RU146803U1 - CHIMNEY - Google Patents

Abstract

The utility model relates to the field of construction of industrial chimneys and can be used in their design, construction, repair and reconstruction. The utility model solves the problem of increasing the life of the chimney. The chimney consists of a bearing shell 1, for example made of reinforced concrete, brick or metal (steel), and a brick lining 2, fixed with a gap 3 on the inner surface of the shell 1, for example by means of consoles 4. The gap 3 between the bearing shell 1 and the brick lining 2 is filled 5 potting foam concrete density of 200 ... 500 kg / m ^3, which fills the irregularities and penetrates into the joints of brickwork lining 2, increasing its strength and reliability of attachment to the shell 1. The claimed chimney has an increased service life of through more durable insulation lining improving strength and its more reliable fastening to the supporting shell.

Description

The utility model relates to the field of construction of industrial chimneys and can be used in their design, construction, repair and reconstruction.

A chimney is known containing a barrel in the form of a bearing brick shell and a brick lining, the links of which are supported by supporting consoles fixed to the bearing shell protruding into the barrel, the lining being installed with an air gap from the inner surface of the bearing shell (Smoke pipes / Yelshin AM, Izhorin M .N., Zholudov BC, Ovcharenko E.G. / Edited by S.V. Satyanova. - M.: Stroyizdat, 2001, p. 20, Fig. 9). However, the air gap does not adequately protect the bearing shell from the thermal effects of flue gases, in addition, the rare connection of the lining with the bearing shell by means of consoles can lead to damage and loss of tightness of individual sections of the lining, if the liner is damaged, and if it is damaged, flue gases directly affect the bearing shell, causing its intense destruction and additional heating, as a result, the temperature stresses increase in it, which increases the overall load bearing shell and accelerates its wear. All this significantly reduces the life of the chimney.

Closest to the technical nature of the claimed object is a chimney containing a barrel in the form of a bearing reinforced concrete shell and a brick lining, the links of which are supported on the support consoles protruding into the barrel, the lining is installed with a gap from the inner surface of the bearing shell, and in the gap between the bearing shell and the lining is installed in the form of mineral wool plates (Smoke pipes / Yelshin AM, Izhorin MN, Zholudov BC, Ovcharenko EG / Edited by S.V. Sat Midsummer -. M .: Stroyizdat, 2001, pp 71, Figure 28b)... Thermal insulation improves the working conditions of the supporting shell. However, the rare connection of the lining with the supporting shell by means of consoles can lead to damage and loss of tightness of individual sections of the lining. In areas with damaged linings, flue gases directly affect the thermal insulation, destroying it, as well as the supporting shell, causing its intense destruction. In addition, even with a healthy lining, mineral wool thermal insulation gradually settles and does not fully fulfill its function, as a result of which the heating of the supporting shell increases and the temperature stresses increase in it, which increases the overall load of the supporting shell and accelerates its wear. All this significantly reduces the life of the chimney.

The utility model solves the problem of increasing the life of the chimney.

To do this, in a chimney containing a bearing shell, a brick lining fixed with a gap on its inner surface and thermal insulation installed in the gap between the shell and the lining, according to a utility model, the thermal insulation is made of filling foam concrete with a density of 200 ... 500 kg / m ³ .

Filling foam concrete in the gap between the bearing shell and the brick lining connects them together over the entire surface, at the same time, with a density of foam concrete of 200 ... 500 kg / m ³ , a plastic and partially malleable bond between the barrel and the lining is provided, increasing the reliability of this connection. In addition, the lining strength is increased by filling the empty space between the bricks of the lining with foam concrete. This reduces the likelihood of damage to the lining. And even if the lining is damaged, the foam concrete thermal insulation is not damaged due to its continuity and sufficient strength. At the same time, the high thermal insulation properties of foam concrete and the absence of subsidence of foam concrete thermal insulation allow for the entire life of the chimney to reduce the thermal effect on the supporting shell, protect it from the effects of flue gases and thereby increase the life of the chimney.

In FIG. 1 is a vertical section through a chimney; FIG. 2 - node A in FIG. one.

The chimney consists of a supporting shell 1, for example made of reinforced concrete or brick, and a brick lining 2, fixed with a gap 3 on the inner surface of the shell 1, for example by means of consoles 4, on which the links of the lining 2 rest. The gap 3 between the supporting shell 1 and the brick lining 2 is filled with thermal insulation in the form of filling foam concrete 5 with a density of 200 ... 500 kg / m ³ . The supporting shell 1 of the chimney is supported by a foundation (not shown in the figures).

During the construction of the chimney after the erection of the supporting shell 1, the brick lining is laid with its support on the console 4 and with the formation of a gap 3. As the lining 2 is laid, the gap 3 is filled with a foam concrete mixture, after hardening of which a filling foam 5 with a density of 200 ... 500 is formed in the gap 3 kg / m ³ . The composition of the foam concrete mixture is selected from the conditions for obtaining exactly the specified density after hardening, since it has partial ductility and ductility. Filling foam concrete 5 fills the gap 3 with all the irregularities of the inner surface of the bearing shell 1 and brick lining 2, creating reliable thermal insulation, and penetrates into the existing void between the bricks of the lining 2, strengthening it and simultaneously adhering to the bearing shell 1 and the lining bricks 2. Due to this when the density of foam concrete 200 ... 500 kg / m ³ provides a plastic and partially supple connection between the barrel and the lining, and also increases the strength of the lining 4 and reduces the likelihood of damage. All this increases the protection of the supporting shell 1 from the effects of flue gases and increases the life of the chimney.

In case of reconstruction, technical re-equipment, overhaul or current repair, the gap 3, which may be initially airborne or filled with settled heat insulation (for example, destroyed mineral wool plates), is filled with filling foam concrete 5 with a density of 200 ... 500 kg / m ³ through openings formed for example by drilling (on figures not shown) in the bearing shell 1 or in the brick lining 2, in the first case outside the chimney, in the second case from the inside of the pipe. The location of the holes and the distance between them are selected from the condition of filling the gap 3 with filling foam concrete 5 without gaps. At the same time, the insulation is restored and the lining 2 is secured by fixing it and the bearing shell 1 by means of foam concrete 5 installed by pouring into the gap.

A similar solution to the chimney is also possible with a metal supporting shell, only there instead of consoles, unloading rings mounted on the inner surface of the shell (not shown in the figures) are used to support the links of the lining.

The inventive chimney has an increased service life due to more durable thermal insulation, increasing the strength of the lining and its more reliable fixing on the supporting shell.

Claims (1)

A chimney containing a supporting shell, a brick lining fixed with a gap on its inner surface and a thermal insulation installed in the gap between the shell and the lining, characterized in that the thermal insulation is made of filling foam concrete with a density of 200 ... 500 kg / m ³ .

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