DE854220C - Compression refrigeration machine - Google Patents

Description

Compression refrigeration machine For those equipped with compression refrigeration machines Refrigerators, it is known to attach the condenser to the refrigerator so that it is essentially parallel to a vertical outer wall of the refrigerator. In most cases, the rear wall of the refrigerator is used for recording of the capacitor. With the known facilities of this type, one often has that Motor compressor unit with special fasteners in a below or attached above the refrigerator compartment lying machine compartment. It is also already known, the condenser and the machine unit to a special one on the back of the cabinet arranged rigid frame to attach, with relatively flexible refrigerant lines serve to connect the compressor and the condenser.

The invention relates to such known compression refrigeration machines, whose capacitor consists of several arranged between two vertical holders There is cross tubes and is attached to the refrigerator that it is substantially parallel to a vertical outer wall of the refrigerator. The purpose of the invention is es, the structural design and assembly of compression refrigeration machines that are equipped with capacitors of this type to simplify. According to the invention are the tubular vertical holder upwards or preferably after extended downwards and serve as a carrier for the compressor motor capsule and as a connecting line between compressor and condenser. This will make the entire machine design very simple, as the condenser holding tubes also support the capsule and refrigerant lines are. With the new design, the entire unit together with the condenser by the fastening means of the condenser on the refrigerator held. This results in a very simple assembly of the Machine on the fridge.

If it is a compression refrigeration machine, its compressor drive motor with a higher number of revolutions, e.g. B. works with n = 3ooo, it is advisable to use the chillers to be designed in such a way that the condenser is able to absorb the entire waste heat from the machine to be discharged to the outside. The waste heat from the motor-compressor unit can be used in an take place in a known manner by refrigerant condensate, which on the heat-emitting Parts of the unit is performed, so that it comes to renewed evaporation. Man can design the arrangement so that all of the refrigerant liquefied in the condenser flows back through the two vertical holders into the capsule and from it to the organ regulating the flow of refrigerant to the evaporator (float valve, capillary tube, etc.) like.) arrives. The compressor motor assembly is preferred in this arrangement supported by springs inside the capsule. You can then safely use the capsule rigidly connect to the capacitor and can furthermore also use the metallic capsule still cover with a suitable sound-absorbing jacket, since the capsule outer wall is not even required for the release of heat into the air.

The vertical, lateral limiting pipes of the condenser serve to connect the inside of the cooling unit with the inside of the condenser and at the same time holding the aggregate capsule, which is on the vertical condenser limiting pipes hangs. A particularly favorable arrangement is obtained when the one with the capsule assembled capacitor is attached to the rear cabinet frame.

The entire condensed refrigerant can be flooded in the motor compressor by a natural gradient or by a pump that continuously guides the refrigerant that has accumulated in the capsule over the motor compressor. This results in the ability of this pump not only the liquid refrigerant but also the lubricating oil of the engine to allow suck so that the motor-compressor, a refrigerant oil mixture is fed, from which the refrigerant out by evaporation, while the remaining 01 used for the lubrication of the moving machine parts will. To increase the effectiveness of this total condensate cooling, it is advisable to have the motor compressor partially or completely, especially with the most heat-generating parts, immersed in the condensate or oil or in both liquids.

The figures show an embodiment of the invention.

Fig. I shows a rear view of a household refrigerator with the unit attached to the rear wall; Fig. 2 shows the associated side view.

The compressor i of the refrigerating machine is powered by an electric motor 2 driven. The compressor and motor are rigid in the manner shown in FIG assembled. This entire unit is by springs 3 in the interior of a unit capsule 4 built in. The refrigerant is from the evaporator, not shown, through a Suction line 5 sucked in. The compressor pushes the refrigerant directly into the Capsule 4 out. The capacitor 6 is connected to this capsule. The condenser consists of a number of horizontally lying refrigerant pipes 7, which are in two lateral Holders 8 and 9 are used. The two holders are also available as refrigerant pipes educated. The lower parts of the holder are cranked and through at io and ii Connection pipes 12, 13 connected to the capsule 4. With 14 are vertical Designates cooling fins, which are used to form the heat-emitting surface of the condenser tubes to enlarge. In the arrangement shown, the unit capsule is attached to the condenser, so that further fasteners are not required. The side holders of the condenser are each with two fastening straps 15 and 16 on the rear wall of the refrigerator.

With 17 an oil pump for the unit is designated. This conveys 01 from the lower part of the capsule 18, which is designed as an oil sump, to the lubrication points of the unit.

The heat is dissipated from the unit with the aid of the refrigerant. That Condensate that is formed in the condenser flows through pipes 8 and 9 to the capsule and is fed there through baffles 19, 2o to the heat-emitting parts. There the liquid refrigerant is partially evaporated again, so that the heat is released takes place on the cooling fins of the condenser. As far as the liquid refrigerant is not when it evaporates again, it collects in the lower part 18 of the capsule to which the refrigerant line, not shown in the figure, is connected, which control the liquid refrigerant via a control element (capillary tube, float valve Od. Like.) leads to the evaporator, not shown. When using a float valve you can also build this valve directly into the recess 18 of the capsule. In the illustrated embodiment, the compressor motor capsule protrudes into a below the compartment located in the refrigerator compartment. The arrangement can also be designed in such a way that that the machine capsule is located above the condenser and accordingly protrudes into an upper machine compartment.

Claims (5)

PATENT CLAIMS: i. Compression refrigeration machine, the condenser of which consists of several transverse tubes arranged between two vertical holders and is attached to the refrigerator in such a way that it is essentially parallel to a vertical outer wall of the refrigerator, characterized in that the tubular vertical holder extends upwards or preferably downwards and serve as a support for the compressor motor capsule and as a connecting line between the compressor i and the condenser. 2. Compression refrigeration machine according to claim i, characterized in that all of the refrigerant liquefied in the condenser through the two vertical holders into the compressor motor capsule flows back and from this to the organ regulating the flow of refrigerant to the evaporator (float valve, Capillary tube or the like) arrives. 3. Compression refrigeration machine according to claim i or 2, characterized in that the vertical holder of the capacitor in upper or lower area of the capacitor are bent in such a way that the attached compressor motor capsule in an above or below the refrigerator compartment free permanent compartment protrudes. ' 4. Compression refrigeration machine according to claim i, characterized characterized in that the motor-compressor unit is carried out in a manner known per se Springs is supported in the capsule, and that the coming from the condenser liquefied Refrigerant in whole or in part for re-evaporation directly over the surface of the engine and possibly also of the compressor. 5. Compression refrigeration machine according to claim i or one of the following, characterized in that the capacitor is attached to the rear of the refrigerator rack, for attachment preferably each two tabs attached to the vertical holder are used.