RU53758U1 - WATER BOILER - Google Patents

Abstract

The utility model relates to a power system and can be used in heating and hot water systems of residential and public buildings.

The technical result of the proposed utility model is to reduce the gas-dynamic resistance of a boiler with a heat exchanger, as well as reducing the material consumption of the boiler.

The hot water boiler contains a housing, a combustion chamber located inside the housing, a convective part in the form of a tube bundle, and a heat exchanger attached to the rear wall of the housing.

According to a utility model, the heat exchanger is made in the form of an adapter between the body and the flue gas exhaust system, equipped with a set of water pipes connected at the ends by collectors, one of which is connected by a pipe to the boiler’s internal water cavity and the other to the heating water return pipe to the boiler . The front part of the adapter is fastened to the housing with a quick-detachable flange connection, the rear part is equipped with a flange for connection to the flue gas exhaust system, and the exit area of the convective part of the boiler is equal to the entrance area of the heat exchanger.

Description

The utility model relates to a power system and can be used in heating and hot water systems of residential and public buildings.

Known boiler VITOROND 200 with a heat exchanger VITOTRANS 333, manufactured by VIESSMANN (Germany).

The boiler contains a housing, inside which there is a combustion chamber and a convective part, which is a bundle of smoke tubes. A heat exchanger is attached to the back of the housing, in which the heat of the flue gases is transferred to the water of the heating network.

Known hot water boiler is the closest in combination of essential features to the claimed utility model and is selected by the applicant as the closest analogue.

A disadvantage of the known boiler is the increased gas-dynamic resistance of the boiler due to a sharp narrowing and expansion of the exhaust flue gas flow in the elements of the connection of the boiler with the heat exchanger and the heat exchanger with the flue gas exhaust system, which requires a higher-pressure burner fan. The disadvantage is the presence of double walls at the junction of the boiler with the heat exchanger and the flue gas exhaust system, which leads to an increase in the material consumption of the boiler.

The technical result of the proposed utility model is to reduce the gas-dynamic resistance of a boiler with a heat exchanger, as well as reducing the material consumption of the boiler.

The specified technical result is achieved in that in a water boiler containing a housing, a combustion chamber, a convective part in the form of a tube bundle and a heat exchanger connected to

the back wall of the housing, according to a utility model, the heat exchanger is made in the form of an adapter between the housing and the flue gas exhaust system, equipped with a set of water pipes connected at the ends by collectors, one of which is connected by a pipe to the boiler’s internal water cavity and the other to a supply pipe to the return water boiler of the heating network, while the front of the adapter is fastened to the casing by means of a quick-detachable flange connection, and the rear part is equipped with a flange for connection to the exhaust system gas, and the exit area of the convective part of the boiler is equal to the inlet area of the heat exchanger. If the areas of the exit of the convective part of the boiler and the entrance of the heat exchanger (exhaust gas heat exchanger) are equal, the exhaust flue gas flow does not experience sharp turns, narrowing or expansion, therefore, the gas-dynamic resistance of the exhaust gas path of the boiler with the heat exchanger decreases compared to the closest analogue. The fact that the heat exchanger, in contrast to the closest analogue, has no front and rear walls, leads to a decrease in the material consumption of the boiler.

Due to the indicated embodiment of the boiler device, a reduction in its gas-dynamic resistance is achieved, which makes it possible to use a burner fan with a lower pressure, as well as reduce the material consumption of the boiler by eliminating the front and rear walls of the heat exchanger.

The essence of the utility model is presented in the drawing, which shows a general view of the boiler and its local section.

The hot water boiler contains a housing 1, a combustion chamber 2, a convective part - a bundle of smoke pipes 3. An adapter 4 is attached to the rear of the housing, equipped with a set of water pipes 5, connected at the ends by collectors. The collector 6 is connected by a pipe 7 with

the internal water cavity of the boiler, the collector 8 is connected to the pipeline 9 for supplying the boiler with return water from the heating network. The front of the adapter 4 is connected to the rear of the housing 1 by means of a quick-detachable flange connection 10, and the rear of the adapter 4 is equipped with a flange 11 for connection to a flue gas exhaust system (not shown).

The operation of the boiler is as follows.

The return water from the heating network through pipeline 9 and collector 8 enters the water pipes 5, where it is heated by the exhaust flue gases, then through the collector 6 and pipeline 7, it enters the internal water cavity of the boiler, in which it is heated by the hot gases generated in the combustion chamber by combustion fuel. Heated water is pumped into the heating network.

The combustion products of the fuel give their heat to the water in the boiler when they exit the convection part (from the smoke tubes 3) they still have a rather high temperature of about 160-200 C, then they get into the heat exchanger (heat exhaust gas heat exchanger), in which its heat to the water in the pipes 5, and then through the flue gas exhaust system go into the atmosphere.

Thus, due to the indicated embodiment of the heat exchanger apparatus, the gas-dynamic resistance to the exit of flue gases is reduced, and its material consumption is also reduced.

Claims (1)

A water boiler containing a housing, a combustion chamber placed inside the housing, a convective part in the form of a tube bundle and a heat exchanger attached to the rear wall of the housing, characterized in that the heat exchanger is made in the form of an adapter between the housing and the flue gas exhaust system, equipped with a set of water pipes , at the ends connected by collectors, one of which is connected by a pipeline to the internal water cavity of the boiler, and the other is connected to the pipeline for supplying the return water to the boiler of the heating network, while the front Part of the adapter is fastened to the casing by means of a quick-detachable flange connection, and the rear part of the adapter is equipped with a flange for connection to the flue gas exhaust system, and the exit area of the convective part of the boiler is equal to the entrance area of the heat exchanger.