RU142739U1 - BOILER - Google Patents

Abstract

1. A heating boiler comprising a vertical cylindrical body, a casing mounted on the boiler body with a water jacket, a cylindrical heat exchanger installed in the upper part of the boiler body with a gap, a combustion chamber installed in the lower part of the boiler body and in which a hole for supplying fuel is made , doorway, air supply means, characterized in that an inclined evaporation platform is installed in the fuel combustion chamber so that the upper edge of the inclined evaporation platform is located with orons of the doorway, and the fuel supply hole is made from the side of the doorway and the fuel supply pipe is installed in it, while the fuel supply pipe is installed directly on the upper edge of the inclined evaporation platform, and the air supply means is made in the form of a fan mounted on the bottom of the boiler casing .2. The boiler according to claim 1, characterized in that the heat exchanger additionally has three through vertical channels. The boiler according to claim 1, characterized in that the air supply openings to the combustion chamber are made at an angle to the vertical axis of the boiler. 4. The boiler according to claim 1, characterized in that the fuel supply opening is made at an angle to the vertical axis of the boiler, and the fuel supply pipe is installed with an inclination to the vertical. The boiler according to claim 1, characterized in that the inclined evaporation platform is made with a recess. 6. The boiler according to claim 1, characterized in that the fan is removable and fixed tightly to the boiler body by means of an elastic suspension. 7. The boiler according to claim 1, characterized in that between the combustion chamber of the fuel and the fan are additionally installed thermal shields

Description

The technical field to which the utility model relates.

The utility model relates to the field of heating, namely to the design of heating devices for heating domestic, technical and industrial premises. For example, for heating garages, service stations, factory floors, etc. The specified water boiler operates on liquid hydrocarbons, such as diesel fuel, waste oil of various internal combustion engines, gear oil and vegetable oil.

State of the art

There are many technical solutions used to heat rooms in which liquid fuel is used to produce heat.

Known from the prior art (RU 2363888, F24B 1/183 (2006.01) F24H 1/12 publ. 08/10/2009) A solid fuel boiler comprising a body with steel double walls forming a water jacket, at least one convective air-gas passage located between the water heating pipes and connected to the gas collection manifold, a filling hopper that closes to the combustion chamber with a grate, under which primary air supply means and an ash hopper, the lower cold water supply pipe and the upper pipe are located hot water outlet, characterized in that in the inner space of the casing the double walls form an additional water jacket in the form of frontally located upper and lower protrusions, where a heat-reflecting barrier of refractory material is installed on the lower protrusion of the water jacket, forming a slotted nozzle directed upward with the upper protrusion, located in the combustion zone and abutting against the outer opposite walls of the housing with their ends, in which at least one through a hole for supplying secondary air to the slotted nozzle in the combustion zone, while the water heating pipes are flow-connected to the water jacket of the outer opposite walls of the housing, and the gas collector is located in the lower part of the combustion chamber in the outer wall of the housing. The disadvantage of this technical solution is the low efficiency of fuel combustion low efficiency.

Also known from the prior art is a household hot water boiler (RU 77028, F24H 1/00, published 10.10.2008) comprising a combustion chamber framed by a water jacket, with a grate and door, an ash chamber, hot water pipes connected to a chimney, and equipped with an additional heater - electric heaters in the cavity of the water jacket, having a thermal sensor, a thermal relay and a starter, characterized in that it contains a liquid fuel combustion chamber, which is supplied drip from a hinged tank mounted on the outside of the boiler, on the other side of the boiler, near which the combustion chamber is located, moreover, the solid fuel combustion chamber occupies only a part of the internal space of the boiler, its grates and the side wall opposite to the wall of the combustion chamber adjacent to the water jacket is made of hollow pipes, filled with coolant, which ends are connected to the boiler water jacket, the space free from the combustion chamber is used as the combustion chamber of liquid fuel supplied from the tank; a charge pipe passes through both combustion and combustion chambers, through which the boost fan, mounted next to the tank, delivers outside air to the bottom of the combustion chamber, where liquid fuel is poured through the pipeline, while the boost pipe has a technological cut for supplying hot air to the place of combustion of liquid fuel, and ends with a plug .. The disadvantage of this technical solution is poor fuel combustion efficiency, low efficiency.

Another analogue of the claimed utility model is a hot-water heating boiler (RU 2186302, F24H 1/40, published July 27, 2002) containing a chamber firebox with a grate, a vertical afterburner consisting of two coaxial shells with an integrated convection tube bundle, and a cooling system the furnace and heating the coolant in it and the front loading door, characterized in that the furnace cooling system is made in the form of a one- or multi-way pipe grate suspended by a pipe to the afterburner, while the boiler is equipped with additionally rear boot device, the flue gas recirculation system with a slotted ejection pipetting system low grade fuel of fossil fuels and the backup coolant electrically .. The disadvantage of this technical solution is the low efficiency of fuel combustion, low efficiency.

Another heating furnace is known from the prior art (see RU 12721 U1, F24C 13/00, publ. 01/27/2000), comprising a heat exchanger, a housing, inside which there is a combustion chamber with a grate and an ash pan located under it, moreover, the furnace is made collapsible, the housing is made of brick, while the bricks are reinforced with a frame, drilled, strung on rods, the lower ends of which are attached to the bottom of the frame, and the furnace is equipped with a burner placed on the side wall of the combustion chamber, the heat exchanger is mounted on the housing, fixed clamping the frame to the body frame, and the radiation part facing the combustion chamber, wherein the shape of the heat exchanger is designed as a prism, for example, octagonal. The disadvantage of this technical solution is the low efficiency of fuel combustion, low efficiency.

The closest analogue of the claimed utility model is a water boiler (see RU 2293258, F24H 1/24, publ. 02/10/2007) containing a firebox with a burner including a fuel supply opening, a gas duct and a heat exchanger made in the form of three concentrically mounted cylinders, forming interconnected external and internal reservoirs filled with coolant and an intermediate cavity located between the reservoirs, the gas duct consisting of a linear part and a spiral-shaped part formed between the internal cavity with a spiral wall, is equipped with an upper level combustion air duct with slit-like grooves located in the upper part of the furnace, the burner being made expanding upward in a cup-like shape with slot-like grooves on the side surface for supplying air for burning fuel, and the fuel supply opening is made in its lower parts. The disadvantage of this technical solution is the low efficiency of fuel combustion, low efficiency.

Utility Model Essence

The problem solved by the claimed utility model is to increase the boiler efficiency, increase the fire safety and reliability of the heating boiler, ensure fire safety and manufacturability, and also increase the area of the heated room.

The technical result of the proposed utility model is to intensify the combustion and heat transfer processes, increase the efficiency of fuel combustion.

The specified technical result is ensured by the fact that the heating boiler contains a vertical cylindrical boiler body, a boiler casing mounted on the boiler body with the formation of a water jacket, a cylindrical heat exchanger installed in the upper part of the boiler body with a gap, a combustion chamber installed in the lower part of the body the boiler and in which a hole for supplying fuel, a doorway, an air supply means is made, characterized in that an inclined evaporation area is installed in the fuel combustion chamber so that the upper edge of the inclined evaporation platform is located on the side of the doorway, and the fuel supply hole is made on the side of the doorway into which the fuel supply pipe is installed, while the fuel supply pipe is installed directly on the upper edge of the inclined evaporation platform, and the supply means air is made in the form of a fan, mounted on the bottom of the boiler casing.

According to the embodiment of the claimed utility model, three through vertical channels are additionally made in the heat exchanger.

According to an embodiment of the claimed utility model, the air supply openings to the combustion chamber are made at an angle to the vertical axis of the boiler.

According to the embodiment of the claimed utility model, the fuel supply opening is made at an angle to the vertical axis of the boiler, and the fuel supply pipe is installed with an inclination to the vertical.

According to the embodiment of the claimed utility model, the inclined evaporation pad is made with a recess.

According to the embodiment of the claimed utility model, the fan is removable and fixed tightly to the boiler body by means of an elastic suspension.

According to an embodiment of the claimed utility model, heat shields are additionally installed between the fuel combustion chamber and the fan.

Brief Description of the Drawings

Details, features, and advantages of this utility model follow from the following description of examples of implementation of the claimed heating boiler using the drawings (Fig. 1-5).

In FIG. 1 - sectional view of a boiler design.

In FIG. 2 - sectional view of the boiler heat exchanger.

In FIG. 3 - fuel combustion chamber.

In FIG. 4 - inclined evaporation pad.

In FIG. 5 - shows the location of thermal screens relative to each other.

In FIG. 6 - boiler body with installed inclined evaporation platform.

In the figures, the numbers indicate the following positions: 1 - boiler body; 2 - casing of the boiler; 3 - heat exchanger; 4 - fuel combustion chamber; 5 - air supply openings; 6 - fuel supply pipe; 7 - inclined evaporation pad; 8 - doorway; 9 - fan; 10 - through channels of the heat exchanger; 11 - thermal shields; 12 - coolant supply openings; 13 - connecting tubes; 14 - boiler cover; 15 - legs of the boiler; 16 - holes of the coolant; 17 - pipe exhaust gas.

Utility Model Disclosure

The boiler consists of a casing (1), a casing (2), mounted on the boiler casing with the formation of a sealed water jacket, a heat exchanger (3) installed in the upper part of the boiler casing and connected to the boiler water jacket by means of connecting tubes (13); a combustion chamber (4) installed in the lower part of the boiler body (1), an air supply fan (9), a fuel supply pipe (6).

The boiler body (1) is made of a hollow vertical steel cylinder, inside the upper part of which a heat exchanger (3) is installed with a gap. A cylindrical combustion chamber (4) of fuel is installed in the lower part of the boiler body. In the area of the combustion chamber, a doorway (8) is made in the boiler body and a boiler door is installed.

The combustion chamber (4) of the fuel is cylindrical, smaller in diameter than the boiler body (1). At the same time, a flange is installed on the upper part of the cylindrical combustion chamber (4), by means of which the fuel combustion chamber is fixed inside the boiler body (1). An inclined evaporation pad (7) is installed on the legs at the bottom of the fuel combustion chamber.

The evaporation pad (7) is made of a thin heat-resistant sheet of metal. Inclined evaporation pad (7) is made expanding from the upper edge to the lower. In this case, the inclined evaporation platform (7) is made with a recess and is installed so that its upper edge is located on the side of the doorway (8).

A hole is made in the fuel combustion chamber (4) for installing a copper tube (6) for supplying fuel to it. The specified fuel supply pipe (6) is configured to be installed inside the combustion chamber (4) directly on the upper edge of the inclined evaporation pad (7) at an angle to the combustion chamber (4).

Air supply openings (5) are made in the fuel combustion chamber (4), which are necessary for air to enter the combustion chamber and to ensure high-quality mixing of fuel vapors with incoming air, and, therefore, for efficient combustion of fuel, as well as for the formation of a flame that does not contact with a combustion chamber (4), which prevents intensive wear of the combustion chamber.

The air supply openings (5) in the combustion chamber are made in a row around the circumference of the combustion chamber (4). These holes (5) can also be made with an inclination to the vertical axis of the boiler.

The specified hole (5) in the combustion chamber of the fuel (4) contribute to the additional creation of a vortex air flow, which contributes to an additional tightening of the flame and complete combustion of the fuel.

A heat exchanger (3) is installed in the upper part of the boiler body (1). The heat exchanger (3) is made in the form of a steel hollow cylinder with hermetically sealed upper and lower bases, while in the upper and lower parts of the side surface of the heat exchanger the connecting tubes (13) for exchanging the heat carrier from the heat exchanger to the water jacket are installed.

In the heat exchanger (3) from its lower base to the upper, three through vertical channels (10) are additionally made. The said channels (10) are formed by installing three tubes in the cavity of the heat exchanger, designed for the passage of ascending hot gases and additional heat transfer through them.

The casing (2) of the boiler is a vertical jacket with a cover (14), while the cover of the casing (2) is simultaneously the cover of the boiler body (1).

The casing (2) of the boiler is hermetically mounted on the casing (1) of the boiler with a gap, which is designed to circulate the coolant between the casing (1) and the casing (2) of the boiler.

An opening is made in the casing (2) of the boiler in the vicinity of the boiler door, while the casing (2) of the boiler is fixed to the casing (1) of the boiler in the region of the doorway (8) by means of a transition frame (not shown in Fig.).

In this case, the casing (2) of the boiler, unlike the cylindrical body (1) of the boiler, can be made with a cross section of any shape, for example, polygonal, rectangular, oval, round, etc.

In the casing (2) of the boiler, holes are made for installing the supply pipes (12) and the outlet (16) of the coolant in them and connecting the claimed boiler by means of these pipes to a closed heating system.

The cover (14) of the boiler casing is a metal disk made in the form of a section of the casing (2) of the boiler, with a branch pipe (17) for exhaust gas discharge installed in it.

The fan (9) is a channel (centrifugal) with a capacity of 1000 m ³ per hour. The fan is designed to pump air into the space of the combustion chamber (4) through the holes made in it (5). The fan (9) is tightly mounted on the boiler body (1) by means of a spring suspension. The fan is removable for ease of maintenance and repair without dismantling the boiler.

In addition, the fan (9), located directly below the combustion chamber (4), intensively cools the bottom of the combustion chamber (4), as a result of which a limitation of the volume of combustible fuel that has uncontrolledly entered the combustion chamber (4) is achieved, i.e. only that fuel burns that enters the inclined evaporation pad (7), raised from the bottom of the combustion chamber (4) on the legs.

If the amount of incoming fuel exceeds the maximum possible amount ensuring normal combustion (which is an emergency), then excess fuel flows down an inclined evaporation platform to the cooled bottom of the combustion chamber, where combustion does not occur. At the same time, surplus fuel accumulates at the bottom of the combustion chamber and the inclined evaporation platform gradually plunges into the accumulated volume of non-burning fuel, fuel combustion stops and the boiler stops working. Thus, the fire safety of the specified heating boiler, made according to the claimed utility model, is additionally ensured.

To protect the fan from high temperatures, heat shields are installed between the fuel combustion chamber and the fan, which are square metal plates installed at a distance and offset along the vertical axis from each other.

The claimed boiler operates as follows:

Liquid fuel supplied to a pre-heated inclined evaporation pad located inside the combustion chamber spreads in a thin layer over the entire width of the inclined evaporation pad without forming a significant amount of liquid fuel. Thus, uncontrolled burning of significant volumes of liquid fuel is prevented and the fire safety of the claimed heating boiler is increased.

The resulting carbon is wetted by the newly incoming liquid fuel and burns, thus increasing the interval between maintenance of the declared boiler. The flame swirls around the axis of the vortex air flow formed by making holes in the combustion chamber. Power adjustment is carried out by adjusting the supply of liquid fuel.

The fan located at the bottom of the boiler pumps air into the combustion chamber. Hot air and high-temperature exhaust gases, blowing the inner surface of the boiler body, as well as the heat exchanger body and its channels, heat the coolant. Hot coolant is supplied to the closed heating system, and the exhaust gases enter the chimney and are removed from the room to the street.

Fuel is supplied either by gravity from a tank installed above the level of the combustion chamber, or by means of an electromechanical fuel pump with adjustable fuel supply.

On the fuel supply pipe, directly next to the fuel tank, a tap is installed to shut off the fuel supply. Also, on the fuel supply pipe between the valve and the tank, it is possible to install a normally-closed solenoid valve, which closes when the mains voltage is disconnected (in the event of an emergency power outage), stopping the fuel supply to the combustion chamber. This design allows you to further increase the safety of the boiler.

Claims (7)

1. A heating boiler comprising a vertical cylindrical body, a casing mounted on the boiler body with a water jacket, a cylindrical heat exchanger installed in the upper part of the boiler body with a gap, a combustion chamber installed in the lower part of the boiler body and in which a hole for supplying fuel is made , doorway, air supply means, characterized in that an inclined evaporation platform is installed in the fuel combustion chamber so that the upper edge of the inclined evaporation platform is located with orons of the doorway, and the fuel supply hole is made from the side of the doorway and the fuel supply pipe is installed in it, while the fuel supply pipe is installed directly on the upper edge of the inclined evaporation platform, and the air supply means is made in the form of a fan mounted on the bottom of the boiler casing . 2. The boiler according to claim 1, characterized in that the heat exchanger additionally has three through vertical channels. 3. The boiler according to claim 1, characterized in that the air supply openings to the combustion chamber are made at an angle to the vertical axis of the boiler. 4. The boiler according to claim 1, characterized in that the fuel supply opening is made at an angle to the vertical axis of the boiler, and the fuel supply pipe is installed with an inclination to the vertical. 5. The boiler according to claim 1, characterized in that the inclined evaporation platform is made with a recess. 6. The boiler according to claim 1, characterized in that the fan is removable and fixed tightly to the boiler body by means of an elastic suspension. 7. The boiler according to claim 1, characterized in that heat shields are additionally installed between the fuel combustion chamber and the fan.