RU5639U1 - AIR HEATER - Google Patents

Abstract

1. An air heater consisting of cubes and containing in the tube boards a bundle of heat exchanger tubes installed in rows, gas-tight enclosing walls of tubes with welded spacers, stiffeners bonded to gas-tight wall tubes and tube boards, intermediate tube boards and stiffeners in the form of tube parts boards rigidly bonded to the enclosing walls, characterized in that the supporting tube board is reinforced with stiffeners from the outside. 2. The air heater according to claim 1, characterized in that the stiffeners are welded along the axes of the tubes of the tube bundle and rigidly fastened to the ends of the elongated tubes. The air heater according to claims 1 and 2, characterized in that the stiffeners are welded to the pipe boards along the axes of the annular corridor. 4. The air heater according to claims 1 to 3, characterized in that the opposite stiffening elements in the form of parts of the tube plate and the intermediate cubes are fastened with anchor ties.

Description

The utility model relates to energy and can be used in steam boilers.

Known tubular air heaters containing a bunch of parallel pipes attached to the tube sheets and lining l}. The casing is made in the form of shields of steel sheets and shaped metal. The lower tube plate, hereinafter, the support plate, is reinforced due to heavy weight loads with ribs welded perpendicularly to the support edges in rows in sections located from the supporting edges of the tube plate to the pipes and tube plate 2. However, this design has disadvantages.

During the operation of the boiler, the pipes and casing have different temperatures, as a result of which the casing is fastened to the tube boards using expansion joints made of thin steel sheets, and the seal is made using asbestos cords, which is one of the design flaws in connection with its complication and possible leaks air, leading to a decrease in efficiency The lining has a low bearing capacity in boilers operating under pressurization, which requires special measures to strengthen it. The tube plate reinforced with ribs is cracked and does not have access to perform repair and inspection of stiffeners and pipes to which stiffeners are welded and requires a certain order during assembly, which complicates the manufacturing technology.

Closest to the claimed utility model is an air heater, in which the extreme pipes, boiled by spacers, form gas-tight instead of a metal shield, those participating in the heat exchange walls, reinforced for perception of pressurization by stiffeners, an intermediate board and special stiffeners h.

This design also has disadvantages.

When the air heater is supplied in cubes, which is carried out for boilers of high power, it is not possible to connect intermediate boards of middle cubes along the entire joint length with intermediate boards of the extreme cubes. The above design does not provide for a reinforced supporting (lower) tube plate to absorb the weight loads from the heater structure and ash pollution for the case when the heater pipes are arranged vertically and for the case when the pipes are arranged horizontally.

 2

The purpose of the utility model is to strengthen the design of the air heater reliability and ease of manufacture.

This goal is achieved in that the supporting tube plate is strengthened by stiffeners on the outside, which are welded along the axes of the tube bundle, rigidly fastened to the ends of elongated pipes and stiffeners are welded to the tube plates along the axes of the annular corridor, and opposite stiffeners in the form of parts of the tube plate and intermediate cube boards are fastened with anchor ties.

In FIG. I shows an air heater made and more cubes; in FIG. 2 is a view of the view of FIG. 1; FIG. 3-side view © on the side of FIG. I; in FIG. 4 shows an air heater with a horizontal pipe arrangement; FIG. 5 is a side view of FIG. 4; FIG. 6-node I of FIG. 3.

The air heater consists, for example, of two extreme I and one middle 2 cubes. Each cube contains a bundle of texchange tubes 5 fixed in the tube boards 3.4 and intermediate boards 6 in the extreme cubes and an intermediate board 7 in the middle cube. The extreme cubes contain enclosing tight c stiffening ribs membrane walls 8 and additional stiffening elements 9. The supporting board 4 contains stiffening ribs 10 for increasing the moment of resistance, located on the outlet side of the pipes. The indicated stiffening ribs are located at distances of two three rows pipes from the supporting edges along the axes of the pipes in one case, along the axes of the annular corridor in another. To increase the resistance of the membrane wall 8 from pressurization, additional gesture elements; - bones 9 are connected by anchor rods II. Also, to increase the stiffness, intermediate boards 6 of the extreme cubes are connected with the intermediate board 7 of the middle cube by the profile metal 12.

The proposed utility model works as follows.

During operation, hot gases pass through pipes 5 for the case of vertical pipe arrangement and in the annulus for the case with horizontal pipe arrangement. Heated air passes in the annulus for the case of vertical pipe arrangement transversely washing pipes, for the case of horizontal pipe arrangement, air flows inside the pipes. Cooling gases cool down give heat to the heated air. In the case of a vertical pipe arrangement, the weight load is due to construction and pollution in cubic pipes, it is transferred to the lower tubular islands. To increase the moment of resistance of the lower pipe boards, 4 cubes to the last are stiffeners 10 or along the axes of the pipes from the supporting edges in the distance of two, three rows of pipes or along the axes of the annular corridor from the supporting edges at a distance of two, three rows of pipes.

Anchor rods II and profile metal 12 connect additional stiffening elements 9 and intermediate boards 6 and 7, increasing the structural strength of the air heater. Similarly, the extreme tube boards are reinforced with stiffeners from the perception of weight loads of the structure and gold pollution on the pipes and the membrane walls of the extreme cubes are strengthened similarly. . The upper and lower tube boards of cubes with a vertical arrangement of pipes and the extreme tube boards of cubes with a horizontal arrangement of pipes are connected by an equal strength joint. a weld along the entire length of the joint from the pipe exit side.

I. An air heater CONSISTING of cubes and containing in a tube board a bundle of heat exchange tubes installed in rows, gas-tight enclosing walls of tubes with welded spacers, stiffeners bonded to gas-tight wall tubes and tube boards, intermediate tube boards and stiffeners in the form of parts rigidly fastened to the enclosing walls, characterized in that the supporting tube plate is reinforced with stiffeners from the outside.

2. The air heater according to claim I, with the fact that the stiffeners are welded along the axes of the cutting beam and are rigidly fastened to the ends of the elongated pipes. -.

3. An air heater according to claim 1, 2, characterized in that the stiffeners are welded to the pipe boards along the axes of the annular corridor.

4. The air heater according to claims 1 to 3, characterized in that the opposite stiffening elements in the form of parts of the tube plate and the intermediate cubes are fastened with anchor ties.

Sources of information taken into account:

I. M.A. Styrikovich et al. Steam generators of power plants, L., Energy, 1966, pp. 295-296.

2.Aut. certificate of the USSR J 985595, class.-Ј-23 15/04 publ. 1982 3. Application for utility model & 95103066

Claims (4)

1. An air heater consisting of cubes and containing in a tube board a bundle of heat exchanger tubes installed in rows, gas-tight enclosing walls of tubes with welded spacers, stiffeners bonded to gas-tight wall tubes and tube boards, intermediate tube boards and stiffeners in the form of tube parts boards rigidly bonded to the enclosing walls, characterized in that the supporting tube board is reinforced with stiffeners from the outside.  2. The air heater according to claim 1, characterized in that the stiffeners are welded along the axes of the tubes of the tube bundle and are rigidly fastened to the ends of the elongated tubes.  3. The air heater according to claims 1 and 2, characterized in that the stiffeners are welded to the pipe boards along the axes of the annular corridor. 4. The air heater according to claims 1 to 3, characterized in that the opposite stiffening elements in the form of parts of the tube plate and intermediate cubes boards are fastened with anchor ties.