RU168329U1 - Chimney - Google Patents

Abstract

The modular chimney system relates to the construction complex, in particular to chimney devices for single-story and multi-story buildings. The utility model is designed to remove exhaust flue gases from a heat generating device. The modular chimney system is equipped with nodes of smoke elements mounted inside or outside buildings in the form of vertical and horizontal channels with mineral thermal insulation, protective boxes with transversely mounted load-bearing corners, fire cuts and fixing clamps periodically installed along the length of the protective boxes. Smoke elements contain a chimney base with a steam trap, a revised pipe, a 90 ° tee with a branch for connecting the air and smoke channel, a 87 ° tee with a chimney for connecting a heat generator, an adapter, a console for the chimney base, an installation platform, a single wall mono pipe, coaxial or double-walled thermo-insulated pipe, or thermo-insulated pipe and adapter from mono single-walled pipe to thermo-insulated pipe, apron with protective collar, adjustable wall clamp, conical end, lower nozzles and upper, an umbrella, while the nodes of the smoke elements are made of corrosion-resistant stainless steel.

Description

The utility model relates to a construction complex and, in particular, to chimney devices for single-storey and multi-storey buildings, space heating using individual heat generators, and is intended for the removal of exhaust flue gases from a heat-generating device.

Known chimney for exhaust gas from the furnace space, made of sequentially installed ready-made monolithic blocks. It is placed horizontally, and the side walls of the blocks are provided with openings for the release of gases, made with the possibility of their overlap (see, for example, RU 2089788, publ. 10.09.1997).

Known chimney of the heating device in the form of a vertical pipe containing an exhaust device. It is composed of several segments of a metal pipe and each of the segments is equipped with a screw insert enclosed in a cylindrical metal casing and made in the form of a metal rod with a metal tape welded to one edge to it in a spiral. The outer edge of the tape fits snugly against the wall of the casing, and the pitch of the spiral is no less than the width of the tape. A casing with a built-in screw insert is placed inside the chimney jacket with a cylindrical clearance along the entire height of the insert (see, for example, RU 109269, publ. 10.10.2011).

Known chimney for the removal of combustion products, containing a chimney, preferably in the form of a hollow thin-walled cylinder, consisting of at least two interconnected sections, preferably three or more. The chimney mainly has devices for shutting off its flow area and for entering / exiting combustion products. At least one section of the chimney, preferably connecting the combustion zone to the chimney, is configured to rotate around the longitudinal axis of the chimney and then fix it in the selected position. The axes of the input and output parts of this section are made intersecting, preferably lying in the same plane with the axis of the chimney (see, for example, RU 110820, publ. 11/27/2011).

As the closest analogue, a chimney was selected that includes smoke elements mounted in the form of a predominantly vertical channel and made with the possibility of fastening to the wall of a building (see, for example, RU 61319, published on 02.27.2007).

The disadvantages of the above devices are the relatively poor quality of ventilation and the durability of the chimneys. Designs are laborious to execute.

The objective of the utility model is to create a device of increased durability, the use of which will provide improved quality of exhaust flue gases.

The problem is solved due to the fact that the chimney, including smoke elements mounted in the form of a predominantly vertical channel and made with the possibility of fastening to the wall of the building, according to the technical solution, includes a chimney base with a steam trap mounted in a single structure along the height of the building, a pipe with revision , 90 ° tee with outlet for supplying air to the chimney, pipes with mineral thermal insulation and at least one 87 ° tee with branch pipe for connecting a heat generator, conical ending and an umbrella, while all the smoke elements are made of acid-resistant stainless steel and connected in such a way that the upper element of the chimney enters into the lower.

The pipes can be made in the form of coaxial pipes, while the chimney is equipped with an upper and lower turbo nozzle.

Pipes can be made single-walled.

The pipes can be double-walled with mineral thermal insulation between them.

As acid-resistant stainless steel, 1.4404 steel, or 1.4301 steel, or 1.4541 steel, or 1.4878 steel 0.5-1 mm thick can be selected.

Smoke elements can be made with the possibility of fastening to the wall of the building using wall clamps.

Wall clamps can be made adjustable.

The technical result of this utility model is to improve the efficiency of flue gas removal with a simultaneous increase in its service life by reducing the concentration of condensate in the chimney channel, formed mainly from pipes with at least one 87 ° tee with a socket for connecting a heat generator, due to all smoke elements of acid-resistant stainless steel and their connection in such a way that the upper element of the chimney enters the lower, as well as by supplying the device with mounted in a single structure along the height of the building with the base of the chimney with a steam trap, a pipe with a revision, a 90 ° tee with a branch for connecting to the air channel, a conical end and an umbrella.

Condensation in the chimney duct is the main reason affecting the draft and durability of the entire chimney. Condensate in the chimney pipe is formed from water vapor contained in air and fuel. The initial temperature of the gases in the channel gradually decreases, this leads to subsidence on the walls of the chimney pipes of water vapor in the gases. Moisture combines with other combustion products, forming aggressive concentrated solutions of acids with impurities of resins and soot, adhering to the walls of the chimney pipes with a rough or porous surface. The growths are formed, as a result of which the diameter of the channel through which the flue gases are removed decreases, which in turn affects the rate of heating of the chimney, on the one hand, and, on the other hand, the reduction of draft in the channel, preventing the free passage of smoke. And the insufficient rate of heating of the chimney walls and weak draft in its channel, in turn, affects the increase in the concentration of condensate on its walls. Such a process leads to the gradual destruction of the material of the chimney with a simultaneous decrease in the efficiency of flue gas removal. In addition, at high temperatures, the soot in the chimney can catch fire and crack the walls of the chimney, which will also lead to its destruction.

In the claimed technical solution, all smoke elements are made of acid-resistant stainless steel, which is characterized by resistance to destruction under the influence of chemical influence. Its use ensures the smoothness of the inner surface of the walls of the chimney and the choice of the minimum allowable wall thickness of pipes and other smoke elements. Thin-walled elements made of acid-resistant stainless steel, insulated with mineral thermal insulation, are quickly heated by flue gases and hold heat for a long time. Since the heating rate of the walls of the chimney is high, the dew point will pass so quickly that condensate will not have time to form from the flue gases, or will form in minimal concentrations. The ability of the claimed material in combination with mineral thermal insulation to keep heat allows flue gases, which, moving along the chimney, gradually cool, do not cool below the dew point, which also prevents condensation. The smoothness of the inner surface of the walls of the chimney, due to the choice of the claimed material, supports the initial draft in the chimney and ensures unhindered passage of flue gases through the channel without reducing the speed of their departure, which also prevents the formation of condensate. At the same time, due to acid resistance, the absence of condensate absorption by the walls of the chimney and a smooth surface, the chimney elements allow fluids to flow down the smoke channel, unlike chimney elements with a rough or porous surface, which also affects the safety of the construction material.

The connection of all the smoke elements in such a way that the upper element of the chimney enters into the lower, in other words, "by condensate" in combination with the smoothness of the walls of the chimney, will ensure that condensate formed flows freely into the condensate drain of the base of the chimney, which is supplied with the inventive device, from where it is removed.

In order to reduce the condensate concentration, the chimney is equipped with a conical end and an umbrella to protect the chimney channel from atmospheric moisture entering the chimney during rain or snowfall.

If the speed of the flue gas in the chimney is insufficient, the risk of vapor transfer to water with the formation of condensate increases. At high speed (thrust), the vapors simply fly out of the pipe, not having time to thicken and transform into a liquid. To ensure the required draft, the chimney is equipped with a 90 ° tee with an outlet for supplying air to the chimney, as well as a pipe with revision to clean the channel of soot, necessary to maintain the initial diameter of the pipe section.

The essence of the claimed technical solution is illustrated by drawings, where in FIG. 1 shows a chimney, front view; in FIG. 2 same side view.

The chimney includes smoke elements mounted in the form of a predominantly vertical channel and made with the possibility of fastening to the wall of the building. The smoke elements are mounted in a single structure along the height of the building in a certain sequence so that the upper element of the chimney enters the bottom. At the bottom of the chimney, the base 1 of the chimney with a steam trap is installed. Next, install a pipe 2 with a revision, and then a 90 ° 3 tee with a tap for supplying air to the chimney. Next, the chimney is assembled from pipes 4 with mineral thermal insulation and 87 ° 5 tees with a bell outlet for connecting a heat generator 6. The number of 87 ° 5 tees with a bell outlet depends on the number of heat generators 6 that need to be connected to the chimney. The conical end 7 and the umbrella 8 are installed in the chimney head. All smoke elements are made of acid-resistant stainless steel.

The assembly of the chimney is carried out by the method of connecting smoke elements to each other. For this, each smoke element is made with a bell-shaped end so that the upper element of the chimney enters the lower, i.e. "By condensate." To ensure the density and reliability of the connection during assembly, a heat-resistant sealant is used, which hardens during operation and the chimney becomes a single design. The installation of the chimney is carried out by attaching to the wall of the building using wall clamps 9, which are made adjustable, and mounting sites 10 with consoles.

Mineral thermal insulation, for example, mineral wool, protects the chimney from quick cooling and retains heat, as a result of which a good rate of emission of combustion products and more efficient operation of the heat generator are ensured. The thickness of the mineral thermal insulation is 25, 50 or 100 mm. Mineral thermal insulation protects the chimney from quick cooling and retains heat, as a result of which a good rate of emission of combustion products and more efficient operation of the heat generator 6 are ensured.

When using a chimney as an insert into an existing traditional smoke channel of a building, pipes 4 made of single-wall are used. In this case, the mineral thermal insulation is mounted on the outer surface of the pipes 4 using a wire, or using a reinforced galvanized wire mesh, or using clamps. Before installing the chimney in the existing smoke channel of the building, torn fragments of masonry and protruding mortar, as well as excess combustion products remaining in it, are removed. In order to ensure the entry of long and profile smoke elements of the chimney, the corresponding holes are made in the lower part of the building’s smoke channel, at the point of connection to the heat generator, and also at the places of installation of additional control profiles, all kinds of bends and impassable places of the building’s smoke channel. Smoke elements are mounted by the plug-in method in the center of the smoke channel of the building from above or, if possible, from below.

When using the chimney, pipes 4 made of double-walled with mineral thermal insulation between the walls are used as an independent design.

To ensure air supply to the heat generator in order to maintain the process of fuel combustion, the pipes 4 are made in the form of coaxial pipes. In this case, the chimney is additionally equipped with an upper turbo nozzle (not conventionally shown in the drawings) and a lower turbo nozzle (not conventionally shown in the drawings) for air intake from the external environment.

It is preferable to use 1.4404 steel or 1.4301 steel, or 1.4541 steel, or 1.4878 steel 0.5-1 mm thick, as acid-resistant stainless steel. These parameters are selected depending on the calculated diameter of the chimney, which is in the range of 80 mm-1000 mm, and the type of fuel.

The principle of operation of the chimney.

As a result of the operation of the heat generator 6, flue gases are released, which through the tee 87 ° 5 with the outlet of the bell fall into the chimney, rush up, heating the walls of the smoke elements, in particular pipes 4. Due to the choice of material of the smoke elements and the minimum thickness of the chimney walls due to this choice , the walls of the smoke elements are heated at high speed, instantly passing the dew point temperature and exceeding it several times. With such heating, flue gases do not have time to produce condensate. The mineral thermal insulation of the pipes 4 prevents their contact with the external environment and the cooling of already heated pipes 4, which allows a sufficiently high temperature in the chimney to be maintained and prevents the cooling of flue gases to the dew point along the entire path of the chimney. In this case, the condensate does not have time to stand out from the flue gases or is released in minimal concentrations, settling on the walls of the pipes 4.

The smoothness of the inner surface of the walls of the chimney, including pipes 4, also due to the choice of the claimed material, allows condensate, without leaving deposits on the walls of the chimney, to freely slide along them into the base 1 of the chimney with a steam trap, from where moisture is removed when the chimney is serviced. The connection of all the smoke elements in such a way that the upper element of the chimney enters the lower one, in other words, "by condensation", allows the moisture that does not roll up to accumulate at the joints of the smoke elements. The absence on the walls of the chimney of deposits in the form of resins and soot present in the condensate makes it possible to maintain the initial draft in the chimney and to provide unhindered passage of flue gases through the channel without reducing the speed of their discharge, which also eliminates the formation of condensate. To improve the draft, the chimney is periodically cleaned and the congestion in the path of the flue gas is removed, for which the chimney is equipped with a pipe 2 with a revision. With good traction, water vapor does not linger in the pipe, flying out with flue gases. To ensure the required draft, the chimney is equipped with a 90 ° tee with an outlet for supplying air to the chimney from the external environment, while the pressure is equalized.

The conical end 7 and the umbrella 8 protect the internal space of the chimney from falling into it from above atmospheric moisture flowing into the chimney during rain or snowfall.

In an embodiment of the device, where the pipes 4 are in the form of coaxial pipes, that is, pipes made according to the principle of a pipe in a pipe, flue gases are transported through the inner pipe as described above, and through an outer annular channel formed by the walls of the two pipes, the heat generator 6 is supplied from the street with the air necessary for burning fuel. It is heated from the inner pipe, through which flue gases are transported in the opposite direction.

The claimed chimney can be used both in the construction of new buildings, and in the reconstruction of previously built residential multi-apartment buildings and public premises built into them, heated using heat generators.

Claims (7)

1. The chimney, including smoke elements mounted in the form of a predominantly vertical channel and made with the possibility of fastening to the wall of the building, characterized in that it includes a base of the chimney with a steam trap mounted in a single structure along the height of the building, a pipe with revision, a 90 ° s tee a duct for supplying air to the chimney, pipes with mineral insulation and at least one 87 ° tee with a bell for connecting a heat generator, a conical end and an umbrella, while all the smoke elements of acid resistant stainless steel enes and connected so that the upper flue element included inside lower. 2. The chimney under item 1, characterized in that the pipes are made in the form of coaxial pipes, while the chimney is equipped with an upper and lower turbo nozzle. 3. The chimney according to claim 1, characterized in that the pipes are single-walled. 4. The chimney according to claim 1, characterized in that the pipes are double-walled with mineral thermal insulation between them. 5. The chimney according to claim 1, characterized in that steel grade 1.4404, or steel grade 1.4301, or steel grade 1.4541, or steel grade 1.4878 with a thickness of 0.5-1 mm is selected as acid-resistant stainless steel. 6. The chimney according to claim 1, characterized in that the smoke elements are made with the possibility of fastening to the wall of the building using wall clamps. 7. The chimney according to claim 6, characterized in that the wall clamps are made adjustable.

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