RU2253067C1 - Heating device - Google Patents

Abstract

FIELD: heat engineering.

SUBSTANCE: heating device comprises shell housing, combined coaxial surfaces, such as cylindrical surface and shell, two rows of axially aligned pipelines which provide gases to flow through the perforated face to the perforated plug, and ring space for flowing gas. Ring heat-resistant seals are interposed between the inner surface and outer side of the coaxially combined surfaces. The outer surface of the coaxially combined shell is provided with ring fins and axial stiffening members. The outer side of the shell housing is connected with the ring members secured to the coordinating supports. The surface of the shell housing is provided with welded members which are used in assembling the heating device. Fastening members are used for securing the face and flange to shell housing. The cylindrical surface is bounded with the perforated face and flat face which are fixed at the axis by axial stiffening members.

EFFECT: enhanced efficiency and expanded functional capabilities.

3 dwg

Description

The invention relates to designs of heating devices in which thermophysical processes are carried out, where gas fuel and water are respectively used as primary and secondary heat carriers.

The known technical solution includes patent SU 300705, F 22 B 7/12, 28/05/1971 No. 2197686, F 24 H 1/00, in which the structural features of the heating device are not highlighted, which makes the practical manufacture of the heating device more difficult. in the installation / 1 / there are no increased possibilities for the differentiated conservation of thermal energy.

The objective of the new technical solution is to increase the technological capabilities and quality of the heating device.

This object is achieved in that the heating device comprising a boiler, heating elements, a shell body, a manhole for supplying liquid, a manhole used to discharge liquid, combined surfaces, namely a cylindrical surface and a shell bounded axially by the end face of the circular wall and the perforated annular end, two rows of pipelines providing a sequential passage of hot gases through the perforated end to the perforated plug, and the openings of the pipelines are open for the passage of hot flows of combustible gas fuel, the annular space created for the passage of heated gas flows coming from one row of pipelines and included in another row of pipelines, a flange is made from the end side, which serves to exhaust combustion products, characterized in that it contains a fan, combined the surfaces are made coaxial, the shell casing on the outer surface side contains an inspection hatch, a hatch providing discharge of dirt, an air damper providing optimal the combustion mode of the gas stream supplied by one pipeline to another pipeline, fixed to the end and containing the ignition device and the inspection window, ring heat-resistant seals are installed on the boundaries of the inner surface and the outer side of the coaxially combined surfaces, ring ribs are made on the outer surface of the coaxial combined shell and axial stiffeners, while the shell casing is externally connected to a part of the annular lodges rigidly connected with With support bearings, in the lower part of the shell casing, a pipeline with a valve for draining the liquid and a nozzle is provided, which provides condensate outlet, a flange is made from the end side, which serves to actuate the explosive valve, welded elements are made on the surface of the casing, with which they allow installation and coordination operations during installation and actuation of the heating device, while fasteners are provided for fixing the end wall of the end wall and the flange with the shell casing, the mentioned pipelines, which ensure the consecutive passage of hot gases through the coaxial combined shell through the perforated end to the perforated plug, are concentrically arranged, while the cylindrical surface is bounded by a perforated end and a flat end supported axially by stiffeners, and ring refractory seals provide sealing with the end wall .

Graphic materials: figure 1 - profile projection of a heating device; figure 2. - section of the heating device without connecting end flanges; figure 3 - view And on the working end of the heating device in front of the flange 10.

List of digital notations: shell casing (1); inspection hatch (2); hatch (3) for supplying fluid; hatch (4) for liquid outlet; hatch (5) for equipment installation; hatch (6) for dumping dirt; fan (7); air damper (8); gas stream (9); pipelines (11 and 12); flange (10); annular space (13); coaxial combined shell (14) with a cavity (41); holes (15); side wall (16); annular ribs (17); axial stiffeners (18); ring lodgements (19 and 20); coordination bearings (21 and 22); pipeline (23); crane (24); branch pipe (25); butt (26); flanges (27-28); explosive valve (29); welded elements (30 and 31); heating device (32); fasteners (33 and 34); pipelines (35 and 36); perforated end face (37); perforated plug (38); liquid (39); end ring wall (40); cylindrical inner surface (41); cylindrical outer surface (42); butt (43); blind cylinder (44); l-shaped, in section, wall (45); wall (46); the inner surface (47) of the shell housing (1); ring heat-insulating seals (48 and 49); axis (50).

Description of the heating device.

A heating device comprising a boiler, heating elements, a shell body, a manhole for supplying liquid, a manhole used to discharge liquid, combined surfaces, namely a cylindrical surface and a shell bounded axially by the end face of the circular wall and the perforated annular end face, two rows of pipelines, ensuring the sequential passage of hot gases through the perforated end to the perforated plug, and the openings of the pipelines are open for the passage of hot flows of combustible AZOV fuel annulus created for the passage of heated gas streams emanating from one of a number of pipes and other members of the series of pipes, is formed by the end flange, which serves for discharging the combustion products, characterized in that:

- it contains a fan (7);

- combined surfaces (14 and 41) are made coaxial;

- the shell casing (1) on the outer surface side contains an inspection hatch (2), a hatch (6) that provides discharge of dirt, an air damper (8) that provides an optimal mode of combustion of the gas stream (9) supplied through one pipeline (12) to another pipeline (11), fixed to the end (10) and containing the ignition device and the viewing window;

- on the borders of the inner surface and the outer side of the coaxially combined surfaces (14 and 41), ring heat-resistant seals are installed (48 and 49);

- on the outer surface of the coaxial combined casing, annular ribs and axial stiffeners are made;

- while the shell case (1) from the outside is connected to a part of the annular lodges (19 and 20), rigidly connected with the coordination supports (21 and 22);

- in the lower part of the shell casing (1), a pipeline (23) with a tap (24) for draining the liquid and a pipe (25), which provides the outlet of condensate;

- from the side of the end face (26), a flange (27) is made, which serves to actuate the explosive valve (29);

- welded elements (30 and 31) are made on the surface of the housing (1), with the help of which they provide installation and coordination operations during installation and activation of the heating device (32);

- in this case, for fixing the end (10) of the end wall (40) and the flange (26) with the shell case (1), fasteners (33 and 34) are provided;

- the above-mentioned pipelines (35 and 36), ensuring the sequential passage of hot gases through the coaxial combined shell (14 and 41) through the perforated end face (37) to the perforated plug (38), are concentrically arranged;

- while the cylindrical surface (41) is limited by a perforated end (37) and a flat end (43), held along the axis (50) by axial stiffeners (18);

- and the annular refractory seals (48 and 49) provide a seal with an end wall (40).

An example of a heating device.

A heating device comprising a boiler, heating elements, a shell body, a manhole for supplying liquid, a manhole used to discharge liquid, combined surfaces, namely a cylindrical surface and a shell bounded axially by the end face of the circular wall and the perforated annular end face, two rows of pipelines, ensuring the sequential passage of hot gases through the perforated end to the perforated plug, and the openings of the pipelines are open for the passage of hot flows of combustible AZOV fuel annulus created for the passage of heated gas streams emanating from one of a number of pipes and other members of the series of pipes, is formed by the end flange, which serves for discharging the products of combustion, is performed in such a manner that:

1. it includes a fan (7);

2. combined surfaces (14 and 41) are made coaxial;

3. the shell casing (1) on the outer surface side contains an inspection hatch (2), a hatch (6) that provides discharge of dirt, an air damper (8) that provides an optimal mode of combustion of the gas stream (9) supplied through one pipeline (12) to another pipeline (11), fixed to the end (10) and containing the ignition device and the viewing window;

4. on the borders of the inner surface and the outer side of the coaxially combined surfaces (14 and 41), ring heat-resistant seals are installed (48 and 49);

5. on the outer surface of the coaxial combined shell, annular ribs and axial stiffeners are made;

6. wherein the shell casing (1) is externally connected to a part of the annular lodges (19 and 20), rigidly connected with the coordination supports (21 and 22);

7. in the lower part of the shell casing (1), a pipeline (23) with a tap (24) for draining the liquid and a pipe (25), which provides the outlet of condensate;

8. from the side of the end face (26), a flange (27) is made, which serves to actuate the explosive valve (29);

9. welded elements (30 and 31) are made on the surface of the housing (1), with the help of which they provide installation and coordination operations during installation and activation of the heating device (32);

10. at the same time, for fixing the end (10) of the end wall (40) and the end (26) with the shell case (1), fasteners (33 and 34) are provided;

11. The above-mentioned pipelines (35 and 36), ensuring the sequential passage of hot gases through the coaxial combined shell (14 and 41) through the perforated end face (37) to the perforated plug (38), are concentrically arranged;

12. wherein the cylindrical surface (41) is bounded by a perforated end face (37) and a flat end face (43) held along the axis (50) by axial stiffeners (18);

13. And the annular refractory seals (48 and 49) provide a seal with an end wall (40).

14. The hydraulic resistance is set for water at 0.02 Pa;

15. The range of regulation of heat production in relation to the nominal ranges from 0.01 to 100%;

16. the temperature of the exhaust gases at a nominal heat output of 125-130 ° C;

17. The efficiency of the heating device is at least 91%;

18. The supply voltage of electric motors in the automation system is designed for 380/220 V at a current frequency of 50 Hz and an optimal energy consumption of 2.2 kWh / MW, with a content of carbon monoxide in dry undiluted flue gases of not more than 130 mg / cubic meter and nitric oxide (NO ₂ ) - 250 mg / m3. To actuate the heating device (32), a gas stream (9) is supplied through pipelines (12 and 11), which, passing through the igniter installed in the end wall (40), due to the combustion of the gas stream (9) in the space bounded by the sides coaxially-combined surfaces (14 and 41), bounded by the ends (37 and 43), heats a liquid, such as water, which is placed in a space bounded by the surfaces of the ribs (17), a blind cylinder (44) with the surface of the cavity 41.

Gas fuel (9) heats the free sides of coaxially-combined surfaces (14 and 41), transferring thermal energy through pipelines 35 and 36, which can transmit secondary thermal energy in the annular space 13 defined by the wall 40 and the l-shaped cross-section wall 45 to the perforated end zone of the wall (38), communicating with the output flange (27) mounted in the wall (46).

The explosion valve (29) is activated when the gas mixture explodes if a spark enters the gap between the perforated plug (38) and the wall (46), which is possible to a lesser extent, since the combustion products have already passed the combustion zone, and the hood - from the flange side (27) - sets the mode of outflow of hot gases (9) into the purification filter and into the atmosphere.

The industrial usefulness of the new technical solution lies in the availability of using a new installation for heating high-rise residential buildings, which solves the problem of trouble-free operation of thermal heating installations in medical institutions, defense enterprises and residential complexes, remote from thermal power plants and other sources of heat supply.

The economic efficiency of the heating device is described in detail in an example of use, and safety for human health is established by the standards for the release of harmful substances into the atmosphere, which completely determines its price in the market for similar services.

Claims (1)

A heating device comprising a boiler, heating elements, a shell body, a manhole for supplying liquid, a manhole used to discharge liquid, combined surfaces, namely a cylindrical surface and a shell bounded axially by the end face of the circular wall and the perforated annular end face, two rows of pipelines, ensuring the sequential passage of hot gases through the perforated end to the perforated plug, and the openings of the pipelines are open for the passage of hot flows of combustible gas fuel, the annular space created for the passage of heated gas streams emanating from one row of pipelines and entering into another row of pipelines, a flange is made from the end side, which serves to exhaust combustion products, characterized in that it contains a fan, the combined surfaces are made coaxial, the shell casing on the outer surface side contains an inspection hatch, a hatch providing discharge of dirt, an air damper providing an optimal mode of combustion of the gas stream, supply one pipe to another pipe, fixed to the end and containing the ignition device and the inspection window, ring heat-resistant seals are installed on the boundaries of the inner surface and the outer side of the coaxially combined surfaces, ring ribs and axial stiffeners are made on the outer surface of the coaxial combined shell, wherein the shell casing is externally connected to a part of annular lodges rigidly connected with coordination supports in the lower part of the casing of the main body, a pipeline with a tap for draining the liquid and a nozzle providing condensate outlet is made, a flange is used on the side of the end, which serves to actuate the explosive valve, welded elements are made on the surface of the shell body, with which they provide installation and coordination operations during installation and actuating the heating device, and for fixing the end wall of the end wall and the flange with the shell body, fasteners, said pipelines are provided, ensuring the consecutive passage of hot gases through the coaxial combined shell through the perforated end to the perforated plug, they are concentrically arranged, while the cylindrical surface is limited by the perforated end and the flat end, axially held by axial stiffeners, and the annular refractory seals provide a seal with an end wall.

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