that manufacturing-related aspects in the design of the housing, such as special material qualities and dimensions for better handling when attaching the dryer, can be excluded and the dimensions of the housing can be adapted exclusively to the size required to ensure the function of the

dryer is required. In addition, rework due to a leaky connection when attaching the housing to the rear wall condenser can be completely eliminated.

According to a preferred embodiment of the innovation, a filter cartridge filled with desiccant is inserted into the housing, which is provided with a fine-mesh closure with micro-openings at least at the end adjacent to the capillary line. This design makes it possible to insert the filter medium into the housing in a simple manner. In addition, it is guaranteed that a precisely measured amount of filter material can always be inserted, which on the one hand prevents any loss of filter material and on the other hand excludes the individual influence of the person filling the container on the amount to be filled.

According to a further preferred embodiment of the innovation, the capillary line is widened to the diameter of the housing at the end opposite the housing and the liquid-tight connection is made between the opposite ends of the widened capillary line and the housing. This connection makes the connection significantly easier. Due to the increased diameter of the housing parts to be connected, other known and completely liquid-tight connections than soldering can also be used, which enable a more cost-effective connection.

Further advantageous embodiments of the innovation are specified in the further subordinate claims.

Further details of the innovation can be found in the following detailed description and the attached drawings, in which an embodiment of the innovation is illustrated by way of example.

The drawings show:

Fig. 1: a schematic representation of a rear wall condenser with dryer,

Fig. 2: a schematic representation of a dryer with a partial section.

The refrigerant circuit of a cooling device 12 consists essentially of the compressor (not shown), the evaporator provided in the cooling chamber but not shown, as well as a rear wall condenser 1 arranged on the rear wall 13 of the cooling device 12 and a dryer 2, the housing 8 of which is formed by a pipe expansion of the outlet end 5 of the rear wall condenser 1 and a capillary line 11 connected to the dryer 2, which is connected to the dryer 2 in a liquid-tight manner.

The housing 8 of the dryer 2 is expanded using known technological expansion methods, for example by expanding the pipe end 6 of the rear wall condenser 1 in the heated state.

The drying agent 4 is loosely introduced into the housing 8 formed in this way immediately before the liquid-tight connection of the capillary line 11 and the housing 8 is closed with a filter screen 9, which preferably has microfine mesh sizes. This prevents fine granulate particles of the filter agent 4 from entering the liquid.

capillary line 11 which is connected in a leak-tight manner to the coolant 4, which could lead to blockage of the capillary line 11.

If desired, a filter screen 10, with the same or a different mesh size, can also be inserted opposite the pipe end 6 of the rear wall condenser 1 before the filter medium 4 is inserted. This filter screen 9 prevents, on the one hand, the filter medium 4 from entering the pipe of the rear wall condenser 1 during filling and, on the other hand, the throttling effect for the expansion of the gaseous coolant in the rear wall condenser 1 can be designed even more favorably.

In a preferred embodiment, the filter medium 4 is placed in a filter cartridge 7, which forms a self-contained unit and is delimited at the inlet and outlet ends by a filter screen 9, 10. The filter screens 9, 10 can be provided with identical micro-openings. However, it is also possible to provide the filter screen 10, which adjoins the end 5 of the rear wall condenser 1, with openings that are different from the openings of the filter screen 9, which adjoins the end 3 of the capillary line 11.

According to a further embodiment, the end 3 of the capillary line 11 is widened to the diameter of the housing 8 and the opposite ends of the housing 8 and the widened portion 8' of the capillary line 11 are connected to one another using suitable liquid-tight connecting means.

Claims (13)

Note: THERMO KÄLTE GmbH Industriestraße 1 99752 Bleicherode Protection claims 1. Rear wall condenser for refrigerators and freezers with a dryer with desiccant integrated in the closed refrigerant circuit, which is preferably designed as a filter dryer and is provided in the refrigerant circuit on the evaporator side, characterized in that the housing (8) of the dryer (2) is formed by a pipe expansion of the rear wall condenser (1). 2. Rear wall condenser according to claim 1, characterized in that the pipe expansion is provided at the outlet end (6) of the rear wall condenser (1). 3. Rear wall condenser according to claim 1 or 2, characterized in that the center line of the rear wall condenser (I) is equal to the center line of the housing (8). 4. Rear wall condenser according to one of claims 1 to 3, characterized in that the drying agent (4) is introduced into the dryer (2) as a loose granulate. 5. Rear wall condenser according to claim 4, characterized in that a filter screen (9) is arranged between the drying agent (4) and the capillary line (11) adjoining the dryer (2). 6. Rear wall condenser according to claim 5, characterized in that the filter screen (9) has microfine mesh sizes. · 2
· 7. Rear wall condenser according to claim 1 or 2, characterized in that a filter cartridge (7) filled with desiccant (4) is inserted into the housing (8) of the dryer (2), which is provided with a fine-mesh closure at least at the end which adjoins the capillary tube (7). 8. Rear wall condenser according to claim 7, characterized in that the fine-mesh closure has micro-openings. 9. Rear wall condenser according to claim 7 or 8, characterized in that the filter cartridge (7) has a closure with identical openings on both sides. 10. Rear wall condenser according to claim 8 or 9, characterized in that the lateral closures of the filter cartridge (7) have different openings. 11. Rear wall condenser according to one of claims 1 to 10, characterized in that the housing (8) of the dryer (2) is made of the material of the rear wall condenser (1). 12. Rear wall condenser according to one of claims 1 to 11, characterized in that the housing (8) of the dryer (2) and the rear wall condenser (1) are made of different materials. 13. Rear wall condenser according to one of claims 1 to 12, characterized in that the capillary line (11) is widened at the end which adjoins the housing (8) of the dryer (2) (3) to the diameter of the housing (8) and the liquid-tight connection is made at the opposite ends of the widening (8 ¹ ) of the capillary line (11) and the housing (8).