CS264537B1 - Cooler with natural circulation of heat transfer medium - Google Patents

Abstract

The cooler is designed for condensation drying of compressed air. The aim is to increase the heat exchange surface by more suitable arrangement and placement of the tube bundle of the cooled medium. A distributor is connected to the supply pipe, from which a tube bundle of square or circular arrangement emerges, guided in the space between the cooler casing and the insulating partition and terminated in a header at the bottom of the cooler. The insulating partition forms a vertical central space, in the upper part of which the evaporator of the cooling medium is located, and it terminates above the bottom of the cooler. To direct the flow of the heat exchange medium, louvers are made in the lower part of the insulating partition.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a naturally circulating heat sink which is used primarily for the condensation drying of compressed air.

According to a known embodiment of a heat sink with natural circulation of the heat transfer medium, tube registers located in the lower part of the cooler vessel are used to cool the medium in the tubes. The coolant evaporator is located at the top of the radiator container. The gravity flow of the heat transfer medium between the evaporator and the register is rectified by an insulating partition separating the warm and cold flow of the heat transfer medium.

A disadvantage of the known embodiment is the imperfect utilization of the space of the cooler container by the fact that the pipe system of the cooled medium is located only in the lower part of the container and the remaining space is not used for heat exchange.

This deficiency is overcome by a naturally-circulating heat-sink comprising a radiator vessel, a coolant evaporator, a refrigerant inlet and outlet pipe system, and an insulating partition separating the cold current from the heat transfer medium flow of the present invention. the coolant supply line is connected to a manifold from which a tube bundle of square or circular configuration extends horizontally, vertically or helically in the space between the radiator jacket and the insulating partition and terminates with a coolant collector to which the drain line is connected. The insulating partition forms a vertical central space, in the upper part of which the evaporator is located and terminates above the bottom of the radiator. In order to direct the flow of the heat transfer medium, the insulating partition in the lower part can be provided with louvers.

The advantage of the heatsink according to the invention lies in a better utilization of the space of the heatsink container, which makes it possible to increase the heat exchange surface. Due to better rectification of the flow of heat transfer medium, the pipe system is used more and thus the efficiency of the cooler is increased.

The drawing shows a front view of an exemplary embodiment of a natural circulation heat sink according to the invention.

The vertical cooler vessel 5 is provided with a lid 13, a neck 12 for replenishing the heat transfer medium 4 and a neck 11 for discharging. In the upper part of the vessel, a manifold 2 is connected to the cooled medium supply pipe 1, from which a square tube bundle 3 runs, extending along a helix in the space between the radiator jacket 5 and the insulating partition 7 and terminated at the bottom of the radiator 5 with a collector 9 to which it is connected a conduit 14 for removing the cooled medium. The insulating partition 7 forms a vertical central space separating the cold stream 4a from the warm stream 4b of the heat transfer medium 4. At the top of this space there is a coolant evaporator 6. The insulating partition 7 has louvers 8 formed in the lower part and terminates above the bottom of the cooler 5.

When the radiator 5 is filled with heat transfer medium 4, it is cooled on the evaporator 6 and the resulting cold stream 4a passes through the central space formed by the insulating partition 7 to the bottom of the radiator 5 and the louvers 8 and entering the space between the insulating partition 7 and the bottom. through the radiator sheath 5 and the insulating partition 7 and through the tube bundle 3 it moves upwards, cooling the medium flowing in the tubes of the tube bundle 3. Over the upper edge of the insulating partition 7 it returns to the evaporator 6. The cooled medium enters the inlet pipe 1 and exits via conduit 14 from cooler 5.

The cooler according to the invention can be used in various industries, for example in the chemical and pharmaceutical industries.

Claims (2)

SUBJECT OF THE INVENTION 1. Heat sink with natural circulation of a heat transfer medium, consisting of a heat sink, a coolant evaporator, a refrigerant inlet and outlet pipe system and an insulating partition separating the cold flow from the warm flow of the heat transfer medium, characterized by: the medium to be cooled is connected to a manifold (2) from which a tube bundle (3) of square or circular arrangement runs horizontally, vertically or helically in the space between the radiator jacket (5) and the insulating partition (7) and terminated by the cooled medium collector (9) at the bottom of the cooler (5), the insulating partition (7) forming a vertical central space, in the upper part of which the coolant evaporator (6) is located, and terminates above the bottom of the cooler (5). Cooler according to claim 1, characterized in that the insulating partition (7) is provided with louvers (8) at the bottom.