RU181483U1 - HEATING WATER BOILER - Google Patents

Abstract

The utility model relates to the field of power engineering, in particular, to designs of hot-water heating boilers designed for heating residential premises and buildings, and is aimed at increasing the degree of safety of heating and hot-water boilers operating on any type of fuel. The technical solution includes a closed combustion chamber, a water jacket, inlet and outlet pipes for supplying cold water to the water jacket and supplying hot water to the heating system. A flue pipe is installed on top of the boiler to discharge exhaust gases into the atmosphere. The boiler is equipped with a loading door for filling combustion products into the combustion chamber, a grate for cleaning the combustion chamber from the remains of combustion products and an ash pan. In addition, a pipe is installed at the level of the combustion chamber to discharge residual carbon monoxide into the atmosphere. Thus, gases that for some reason are not removed through the main pipe of the chimney are naturally released into the atmosphere through an additional pipe installed at the level of the combustion chamber.

Description

The utility model relates to the field of power engineering, in particular, to the designs of hot water and heating boilers designed for heating residential premises and buildings.

Known heating gas boiler (patent No. 84952). The boiler contains a water jacket, inlet and outlet pipes for supplying cold water to the water jacket and supplying hot water to the heating system, a chimney for exhausting exhaust gases into the atmosphere, a loading door for filling combustion products into the combustion chamber, a grate for cleaning the furnace from residues of combustion products and an ash pan.

The disadvantage of this heating boiler is that the heating system does not provide protection against poisoning by carbon monoxide. The main causes of carbon monoxide poisoning are the untimely closure of the furnace damper, insufficient access to fresh air in the firebox, and poor draft. At the same time, unburned carbon dioxide and carbon monoxide, through unpressurized sections of the furnace structure, spread through the heated room, causing toxic effects on the human body and its poisoning (burning). (http://kammeo.ua/articles/43/). According to clause 3.72 of SNiP 2.04.05-91, in the smoke channels of wood-burning stoves, it is necessary to install two tight valves in series, and on the channels of stoves working on coal or peat, one valve with a hole in it with a diameter of 15 mm. That is, the system of removal of combustion products is complex and does not always prevent the leakage of harmful gases into the room.

A gas heating boiler without a traditional chimney is also known, which by its design features is closest to the proposed utility model and contains a system for removing harmful gases. The boiler structurally contains a closed combustion chamber and a chimney with a turbine, which in forced mode removes exhaust gases from the furnace. (https: //dachadizain.ra/dom/otoplenie/ustrojstva-dymoxoda-dlya-gazovogo-kotla.html#h2_5). The chimney is arranged according to the coaxial type, that is, the pipe in the pipe. Supply air is supplied through the outer pipe to the furnace by means of a turbine to maintain the combustion process, and carbon dioxide CO ₂ and carbon monoxide CO are discharged through the inner pipe.

The disadvantage of a gas boiler of this type and all other types is the high cost and complexity of the design of the coaxial chimney and the presence of a turbine for supplying fresh air to the furnace chamber of the boiler. The main difficulty lurking some types of heating boilers is that they are volatile. When the power is cut off, the control and safety automatics become completely incapacitated, while gas continues to flow into the combustion chamber of the boiler. At the same time, even if the gas torch does not go out, when the amount of supply air decreases, the gas does not burn completely and emits carbon monoxide, which does not completely exit through the coaxial chimney. Thus, not every gas boiler ensures the safety of people from poisoning by combustion products.

The technical task of the utility model is to increase the degree of safety of heating and hot water boilers operating on any type of fuel.

The technical solution includes a closed combustion chamber, a water jacket, inlet and outlet pipes for supplying cold water to the water jacket and supplying hot water to the heating system. A flue pipe is installed on top of the boiler to discharge exhaust gases into the atmosphere. The boiler is equipped with a loading door for filling combustion products into the combustion chamber, a grate for cleaning the combustion chamber from the remains of combustion products and an ash pan. Additionally, a pipe is installed at the level of the combustion chamber to discharge residual carbon monoxide into the atmosphere. Thus, gases that for some reason are not removed through the main pipe of the chimney are naturally released into the atmosphere through an additional pipe installed at the level of the combustion chamber.

The device of the heating-water boiler (hereinafter the boiler) is shown in the figure.

The boiler includes a housing 1, inside which there is a combustion chamber 2 with fuel cells 3. Liquid, solid and gaseous fuels can be used as fuel cells. Below the combustion chamber 2 there is a grate 4 and an ash pan 5. The boiler is equipped with a door 6 for igniting the fuel and a door 7 for loading it. A heat exchanger 8 with a pipe 9 for supplying water and a pipe 10 for transferring hot water to the heating system is installed above the combustion chamber. A flue pipe 11 is installed on top of the boiler. At the level of the combustion chamber, an additional pipe 12 is installed for the natural removal of residual carbon monoxide from the combustion chamber into the atmosphere.

The boiler operates as follows.

The heat exchanger 8 through the pipe 9 connected to the water supply system is filled with water. Through the door 7, fuel 3 (for example, firewood) is loaded into the combustion chamber 2. Firewood is fired through door 6. The heat generated by the wood rises, heats the water in the heat exchanger 8. The heated water through the pipe 10 enters the heating system. The gases emitted during the combustion of fuel through the pipe 11 of the chimney are naturally discharged into the atmosphere. Carbon monoxide, somehow remaining in the combustion chamber, through the pipe 12 is naturally discharged into the atmosphere, eliminating the poisoning of people.

Claims (1)

A heating and hot water boiler, including a closed combustion chamber, a water jacket, inlet and outlet pipes for supplying cold water to the water jacket and supplying hot water to the heating system, a flue pipe for exhausting exhaust gases into the atmosphere, a loading door for filling combustion products into the combustion chamber , a grate for cleaning the furnace from the remains of combustion products and an ash pan, characterized in that a pipe for removing residual carbon monoxide is installed at the level of the combustion chamber.

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