DE1841940U - CAPILLARY TUBE PLACED BETWEEN CONDENSER AND EVAPORATOR OF A COMPRESSION COOLING MACHINE. - Google Patents

Description

Between the condenser and evaporator of a compression refrigeration machine arranged capillary tube In compression refrigeration machines, it is known to use a capillary tube between the condenser and the evaporator to maintain the pressure difference to arrange. The refrigerant condensate, which has relatively high temperatures to the evaporator. To a cold this To carry out condensates, it is known in these machines to carry out a heat exchange between the condensate and the refrigerant vapors flowing from the evaporator to the compressor thereby bringing about that the capillary is in heat exchange with the suction line is brought. For this purpose, the capillary is either attached to the outside of the suction line soldered or laid over part of its length inside the suction line. Further arrangements are known in which the capillary tube is in the form of a tight helix is inserted in a small part of the suction line. For this purpose is the suction line not designed as a uniform tubular body, but divided. In the course of the A special heat exchanger is inserted into the suction pipe, which is essential has a larger diameter than the rest of the suction tube and to accommodate the capillary tube coil serves. The production of such a helix is likely to be one Capillary tube cause considerable difficulties. This also applies to the activation a special heat exchanger in the suction line, because this increases the number of Soldering points in the course of this line required.

The innovation concerns one between the condenser and the evaporator Compression refrigeration machine arranged capillary tube, the z. T. inside the suction line lies, and aims at the. Heat exchanger between the capillary and the suction line to improve and for the production of the above-mentioned disadvantages of known arrangements largely to be avoided. According to the innovation, the one running in the suction line Part of the capillary tube laid like a hairpin. The hairpin-shaped capillary tube preferably takes up essentially the entire length of the suction line.

The innovation makes it possible to exchange heat between the condensate and the cold refrigerant vapors flowing back to the compressor more intense than to design up to now and, moreover, with a suitable arrangement also in manufacturing Respect to achieve a significant advantage that the number of soldering points of the refrigerant system is reduced. This is especially possible if according to the further innovation, the capillary tube portion in the suction line is as follows dimensioned and guided is that the entry and exit point of the capillary in the essentially on the same side, preferably on the evaporator side, of the suction line is located. This arrangement has the advantage that on the evaporator side with practically a soldering point the connection of the suction line to the evaporator and at the same time the attachment of both sides of the capillary tube is possible.

If you place the capillary tube in a hairpin shape in the suction tube relocated, one can essentially make up a larger proportion of the total length of the capillary tube in the suction pipe and accordingly a particularly effective heat exchange between the warm condensate and the cold one, from the evaporator to the Achieve refrigerant gas flowing back from the compressor. You can also use them by repeatedly moving the capillary tube back and forth with appropriately sized Suction tube cross-section to accommodate practically the entire length of the capillary tube in the suction tube. This arrangement also has the advantage that the capillary tube is inside the suction tube good against external mechanical influences that occur, for example, during transport can, is protected.

At the point of insertion of the two ends of the capillary tube, the suction tube be expanded in a manner known per se. The invention can be applied to suction lines made of copper but can also be used for aluminum or steel pipes.

An exemplary embodiment of the innovation is schematically shown in the figures shown.

In Fig. 1, 1 denotes the compressor motor capsule of the refrigerating machine. When the compressor is operating, the refrigerant enters through the pressure line 2 the capacitor 3. The end of the capacitor is connected to a desiccant cartridge 4. From there, the liquefied refrigerant reaches the connecting piece via a capillary tube 5 6 of the pressure line on the evaporator 7. The evaporated refrigerant gas is via the Connection piece 8 of the evaporator to the suction line 9 and from there via the connection piece 10 returned to the compressor capsule 1. A particularly intensive heat exchange of the refrigerant condensate with the cold refrigerant vapors of the suction line, In this embodiment, the capillary 5 within the suction line 9 is hairpin-shaped bent so that the entry and exit points 11 and 12 of the capillary tube and the Connection point 13 of the evaporator coming end of the neck 8 lie at the same end of the suction line 9. You can therefore nit at this point Connect the suction line to the evaporator with a single soldering and both Fasten the capillary tube sides to the suction tube.

In Fig. 2, the suction line 10 is inserted with the hairpin Capillary tube drawn out larger.

FIG. 3 shows the associated section along the line AB of FIG. 2. The direction of the refrigerant flow is indicated by the arrows. By widening the end of the suction line 9 on the evaporator side at points 14 and 15, the introduction of the capillary tube ends into the suction line is facilitated. In the area of the points 11, 12, 13, as can be clearly seen in FIG. side connector 8 take place. D.

Claims (6)

Protection claims L. 1. Between the condenser and evaporator of a compression refrigeration machine arranged capillary tube, which is partly inside the suction line, characterized in that the part of the capillary tube extending in the suction line is laid in the manner of a hairpin and preferably occupies substantially the entire length of the suction line. 2. Arrangement according to claim 1, characterized in that the the Capillary tube receiving part of the suction line is a one-piece suction tube is that connects the connecting pieces of the evaporator and the capsule with each other. 3. Arrangement according to claim 1 or 2, characterized in that the inlet and outlet point of the capillary tube on the same side of the suction tube, preferably on the evaporator side. 4. Arrangement according to claim 1, 2 or 3, characterized in that the connection of the suction line with practically a soldering point on the evaporator side to the evaporator and the attachment of both sides of the capillary tube. 5. Arrangement according to claim 4, characterized in that the suction pipe widened at one end to accommodate the capillary tube in a manner known per se is. 6. Arrangement according to claim 1 or one of the following, characterized in that that the capillary tube is laid in several hairpin-shaped loops in the suction tube is so that essentially the entire length of the capillary tube is accommodated in the suction tube is.