RU169049U1 - Chimney - heat exchanger - Google Patents

Abstract

The utility model relates to devices for heating residential, domestic and industrial premises, in particular, to the design of the chimneys of furnaces. The technical result of the claimed utility model is to increase the efficiency of heat transfer. nozzles, inside which the brake device is installed, the housing is equipped with removable covers with inlet and outlet nozzles, and the holes are made in the covers, connected between second air ducts arranged inside the housing, wherein the brake device is mounted on the duct and formed as a plate with petals covering ducts.

Description

The utility model relates to devices for heating residential, domestic and industrial premises, in particular to the design of chimneys of furnaces.

A chimney-heat exchanger is known, comprising a hollow body with inlet and outlet nozzles, inside which a braking device for braking flue gases and heat exchange is installed, made in the form of a hollow pipe with radially mounted plates and a radiator, made in the form of radially mounted plates with a casing - a hollow body ( see IPC F24B 5/02, F23B 80/00, description of the invention to patent No. 2276755 of the Russian Federation, publ. 05/20/2006)

A disadvantage of the known chimney-heat exchanger is that the direct-flow movement of the flue gases does not provide a significant braking, which does not allow to achieve a more efficient heat transfer.

Closest to the claimed utility model is a chimney-heat exchanger containing a hollow body with inlet and outlet nozzles, inside of which there is a brake device for braking flue gases and heat transfer, made in the form of dampers with cutouts, while the dampers are installed inside the housing and mounted on the transverse axes rotatable so that in the position when the shutters are located across the body, the cutouts form a zigzag gas duct, and levers are fixed on the axes outside the body, the free ends to oryh via hinges connected to a common rod for installing dampers in a predetermined position (see IPC F23J 11/00, the description of the patent of the Russian Federation №2516355, published 20.05.2014 g..) - closest analog.

A disadvantage of the known device is the low heat transfer due to the high rate of passage of flue gases inside the housing, in which there is no complete transfer of thermal energy to the surrounding space.

The technical result of the claimed utility model is to increase the efficiency of heat transfer.

The essence of the technical solution lies in the fact that in a chimney-heat exchanger containing a housing with an inlet and outlet pipe, inside which a brake device is installed, the housing is equipped with removable covers with inlet and outlet pipes, and the holes are made in the covers, interconnected by air ducts located inside case, while the brake device is mounted on the ducts and made in the form of a plate with petals covering the ducts.

Providing the housing with removable covers with inlet and outlet nozzles, and making holes in the covers, interconnected by ducts located inside the housing, provides an increase in the surface area of the flue gas heating ducts and the housing, which increases heat transfer from heated flue gases to the air flows passing inside the ducts , and accelerates the heating of the room.

The implementation of the braking device in the form of a plate with petals covering the air ducts, and its fastening on the air ducts allows for effective braking of the flue gases and to increase the path length of the flue gases, in which thermal energy is transferred to the ducts and to the heated room air.

The proposed utility model is illustrated by drawings, where in FIG. 1 shows a sectional view of a chimney-heat exchanger; in FIG. 2 is a section AA of FIG. one.

The chimney-heat exchanger contains a hollow body 1 with removable covers 2 and 3, in which the inlet 4 and outlet 5 nozzles are located, as well as openings 6 and 7, interconnected by air ducts 8 located inside the housing 1. The brake device is made in the form of a plate 9 with petals 10 and fixed to the ducts 8, for example, by welding.

The number and size of air ducts are determined depending on the volume of the heated room. For example, with the following dimensions of the claimed chimney-heat exchanger: body diameter 300 mm, height 330 mm with eight ducts with a diameter of 66 mm, the internal volume of the body is 21 l, and the heat transfer surface is 1 m ² .

With the dimensions of the analogue: case diameter 300 mm, height 330 mm, the heat transfer surface will be 0.31 m ² , which is three times less than that of the claimed device, and accordingly, the heating of the air in the room will be three times less efficient and more fuel will be required .

The inventive chimney-heat exchanger operates as follows. From the furnace (not shown) flue gases enter the body 1 of the chimney-heat exchanger through the inlet 4 and interact with the plate 9 of the brake device and through the petals 10 (see Fig. 2), covering the air ducts 8, expand and enter the inner space 11 of the housing 1, in this case, the outer surfaces 12 of the ducts 8 are heated and heat is transferred to the inner surfaces 13 and cavities 14 in which the air of the heated rooms is located, and due to the temperature gradient (temperature difference of the heated inside air air channeling systems and cold room temperature) occurs air circulation and a constant heating and moving air streams to the premises.

The use of the inventive chimney-heat exchanger provides quick heating of the room in which it is located, due to improved heat transfer. In addition, during operation, the internal surfaces of any heat exchanger are quickly coated with soot and resin, and soot is a very good heat insulator, and therefore, if the internal surfaces are not cleaned on time, the heat transfer will constantly deteriorate, which reduces the heat transfer efficiency. The design of the inventive heat exchanger provides quick disassembly, which allows you to clean the inner surfaces of soot and tar.

As a coolant can be used not only air but also liquids: water, oil, antifreeze, etc., and the inventive device can be used in extreme situations for heating tents, cars, greenhouses, etc.

Claims (1)

A chimney-heat exchanger comprising a housing with inlet and outlet nozzles, inside which a brake device is installed, characterized in that the housing is equipped with removable covers with inlet and outlet nozzles, and the openings are interconnected in the covers, interconnected by air ducts located inside the housing, while the brake the device is mounted on the ducts and made in the form of a plate with petals covering the ducts.

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