DE1129513B - Hermetically sealed small refrigeration machine - Google Patents

Description

Hermetically sealed small refrigeration machine The invention relates to a Hermetically sealed small refrigeration machine, the interior of which is under pressure. Its task is to specify means for lowering the capsule temperature.

In hermetically sealed small refrigeration machines, this occurs in the interior of the capsule in the winding of the drive motor by compressing the refrigerant gas and by Friction of the machine parts Heat that has to be dissipated to the outside. Particularly modern small refrigeration machines, which are resilient due to the requirements for low noise levels are suspended inside the capsule have a very poor thermal connection with the capsule wall, so that the heat is difficult to dissipate. This creates an increased capsule temperature that affects not just the electrical parts of the compressor at risk, but also greatly reduces the viscosity of the lubricating oil. Due to the increased capsule temperature, the refrigerant vapor that is sucked in is overheated, whereby the efficiency of the compressor is impaired.

So far, attempts have only been made to address these disadvantages by secondary To eliminate measures by increasing the heat dissipation, for example by means of Oil coolers that are attached outside the capsule., Or by oil atomization, so that the oil mist is deposited on the capsule wall while cooling. One has also proposed designs with a double-walled capsule, the lower part forms a capacitor. However, all of these means are very cumbersome; she bring complications and increased construction costs. _ In contrast, there is the Invention is that the arranged inside the capsule, the under liquefaction pressure upright refrigerant-carrying parts with means to limit the heat emission are provided.

According to the invention, the lowering of the capsule temperature in the Opposite (or in addition) to the well-known increased cooling through a reduction the heat dissipation achieved in the capsule itself.

According to a very simple embodiment, the pressure line is provided with thermal insulation. Such is particularly less susceptible to failure Execution according to the invention also if the pressure line with means for prevention the gas flow promoting heat transfer and oil wetting on their outside is provided.

According to a further feature of the invention, the pressure muffler be part of the pressure line in a known manner. Since this pressure muffler is a has a relatively large surface and thus a large one in the known constructions As a source of heat emission, its insulation in the course of the pressure pipe is of great importance Meaning. Even if the silencer arranged in the pressure line is alone is isolated, there is a significant decrease in the capsule temperature.

Further features of the invention will emerge from the following Description of an embodiment in connection with the drawing. It shows 1 shows a compressor in longitudinal section, FIG. 2 shows the same compressor in a top view with the capsule lid removed, _-, FIG. 3_ an exemplary embodiment of thermal insulation according to the invention and FIG. 4 '. a further exemplary embodiment of thermal insulation according to the invention.

The compressor 1 is in the capsule 2 with cover 3 by means of the springs 4 hung. The springs 4 are attached to the stator support body 5 with a bearing for the vertical engine crankshaft 6 is provided. The shaft carries the rotor of the Electric motor, of which only the stator 7 is visible. At the top of the stator support body 5, the cylinder 8 is attached, in which the piston 9 moves, which is via the crank loop 1ƒ is driven by the crank pin 11. At the top dead center of the piston the valve intermediate plate 12 is attached, which the suction and not shown Pressure valves carries. The two valve chambers with the associated outlet lines are located in the cover plate 13.

A pipe section 14 leads from the pressure outlet of this cover plate the pressure muffler 15, which has a connecting piece 16 with a circular extending corrugated portion 17 in connection stands. To this Way, the pressure line can easily compensate for the movements that occur between the Cylinder arrangement and the pressure line bushing 18 exist in the capsule wall. In Fig. 1, a portion of the connector 16 is cut away to the lead piece 14 to make visible According to the invention, the pressure line, that is, the entirety or parts of sections 14 to 17, with means for reducing the heat emission Mistake. In Fig. 3 such an example is illustrated in which the pressure line pipe 17 is provided with its own heat insulating layer 19. The warmth of the relative hot refrigerant under condensation pressure can therefore not be used in the Inside of the capsule to the refrigerant located there under suction pressure be delivered.

A similar success is achieved with the construction illustrated in FIG. 4, in which the corrugated section 17 of the pressure line pipe is enclosed with a film 20. In this case, two sheets of film are preferably welded to one another at their edges 21. In this case, too, the heat transfer between the refrigerant under condensation pressure and the refrigerant under suction pressure is reduced because the latter cannot freely flow around the line 17. The heat dissipation through the oil is also largely prevented by this film envelope.

With an insulation according to Fig. 3 or 4, the silencer 15 are provided. As a result of its arrangement in the pressure line also does not exist the risk of heat dissipation by conduction to the cylinder structure, so that in fact the vast majority of the heat that used to be from that under condensing pressure standing refrigerant was released inside the capsule, now only outside the capsule is released, which significantly lowers the capsule temperature itself can be.

The illustrated arrangement of the pressure muffler in the pressure line also has the advantage that the entire cylinder circumference is available to Attach suction muffler chambers, thereby improving the cooling of the cylinder takes place and when several suction silencer chambers are connected in series a very low cut-off frequency can be achieved.

Any material is suitable as thermal insulation 19 or film material 20, apart from the thermal insulation or. Protective properties resistant to heat, refrigerants and oil is. Furthermore, it can maintain its strength properties even with permanent Do not lose vibrations and movements as the crumbling components Can question the functionality of the capsule. As thermal insulation 19 is it is preferable to use a porous material. One for the purpose of the invention a particularly suitable material is terephthalic acid polyester.

Claims (5)

PATENT CLAIMS: 1. Hermetically sealed small refrigeration machine, whose Interior is under suction pressure, characterized in that the inside of the capsule arranged parts carrying the refrigerant under condensation pressure are provided with means to limit the heat emission. 2. Hermetically sealed Small refrigeration machine according to claim 1, characterized in that the pressure line is provided with thermal insulation. 3. Hermetically sealed small refrigeration machine according to claim 1, characterized in that the pressure line is provided with means for preventing the gas flow promoting heat transfer and oil wetting on their outside is provided. 4. Hermetically sealed small refrigeration machine according to claims 1 to 3, characterized in that the pressure muffler is part of the pressure line. 5. Modification of the hermetically sealed small refrigeration machine according to claim 4, characterized characterized that only the pressure muffler with means to limit the Heat emission is provided. References contemplated: United States Patent Specification No. 2,338,486.