RU175621U1 - Chimney draft booster - Google Patents

Abstract

The utility model relates to devices for enhancing traction during fuel combustion. There is a problem of igniting heating devices when cold air from a direct chimney enters the room through the furnace, in this case it is necessary to increase the draft in a direct chimney, to create air movement upward through the pipe. The task of the chimney draft amplifier is to intensify the combustion process, increase aerodynamic stabilization by improving the degree of mixing of smoke with air and increasing its removal rate due to a combination of ejection and vortex ascending turbulent flows. The chimney draft amplifier contains a technique a vortex chamber associated with a chimney, a vortex chamber with an air inlet, a mixing chamber, a reception chamber made in the form of a receiving pipe, a vortex chamber made in the form of a funnel-cone, placed on top of a receiving pipe, with a length of a smaller length of the receiving pipe, with a diameter the smaller base is larger than the diameter of the receiving pipe, the mixing chamber is cylindrical and mounted on top of the continuation of the vortex chamber, while between the receiving pipe and the junction of the vortex chamber with the mixing chamber The front nozzle of the ejector, and the vortex chamber is mounted with a large base on the plane of the roof and is made with a centrifugal fan, which is installed closer to the larger base of the vortex chamber, tangentially to its outer surface, in which an air inlet is made for the air coming from the centrifugal fan. 3 ill.

Description

The utility model relates to devices for enhancing traction during fuel combustion. There is a problem of igniting heating devices when cold air from a direct chimney through the firebox enters the room, in this case it is necessary to strengthen the draft in a direct chimney, to create an upward movement of air through the pipe.

The device is designed to create artificial draft or enhance natural draft in chimneys of fireplaces or stoves with a complicated configuration of chimneys, to create draft during the kindling of fire in fireplaces or stoves until stable natural draft appears, after which the device can be turned off, to create a hood and remove smoke when arranging barbecues, barbecue on wood or charcoal in enclosed spaces, to remove the release of caustic substances from laboratory cabinets that can destroy the fan, to extract from small windows asochnyh cameras.

The invention is known, described in Russian patent No. 2124163, published on December 27, 1998. The essence of the invention is that a discharge duct is introduced into the chimney barrel, directed by the nozzle towards the exit of the flue gases, and the barrel behind the nozzle can take the form of a confuser, which can end a mixing chamber or diffuser, as well as a mixing chamber may be located between the confuser and the diffuser. The technical result obtained is to create a vacuum sufficient to remove flue gases through flue channels having high aerodynamic drag.

The disadvantages of this patent are that the chimney has large dimensions, which will require high energy consumption and complicate natural traction.

A known utility model is described in Russian patent No. 18843, published July 20, 2001. A system for enhancing the draft of a heating flame furnace, including a chimney, in which a device for enhancing the draft of a heating flame furnace is installed, comprising a fan connected to an electric power source, and it is equipped with a switch located in the room where the heating furnace is installed.

The disadvantages of this patent are that the high temperature in the chimney will bring the axial fan out of operation and impede natural draft, installing a centrifugal fan in the flue branch at the top of the pipe will also not add draft.

A patent for utility model No. 113558 is published on July 26, 2011. A device for removing flue or industrial gases into the atmosphere, consisting of a chimney mounted on a foundation base and an air blower made in the form of at least one fan, moreover the air flow from the supercharger is directed upward along the outer generatrix of the pipe.

It is used in industry to reduce the design pipe height.

A patent for invention is known No. 2213906, published on July 29, 2002. A device for exhausting flue gases and ventilation air flows into the atmosphere comprises a chimney with a nozzle section having an axisymmetric channel and an exit window, an air duct with a nozzle also equipped with an exit window, is additionally equipped a mixing chamber with an axisymmetric channel, an outlet window vented to the atmosphere and connected to the outlet windows of the ventilation pipe and the nozzle section of the pipe by an inlet window, and into the nozzle section The ventilation pipe is formed with the formation of an annular channel for the passage of ventilation air, and the channels of the mixing chamber, ventilation pipe and nozzle section of the pipe are installed along the common axis of symmetry.

In the mixing chamber 8, the flue gas stream emerging from the channel 3 of the nozzle 2 ejects near the placed layers of the medium of the ventilation flows, creating a rarefaction jump near the nozzle 2 and an additional pressure drop (draft) between the outlet window 10 of the gas mixture into the atmosphere and the window 15 of the intake of ventilation air flows.

During operation of the device, the process of air ventilation in the room is activated, the efficiency of energy use (dynamic pressure) of the exhaust flue gas stream is increased.

A disadvantage of the device for exhausting flue gases and ventilation air flows into the atmosphere is that in the event of an attempt to discharge ventilation air flows from the room on the leeward side directly into the chimney, the gases from the chimney are inverted into the ventilation duct and into the room.

A known US patent for invention No. 4512264 published on 10/31/1983, which solves the problem of removing flue or industrial gases into the atmosphere using ejectors. In this design, hot air is supplied to the pipe barrel, and air from the environment through the ejector.

The invention allows to reduce the height of the chimney, which does not contribute to the afterburning of unburned fuel, in addition, the material from which the pipe is made must be heat-resistant, which is also a disadvantage

Known patent for invention No. 2203453, published July 17, 2001. A device for removing flue and / or industrial gases into the atmosphere contains an air blower, the outlet of which is connected to the bottom of the vertical pipe. At least two ejectors spaced apart along its height are installed in the pipe barrel, while the suction inlet of at least one ejector is connected via gas pipelines to exhaust gas intake devices.

As a supercharger of air, some high-pressure device can be used, for example, a centrifugal fan, which drives cold, compared with flue or industrial gases, air from the surrounding atmosphere into the pipe trunk. This air creates a stream in the pipe bore, which carries the gases further fed into the suction inlets of the ejectors. In this case, dilution and mixing of flue or industrial gas with cold air occurs behind the ejector.

A feature of the proposed device is also that at least two stages of ejection are installed in the pipe trunk, which allows, on the one hand, to take polluted air from different points of the production room and from different points where industrial or flue gases are formed, on the other hand, several ejection stages allow better mixing of gases with each other and with cold air and achieve a decrease in the concentration of harmful impurities already in the pipe bore.

However, not all stages of ejection can be connected to devices for the removal of industrial and / or flue gases. Some suction inlets of the ejectors can be connected to the atmosphere to suck in atmospheric air and reduce the concentration of harmful substances in the gas stream of the pipe barrel, as well as to create an accelerating stream. This design will be applied if it is necessary to remove gases from a small number of points, but it is necessary to achieve a low concentration of harmful substances at the outlet of the pipe into the atmosphere

The closest analogue selected as a prototype is the patent for the invention of Russia No. 2365819, published on 08.27.2009. The device for bladeless traction amplification of smoke and ventilation ducts consists of a vortex funnel-cone (vortex chamber) mounted with its apex on the suction cone (receiving chamber) ) associated with the chimney (flue and aggressive gases) and having a tangential pipe in the lower part for supplying compressed air, in the upper part there is a cone-pocket that collects condensate and sludge. The cone pocket is paired with a collection cone (mixing chamber) having a flange for connection to a discharge pipe. The invention allows to move aggressive and flue gases with high temperature due to vortex ascending turbulent flows, using the energy resources of the flows themselves.

The disadvantages of this device vaneless traction smoke and ventilation ducts are the complexity of the device and the lack of speed of removal of combustion products.

The task of the chimney draft amplifier is to intensify the combustion process, increase aerodynamic stabilization by improving the degree of mixing of smoke with air and increasing its removal rate, due to the combination of ejection and vortex ascending turbulent flows.

The technical result in the chimney draft amplifier is achieved by the fact that the chimney draft amplifier contains a receiving chamber associated with the chimney, a vortex chamber with an air inlet, a mixing chamber, according to a utility model, the receiving chamber is made in the form of a receiving pipe, the vortex chamber is made in the form of a funnel - cone, dressed on top of the receiving pipe, with a length shorter than the length of the receiving pipe, with a diameter of a smaller base greater than the diameter of the receiving pipe, the mixing chamber is cylindrical and mounted on top in continuation of the vortex chamber, while between the receiving tube and the junction of the vortex chamber with the mixing chamber an annular ejector nozzle is formed, and the vortex chamber is mounted with a large base on the plane of the roof, and is made with a centrifugal fan, which is installed closer to the larger base of the vortex chamber, tangential to its the outer surface in which the inlet is made for air coming from a centrifugal fan.

Due to the fact that in the chimney draft amplifier the receiving chamber is made in the form of a receiving pipe, the vortex chamber is made in the form of a funnel - a cone, placed on top of the receiving pipe, with a shorter length of the receiving pipe, with a diameter of a smaller base larger than the diameter of the receiving pipe, a mixing chamber made cylindrical and mounted on top of the continuation of the vortex chamber, while between the receiving tube and the junction of the vortex chamber with the mixing chamber an annular ejector nozzle is formed, and the vortex chamber is mounted large base on the roof plane, and is made with a centrifugal fan, which is installed closer to the larger base of the vortex chamber, tangentially to its outer surface, in which an air inlet for air from the centrifugal fan is made, the combustion process is intensified, aerodynamic stabilization is improved by improving the degree of mixing smoke with air increases its removal rate due to the combination of ejection and vortex ascending turbulent flows.

Thus, the combination of the claimed features allows you to intensify the combustion process, increase aerodynamic stabilization by improving the degree of mixing of smoke with air, increase its removal rate through a combination of ejection and vortex ascending turbulent flows.

The inventive chimney draft amplifier has a novelty, differing from the prototype of the above features, and ensures the achievement of the technical result perceived by the applicant.

The inventive chimney draft amplifier may find application for enhancing draft when burning fuel. There is a problem of igniting heating devices when cold air from a direct chimney through the firebox enters the room, in this case it is necessary to strengthen the draft in a direct chimney, to create an upward movement of air through the pipe.

The essence of the chimney draft amplifier is illustrated by drawings, which show:

in FIG. 1 - chimney draft amplifier, general view with a cut;

in FIG. 2 - the same, front view in section;

in FIG. 3 - the same, top view.

The chimney draft amplifier contains a receiving pipe 1, a swirl chamber 2 with a length shorter than the receiving pipe 1, in the form of a funnel — a cone installed by a large base on the roof plane, a centrifugal fan 3 and a mixing chamber 4, the mixing chamber 4 is made in continuation of the swirl chamber 2, cylindrical, connected to it motionless. The diameter of the receiving pipe 1 is less than the diameter of the vortex chamber 2 at the junction with the mixing chamber 4. The receiving pipe 1 exits into the mixing chamber 4. An annular nozzle is formed between the receiving pipe 1 of the vortex chamber 2, the mixing chamber 4 at the junction of the vortex chamber 2 with the mixing chamber 4 5 ejectors. The receiving pipe 1 is worn on the chimney 6 of the furnace, fixed on it by any known method, for example, a clamp (not shown in Fig.).

The centrifugal fan 3 is installed closer to the base of the vortex chamber 2, tangentially to its outer surface, in which an air inlet 7 is made for the air coming from the centrifugal fan 3, for a secondary tangential vortex upward flow of high pressure.

The dimensions (diameters and lengths of the vortex chamber 2, the receiving pipe 1, the mixing chamber 4) are selected based on the design of the room, furnace and roof on which the chimney draft amplifier is installed. As a rule, the length of the receiving pipe 1 is greater than the length of the vortex chamber 2, the length of the mixing chamber 4 is less than the length of the vortex chamber 2.

The operation of the chimney draft amplifier. When power is supplied to the centrifugal fan 3 located on the side wall of the vortex chamber 2, air from the centrifugal fan 3 through the hole 7 is tangentially supplied to the cavity of the vortex chamber 2, where due to the rotation of the jet its pressure is equalized in all areas and the primary tangential air flow is formed . Through the annular nozzle 5 of the ejector, a rotating jet of high pressure air is ejected into the cavity of the mixing chamber 4. Due to this, a vacuum is created in the cavity adjacent to the annular nozzle 5 of the ejector of the receiving pipe 1, which ensures the ejection of the flue gas medium from the chimney 6 connected to the receiving pipe 1, forming a secondary stream of gases.

The spiraling upward primary flow emerging from the annular nozzle 5 of the ejector, due to the friction force, twists the secondary flow of flue gases in the mixing chamber 4. Using centrifugal force, the mixture of the primary and secondary flows is pressed against the outer walls of the mixing chamber 4, increasing the pressure and also the draft in the receiving pipe 1 and chimney 6.

The technical solution of the prototype invention patent No. 2365819 describes the energy exchange by flows from the point of view of the first law of thermodynamics, which is also applicable to our technical solution.

The primary stream, having fallen into the turbulence zone of the secondary tangential vortex upward flow of high pressure, having significant temperature differences (Δ T), participates in turbulent energy exchange and joint swirling of the upward flow, increasing their linear rotational speeds and capturing ever new warm gas flows. These phenomena of energy exchange and the additional work created can be explained according to the first law of thermodynamics:

dq = dh + d (c ^2/2), where the dq - heat supplied to the working fluid, moving with velocity, is to increase its enthalpy dh and kinetic energy;

d (c ^2/2) = - Vdp - the kinetic energy of the working fluid is a technical paper in this case to increase the speed of rotation of the joint threads.

Thus, using the energy resources of the flows themselves and their kinetic energy, the combustion process is intensified, aerodynamic stabilization is improved by improving the degree of mixing of smoke with air and its removal rate is increased due to vortex ascending turbulent flows.

In the claimed utility model, the combustion process is intensified, aerodynamic stabilization is improved by improving the degree of mixing of smoke with air, its removal rate is increased by a combination of ejection and vortex ascending turbulent flows, due to the fact that the receiving chamber is made in the form of a receiving pipe, the vortex chamber is made in the form of a funnel - a cone, dressed on top of the receiving pipe, with a length shorter than the length of the receiving pipe, with a diameter of a smaller base greater than the diameter of the receiving pipe, the mixing chamber is made cylin circular and mounted on top of the continuation of the vortex chamber, while an annular ejector nozzle is formed between the receiving tube and the junction of the vortex chamber with the mixing chamber, and the vortex chamber is mounted with a large base on the roof plane and is made with a centrifugal fan, which is installed closer to the larger base of the vortex chamber tangentially to its outer surface, in which an inlet is made for air coming from a centrifugal fan.

Claims (1)

A chimney draft amplifier comprising a receiving chamber associated with a chimney, a vortex chamber with an air inlet, a mixing chamber, characterized in that the receiving chamber is made in the form of a receiving pipe, the vortex chamber is made in the form of a funnel-cone, mounted on top of the receiving pipe, with a length shorter than the length of the receiving pipe, with a diameter of a smaller base greater than the diameter of the receiving pipe, the mixing chamber is cylindrical and mounted on top of the continuation of the vortex chamber, while between the receiving pipe and the A vortex chamber with a mixing chamber forms an annular ejector nozzle, and the vortex chamber is mounted with a large base on the roof plane and is made with a centrifugal fan, which is installed closer to the larger base of the vortex chamber, tangentially to its outer surface, in which an air inlet is made for the air entering from a centrifugal fan.

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