RU2610985C1 - Hot-water heat-tube boiler with scroll-type turbulators - Google Patents

Abstract

FIELD: heat-and-power engineering.

SUBSTANCE: invention relates to heat engineering and can be used for heating of coolant in heating systems and hot water supply systems for housing and communal services, domestic and industrial needs. Hot-water heat-tube boiler with scroll-type turbulators consists of casing, arranged horizontally, fenced from one side with cover of refractory material on other side with back wall of flue gas collector, and coated with heat insulation. In cover around hole for burner installation grooves are made uniformly, forming channels of scroll-type turbulators. Inside central part of casing combustion chamber is located, around which smoke tubes are arranged, connected with one ends with appropriate turbulators and with others – with holes in front wall of flue gas collector, which is located in rear part of casing with its plane perpendicular to fire tubes. In upper part of casing there are discharge and supply pipelines, interconnected by water volume, as well as waste gas exhaust channel, located at outlet of flue gas collector.

EFFECT: technical result is increased service life and reducing metal consumption of convective heating surfaces.

1 cl, 4 dwg

Description

The invention relates to a power system and can be used to heat a coolant in heating systems and hot water supply for housing and communal services, domestic and industrial needs.

Known domestic water heater (RU 2105249 C1, IPC ⁶ F24H 1/26, publ. 02.20.1998) containing a smoke extinguishing device placed in a drum with a water jacket, and using mainly gaseous or liquid fuel. The smoke extinguishing device consists of a smoke tube, a heat transfer enhancer and a screw extension of the gas stream. The heat transfer intensifier is located in the zone of low heat transfer of the pipe, and the screw extension of the gas stream (made in the form of a spiral strip and placed on the heat transfer intensifier in the gap between the last and the smoke pipe). In this case, the drum has an inlet pipe for water to enter the water jacket, which is communicated by a pipe with a heat transfer intensifier, and an outlet pipe for hot water. The lower part of the water heater is equipped with a furnace and a burner, and the upper part contains an exhaust pipe.

The disadvantages of the water heater are high investment, the complexity of repair and maintenance, due to the use of a screw extension of the gas stream in the smoke extinguishing device.

Known heating boiler (RU 13415 U1, IPC ⁷ F24H 1/12, publ. 10.04.2000), comprising a housing with pipes for supplying cold and exhaust hot water and exhaust gases, a combustion chamber equipped with a water jacket, with a burner in its lower part , heat exchanger and turbulators installed in the ducts in its upper part. The combustion chamber is additionally equipped with a divider made on its rear wall opposite the burner and a non-stationary mounted refractory partition located with a gap above the divider and forming the upper part of its rear wall. The heat exchanger is made in the form of interconnected sections located with gaps and forming flues. Turbulators are installed one on each side of each gas duct. They are flat sheets equipped with stampings in the form of a plurality of bent flakes arranged in a checkerboard pattern, and each of the following flakes is bent relative to the previous one on the opposite side of the sheet.

The disadvantages of this boiler are its increased metal consumption and large aerodynamic drag of the convective part.

Known hot water boiler (RU 2509963 C2, IPC F24H 1/00 (2006.01), publ. 03/20/2014), selected as a prototype, containing a housing with a bottom and a cover, in the central part of which is made a hole for installing the burner. The body contains a water volume, a combustion chamber, a rotary flue gas chamber, and smoke tubes communicated by the inlet sections with the rotary flue gas chamber, and the output sections with a flue gas collector connected to the chimney, a water collector, heating elements in the form of pipes, each which is placed in a smoke pipe with an annular gap, and a discharge pipe. The inlet ends of the heating elements are connected to the inlet pipe through a water collector, the outlet ends to a water volume. The flue gas collector is formed by the boiler cover and the surfaces of the water volume facing the cover. The rotary flue gas chamber is provided with a side wall mounted with a gap relative to the wall of the boiler body. The boiler is equipped with a flattened glass attached by the free edge of the side surface to the bottom of the flue gas rotary chamber with the formation of a water collector and the bottom facing the bottom of the boiler, and the volume enclosed between the bottom of the glass and the bottom of the boiler is connected to a discharge pipe. Gas flow turbulators are installed in annular gaps between the heating elements and the smoke tubes.

The disadvantages of such a boiler are its increased metal consumption and low service life of turbulators.

The objective of the invention is to increase the service life and reduce the metal consumption of convective heating surfaces.

This object is achieved in that the fire-tube boiler with snail type turbulators, as in the prototype, contains a housing with a lid, in the central part of which a hole for installing the burner is made, while the body contains a water volume, a combustion chamber, turbulators, smoke tubes , flue gas collector, outlet and inlet pipelines.

According to the invention, the housing is horizontally enclosed on one side by a lid of refractory material, on the other hand, by the rear wall of the flue gas collector, and is covered with thermal insulation. On the inner surface of the lid, around the hole for installing the burner, recesses are uniformly made, forming channels of the snail type turbulators. Inside the central part of the casing there is a combustion chamber, around which smoke tubes are placed, connected at one end to their respective turbulators, and at the other with openings in the front wall of the flue gas collector, which is located in the rear of the casing with its plane perpendicular to the smokestacks. In the upper part of the housing, discharge and supply pipelines are connected, interconnected by a water volume, as well as an exhaust gas channel located at the outlet of the flue gas collector.

The implementation of snail type turbulators in the lid of the proposed design of the fire tube boiler made it possible to reduce the metal consumption of convective heating surfaces and increase the service life of the equipment compared to the prototype, in which metal turbulators operating in forced thermal mode are located in the convective part, which significantly increases the metal consumption of the boiler with a large quantity smoke pipes.

The invention is illustrated by the following drawings.

In FIG. 1 shows a longitudinal section through a boiler.

In FIG. 2 shows a cross section through a boiler (AA) passing through a cover.

In FIG. 3 shows a transverse section through a boiler (BB) passing through a housing.

In FIG. 4 shows a three-dimensional image of a boiler with a partial longitudinal section of the casing.

The fire-tube boiler with snail type turbulators contains a horizontally arranged cylindrical body 1, enclosed on one side by a lid 2 of refractory material, and on the other, by the rear wall of the flue gas collector 3 and coated with thermal insulation 4. In the central part of the lid 2, a hole 5 is made for the burner, around which the recesses are uniformly made, forming channels of the turbulators 6 of the snail type. Inside the central part of the casing there is a combustion chamber 7 made of a pipe of a smaller diameter compared to the casing 1 and muffled from the opposite side of the lid 2. Smoke tubes 8 are placed around the combustion chamber 7, connected at one end to their respective turbulators 6, and the other to holes in the front wall of the flue gas collector 3, which is located in the rear of the housing 1 with its plane perpendicular to the smoke tubes 8. In the upper part of the housing 1 the discharge 9 and the supply 10 pipelines are connected, interconnected by a water volume 11, as well as an exhaust gas channel 12 located at the outlet of the flue gas collector 3.

The water volume 11 is formed by the space inside the housing 1, not occupied by the combustion chamber 7, smoke tubes 8 and the collector 3 of flue gases.

The boiler operates as follows.

In the housing 1 through the supply pipe 10 fill the water volume 11. In the hole 5 for installing the burner, made in the cover 2, mount a burner device (not shown), which serves the air-fuel mixture and produce ignition. The combustion of the air-fuel mixture is carried out in the combustion chamber 7. The flue gases generated during combustion from the combustion chamber 7 through the channels of the turbulators 6 of the snail type enter the smoke pipes 8, while the gas flow is twisted due to the tangential supply

Next, the flue gases are sent to the flue gas collector 3 and leave the boiler through the exhaust gas channel 12 and a chimney (not shown).

The heat obtained by burning fuel in the combustion chamber 7 and as a result of heat exchange in the smoke tubes 8 and the flue gas collector 3 is transferred to the water inside the housing 1 - the water volume 11. Then, the heated water through the discharge pipe 9 is supplied to the consumer through a discharge pipe 9.

Thermal insulation 4 allows you to protect service personnel from possible thermal burns when touching the housing 1 and reduce heat loss from external cooling (q ₅ ).

The inventive device can be used by objects of "small" energy for heat supply of residential and industrial premises, urban-type settlements and rural settlements.

Claims (1)

A fire-tube boiler with snail type turbulators, comprising a housing with a lid, in the central part of which a hole is made for installing a burner, while the housing contains a water volume, a combustion chamber, turbulizers, smoke tubes, a flue gas collector, exhaust and supply pipes, characterized in that the housing is horizontally enclosed on one side by a lid of refractory material, on the other - by the rear wall of the flue gas collector, and is covered with thermal insulation on the inner surface of the pylons, around the burner mounting hole, recesses are formed uniformly, forming channels of the snail type turbulators, inside the central part of the casing there is a combustion chamber around which smoke tubes are placed, connected at one end to their respective turbulators, and to the other with holes in the front wall of the smoke collector gases, which is located in the rear part of the housing with its plane perpendicular to the smoke tubes, in the upper part of the housing discharge and supply pipelines are made, connecting nye between a volume of water, and the exhaust duct disposed downstream of the flue gas collector.

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