DE730657C - Compressors for refrigeration machines - Google Patents

Description

Compressor for refrigerating machines The invention relates to a compressor for refrigeration machines in which the cold steam drawn in is used to cool the. compressed Refrigerant is used. In such machines, the suction line leads of the cold steam past the pressure chamber located behind the pressure valve, so that it goes through the piston stroke, compressed and heated refrigerant is cooled by the cold steam will.

The previously known devices, however, fulfill the stated purpose only very imperfect, because of the metallic heat exchange surfaces are dimensioned far too small.

It has also already been proposed to enclose the pump cylinder with: a cavity in which the entrained oil is to collect and serve as a coolant. Dic . ai -if this way -versichtc cooling b is however also very inadequate, since the oil standing in the cavity is heated quickly and its heat can only be given off very slowly and imperfectly on its surface and through the cooling fins. It is obvious that the heat exchange in this stationary oil cylinder must be considerably worse than in areas where the cold steam flows past.

Through the present invention, the task is the compressed refrigerant to cool thoroughly, solved by the fact that the druchhammers in which the compression of the refrigerant takes place, are designed so that they have large heat exchange surfaces have, which are located in an annular chamber through which the cold steam flows. The multi-faceted areas the pressure chambers can be conical in order to enlarge the exchange area get lost. In order to. Achieve. A complete flushing of the pressure comb. Wall, is according to the invention made the arrangement that the inlet of the cold steam on the the suction line opposite the side of the cylinder head jacket: is arranged.

Z «-e.cla is advantageously more favorable in the case of compressors with a size of two cylinders Cold steam flow between the two pressure chambers within of the cylinder head. arranged a partition.

As an embodiment of the invention, Fig. i shows a two-cylinder Compressor partly in view, partly in section, Fig. 2 shows a cross section of the compressor according to line 2-2 in fig. 3 and fig. 3 a plan view of the compressor with removed, cylinder head indicated by dash-dotted lines.

The compressor consists of the pump housing a with the two cylinders a1, a =, the base plate-.b, the intermediate cover c and the cylinder head d. In the cylinders a1, a2, the pistons are moved up and down by connecting rods f, which are attached to two Attack the crankshaft g, which are offset from one another by i8o °. Every piston - is provided with a suction valve h, while the two pressure valves in the intermediate cover c i are arranged.

The refrigerant base sucked in by the pistons e passes through the inlet connection en ädl iri the cylinder head 1, in which above the pressure valves i dome-like Pressure chambers d'2. Are of which lines d, to the common outlet port4 to lead. As a result of a partition @ aG provided between the two pressure chambersd2 if the refrigerant gas is defeated, first two rings surrounding the pressure chambers d2: ammernJ'3 to flow through, which is on the opposite side of the inlet port dl of the cylinder, head d w.Qder unite and of those there through the intermediate cover c through and leading along the two cylinders a1, a2 to the crankcase a Suction line l4 branched off. The flow path of the refrigerant gas in the cylinder head , d is indicated in Fig. 3 by double dash-dotted lines. During the pressure stroke the compressed refrigerant gas via the pressure valves i into the pressure chambers d2 pressed and arrives from there via the end of the line to outlet d4. Das.vo # m evaporator incoming refrigerant gas entering at the upper warm end of the compressor accordingly within the cylinder head d in cross flow to the one leaving the compressor, passed through the compression heated refrigerant gas and thereby exerts a particularly strong cooling effect on the compressed gas and also on the outer wall of the cylinder head. Likewise «earth through the one passing the cylinders a1, a2 Suction line k the cylinder walls cooled down well.

The two pressure chambers can also become a single one for both valves i common pressure chamber are combined, whereby the partition wall d5 is omitted.

Claims (3)

PATT NTANsPR V cur: i. Compressor for refrigeration machines, in which the cold steam drawn in is used to cool the compressed refrigerant, in such a way that the suction line for the cold steam leads through the cylinder head and then directly through the cylinder wall to the crankcase, characterized in that the pressure chambers (d =), in which the compression of the refrigerant takes place, are designed so that they have large heat exchange surfaces, which are located in an annular chamber through which the cold steam flows. 2nd compressor according to claim i, characterized in that the lateral surfaces of the pressure chambers (f1 °) are conical. 3. Compressor according to claim i and 2, characterized in that that the inlet (dl) of the cold steam is on the opposite of the suction line (k) Side of the cylinder head jacket, is arranged. q .. two-cylinder compressor according to Claims i to 3, characterized in that between the two pressure chambers (d2) the cylinder (a1, a- ") arranged within the cylinder head (d) a partition (d3) is.