RU2507454C2 - Recirculating air curtain - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: recirculating air curtain for covering a door opening in a wall of a building with a vestibule includes a ventilation unit having inlet and outlet slot nozzles connected to fan branch pipes, the outlet slot nozzle of which is arranged in the vestibule on the opening side; besides, the outlet nozzle is equipped with a damper kinetically connected to one of the guide blades that have a curved shape and are attached to side walls of the vestibule with possibility of its opening; besides, the blades are made from polymer composite material, and on inner surface of a suction branch pipe from inlet to outlet holes there located are longitudinal curved grooves connected to an annular groove arranged before the inlet hole of the suction branch pipe; besides, the annular groove in its lower part is connected to a pollutant collector; the fan is equipped with a drive with a speed-regulating governor and a temperature control; the suction branch pipe is made in the form of the first elastic section in the suction air flow direction and a stiff section with longitudinal curved grooves and a circular groove on inner surface, which are connected to each other; besides, the elastic section includes an end plate installed at the inlet of the suction branch pipe with possibility of its being moved on rod-like guides and tightly attached to the elastic section.

EFFECT: supply of constant amount of suction air to a fan and optimisation of energy consumption for a fan drive.

1 cl, 3 dwg

Description

The invention relates to industrial ventilation and can be used mainly for air shielding of doorways in the walls of industrial premises and structures.

Known recirculation air curtain for closing the doorway in the wall of the building with the vestibule (see RF patent No. 2200909, IPC F24F 9/00 publ. March 20, 2003), containing located on one side of the opening of the ventilation unit having respectively connected to the suction and discharge nozzles fan slotted inlet and outlet nozzles, the last of which is placed in the vestibule from the opening at an acute angle to its plane, dividing shields installed in the slots of the outlet nozzle and attached to the side walls of the vestibule and the guide panels, while the outlet nozzles are equipped with a shutter kinetically connected to one of the guide panels, which are made curved with a radius of curvature equal to the width of the opening, and are attached to the side walls of the vestibule with the possibility of its opening, and the panel is made of polymer composite material with fibers oriented along the direction of the recirculation air, and longitudinally curved are located on the inner surface of the suction pipe from the inlet to the outlet anavki connected with an annular groove located before the inlet of the suction pipe, wherein an annular groove in its lower part with a collection of related contaminants.

The disadvantage is the energy intensity of the fan under varying weather and climate conditions for the intake of atmospheric air as intake air, which is due to the difference in its density depending on the outdoor temperature, and, as a consequence, the difference in mass flow into the discharge pipe. And this at constant power to the fan drive and leads to additional energy costs, because a lower outdoor temperature corresponds to a higher fan power, i.e. increased intake of a mass amount of injected air, which is not energetically justified by the operating conditions of the recirculated air curtain.

Known recirculation air curtain for closing the doorway in the wall of the building with the vestibule (see RF patent No. 2426949, IPC F24F 9/00, F24F 11/053, publ. 08/20/2011, Bull. No. 23), containing located on one side of the opening a ventilation unit having slotted inlet and outlet nozzles connected respectively to the suction and discharge pipes of the fan, the last of which is placed in the vestibule from the opening side at an acute angle to its plane, dividing shields installed in the slots of the outlet nozzle and attached to the sides the walls of the vestibule are guiding panels, while the outlet nozzles are equipped with a shutter kinetically connected to one of the guiding panels, which are made curved with a radius of curvature equal to the width of the opening, and are attached to the side walls of the vestibule with the possibility of opening it, and the panel is made of polymer composite material with fibers oriented along the direction of the recirculation air, and longitudinally arranged on the inner surface of the suction pipe from the inlet to the outlet - curved grooves connected to the annular groove located in front of the inlet of the suction pipe, the annular groove in its lower part being connected to the dirt collector, the fan being equipped with a drive with a speed controller in the form of a block of powder electromagnetic couplings and a temperature controller with an outdoor temperature sensor air, and the temperature controller contains a comparison unit and a task unit, while the comparison unit is connected to the input of an electronic amplifier equipped with a nonlinear feedback furthermore electronic amplifier output connected to the input magnetic amplifier with rectifier, whose output is connected to the speed controller as a block of powder electromagnetic fan drive clutches.

The disadvantage is the excessive consumption of energy on the fan drive when atmospheric air enters into it with a density and concentration of contaminants that vary during the year both from climatic and climatic influences and technological pollution, which leads to different and significantly different from the normative required for effective screening and mass receipt of the recirculation stream as an air curtain in the production room.

The technical task of the invention is to ensure the receipt of a constant amount of intake air into the fan and, accordingly, optimal energy consumption for the fan drive, not depending on weather and climatic influences and technological pollution of atmospheric air, which is ensured by maintaining gas-dynamic pressurization that does not change over time due to its integrated performance from elastic and hard sections.

The technical result is achieved by the fact that the recirculating air curtain for closing the doorway in the wall of the building with the vestibule contains a ventilation unit located on one side of the opening, having slotted inlet and outlet nozzles connected respectively to the suction and discharge pipes of the fan, the last of which is placed in the vestibule from the side aperture at an acute angle to its plane, dividing shields installed in the slits of the exhaust nozzle and attached to the side walls of the guide platform panels, while the outlet nozzles are equipped with a shutter kinetically connected to one of the guide panels, which are made curved with a radius of curvature equal to the width of the opening, and are attached to the side walls of the vestibule with the possibility of its opening, and the panel is made of polymer-composite material with oriented along the movement of the recirculation air with fibers, and on the inner surface of the suction pipe from the inlet to the outlet there are longitudinally curved grooves with dined with an annular groove located in front of the inlet of the suction nozzle, the annular groove in its lower part being connected to the dirt collector, and the fan is equipped with a drive with a speed controller in the form of a block of powder electromagnetic couplings and a temperature controller with an outdoor temperature sensor, and the controller temperature contains a comparison unit and a reference unit, while the comparison unit is connected to the input of an electronic amplifier equipped with a nonlinear feedback unit in addition, the output of the electronic amplifier is connected to the input of the magnetic amplifier with a rectifier, the output of which is connected to the speed controller in the form of a block of powdered electromagnetic fan drive couplings, while the suction pipe is made in the form of an elastic section connected to each other along the intake air and hard with longitudinally curved and circular grooves on the inner surface, and the elastic section includes an end washer installed at the inlet of the suction pipe with the ability to move on the rod guides and hermetically fastened with an elastic section.

Figure 1 shows a curtain, a plan; figure 2 - the inner surface of the hard section of the suction pipe of the fan with a device for the accumulation of contaminants; figure 3 - suction section, spatially located first along the flow of atmospheric air, and a hard section with a device for the accumulation of pollution.

The recirculation air curtain for closing the doorway 1 in the wall of the building 2 with the vestibule 3 comprises a ventilation unit located on one side of the opening 1, having a slotted inlet nozzle 7 and an outlet nozzle 8, respectively, attached to the suction 4 and discharge 5 of the fan 6, and the outlet nozzle 8 placed in the vestibule 3, installed in the slots 9 of the exhaust nozzle 8 dividing shields 10 attached to the side walls of the vestibule 3 guide panels 11 made of a polymer-composite material Ala with fibers oriented along the direction of the recirculation air, the exhaust nozzles 8 are provided with a shutter 12 kinetically connected to one of the guide panels 11, while the guide panels 11 are curved with a radius R of curvature equal to the width B of the opening 1 and attached to the side walls of the vestibule 3 with the possibility of opening it, and the outlet nozzles 8 are placed on the side of the opening 1 at an acute angle os to its plane, the curtain additionally contains an external horizontal visor 13. In addition, on the inner surface of the suction pipe 4 from the inlet 14 to the outlet 15 are longitudinally curved grooves 16 included in the annular groove 17, which is also on the inner surface of the suction pipe 4 in front of its outlet 15, and the annular groove 17 in its lower part is connected to contaminant collector 18. The fan 6 is equipped with a drive 19 with a speed controller 20 in the form of a block of powder electromagnetic couplings and a temperature controller 21 with an outside temperature sensor 22, and the controller The temperature controller 21 contains a comparison unit 23 and a reference unit 24, while the comparison unit 23 is connected to the input of an electronic amplifier 25 equipped with a non-linear feedback unit 26, in addition, the output of the electronic amplifier 25 is connected to the input of a magnetic amplifier 27 with a rectifier at the output connected to the speed controller 20 in the form of a block of powder electromagnetic couplings of the drive 19 of the fan 6.

The suction pipe 4 is made in the form of interconnected first along the intake air of the elastic section 28 and the rigid section 29 with curved grooves 16 and a circular groove 15 on its inner surface. The elastic section 28 includes an end washer 30 mounted on the inlet 31 of the suction pipe 4 with the possibility of moving it on the rod guides 32 and hermetically fastened to the elastic section 28. The cavity 33 is the volume enclosed between the inlet 31 and the outlet 34 of the holes of the suction pipe 4.

Recirculation air curtain operates as follows.

Reducing the energy intensity of the production of recirculated air is achieved by increasing the fan performance due to resonant boost - the use of resonant oscillations of the air column in the suction pipe.

It is known that a change in the volume of the cavity inside the fan during the rotation of its centrifugal wheel and the pulsating movement of atmospheric air along the suction pipe causes the air column to oscillate between the inlet and outlet openings of the suction pipe. These oscillations are forced, and when their frequency coincides with the natural frequency of the air column, a resonance occurs with significant amplitudes of pressure fluctuations. If you select the volume of the cavity between the inlet and outlet openings of the suction pipe so that by the time air enters the cavity of the centrifugal wheel of the fan there is a maximum pressure, this increases the mass charge in the cavity of rotation of the centrifugal wheel, which increases the performance of the fan (see page 69 Kurchavin V.M., Mezentsev A.P. Saving thermal and electric energy in reciprocating compressors.Leningrad: Nauka, 1985. 328 p.)

The role of the resonator in the present invention is performed by a cavity 33 formed by elastic 28 and hard 29 sections of the suction pipe 4, while the volume of the cavity 33 is determined experimentally depending on the averaged weather and climatic and technological operating conditions of the recirculation air curtain. The density of the air entering the cavity 33 varies depending on the weather, climate and technological conditions of operation of the recirculation air curtain, so the resonator must have a variable volume.

For the initial dimensions of the volume of the resonator, the dimensions of the cavity 33 of the suction pipe 4, are taken. corresponding to the maximum ambient temperature (it is known that the higher the temperature of the air, the lower its density) and the minimum amount of contaminants entering the suction pipe 4. All this is determined experimentally according to the operating conditions of the fan 6 of the recirculation air curtain.

As the temperature of atmospheric air decreases or the amount of pollution in it increases, the density of the intake air increases and as a result, the impact energy of the mixture flow (atmospheric air and pollution in it) against the end plate 30 increases and the latter moves along the guide rods 32, compressing the elastic section 28. When moving the elastic section 28, the volume of the air column in the cavity 33 is reduced.

In the event of a subsequent decrease in the density of the intake air stream (the temperature of the air increases or the amount of pollution in it decreases), the elastic section 28 under the action of the compressive forces of the material from which it is made, or the spring (not shown in Fig. 3) moves with the end plate 30 in the direction opposite to the direction of atmospheric air intake, which increases the volume of the air column in the cavity 33. As a result, a pulsating movement of the elastic section of 28 s is observed with an washer 30 on the guide rods 32, which ensures a change in the resonant volume and, accordingly, the optimal effect of the resonant blow on the amount of filling of the cavity of rotation of the centrifugal fan wheel 6. And this leads to a decrease in energy consumption for the fan drive in changing weather and climate and technological conditions of operation of the recirculation air curtain.

When changing the temperature of the outdoor air in the vestibule 3, for example, downward from the normalized (for example, from 8 ° C), the temperature sensor 22 is fixed, which forms the corresponding signal in the system "outdoor temperature sensor 22 - temperature controller 21. When this, the signal from the outside temperature sensor 22 becomes larger than the signal from the reference unit 24 and a negative polarity signal appears at the output of the comparison unit 23, which is fed to the input of the electronic gain For 25 simultaneously with the signal of negative nonlinear coupling of block 26. The signal from the output of electronic amplifier 25 is fed to the input of magnetic amplifier 27, where it is amplified by power, rectified, and fed to the speed controller 20 in the form of a block of powder electromagnetic couplings. The negative polarity of the signal of the electronic amplifier 25 causes a decrease in the excitation current at the output of the magnetic amplifier 27. As a result, the moment from the drive 19 is transmitted to the speed controller 20 in the form of a block of powder electromagnetic couplings and the air supply by the fan 6 through the discharge pipe 5 is reduced.

When opening the guide panels 11 using the limit switches connected in the control circuit with an electric motor, the fan 6 is included in the work. Under the action of the rarefaction forces created by the fan 6, in the nozzle 7 through its inlet slot an incoming flow of cold air enters the internal cavity of the fan 6, and from there through the outlet pipe 8 with the outlet slot 9 into the vestibule 3. The damper 12 is interlocked with the guide plate 11, is at this time in the open position. The air flow reaches the curved surface of the guide plate 11, made of a polymer-composite material with fibers oriented along the direction of the recirculation air, and is divided into two streams upon collision with the panel 11.

The most powerful external air stream is directed along the surface of the guide plate 11, made of a polymer-composite material, along oriented fibers and, as a result, with the least aerodynamic resistance towards the bursting weakened oncoming stream of cold air, preventing its further movement towards the opening 1, simultaneously changing the direction of its movement in the direction of the receiving slit of the receiving nozzle 7. The air in the vestibule 3 in the area of the opening 1, due to this It begins to twist, forming a vortex column.

In the zone of the vestibule 3, a vortex air column arises due to the further advancement of a part of the air stream (due to centrifugal forces), passing by the receiving slit of the receiving nozzle 7 and then moving along the curved surface of the web 11 made of a polymer composite material along oriented fibers to the intersection with an air stream flowing from the slot 9 of the exhaust nozzle 8.

Here, the air flow, somewhat weakened, is picked up by a stream of air from the slot 9 of the exhaust nozzle 8, which gives the column of air located in the vestibule 3, due to the friction forces between the air particles, rotational movement in the vertical plane with a gradual increase in the speed of rotation of the air column around the vertical axis, further increasing resistance to promote cold outside air bursting into the vestibule 3.

Part of the recirculated air from the vestibule 3 is mixed with the air coming from the room to the receiving nozzle 7. The resulting mixture under the influence of the vacuum forces created by the fan 6 in the receiving nozzle 7 through the receiving slot enters through the inlet 14 into the suction pipe 4, where, moving along curved grooves 16 to the outlet 15 of the suction pipe 4, twists. Solid and droplet-like particles of contaminants of the air mixture entering the receiving nozzle 7 under the action of centrifugal forces in the suction pipe 4 are displaced in the cavity of the curved grooves, where they coagulate, stick together, coarsen and move from the inlet 14 into the annular groove 17 located in front of the outlet 15 From the annular groove 17, solid and droplet-like particles of contaminants under the action of gravity enter the contaminant collector 18, from which they are removed manually or automatically as they accumulate.

After the movement of vehicles through the opening or the end of any work, the guide plates 11 made of a polymer-composite material with fibers oriented along the direction of the recirculation air are closed, while the limit switches break the circuit supplying the starter coil (not shown), the starter disconnects the electric motor from the network, and through the draft with a spring compensator, the shutter 12 covers the slot 9 of the exhaust nozzle 8 over its entire height, preventing the penetration of cold outside Wow air in the vestibule 3.

The originality of the technical solution to reduce energy consumption for the fan drive of the recirculation air curtain is achieved by the fact that the suction pipe is made in the form of a resonator, consisting of the elastic section and the rigid section with curved grooves and the device for removing contaminants, which are first connected in series with the intake air intake. In this case, a change in the resonant volume in the suction pipe in changing weather, climatic and technological conditions of operation of the recirculation air curtain is achieved by changing the volume of the cavity of the elastic section of the resonator by moving it along the guide rods when exposed to atmospheric air on the end plate installed at the inlet of the suction pipe.

Claims (1)

A recirculation air curtain for closing the doorway in the wall of the building with the vestibule, comprising a ventilation unit located on one side of the opening, having slotted inlet and outlet nozzles respectively connected to the fan suction and discharge pipes, the last of which is placed in the vestibule from the opening side at an acute angle to its planes, dividing shields installed in the slots of the outlet nozzle and guide plates attached to the side walls of the vestibule, while the outlet nozzle ok equipped with a shutter kinetically connected to one of the guide panels, which are made curved with a radius of curvature equal to the width of the opening, and attached to the side walls of the vestibule with the possibility of opening, and the panel is made of a polymer-composite material with fibers oriented along the direction of recirculation air and on the inner surface of the suction pipe from the inlet to the outlet are longitudinally curved grooves connected to the annular groove, finding located in front of the inlet of the suction pipe, while the annular groove in its lower part is connected to the dirt collector, the fan is equipped with a drive with a speed controller in the form of a block of powder electromagnetic couplings and a temperature controller with an outdoor temperature sensor, and the temperature controller contains a comparison unit and the task unit, while the comparison unit is connected to the input of an electronic amplifier equipped with a nonlinear feedback unit, in addition, the output of the electronic amplifier It is connected to the input of a magnetic amplifier with a rectifier, the output of which is connected to a speed controller in the form of a block of powder electromagnetic drive fan couplings, characterized in that the suction pipe is made in the form of an elastic section connected to each other along the intake air and rigid with longitudinally curved and circular grooves on the inner surface, and the elastic section includes an end washer mounted at the inlet of the suction pipe with the ability to move to rzhnevyh guides and sealingly bonded to the elastic portion.

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