RU104290U1 - SOLID FUEL WATER HEATING BOILER - Google Patents

Abstract

 1. A solid fuel water boiler comprising a combustion chamber mounted vertically and made in the form of a round or polygonal cylinder, in the double wall of which a container filled with water is formed, an air supply pipe freely moving up and down is inserted in the upper part of the combustion chamber, made in in the form of a telescopic structure, ending with an air distributor based on fuel, water inlet and outlet pipes, characterized in that a common a tank for loading fuel, cleaning ash, servicing the combustion chamber and the air supply device to the combustion area and sealed with two doors, one of which is used for ignition and short-term monitoring of the combustion process, the other for loading the combustion chamber with fuel and servicing the combustion chamber and air supply, and the upper door is made with approaching the lower door, which prevents accidental opening of the lower door and spilling of burning fuel, the air supply pipe consists of at least at least two links, in the connections of which slots are made for the supply and distribution of air throughout the volume of the combustion chamber. ! 2. The water boiler according to claim 1, characterized in that in the upper part of the boiler body there is a heat carrier temperature regulator for regulating and maintaining the heat carrier temperature at a predetermined value.

Description

The utility model relates to energy and can be used to heat individual and industrial premises and other technological needs.

Known firebox containing a housing with a grate and a pipe for supplying secondary air, mounted with the possibility of movement relative to the surface of the grate in the hole of the wall of the housing. An opening is provided in the side wall of the housing, provided with an outer cover with a groove of variable cross section. (1) (A.S. 1048250 F23L 9/02)

A disadvantage of the known design is the limited scope, as well as the rapid combustion of one bookmark of fuel.

Known a furnace for burning granular solid fuel and heating the air of rooms, consisting of a combustion chamber, a feed pipe and a screw device are inserted in its center. Air is supplied to the combustion chamber from above, and granular fuel is charged from below (2) using a screw device (US Pat. No. 4,782,765).

A disadvantage of the known is the design complexity and limited application.

The closest in technical essence and the stated technical tasks is a heating boiler containing a combustion chamber, in the double wall of which a container filled with water is formed with a smoke outlet, fuel loading and ash removal openings, water inlet and outlet pipes. The combustion chamber is installed vertically and made in the form of a round or polygonal cylinder, in the upper part of which a hole is made, into which a freely moving up and down air supply pipe is inserted, ending with an air distributor based on fuel, while the air distributor is made in the form of a hollow disk, in the upper part of which there is a tip for connecting to the air supply pipe, and in the lower part, the head, while in the peripheral part of the disk, in the narrow end of the head and on the side On the head, as well as in the tip, holes are made that communicate with the internal cavity of the air distributor. The area of the air distributor is 0.3-0.5 of the cross-sectional area of the combustion chamber. The air supply pipe is made in the form of a telescopic structure. (3) (EP 005303 F23L 9/02)

A disadvantage of the known is the design complexity and lower reliability in operation, as well as inconvenience when loading fuel.

This utility model is aimed at obtaining a solid fuel hot water boiler with increased operational reliability while simplifying the design, increasing fuel combustion efficiency, and reducing operating and repair costs.

The stated technical problem is solved in that in a solid fuel water boiler containing a combustion chamber mounted vertically and made in the form of a round or polygonal cylinder in the double wall of which a container filled with water is formed, a freely moving up and down moving pipe is inserted in the upper part of the combustion chamber air supply, made in the form of a telescopic structure, ending with a fuel-based air distributor, water supply and drain pipes, according to the proposal of my utility model, in the side of the boiler body there is a common opening for loading fuel, removing ash, servicing the combustion chamber and the air supply device to the combustion area and sealed with two doors, one of which is designed to ignite the boiler and briefly monitor the combustion process, the other is for loading the combustion chamber of the boiler with fuel and servicing the combustion chamber and the air supply device, the upper door being made to enter the lower one, which prevents accidental opening of the lower door and waking up and burning fuel and air supply pipe does not consist of at least two units in the compounds which are made holes for the supply and distribution of air throughout the combustion chamber volume.

In addition, in the upper right part of the boiler body, a heat carrier temperature controller is installed to regulate and maintain the coolant temperature at a given value.

The technical result of the proposed utility model is that the implementation of a common opening closed by hermetically sealed with two doors makes it possible to facilitate timely and quick access to the internal devices of the boiler, which leads to operational reliability of the boiler and reduction of repair costs.

Making slots in the connections of the links of the air supply pipe allows for more complete combustion of fuel, which leads to an increase in boiler efficiency.

The accompanying drawings show: FIG. 1 is a general view of a solid fuel water heating boiler. Figure 2 - device for supplying and distributing air. Fig 3 - slots in the connections of the links of the air supply pipe.

The solid fuel hot water boiler Fig. 1 comprises a combustion chamber 1, in the double wall of which a container 2 filled with water is formed, water supply and exhaust pipes 3, 4. The combustion chamber 1 is mounted vertically in the form of a round or polygonal cylinder, in the upper part of which hole 5, into which a freely moving up and down air supply pipe 6 is inserted, ending with an air distributor 7, which relies on fuel, in the side of the boiler body there is a common opening 8 for loading fuel, cleaning about ash service combustor 1, the air supply pipe 6 and the air distributor 7, sealingly closed by two doors 9, 10. The door 9 is intended for ignition of the boiler and short observation of the combustion process. The door 10 is designed to load the combustion chamber 1 of the boiler with fuel and to service the combustion chamber 1, the air supply pipe 6 and the air distributor 7. Moreover, the upper door 9 is made with the approach to the lower door 10, which prevents accidental opening of the lower door 10 and spilling of burning fuel. The air supply pipe 6 consists of at least two links 11, 12, 13, in the connections of which slots 14 are made for supplying and distributing air throughout the entire volume of the combustion chamber 1.

In addition, in the upper right part of the boiler body there is a temperature controller 15 for regulating and maintaining the temperature of the coolant at a given value.

The solid fuel boiler is as follows.

When pulling the cable 16, the air distributor 7 is raised to the upper position in the place with the air supply pipe 6. In this position, the combustion chamber 1 is released to load fuel 17. Through open doors 9 and 10, fuel 17 is loaded to the maximum. When the door 10 is closed, the cable 16 is released, while the air distributor 7 is based on the fuel loading 17. Through the door 9, with the door 10 closed, the boiler is ignited, after which the door 9 closes.

The heat of combustion of fuel heats the coolant in the tank 2. The heated coolant exits the boiler through the pipe 4. Instead of the heated coolant, cold comes through the pipe 3 to the boiler.

The flue gases, rising upwards along the combustion chamber 1, are mixed with the air coming from the slots 14 of the links 11, 12, 13 of the air supply pipe 6 and burn out, additionally heating the coolant in the tank 2. The combustion products through the cutout 18 pass into the tank 19, where they are heated air in the air supply device of figure 2, and then removed from the boiler through the pipe 20.

The combustion air, passing through the valve 21 of the regulator 15, enters the air supply and distribution device of FIG. 2, where it is heated by the combustion products and enters through the air supply pipe 6 to the air distributor 7, and from it to the combustion area. The amount of air supplied to the combustion area is regulated by the valve 21 of the regulator 15.

When burning fuel loading 17, the fuel level decreases, followed by an air distributor 7, continuously supplying air for burning fuel.

When the fuel load is completely burned, combustion stops. Through open doors 9 and 10, the combustion chamber 1 is cleaned with the air distributor 7 maximally raised.

Claims (2)

1. A solid fuel water boiler comprising a combustion chamber mounted vertically and made in the form of a round or polygonal cylinder, in the double wall of which a container filled with water is formed, an air supply pipe freely moving up and down is inserted in the upper part of the combustion chamber, made in in the form of a telescopic structure, ending with an air distributor based on fuel, water inlet and outlet pipes, characterized in that a common a tank for loading fuel, cleaning ash, servicing the combustion chamber and the air supply device to the combustion area and sealed with two doors, one of which is used for ignition and short-term monitoring of the combustion process, the other for loading the combustion chamber with fuel and servicing the combustion chamber and air supply, and the upper door is made with approaching the lower door, which prevents accidental opening of the lower door and spilling of burning fuel, the air supply pipe consists of at least at least two links, in the connections of which slots are made for the supply and distribution of air throughout the volume of the combustion chamber. 2. The water boiler according to claim 1, characterized in that in the upper part of the boiler body there is a heat carrier temperature regulator for regulating and maintaining the heat carrier temperature at a predetermined value.