RU157621U1 - CHIMNEY PIPE - Google Patents

Abstract

1. A chimney pipe containing inner and outer metal pipes and a heat insulating layer between them, characterized in that it contains a head in the form of a metal shell inserted by the lower end into the inner metal pipe. The chimney according to claim 1, characterized in that the head has a metal outer casing, made with heating, hermetically mounted on the upper end of the said metal shell and covering the lower part of the outer metal pipe.

Description

The utility model relates to construction and heating, in particular to chimney pipes of boiler plants and heat generators, mainly to chimney pipes of the “sandwich” type, and is intended for the removal of combustion products from heat generating devices and plants.

A common problem of chimneys is the formation of condensate and the pipe corrosion caused by it, to prevent the formation of condensate and corrosion on the inner surface of the chimney, it is necessary to maintain the temperature of the chimney wall above the dew point of the flue gases. With the advent of heat-generating devices with high efficiency, more than 90%, condensate formation is more difficult to control, especially with reduced operating modes of devices, for example in the off-season, and at a high chimney height, which is often required by regulatory documents, since the temperature of the exhaust gases is lower than in other heat generating devices. A three-layer chimney pipe with a heat-insulating layer of the "sandwich" type helps to solve this problem.

Three-layer chimney pipes of the “sandwich” type are known from the prior art, containing external and internal metal pipes and a heat insulating layer between them of basalt fiber, silica fiber, and similar materials, for example, according to utility model patent No. RU 13229 (publ. 27.03. 2000), according to the patent for utility model No. RU 39353 (publ. March 26, 2004). Such chimneys contain flue elements fastened with clamping clamps and a wall mount for the pipe. The chimney is equipped with a screen that protects it from contact, as well as a semi-outlet and a tee. The chimney contains a valve for cleaning pipes and a drain for condensate. In the upper part, the chimney ends with an exhaust part. The exhaust part, sometimes also called a cone or a top, has an outer pipe with a diameter decreasing towards the top to the diameter of the inner pipe, is also made with a heat insulating layer, and serves to prevent precipitation from entering the heat insulating layer of the chimney pipe.

Also known are chimneys of the Euro TiS brand, the Thermo system of the Production Company Teplov and Sukhov, Perm (http://www.teplov.ru/manufacture/production/chimneys/termo/) containing internal and external pipes made of steel, between which there is a heat-insulating layer based on basalt fiber, which protects the chimney from rapid cooling and retains heat. As a result, a good rate of emission of combustion products is ensured, more efficient operation of the heat generating device is provided. Smooth walls of the inner chimney pipe eliminate the possibility of soot settling, increase fire safety. The presence of individual standard elements of the flue, also called modules connected “to the socket”, the presence of the necessary shaped products (tees, bends, brackets, etc.) of various sizes makes it easy to complete chimneys of various lengths, diameters and complexity, and allows you to install them as inside and outside buildings. In the upper part, the chimney ends with an exhaust part - a cone. When installing stand-alone chimneys for industrial boiler houses and heat generating installations, the chimney is attached to a metal grating mast that acts as a support. This technical solution is selected for the closest analogue of the claimed utility model.

The applicant, the chimney of the Euro TiS brand, of the Thermo system, was used in a heat-generating installation with high efficiency. At the same time, the following problem was revealed - condensation on the outer wall of the chimney pipe outlet (cone) with the formation of an ice build-up of considerable size and mass around the pipe head at negative outside temperatures. As a rule, an ice outgrowth on the chimney appeared during the off-season, when the heat-generating installation worked at a reduced mode, the flue gases had a lower temperature, and due to the presence of a heat-insulating layer, the outer wall of the exhaust part did not heat up. In this case, the temperature on the outer wall of the exhaust part reached the dew point, which caused condensation of moisture from the flue gases to the outer wall of the pipe. This deficiency was very clearly manifested at a sufficiently high chimney height (the height of the chimney is dictated by the requirements of regulatory documents), in areas of the Far North, especially in coastal areas with high air humidity, and is aggravated by the presence of a support lattice mast in the chimney, which served as a support for the formed ice outgrowth. The photo of Appendix 1 shows an example of the formation of an ice build-up on a chimney. The formation of large masses of ice at altitude poses a threat to maintenance personnel and equipment, and forces them to carry out additional work of increased danger for manual removal of ice. In addition, if the heat-generating installation is gas-fired, as in the example given in Appendix 1, it has blow-out candles for safe operation, which, as a rule, are attached to the support lattice mast of the chimney pipe and have the same height with it (in the photo Appendix 1, three thin pipes), with the formation of an ice build-up, it is possible to block the purge candles and disrupt the safe operation of the heat generating installation, block the chimney itself and violate the operating mode of the heat generating installation. An ice build-up, but of a smaller scale, was also observed on the head of the chimney of the applicant’s heat-generating installation installed in Perm.

The authors were faced with the task of creating the design of the chimney pipe, eliminating the disadvantage identified in the prototype, namely the elimination of the formation of an ice build-up on the head of the pipe.

To achieve the technical result, the chimney pipe containing the inner and outer metal pipes and a heat insulating layer between them contains a head in the form of a metal shell inserted by the lower end into the said inner metal pipe, while in the particular case the head can have a metal outer casing made heated, hermetically attached to the upper end of the shell and covering the lower part of the mentioned outer metal pipe.

The implementation of the chimney with a head in the form of a metal shell inserted by the lower end into the inner metal pipe made it possible to increase the temperature of the chimney at the outlet, the shell is heated by flue gases to positive temperatures even with a reduced operating mode of the heat generating unit, and ice formation does not occur on the head. It is preferable to install the shell on a standard outlet part (cone), while this will provide reliable protection of the insulating layer of the chimney pipe from precipitation.

The implementation in the particular case of a tip with a metal outer casing with heating, sealed on the upper end of the shell and covering the lower part of the said outer metal pipe also eliminates the formation of an ice build-up by creating a heated inner cavity of the tip. At the same time, the tightness of the upper end of the head prevents heat loss, thereby ensuring better heating and efficiency of such a head. The cap with a casing can be installed either on a standard flue element - a chimney module, or on a standard exhaust part (cone), in both cases the heat-insulating layer of the chimney pipe will be protected from precipitation.

Distinctive features of the proposed device from the above known, closest to it, is that the chimney contains a head in the form of a metal shell inserted by the lower end into the inner metal pipe of the chimney, while, in the particular case, the head may have a metal outer casing made with heating, hermetically fixed on the upper end of the shell and covering the lower part of the outer metal pipe of the chimney pipe.

The combination of these signs allows to exclude the formation of an ice outgrowth on the tip of the chimney pipe.

The shell and the casing are made of sheet steel or sheet metal, are fastened to each other by any known method, using, for example, welding or a seam connection, the connection of the shell and casing can additionally be sealed with a sealant, for example, silicone. The casing can be heated, for example, with a heating cable. One skilled in the art will recognize that heating can be arranged using other devices. The shell can be inserted in a standard outlet or in the upper standard element of the chimney pipe - module. The shell and the casing can be attached to the chimney in any known manner, for example, by welding, seam joints or fasteners. Or the shell inserted into the standard part of the chimney pipe can be held in it due to the friction force and have protrusions to hold it in the set position.

The proposed design of the chimney is illustrated by drawings.

The figure 1 shows a General view of the head with a casing made with heating using a tape electric heater, Figure 2 (callout A in Fig. 1) shows one of the ways of attaching the casing and the shell to each other in the lower part of the head, where 1 is a shell, 2 - a casing, 3 - a tape electric heater, 4 - a rod for attaching the head to the upper standard element of the chimney using fasteners, for example, rivets, in the particular embodiment of the utility model shown, 5 - petals with which the casing 2 has the upper end attached to the shell 1 in the specific shown example of the embodiment of the utility model, 6 - sealant, for example, silicone, 7 - rivet, 8 - cable entry of the electric heater tape 3. In the specific example shown, the casing 2 has one diameter over the entire height, however, it can have a shape tapering to the top, for more efficient heating of the upper part of the inner cavity of the head.

The claimed technical solution of the chimney pipe was implemented by the applicant on the chimney of the heat generating installation of the GPA-25DU URAL gas pumping unit in the Bovanenkovsky oil and gas condensate field, Yamal Peninsula. After completion of the chimney, the formation of ice outgrowths on the chimney was not observed, in contrast to the standard chimney chimneys. Photo 1 of Appendix 2 shows a chimney with an installed tip (without a heated casing), photo 2 shows a chimney of a neighboring heat-generating installation of standard design, the photo was taken at the same time.

Claims (2)

1. A chimney pipe containing inner and outer metal pipes and a heat insulating layer between them, characterized in that it contains a head in the form of a metal shell inserted by the lower end into the inner metal pipe. 2. The chimney according to claim 1, characterized in that the head has a metal outer casing, made with heating, hermetically mounted on the upper end of the said metal shell and covering the lower part of the outer metal pipe.

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