SU1606823A1 - Condenser - Google Patents

Abstract

This invention relates to refrigeration engineering, in particular, to condensers of ship refrigeration machines. The purpose of the invention is to increase the cooling efficiency and service life. For this, the capacitor further comprises a cup 11 installed at the bottom of the casing 1 along its vertical axis of symmetry with a hole 14 in its bottom part. The partitions 7 are placed between the inlet pipes 4 to form parallel sections 8 in the annular space 6, and the input pipes 4 are provided with Y-shaped loops 9 with nozzles 10 located along the vertical axis of symmetry of the casing 1 in the glass 11 one below the other, and the glass 11 can to be provided with an equalization line connecting its opening 14 to the outlet pipe 2. When the pressure in the annular space 6 decreases, the nozzles 10 gradually appear below the level of the liquid refrigerant and a water seal forms in the loops 9 of the inlet pipes 4 Parts of the tube bundle 5 are disconnected, which leads to an increase in pressure. 1 hp ff, 3 ill.

Description

The invention relates to refrigeration, in particular to the capacitors of ship refrigeration machines.

The purpose of the invention is to increase the cooling efficiency and service life,

In FIG. 1 is a schematic representation of a capacitor, section; in FIG. 2 - node I in FIG. 1; in FIG. 3 - node'H in FIG. 1 with leveling line.

The capacitor contains a casing 1 s. the outlet pipe 2 and the inlet pipes 4 for the refrigerant combined into the collector 3, the tube bundle 5, the annular space 6 of which communicates with the outlet pipe 2, and the partitions 7, forming parallel sections 8 in the annulus 6, are fixed in the casing 1 between the inlet pipes 4, equipped with V-shaped loops 9 with nozzles 10, the nozzle 11 mounted on the bottom 12 of the casing 1 coaxially with the vertical axis of symmetry 13 and having an equalizing line 14 connected to the outlet pipe 2, and the loops 9 are placed in the nozzle 11, and nozzles 10 are located axis 13 of symmetry about bottom under another. Equalization line 14 can be made either in the form of a hole in the lower part of the glass 11, or in the form of a pipe 15.

The capacitor works as follows.

The vaporous refrigerant flows from the compressor to the manifold 3 and, being divided by the inlet pipes 4, is directed between the partitions 7 into parallel sections. 8 of the annular space S, where it condenses on the tube bundle 5 by cooling seawater flowing inside its pipes.

Condensed refrigerant is discharged from sections 8 to the bottom 12 of the casing 1, accumulates in it and one part of it passes through the outlet pipe 2 along the equalization line 14 into the glass 11, being installed at the same level with the liquid in the casing 1, and the other enters the filling regulator evaporator.

When the vessel is rolling, liquid refrigerant moves from one part of the casing 1 to the other with a change in its level along the length of the casing 1, and in the glass 11 due to the limited movement of liquid in it and the low capacity of the equalization line, the level is 14 at a constant pressure in the condenser on the axis of the glass 11 remains virtually unchanged.

When the pressure in the annular space 6 of the casing 1 decreases, for example, when the temperature of the water entering the condenser decreases, the casing 1 and the glass 11 gradually fill up through the equalizing line 14 with liquid refrigerant with an increase in its level. As a result, nozzles 10, one after the other, are below the level of liquid refrigerant , which gradually fills the loops 9 of the inlet pipes 4, forming a water trap in them, preventing the passage of 4 refrigerant vapors through the inlet pipes into separate sections 8 of the casing 1. Thus, they turn off in series I portion of the tube bundle 8 in the sections 5, wherein the cooling surface is reduced, which leads to a pressure rise in the condenser.

Claims (2)

Claim 1. The condenser containing the casing having a vertical axis of symmetry, with input and output pipes and fixed in the casing of the tube bundle with partitions, characterized in that, in order to improve cooling efficiency and service life, the capacitor further comprises installed in the lower part of the casing along the vertical axis of symmetry of the glass with a hole in its bottom, partitions are placed between the inlet pipes with the formation of parallel sections in the annulus, and the inlet pipes are equipped with V-shaped loops with nozzles located on the vertical axis of symmetry of the casing in the glass one below the other. 2. Capacitor pop. 1, characterized in that the glass is equipped with a surge line connecting its hole with the outlet pipe. I Jl Figure 2 Fig 3