RU146582U1 - BOILER HEATING WATER HEATING - Google Patents

Abstract

1. A heating water-heating boiler, comprising a body with double walls forming a cavity for circulating water, with nozzles for supplying cold water and removal of heated water in the body, as well as a nozzle for a temperature regulator and a water temperature indicator and a smoke outlet for connecting to a chimney, the fact that the internal volume of the boiler is made with the allocation of the gas duct and the furnace space, the latter is made with a loading door, a horizontal grate and an ash drawer, p located beneath the grate, and is also equipped with an air supply control flap, characterized in that the boiler body is made in the form of two hollow prisms, an upper prism, the internal volume of which is a gas duct, and an adjacent lower prism, the internal volume of which is a furnace the space, the upper wall of the boiler is made in the form of one face of the upper prism, located horizontally, the side walls of the boiler are symmetrically oriented relative to the vertical axis of the boiler and They are indicated by their constituent parts in the form of faces of the upper and lower prisms, in the internal volume of the gas duct there is a common water tank in communication with the cavity for water circulation, the grate is located between the two components of the side walls that are inclined towards it, and the adjacent inclined components of the side walls gas and furnace spaces, a narrowing of the internal volume of the boiler is formed. 2. Heating boiler according to claim 1, characterized in that the boiler body is made in the form of two straight lines

Description

The utility model relates to thermal engineering and can be used to heat residential buildings, industrial premises and individual residential buildings using solid fuel.

A heating apparatus is known, comprising a housing in which a combustion chamber with a grate in its bottom and with a loading door is placed, as well as a chimney in communication with the combustion chamber, and an ash chamber. Between the walls of the casing, the combustion chamber and the ash chamber there is a cavity of the apparatus for circulating the coolant, while the coolant is water or air. The combustion chamber is made with a visor that separates it with a chimney, while the cavity of the visor is in communication with the cavity of the apparatus. Holes are made in the housing of the heating apparatus for entering the cold coolant into the indicated cavity and for leaving the heated coolant out of it. The loading door is located at the top of the combustion chamber. The front wall of the combustion chamber under the loading door is tilted into the combustion chamber by an angle of 15-75 degrees and contacts the bottom edge or the grate with its lower edge (see RF patent for utility model No. 102765, IPC 8 F24H 1/00, application filing date 20.08. 2010, published on 03/10/2011, "Heating Apparatus").

The known heating apparatus has a shape whose heat-exchange surface area does not contribute to efficient heat transfer, and the wide grate does not provide complete combustion of fuel. In addition, in the space of the combustion chamber above the visor, soot and ash accumulate as a result of the burning of fuel accumulate; therefore, constant cleaning of this space of the combustion chamber is necessary. These circumstances reduce the efficiency of the known heating apparatus.

The closest in technical essence and the achieved technical result is a device containing a housing with double walls forming a water jacket (cavity for water circulation). In the housing there are pipes for supplying cold water and removing heated water, a pipe for a temperature regulator and a water temperature indicator, as well as a flue pipe for connecting to a chimney. The internal volume of the boiler is divided into the flue and furnace space with a visor. The furnace space is made with loading and quick-detachable kindling doors, a horizontal grate and an ash box located under the grate. The quick-detachable kindling door is equipped with an air flow control leaf. In a niche located in the bottom of the boiler of the water jacket, a block of heaters is installed, and a heat exchanger element made in the form of pipes arranged transversely staggered, forming a closed coolant circuit with the cavity of the water jacket (see RF patent for utility model No. 100190, IPC 8 F24H 1/00, application filing date 08/08/2010, published 10/12/2010, "Steel heating boiler").

The well-known steel heating boiler has a rectangular shape of the body and the corresponding rectangular shape of the furnace space, as well as a wide grate, which do not facilitate efficient heat transfer, since “dead zones” are formed in the corners, where, like on a wide grate, fuel burns down completely, which is a disadvantage of this device, which reduces the efficiency of the boiler. In addition, soot accumulates above the visor in the gas duct space, as well as in the corners of the furnace and gas ducts, therefore constant cleaning of the internal volume of the boiler is required, which also reduces the efficiency of the boiler.

The technical result of the claimed utility model is to increase the efficiency of the boiler by increasing the area of the heat exchange surface, the heat transfer rate, and by self-cleaning the internal surfaces of the boiler from combustion products, as well as to increase the strength of the boiler body, due to the design features.

The claimed technical result is achieved by the fact that in the inventive device containing a housing with double walls forming a cavity for circulating water, with the implementation in the housing of pipes for supplying cold water and removal of heated water, as well as a pipe for a temperature regulator and a temperature indicator for water and a smoke pipe for connections to the chimney, despite the fact that the internal volume of the boiler is made with the allocation of the gas duct and the furnace space., the latter is made with a loading door, horizontally According to the utility model, the boiler body is made in the form of two hollow prisms, an upper prism, the internal volume of which is a gas duct, and an adjacent lower prism, according to a utility model, according to a utility model, there is a grate and an ash box located under the grate. , the internal volume of which is a furnace space, the upper wall of the boiler is made in the form of one face of the upper prism, located horizontally, the side walls of the boiler are symmetrically oriented are arranged relative to the vertical axis of the boiler and are formed by their constituent parts in the form of faces of the upper and lower prisms, in the internal volume of the gas duct there is a common water tank connected with the cavity for water circulation, the grate is located between two component parts of the side walls inclined towards it, and adjacent inclined components of the side walls of the flue and furnace spaces, a narrowing of the internal volume of the boiler is formed.

The boiler body is made in the form of two straight hollow adjacent prisms, namely, the upper hexagonal prism and the lower octagonal prism.

The ash box is equipped with an air flow control leaf.

Due to the design of the boiler body in the form of two hollow prisms, the upper prism, the internal volume of which is the gas duct, and the lower prism adjacent to it, the internal volume of which is the combustion space, while the side walls of the boiler are formed by their parts in the form of faces upper and lower prisms, an increase in the area of the heat exchange surface is achieved, which increases the efficiency of heat transfer and the efficiency of the boiler.

In addition, due to the symmetric orientation of the side walls of the boiler relative to the vertical axis of the boiler, as well as the narrowing of the internal volume of the boiler, formed by adjacent inclined components of the side walls of the flue and furnace spaces, favorable conditions are created for the uniform direction of the tongues of flame and heated flue gases up to the chimney, providing maximum flow around with a flame and heated flue gases of all walls of the combustion chamber and gas duct, as well as the general reserve water with water, which improves the intensity of heat transfer and heat transfer efficiency, as a result of which, the efficiency of the boiler also increases.

As a result of the execution of a horizontally located grate, between the two inclined to it, the component parts of the side walls in the furnace space of the boiler, the fuel is rolled onto the grate and its complete combustion, thus, the efficiency of the boiler increases.

In addition, the inclined components of the side walls of the boiler do not allow the combustion products of the fuel to settle on the walls, sliding down the furnace space, thus ensuring self-cleaning of the flue and furnace spaces from the combustion products, which ultimately also increases the efficiency of the boiler.

The design feature of the boiler body, made in the form of two hollow prisms, the upper prism, and the lower prism adjacent to it, is that the ribs of the prisms function as stiffening ribs of the boiler body, thus increasing the structural strength of the boiler body, and as a result, the efficiency increases boiler operation.

The inventive combination of interrelated features, including the most optimal embodiment of the housing in the form of two prisms, an upper hexagonal prism and an adjacent lower octagonal prism, allows for maximum boiler efficiency.

No technical solutions matching the totality of essential features of the utility model have been identified, which allows us to conclude that the utility model meets the patentability criterion of “novelty”.

The patentability condition “industrial applicability” confirms an example of a specific embodiment of a device for a heating boiler.

The inventive utility model is illustrated by drawings.

The figure 1 presents a General view of the boiler heating water heating in a perspective view.

The figure 2 schematically shows the frontal section of the boiler heating water heating.

The patentability condition “industrial applicability” confirms the example of a specific embodiment of the inventive heating water heating boiler, the design of which was based on a model manufactured by the applicant since 2011 in accordance with TU 4931-001-91382450-2011 “Steel heating boiler, powered by solid fuel, Zimovenok model, and having the certificate of conformity of the Russian Federation No. C-RU.AB75.B.00728, TP 0974186.

According to the specified TU 4931-001-91382450-2011, the claimed device of a heating water boiler is based on a device of a steel heating boiler containing a housing 1 with double walls 2 forming a cavity 3 for water circulation. In the housing 1, pipes are made for supplying cold water 4 and for discharging heated water 5, as well as a pipe 6 for a temperature regulator and a water temperature indicator (not shown in the drawings) and a flue pipe (not shown in the drawings) for connecting to a chimney 7.

The boiler body 1 is made in the form of two direct hollow adjacent prisms. Moreover, the upper part of the boiler - the upper prism - is made in the form of a hexagonal prism. The lower part of the boiler - the lower prism - is made in the form of an octagonal prism. One face of the hexagonal prism is the upper wall 8 of the boiler, which is located horizontally. The side walls of the boiler are symmetrically oriented relative to the vertical axis of the boiler and are formed by their constituent parts in the form of faces of the upper and lower prisms. In this case, one side wall is formed by the constituent parts 9.1, 9.2, 9.3, 9.4 and 9.5, and the other side wall of the boiler is formed by the constituent parts 10.1, 10.2, 10.3, 10.4 and 10.5. Preferred tilt angles of adjacent components 9.2 and 9.2, 9.2 and 9.3, as well as 10.1 and 10.2, 10.2 and 10.3, are 90 degrees. Components 9.4 and 10.4 of the side walls are vertically oriented. Component 9.5 of the side wall is parallel to component 9.2, and component 10.5 of the other side wall is parallel to component 10.2.

The front wall 11 and the rear wall 12 of the boiler are arranged vertically. On the front wall 11 of the boiler there is a loading door 13 for supplying fuel through it, as well as a flap for regulating the air supply 14.

The execution of the boiler body 1 in the form of two straight hollow adjacent prisms, an upper hexagonal prism and a lower octagonal prism, while there is no common face of these prisms, allows you to create a single internal space of the boiler. And the narrowing of the internal volume of the boiler, which is formed by the adjacent inclined components 9.2 and 9.3 of one side wall and the inclined components 10.2 and 10.3 of the other side wall, allows you to highlight the flue space 15 in the upper part of the boiler and the furnace space 16 in the lower part of the boiler.

In the flue space 15 there is a common water tank 17 in communication with the cavity 3 for water circulation. The furnace space 16 is made with a grate 18, which is placed horizontally between two side parts 9.5 and 10.5 inclined to it. Under the grate 18 there is an ash box 19 with an air supply control leaf 14.

In figure 1, the positions 20.1, 20.2, 20.3, 20.4, and 20.5 indicate the visible stiffening ribs of the boiler body 1.

Boiler heating works as follows.

The cavity 3 and the common water tank 17 are filled with water. In this case, a water shirt is formed in the cavity 3. Through the loading door 13 in the furnace space 16 lay fuel, for example, firewood and produce ignition of the fuel. During combustion, fuel slides along the inclined components 9.5 and 10.5 onto the narrow grate 18, due to which complete combustion of the fuel occurs. Monitoring the water temperature and controlling the intensity of combustion is carried out by the temperature controller and a water temperature indicator installed in the pipe 6, which automatically opens or closes the sash 14 regulating the air supply.

Due to the narrowing of the internal volume of the boiler, the flames and the heated flue gases are uniformly directed to the chimney 7, while the maximum flow around with the flame and the heated flue gases of all the walls of the flue space 16 and the flue space 15, as well as the common water tank 17. Thus, an intensive heat transfer to the water filling the cavity 3 and the common tank 17.

The ash formed during the combustion of fuel in the furnace space 16, rolls along the inclined component parts 9.5 and 10.5 of the side walls to the grate 18 and wakes up through the grate 18 to the ash box 19.

Soot and ash, which are carried out by incandescent flue gases into the flues 15, roll along the inclined components (9.1, 9.2, 9.3 and 10.1, 10.2, 10.3) of the side walls, the vertical sides of the water tank 17 and the vertical walls 11 and 12 of the boiler to the grate trellis 18.

The combustion chamber 16 of the boiler has a volume of 84 liters, allowing you to load firewood with a length of 55 cm in the amount of 20 kg.

The inventive shape of the boiler body 1, which is an upper hexagonal prism and a lower octagonal prism, due to which the ribs of the prisms act as the stiffening ribs of the boiler, can withstand the working pressure of the coolant 3 kg / cm ² .

The heating boiler is intended for heating water and can be used for space heating with the achievement of the claimed technical result, which allows to increase the boiler efficiency up to 82%.

Claims (3)

1. A heating water-heating boiler, comprising a body with double walls forming a cavity for circulating water, with nozzles for supplying cold water and removal of heated water in the body, as well as a nozzle for a temperature regulator and a water temperature indicator and a smoke outlet for connecting to a chimney, the fact that the internal volume of the boiler is made with the allocation of the gas duct and the furnace space, the latter is made with a loading door, a horizontal grate and an ash drawer, p located beneath the grate, and is also equipped with an air supply control flap, characterized in that the boiler body is made in the form of two hollow prisms, an upper prism, the internal volume of which is a gas duct, and an adjacent lower prism, the internal volume of which is a furnace the space, the upper wall of the boiler is made in the form of one face of the upper prism, located horizontally, the side walls of the boiler are symmetrically oriented relative to the vertical axis of the boiler and They are indicated by their constituent parts in the form of faces of the upper and lower prisms, in the internal volume of the gas duct there is a common water tank connected with the cavity for water circulation, the grate is located between two component parts of the side walls inclined towards it, and adjacent inclined components of the side walls flue and furnace spaces constricted narrowing of the internal volume of the boiler. 2. The heating boiler according to claim 1, characterized in that the boiler body is made in the form of two direct hollow adjacent prisms, namely the upper hexagonal prism and the lower octagonal prism. 3. The heating boiler according to claim 1, characterized in that the ash box is equipped with an air supply control leaf.

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