RU2137U1 - HEATING BOILER - Google Patents

Abstract

1. A heating boiler, comprising a housing with double walls enclosing it, forming a closed cavity in which heated water circulates, a combustion chamber with a burner and a gas channel with pipes located in it, equipped with a pipe for exhaust gases, mounted on the rear wall, characterized in that pipes installed in the gas channel are, for example, perpendicular to the direction of gas flow and connected to the cavity formed by the inner and outer shells of the gas channel, the cavity after day communicated with the cavity of the housing from the rear wall. 2. The boiler according to claim 1, characterized in that on the inner sheets of the side walls of the casing are made protrusions that are tightly adjacent to the outer shell of the gas channel at a distance of no more than 2/3 of its length, and form a window for passing gases from the side of the rear wall of the casing. 3. The boiler according to claim 1, characterized in that the end face of the upper part of the gas channel from the front wall is inclined.

Description

The utility model relates to boiler building and can be used, for example, in heating hot water boilers.

A fire tube and smoke boiler is known that contains a power casing, which in turn consists of a cylindrical strong, power shell, a front and rear flat tube grill, as well as a fire coarse placed inside the power shell. In addition, the boiler contains a rotary chamber and at least one bundle of smoke tubes inside the power shell, see. German application No. 3.130.483, R22B 7/12, 1983).

The disadvantage of such a boiler is that, due to the temperature difference between the walls of the outer shell of the heat pipe and smoke pipes, bending deformations appear in flat pipe gratings, which create sufficiently high stresses that reduce the reliability of the boiler.

Also known is a household heating boiler, consisting of a housing made of hollow outer walls, the internal cavities of which form the water volume of the boiler, covering the combustion chamber from all sides. A convective part is formed to the rear wall of the casing, formed by an external cylindrical shell, inside which longitudinally washable smoke tubes are located. Hot gases pass along the furnace, contact the outer shell of the convective part, and leave the boiler through smokestacks. Japanese application Sh7-23162, R22V 7 / 12.1982).

The disadvantage of such a boiler is the use

in it chimney pipes that are longitudinally washed by heating gases, which reduces thermal efficiency and, in connection with this, increases the metal consumption of the structure.

MEFG - P22B 7/12

Heating boiler

The utility model is aimed at increasing thermal efficiency and reducing metal consumption without compromising reliability.

A distinctive feature of the proposed heating boiler is that the pipes installed in the gas channel are located, for example, perpendicular to the direction of gas flow and are connected to the cavity formed by the outer and inner shells of the gas channel, which is in communication with the body cavity from the rear wall. This will increase thermal efficiency and reduce metal consumption without reducing the reliability of the boiler.

The execution on the inner sheets of the side walls of the casing of the protrusions that are tightly adjacent to the outer shell of the gas channel at a distance of no more than 2/3 of its length with the formation of windows on the side of the housing wall for the passage of gases allows you to organize a gas stream that provides higher thermal efficiency.

The upper end of the gas channel from the front wall side is inclined to organize a stable gas flow.

1a of FIG. I shows a boiler, longitudinal section; in FIG. 2 is a section along AA of FIG. I; in FIG. 3 is a section along S-1 of FIG. I; in FIG. 4 is an embodiment of a gas channel, a section along BB of FIG. I.

The heating boiler has a casing with front walls I, rear 2, side 3, ceiling 4 and hearth 5, bounding it by double walls forming a closed cavity 6, in which heating water circulates, the combustion chamber 7 with a burner 8 mounted on the front wall I and a gas channel 9 made of inner 10 and outer II shells forming a cavity 12 to which are connected mounted perpendicularly or obliquely to the direction of movement of the gas stream of the pipe 13. The gas channel 9 is installed in the combustion chamber 7 with an inclined slope

-i

towards the rear wall 2. The cavity 12 is connected with the cavity 6 from the side of the rear wall 2, and from the side of the ceiling wall 1Ш 4 through the pipe 14. 1 on the inner sheets of the side walls 3 there are protrusions 15, which are tightly adjacent to the outer shell II of the gas channel 9 on a distance of not more than 2/3 of its length and form from the side of the rear wall 2 of the window 16 for the passage of gases. The lower part of the end of the gas channel 9 from the side of the front wall I is closed by a sheet 17 and is tightly adjacent to the latter, and the upper part of this end of the gas channel 9 is made inclined to form an entrance to the flue gases. A pipe 18 is installed on the rear wall 2 for removing flue gases coming from the combustion chamber 7 through the gas channel 9. A pipe 19 is installed in the lower part of the rear wall 2 for supplying feed water to the cavity 6, and a pipe 20 is installed on the ceiling wall 4 for removing cavity 6 of heated water. Pipes 13 can be installed in the gas channel 9 in the corridor order (Fig. I and 2), or in a cross order (Fig. 4). The cross section of the gas channel can be round, square, polyhedral or elliptical.

The heating boiler operates as follows.

Ash-free fuel, such as natural gas, is burned in burner 8. Combustion products - flue gases - fill the combustion chamber 7, in which they are cooled by radiation heat transfer to the water circulating in cavities 6 and 12. Next, the flue gases enter through the windows 16 into the convection part of the boiler. First, moving in a space limited by the ceiling wall 4 and the outer shell II of the gas channel 9, flue gases give off heat to the water circulating in cavities b and 12, and then the flue gases are directed into the gas channel 9 through the inclined upper part of its end, where they cooled by interaction with water circulating in the pipes 13 and cavity 12.

- Cooled flue gases are removed from the gas channel 9 through a pipe 17 mounted on the rear wall 2.

Feed water is supplied to the boiler through the pipe 18, fills the cavity 6 and in contact with the flue gases in the combustion chamber 7, takes away heat from them. Heated water from the cavity 6 enters the cavity 12 from the bottom of the gas channel 9 and is sent to the pipes 13, where the water is additionally heated by heat exchange with dim gases passing through the gas channel 9, then enters the cavity 12 from above the gas channel 9 through the pipe 14 and is removed from the boiler through the pipe 20. Thanks to the installation of the gas channel 9 with a slope towards the rear wall 2, a stable and reliable circulation of the heated water is ensured.

Claims (3)

1. A heating boiler, comprising a housing with double walls enclosing it, forming a closed cavity in which heated water circulates, a combustion chamber with a burner and a gas channel with pipes located in it, equipped with a pipe for exhaust gases, mounted on the rear wall, characterized in that pipes installed in the gas channel are, for example, perpendicular to the direction of gas flow and connected to the cavity formed by the inner and outer shells of the gas channel, the cavity after day communicated with the cavity of the housing from the rear wall.  2. The boiler according to claim 1, characterized in that on the inner sheets of the side walls of the housing there are protrusions that are tightly adjacent to the outer shell of the gas channel at a distance of no more than 2/3 of its length, and form windows for the passage of gases from the side of the rear wall of the housing.  3. The boiler according to claim 1, characterized in that the end face of the upper part of the gas channel from the front wall is inclined.