RU138314U1 - GAS CONVECTOR - Google Patents

Abstract

1. A gas convector, comprising a housing with convective pipes placed therein, forming a combustion chamber, on the inclined parts of which gas guards are fixed, a chimney, characterized in that the combustion chamber is equipped with a gas burner, lower and upper screens are fixed in the lower part of the housing, in the latter an opening for supplying air to the burner is made, the chimney is equipped with a stabilizer and a draft sensor associated with a gas supply shutoff valve in the control and automation unit. 2. The gas convector according to claim 1, characterized in that the burner is equipped with a control and automation unit.

Description

The invention relates to devices for air heating of premises for various purposes, applicable in everyday life and small industrial premises when using natural or liquefied gases as fuel.

Known catalytic gas convector (1. Pat. RF No. 2181463, IPC: F24C 3/00, publ. 04/20/2002) relating to household heating appliances of low power, operating on liquefied gas and used for periodic heating of household premises with natural ventilation. It consists of a housing with tubular catalytic heating elements, a convector start system, a gas flow stabilizer, a thermoelectric converter, a temperature regulator sensor, and pipelines for supplying gas.

The disadvantages of this technical solution are: 1. Work on expensive liquefied gas; 2. Undesirability of use as permanent heating for sanitary conditions and the need for ventilation of a heated room; 3. The inexpediency of creating a convector of greater power due to the high price of components for catalysis and the liquefied gas itself, which limits its scope.

The closest technical solution selected for the prototype is a heating device for air heating of rooms (2. Pat. RF №2242679, IPC: F24B 5/06, 7/02, publ. Bull. No. 35 from 12/20/2004), comprising a casing having side, rear and front walls, a cover, a grate in the bottom, an ash pan and a chimney, while in the casing along the side walls are sealed in the bottom and in the openings on opposite side walls, convective tubes crossing at the top, forming a combustion chamber, consisting of from the bottom of the firebox with d ertsey and the upper zone of the tube and mounted for supplying secondary air in the upper zone, said convection tube are open ends communicated with the ambient air. The upper part of the casing with the front wall is made protruding forward above the firebox door, and in the combustion chamber the firebox and the upper zone form a single space. Along the front and rear walls are hermetically fixed in the lid and, accordingly, in the bottom of the upper part of the casing protruding forward and in its bottom, convective tubes shielding the combustion chamber having open ends communicating with the surrounding air, and lower and upper gas guards, forming the lower and upper gas ducts with them, respectively, the upper gas guides being interconnected, forming a dihedral angle, and tubes for feeding secondary air is installed in front of the entrance to the lower ducts, bent towards the air flow in the convective tubes shielding the combustion chamber and fixed on them.

This technical solution is a good solid fuel heat exchanger, however, it is not convenient enough to operate due to the inability to automate its operation.

The problem solved by the claimed technical solution is to create a new device, a gas convector, designed for air heating of rooms, convenient in operation and easily amenable to automation due to the use of gas as fuel.

The problem is solved due to the fact that in the inventive gas convector, comprising a housing with convective tubes placed therein, forming a combustion chamber, on the inclined parts of which gas guards are fixed, and the chimney, the furnace is equipped with a gas burner, the lower and upper screens are fixed in the lower part of the housing , in the latter, an opening was made for supplying air to the burner, the chimney is equipped with a stabilizer and a draft sensor; the latter is interfaced with a gas shut-off valve in the control and automation unit.

A patent search showed that this technical solution has novelty, since no technical solutions of the same purpose have been found that have a combination of the claimed distinguishing features.

The salient features of the claimed technical solution are:

- the furnace is equipped with a gas burner;

- the lower and upper screens are fixed in the lower part of the case;

- in the upper screen, an opening is made for supplying air to the burner;

- the chimney is equipped with a stabilizer and a draft sensor associated with a gas shut-off valve in the control and automation unit.

The screens in the lower part of the casing are designed to eliminate the radiation effect of the burner flame on the lower part of the casing and provide fire safety.

The hole in the upper screen, combined with the holes in the lower part of the housing, provide secondary air to the burner, which is necessary for complete combustion.

The draft sensor and stabilizer serve the safe operation of the convector by monitoring the presence of draft in the chimney.

The combination of these distinctive features of the proposed technical solution allows us to solve the problem.

The essence of the technical solution is illustrated by the drawings: In FIG. 1 shows a schematic general view of a gas convector (front view), FIG. 2 is the same (side view), in FIG. 3 is a longitudinal section, FIG. No. 4 is a transverse section.

The gas converter includes a housing 1, equipped with a furnace door 3 with glass 4, a chimney 5 with a stabilizer 6 and a draft sensor 18, which has openings for air supply 8. The housing inside is equipped with convective pipes 7, gas guards - top 10 and bottom 11, located on inclined sections of convective pipes 7. In the lower part of the housing there are screens: lower 12 and upper 13, in the upper screen 13 an opening 14 is made for air supply to the burner 15. The burner 15 is equipped with a control and automation unit 9, has a collector 16 and a gas supply fitting 17. Woe The panel 15 is fixed in the furnace with the help of the connecting panel 19, and its control unit is covered with a protective panel 20. The gas convector body has a protective fence 2.

The convector starts with the start of the gas burner 15 and the installation of the required power on the control and automation unit 9 - according to the instructions for using this burner (the device of the gas burner, which is a finished product, is not considered in the application). The gas stream entering the burner, injecting primary air, forms a combustible mixture, which, in turn, forms and maintains a constant flame above the burner outlet openings. Secondary air, entering the discharged space of the furnace through openings 8 and the opening 14 of the upper screen 13, further contributes to the combustion process and its completeness. The heat-transfer surfaces of the convector, its body 1 and convective pipes 7, perceiving the radiant heat of the flame of the burner and the heat of the gas stream resulting from combustion, transfer it to the heated room mainly due to convection. So the air of the room in contact with the heated walls of the housing 1 and convection pipes 7 and heated from them, continuously rises to the upper layers of the room, freeing access to these walls from the air in the lower layers of the room. Waste, exhaust gases are removed through a chimney into the atmosphere. In the absence of draft in the chimney, flue gases rush towards the draft sensor 18 and increase its temperature. Upon reaching the set temperature, the contacts of the traction sensor close the electric circuit of the drive of the gas supply valve to the burner. Thus, the dangerous operation of the burner in the absence of traction is terminated.

The technical result is expressed in the fact that the claimed technical solution allows you to automate the heating process, to achieve a constant set temperature in a heated room, to improve the sanitary conditions in this room, and while maintaining the existing prices for natural gas, reduce the current heating costs by about half relative to solid fuels (wood and coal).

Claims (2)

1. A gas convector comprising a housing with convective pipes placed therein that form a combustion chamber, on the inclined parts of which gas guards are fixed, a chimney, characterized in that the combustion chamber is equipped with a gas burner, lower and upper screens are fixed in the lower part of the housing, in the latter an opening was made for air supply to the burner, the chimney is equipped with a stabilizer and a draft sensor, coupled with a gas supply shutoff valve in the control and automation unit. 2. The gas convector according to claim 1, characterized in that the burner is equipped with a control and automation unit.

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