RU65925U1 - CHIMNEY - Google Patents

Abstract

Usage: in the construction and reconstruction of chimneys and ventilation pipes. The utility model solves the problem of increasing the life of the chimney. The smokestack consists of a barrel 1, for example made of brick or reinforced concrete, and a layered lining 2, with the first placement on the shell 1 of more dense layers 3, then less dense 4 and again on the open surface of the lining of more dense layers 5. More dense layers 3 and 5 are made of fiberglass, and less dense 4 is made of lightweight aggregate, such as miniplates. Between the layers of fiberglass 3, 5 in the thickness of the aggregate 4 are installed bonded with layers 3 and 5 of the connecting elements 6 of fiberglass in the form of flexible rod bonds, or annular and / or longitudinal ribs. The lining 2 is fixed to the barrel 1 with a fiberglass layer 3, for example, by means of a continuous adhesive joint 7 or discretely, for example, by means of an intermediate frame 8 and often installed anchors 9. Compared to the prototype, the inventive chimney has an increased service life due to a more reliable and heat-resistant lining.

Description

The utility model relates to the field of construction of high-rise structures and can be used in the construction and reconstruction of chimneys and ventilation pipes.

Known chimney containing the barrel (brick, reinforced concrete or metal) and a brick lining, mounted on the inner surface of the barrel by means of consoles, protrusions or supporting tables [1]. However, the brick lining due to the many seams is permeable to flue gases (especially in areas of their overpressure), as a result, flue gases penetrate the trunk, condense and cause its destruction. With increased humidity and aggressiveness of flue gases, as well as as a result of unsteady temperature effects, the brick lining itself undergoes intensive destruction. Rare fastening of the lining on the barrel by means of consoles, protrusions or supporting tables can lead to the loss of some significant sections of it. In areas with a destroyed lining, flue gases directly affect the barrel, causing it to be even more intensively destroyed. All this significantly reduces the life of the chimney.

Closest to the technical nature of the claimed object is a chimney containing a barrel and fixed on its inner surface polyurethane foam lining, made of monolithic layers of different densities with the placement of first denser layers on the shell, then less dense and again on the open surface of the lining of denser layers, while fixing the lining is continuous and is provided, for example, by spraying polyurethane foam [2]. The solidity and closed porosity of the polyurethane foam lining provides its low permeability to flue gases. High chemical resistance, moisture resistance, elasticity, as well as high adhesion of polyurethane foam to the protected surface provide protection of the lining from destruction in conditions of high humidity and aggressiveness of flue gases, and

also with non-stationary temperature effects. The continuity of the lining on the barrel reduces the likelihood of its significant sections falling out. In addition, the high thermal insulation properties of the polyurethane foam lining can significantly reduce the thermal effect on the barrel. All this increases the protection of the barrel from the effects of flue gases and slightly increases the life of the chimney. However, the relatively low heat resistance of polyurethane foam (100-150 ° C), its tendency to accelerated thermal aging, combined with its low strength and rigidity lead to the gradual detachment and destruction of the polyurethane foam lining and, as a result, to a decrease in 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 shell and a lining of layers of different densities fixed on its inner surface, first placing denser layers on the shell, then less dense and again on the open surface of the lining of denser layers, according to a utility model, denser layers of the lining are made of fiberglass, less dense in the form of a lightweight aggregate, for example miniplates, and between the layers of fiberglass in the thickness of the aggregate mounted bonding elements. In this case, the connecting elements can be made in the form of flexible ties, annular and / or longitudinal ribs, made of fiberglass, and the lining can be solid, for example, glued, or discrete, for example, by means of an intermediate frame and often installed anchors.

In such a chimney, the lining has a low permeability to flue gases, high chemical resistance, moisture resistance and increased thermal insulation properties. At the same time, the use of fiberglass and mineral wool insulation can provide increased strength, rigidity and heat resistance of the lining (more than 200 ° C), significantly increase its durability with prolonged heat exposure. In addition, the presence in the lining of two interconnected layers of fiberglass and continuous or frequent discrete fastening of the lining on the pipe trunk increases

(duplication) of the reliability of the lining even in case of violation of its front layer. This can significantly increase the life of the chimney.

Figure 1 shows a longitudinal section of the chimney, figure 2 and 3 are variants of the node And figure 1.

The chimney consists of a barrel 1, for example made of brick or reinforced concrete, and a lining 2, which consists of layers 3, 4 and 5 of different densities, first placing on the shell 1 more dense layers 3, then less dense 4 and again on the open surface of the lining more dense layers 5. The denser layers 3 and 5 are made of fiberglass, and the less dense 4 is made of lightweight aggregate, for example miniplates. Between the layers of fiberglass 3, 5, in the thickness of the aggregate 4, connecting elements 6 are fastened with layers 3 and 5. The connecting elements 6 can, for example, be made of fiberglass in the form of flexible rod bonds, or annular and / or longitudinal ribs. The lining 2 is fixed to the barrel 1 with a fiberglass layer 3, for example, by means of a continuous adhesive joint 7 or discretely, for example, by means of an intermediate frame 8 and often installed anchors 9. The frame 8 can be made integral with the first layer 3 of the lining 2 or attached to it (not shown in the figures ) The lining 2 can be made continuous or from prefabricated elements with their connection to each other, for example by means of a tongue-and-groove connection 10.

During the operation of the chimney, due to the impermeability of the fiberglass layers 3 and 5 of the lining 2, gas penetration to the barrel 1 is excluded. Due to the high strength, rigidity and chemical resistance of the fiberglass layers 3 and 5, the lining 2 is not destroyed under conditions of increased humidity and aggressiveness of the flue gases, as well as unsteady temperature effects. Due to the heat-insulating properties of the middle layer 4 of the lining 2, the thermal effect of gases on the barrel 1 is reduced. At the same time, the shell of the lining 2, having increased heat resistance (more than 200 ° C), does not collapse during prolonged thermal exposure to gases. Due to two dense layers 3 and 5, interconnected by connecting elements 6, the reliability of the lining is duplicated, and its fixing distributed over the surface of the barrel 1 with a solid adhesive

seam 7 or a multitude of discrete connections with anchors 9 increases the reliability of fixing the lining 2 on the barrel 1 and the overall reliability of the lining.

Compared with the prototype of the inventive chimney has an increased service life due to a more reliable and heat-resistant lining.

Information sources

1. Volkov EP, Gavrilov E.I. Duzhih F.P. Flue pipes of thermal power plants and nuclear power plants. - M .: Energoatomizdat, 1987, p. 5-8.

2. Chimney trunk: Utility Model Certificate No. 28154 of the Russian Federation / Astashkin V.M., Pazuschan V.A., Subbotin E.V. - Declared. 09/30/2002, publ. in bull. No. 7 for 2003 (prototype).

Claims (6)

1. A chimney containing a shell and a lining of layers of different densities fixed on its inner surface, first placing denser layers on the shell, then less dense and again on the open surface of the lining of denser layers, characterized in that the denser layers of the lining are made of fiberglass, less dense in the form of a lightweight aggregate, for example miniplates, and between the layers of fiberglass in the thickness of the aggregate mounted bonding elements. 2. The chimney according to claim 1, characterized in that the connecting elements are made in the form of flexible connections. 3. The chimney according to claim 1, characterized in that the connecting elements are made of fiberglass. 4. The chimney according to claim 1, characterized in that the connecting elements are made in the form of annular and / or longitudinal ribs. 5. The chimney according to claim 1, characterized in that the lining is solid, for example by gluing. 6. Smoke pipe according to claim 1, characterized in that the lining is made discrete, for example by means of a frame and anchors.