RU165820U1 - SCREW RECOVER - Google Patents

Abstract

A screw recuperator made in the form of a heat-insulated cylindrical body with nodes for connecting to the air ducts, inside which a screw heat exchange partition is installed, forming separate channels for supply and exhaust flows, characterized in that the said partition has an S-shaped cross section.

Description

The utility model relates to the field of ventilation, namely to screw recuperators, providing heat transfer between the supply and exhaust flows, and can be used in ventilation, air conditioning, air heating and air aspiration systems.

A screw recuperator made in the form of a heat-insulated cylindrical body with nodes for connecting to the air ducts, inside which a screw heat-exchange partition is installed, forming separate channels for supply and exhaust flows (see patent DE 3627578, class F24D 11/00, publ. 02/18/1988). The disadvantages of the known devices are the relatively low heat transfer coefficient and poor aerodynamic characteristics that cause uneven heat transfer.

The objective of the utility model is to eliminate these drawbacks. The technical result consists in increasing the efficiency of heat exchange between flows. The problem is solved, and the technical result is achieved by the fact that in a screw heat exchanger made in the form of a thermally insulated cylindrical body with nodes for connecting to the air ducts, inside of which a screw heat exchange partition is installed, forming separate channels for supply and exhaust flows, the specified partition has an S-shaped transverse section.

In FIG. 1 shows a longitudinal section of the proposed recuperator with a direct-flow connection diagram;

in FIG. 2 - the same with a counter-current connection system;

in FIG. 3 is a cross-section of a recuperator in a round casing;

in FIG. 4 - the same in a rectangular casing.

The proposed recuperator is a cylindrical body 1 with nodes 2 connecting to the ducts, equipped with thermal insulation 3 (for example, from mineral fibers) and enclosed in a rectangular or round protective casing 4 made of galvanized steel. Inside the housing 1, a helical heat exchange partition 5 is installed with a winding angle, for example, preferably 45 °. The partition 5 has an S-shaped cross section and forms separate channels for the supply and exhaust flows (indicated by arrows). The sum of the cross-sections of these channels (diameters of the connection pipes to the heat exchanger) is equal to the diameter of the housing 1. To drain moisture in the heat exchanger, a connection to the drainage system 6 can be provided.

Screw recuperator works as follows.

The supply and exhaust air flows are supplied through the ventilation system ducts to the recuperator body 1 and move along the channels twisting each other, formed by a partition 5. The flows can move parallel to each other (if the principle of operation is direct-flow) or towards each other (if the principle of operation is counter-current). During the operation of the supply and exhaust system, heat is exchanged through the partition of the recuperator between the two environments.

The implementation of the partition 5 S-shaped cross-section significantly increases the heat transfer surface while maintaining the diameter of the housing 1. In addition, the good aerodynamics of the formed channels ensures uniform heat transfer. Thus, the proposed design can significantly increase the efficiency of heat exchange between the supply and exhaust flows.

Claims (1)

A screw recuperator made in the form of a heat-insulated cylindrical body with nodes for connecting to the air ducts, inside which a screw heat exchange partition is installed, forming separate channels for supply and exhaust flows, characterized in that the said partition has an S-shaped cross section.

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