RU106723U1 - WATER BOILER - Google Patents

Abstract

 1. A hot water boiler comprising a housing in which a furnace is installed; exhaust fan located on the flue gas exhaust pipe; an ash pan, separated from the combustion chamber by a grate and connected to the furnace; hopper; moreover, the furnace is equipped with a rotating grill interacting with the drive mechanism and a fire tube heat exchanger, characterized in that the boiler housing contains: a device for burning fuel, a device for supplying air, a device for regulating the supply of fuel to the furnace, a valve plate designed to prevent spillage small particles of fuel into the passive zone; moreover, a rotating lattice is installed in the device for burning fuel, which is made on the basis of a cylinder in a cylinder principle in the form of a drum; wherein the outer cylinder of larger diameter is formed by concave segments (plates), on the surfaces of which are conical holes; while between the cylinders installed dividing radial ribs forming sectors; while the device for burning fuel is equipped with a grid that separates the small fraction of the fuel from the large fraction; in addition, steel rods are attached along the perimeter of concave plates; moreover, the device for supplying air contains plungers for adjusting the air supply, a blow gap curved along the radius and located between the surfaces of the two cylinders in such a way that covers the maximum number of blast chambers of the device for burning fuel; moreover, the device for adjusting the fuel supply consists of a plate that is mounted on the side of the furnace to the wall of the channel for supplying fuel to the device for burning

Description

The utility model relates to a power system, in particular, to the design of hot water tube boilers.

A device for burning coal fines, containing a furnace with a rotating spiral grate with a drive mechanism, a hopper connected to the furnace, equipped with a feeder, and a fan, in it a grate is made in the form of an inclined cylindrical spiral with end rings interacting with the drive mechanism provided with supporting and drive rollers, and the hopper feeder is made in the form of a rotating drum with funnel-shaped cells on the side surface (see patent RU, N 1242681, MKI4 F 23 V 1/24).

The disadvantages of the device include the need for preliminary fuel preparation, underburning of fuel due to the design features of the feeder drum, which do not allow physicomechanical conditions to form a complete fuel briquette, and its effective shoveling in the grate spiral, accelerated (large) wear of the support-drive units, since they are in the high temperature zone, the manufacture of a spiral grate is a technologically complex process. In addition, it is possible that the helix is warped and access to drive parts is difficult, as they are inside the furnace.

The closest technical solution to the proposed one is a device for burning solid fuel and implemented in the serial Hungarian boiler unit “Karborobot” (Carborobot). One of his descriptions available is presented on the manufacturer's website on the Internet /http://www.carborobot.hu//. The essence of this device is as follows. The device (boiler) has a fuel hopper, from which it is poured through a slot into the furnace onto a movable grate, which is the fuel combustion zone. Periodically, the grate moves, thereby introducing new portions of fuel into the combustion zone and solid residues of combustion are dumped from its opposite end into the ash pan. A fume exhaust fan is installed on the flue gas exhaust pipe. Air is drawn into the furnace through the grate from below and, passing through it, is heated. The fuel that is poured through a slot in the hopper onto the grate is heated by radiation and convection from it before being fed into the combustion zone. Flue gases are removed through a heat exchanger located above the firebox in front of the pipe. In the heat exchanger, water is heated, which is supplied by the pump to the heating circuit of the building. According to the temperature sensors located in the water of the heat exchanger and in the flue gas channel, signals are issued to the controller, which controls the supply of fuel and water, i.e. grill, fan and pump motors.

The disadvantages of the device are: lack of adjustment of the air and fuel; the boiler cannot work on coal and with granules less than 5 mm, since coal clogs the grate with slag, and fine coal falls through it; there is a burn, rolling off the surface of the drum.

The objective of the proposed utility model is to increase the efficiency of the boiler, eliminating the underburning of fuel.

The proposed technical solution, the boiler, is aimed at eliminating the noted drawbacks, and the following technical result can be obtained from its use: expanding operational capabilities through the use of solid fuel, the concept of which includes wood, coal and lignite, coke, wood-shaving (including the so-called "pellets", pressed from sawdust); the possibility of regulating the supply of fuel and air to the furnace, which will lead to the optimization of the combustion process, the reliability of the failure-free operation of the thermal unit and the completeness of fuel combustion, including coal and fine fractions, will increase; increase in effective combustion area.

This is achieved due to the fact that in the boiler a water-heating boiler containing a housing in which are installed: a furnace; exhaust fan located on the flue gas exhaust pipe; an ash pan, separated from the combustion chamber by a grate and connected to the furnace; hopper; at the same time, a rotating grill is installed in the furnace, interacting with the drive mechanism and a fire tube heat exchanger, according to a utility model, the casing is made of all-metal, welded. In the furnace there is a device for burning fuel. A device for burning fuel of a special design is a rotating lattice in the form of a drum formed of two cylinders located one inside the other, the outer cylinder of a larger diameter formed by concave segments (plates), and the inner cylinder of a smaller diameter steel; moreover, between the cylinders mounted dividing radial ribs forming sectors. Air is introduced into the space formed between the surfaces of the cylinders, blasting with adjustment by sectors. The design of the cylinder-to-cylinder device for the combustion of fuel with the even division of the limited space into sectors makes it possible to improve the characteristics of the blast and limit the air supply sector to the furnace. A device for burning fuel provides layer-by-layer combustion of fuel. In addition, the device for burning fuel contains a grid separating the fuel into large and small fractions, which improves the combustion process. Moreover, the presence of concave plates, the surface of which is curved, for example, in the form of an arc of a circle, allows to increase the combustion area. In this case, conical holes are located on the plates. Conical openings provide better blasting and prevent small particles of fuel from spilling into the blasting chamber. The size and number of holes is determined by calculation. At the same time, steel bars are welded around the perimeter of the plates, which allow fuel to be held on the combustion surface. At the same time, a device for burning fuel is mounted rotatably on a horizontal shaft by a stepper mechanism drive, the rotation speed is set by the automatic control unit. At the same time, the housing also contains: a device for supplying air, a device for regulating the supply of fuel to the furnace, and a plate - a valve to prevent spillage of small fuel particles into the passive zone. Moreover, the device for supplying air contains plungers for adjusting the air supply; a blast gap radially curved and located between the surfaces of two cylinders, so that it covers the maximum number of blast chambers of the device for burning fuel and provides the necessary conditions for burning fuel in the furnace. Moreover, the device for adjusting the fuel supply consists of plates that are mounted from the side of the furnace to the wall of the channel for supplying fuel to the device for burning fuel with the ability to move vertically and change the gap (A) above the device for burning fuel; moreover, the boiler has a thermal insulation coating. Moreover, an acrylic coating based on microspheres is used as a thermal insulation coating. Moreover, the coating is applied to the outer surfaces of the boiler, a device for burning fuel, funnels and containers for collecting slag and ash.

The utility model is illustrated by drawings.

Figure 1 - boiler, General view.

Figure 2 is the same, a device for burning fuel, General view.

Figure 3 is the same, a device for burning fuel,

Figure 4 - the same device for air supply, General view.

In Fig.5 - the same device for supplying air, view A in Fig.4.

In Fig.6 - the same device for supplying air, view B in Fig.4.

Figure 7 is the same, the device for supplying air, section bb in figure 4.

On Fig - the same, a device for adjusting the fuel supply, fragment.

The positions in the figures indicate: firebox (1); fire tube heat exchanger (2); fuel hopper (3); ash slag (4); a device for burning fuel (5); drive device for burning fuel (6); air supply device (8); secondary air hatch (9); inspection hatch (10); a pipe for supplying water (11); branch pipe for water drainage (12); smoke exhaust duct (13); throttle for adjusting traction (14); ash pan cleaning hatch (15); slag storage hatch (16); hatch (17) for servicing the heat exchanger (2); valve plate (18); automatic control unit (19); slag container (20); ash container (21); funnel (22) for collecting slag and ash; a device for adjusting the fuel supply (23); mesh (24); concave plate (25); bar (26); conical holes (27); blast chamber (28); plunger (29); blow gap (30); cylinder (31); cylinder (32); plate (33), dividing radial ribs (34).

Hot water boiler contains:

- Boiler body (combustion chamber and heat exchanger).

A device for burning fuel (figure 2):

- The device for burning fuel provides layer-by-layer combustion of fuel.

- The grid (24) separates the fuel on the device into coarse and fine fractions, thereby providing a volumetric combustion process, which improves its characteristics.

- Increases the combustion area due to the concave surface of the plates (25 figure 3).

- The rods (26) allow the fuel to be held on the combustion surface at the moment when the sector acquires an inclined position when turning.

- The conical holes (27) on the plates (25) provide better blasting and prevent small particles of fuel from pouring into the blasting chamber (28). The size and number of holes is determined by calculation.

- The design of the cylinder-to-cylinder combustion device with uniform division into sectors allows improving the characteristics of the blast due to the regulation of the air supply to each individual sector by the plungers (29).

- Plate-valve (18 figure 1): the use of the plate-valve allows you to increase the angle of the sector and to prevent spilling of fuel in the direction opposite to the rotation of the drum in the device for burning fuel.

Device for supplying air (Fig.4-7).

- The device for supplying air provides air in the blast chambers (28) of the drum in the device for burning fuel. Provides adjustment of fuel combustion.

- The air supply is adjusted by moving the plungers (29) and overlapping grooves for air intake from the boiler room.

- The shape and dimensions of the blow gap (30) are determined by calculation and ensure the transmission of the maximum amount of air necessary for the combustion of fuel.

- The blow slot (30) is curved in radius and located between the surfaces of the cylinders, covers the maximum number of blast chambers of the device for burning fuel and provides the necessary conditions for burning fuel in the furnace.

Device for adjusting the fuel supply (Fig. 8)

- A device for adjusting the supply of fuel to the furnace, provides flexible adjustment of the fuel supply to the furnace of the boiler during rotation of the drum.

- Consists of a plate (33), which is mounted on the side of the furnace to the wall of the channel for supplying fuel to the device for burning fuel. The plate has the ability to move vertically and change the gap (A) above the device for burning fuel. The movement of the plate is carried out by a lever mechanism (23).

Thermal insulation coating.

- For thermal insulation, an acrylic coating based on microspheres is used. The coating is applied to the outer surfaces of the boiler, a device for burning fuel, funnels and containers for collecting slag and ash.

The device operates as follows.

The boiler has a fuel tank, from which it is poured through a slot into the furnace onto a movable grate (drum), which is the fuel combustion zone. Periodically, the drum moves, thereby introducing new portions of fuel into the combustion zone and solid residues of combustion are dumped from its opposite end into the ash pan. A fume exhaust fan is installed on the flue gas exhaust pipe (not shown in the figures). Air is drawn into the furnace through the inter-cylinder space and, passing through it, is heated. The fuel that is poured through a slot in the hopper onto the grate is heated by radiation and convection from it before being fed into the combustion zone. Flue gases are removed through a flame tube heat exchanger. In the heat exchanger, water is heated, which is supplied by the pump to the heating circuit of the building. According to the temperature sensors located in the heat exchanger line, signals are sent to the controller, which controls the supply of fuel and air, i.e. engines of rotation of the drums and fan.

Solid fuel boilers are gaining in popularity. Saving money today is becoming the most important task for any owner. A solid fuel boiler is especially relevant due to the constant increase in fuel prices - energy resources. Modern solid fuel boilers are convenient and safe.

The proposed device, in contrast to the prototype:

- less material intensive;

- does not require iron casting;

- it is possible to adjust the supply of coal to the furnace and air to separate combustion zones;

- the ability to service cleaning slagged holes;

- another type of coating.

Wherein:

- A device for burning fuel provides layer-by-layer combustion of fuel; separation of fuel on the device into large and small fractions, which improves the combustion process; increase in combustion area due to the concave surface of the plate and mesh; retention of fuel on the combustion surface; better blasting and no spilling of small particles of fuel into the blasting chamber, volumetric combustion.

- The use of a valve plate allows you to increase the angle of the sector on the surface of which the fuel is burning; it does not allow the small fraction of fuel to be poured from the drum; it excludes the spilling of fuel in the opposite direction from the rotating cylinder.

- The blast gap is bent in radius and located between the surfaces of the cylinders, covers the required number of blast chambers of the device for burning fuel and provides optimal conditions for burning fuel in the furnace.

- For thermal insulation, an acrylic coating based on microspheres is used. The coating is applied to the outer surfaces of the boiler, a device for burning fuel, funnels and containers for collecting slag and ash.

These principles allow you to automate the combustion process and achieve its efficiency, efficiency of at least 85% with high environmental parameters. These principles actually determine the original layout of the boiler.

Claims (2)

1. A hot water boiler comprising a housing in which a furnace is installed; exhaust fan located on the flue gas exhaust pipe; an ash pan, separated from the combustion chamber by a grate and connected to the furnace; hopper; moreover, the furnace is equipped with a rotating grill interacting with the drive mechanism and a fire tube heat exchanger, characterized in that the boiler housing contains: a device for burning fuel, a device for supplying air, a device for regulating the supply of fuel to the furnace, a valve plate designed to prevent spillage small particles of fuel into the passive zone; moreover, a rotating lattice is installed in the device for burning fuel, which is made on the basis of a cylinder in a cylinder principle in the form of a drum; wherein the outer cylinder of larger diameter is formed by concave segments (plates), on the surfaces of which are conical holes; while between the cylinders installed dividing radial ribs forming sectors; while the device for burning fuel is equipped with a grid that separates the small fraction of the fuel from the large fraction; in addition, steel rods are attached along the perimeter of concave plates; moreover, the device for supplying air contains plungers for adjusting the air supply, a blow gap curved along the radius and located between the surfaces of the two cylinders in such a way that covers the maximum number of blast chambers of the device for burning fuel; moreover, the device for adjusting the fuel supply consists of a plate that is mounted on the side of the furnace to the wall of the channel for supplying fuel to the device for burning fuel with the ability to move vertically and change the gap (A) above the device for burning fuel; moreover, the boiler has a thermal insulation coating, which is used as an acrylic coating based on microspheres. 2. The boiler according to claim 1, characterized in that it comprises a welded, all-metal body.