Air conditioner

IPC classes for russian patent Air conditioner (RU 2509960):

F24F3/00 - Air-conditioning systems in which conditioned primary air is supplied from one or more central stations to distributing units in the rooms or spaces where it may receive secondary treatment; Apparatus specially designed for such systems (room units F24F0001000000; construction of heat-exchangers F28)

F23D11/04 - the spraying action being obtained by centrifugal action

Another patents in same IPC classes:

Microclimate provision system / 2509959

Microclimate provision system includes an ambient air intake device, air filter 2 for air cleaning, a Peltier element, a fan, an electric motor, an air piping network, a throttle valve, air distributing devices, a wind generator with an electric generator connected to the Peltier element, connected on one side to the air distributing devices, and on the other one to the ambient air intake device through the air filter. Wind generator also includes a transmission, a brake system and blades.

Air conditioner with optimum spraying / 2509265

In an air conditioner containing a section of receiving heat-insulated valves, connection sections, the first heating section consisting of air heaters, valves and a bypass valve, the first recirculation section, a spraying chamber, in which injectors and drop catchers are installed; besides, a filter tray is located under the spraying chamber, and after the spraying chamber there located is the second recirculation section and a section of filters, which is connected to the second heating section consisting of air heaters and connected to a ventilation unit; additionally, a centralised cold water supply system is installed, which includes a spraying chamber with a pump and a three-way valve, as well as a pressure control, a collecting tank, a circulation pump and an evaporator; besides, each pressure control has a pulse tube attaching its membrane head to a cold water supply pipeline section located after it, and the housing is installed on elastic elements, and a suction connection pipe of a fan is connected to the housing by means of an elastic link.

Control device of right, left air flow direction, and air conditioning unit intended for installation in rooms that contain it / 2508511

Device refers to control devices of right, left air flow direction. It includes right, left flow deviation deflectors and connection tie rods. Each right, left flow deviation deflector includes a basic part, a setting plane perpendicular to the central rotation axis of a rotation axis, a flat part and a connection projection projecting out of the basic part. Each connection tie rod includes a tie rod body, connection holes, projecting parts of the tie rod body, which are arranged on one lateral edge of the tie rod body so that they correspond to the connection holes respectively and convex contact parts arranged along the edges of the projecting parts of the tie rod body respectively; with that, convex contact parts are located above the tie rod body. At forward air direction blowdown, the parts near the connection holes of the connection tie rod are retained by means of the corresponding connection projections, thus preventing separation from the connection projections, and vertexes of the convex contact parts and the parts near the other lateral edge are in contact with the corresponding basic parts so that the connection tie rod is subject to deformation at bending.

Breathing system of membrane type with compressed air / 2494315

Breathing air cleaning device includes a membrane separating unit including a membrane filter having penetrated and non-penetrated gas areas, a housing for arrangement of the membrane filter in it, an inlet feed pipeline connected to the membrane filter, and a discharge pipeline of non-penetrated gas, which is connected as to fluid medium to the non-penetrated gas area of the membrane filter; a catalytic filter unit containing a cartridge with a catalyser layer, two end parts retaining the cartridge with the catalyser layer inside the housing and having outlet holes, the catalyser inlet pipeline connected to the catalyser layer and connected as to fluid medium to the above discharge pipeline of non-penetrated gas, and received gas discharge pipeline connected to outlet holes; and inlet blow-down pipe connecting the catalytic filter unit to the penetrated gas area of the membrane filter.

Device for air ventilation / 2492394

Device comprises discharge electrodes which are arranged between the receiving electrodes in sequence in one plane parallel to the receiving electrodes at the same distance from them. At that, only one side of the discharge electrode is discharge in the direction of the air flow, and the receiving electrodes are made in the form of solid plates between which the discharge electrodes are located. At that, the distance between the electrodes is selected according to the formula 1.5≤L/H≤3.5, wherein L is the distance between the discharge electrodes, H is the distance from the discharge electrode to the receiving one.

Method to use ambient air to cool room devices / 2490557

Method to use ambient air for cooling of room devices, for instance, cooling girders (4), in which water returned from room devices is used in a supply air radiator (3) for heating of supply air. At the same time water is cooled and sent back to room devices for cooling of premises.

System of air conditioning in passenger car compartment / 2488747

Air conditioning system comprises the first stage, equipped with a fan with an air filter, a modular compartment conditioning plant, which is additionally equipped with a fan at the outlet of cooled air, at the same time its heat exchanger is made in the form of a thermoelectric element, in which hot and cold plates are separated with a partition, at the same time the air flow from the hot plate is sent into a hot air discharge manifold.

Inflow chamber / 2485410

Inflow chamber comprising a foot valve, a filter, a bypass valve regulating the air flow in the main and bypass channels, air heater, air ducts, the valves are equipped with actuators, in the main channel between the air filter and duplex valve the air temperature sensor is mounted, in front of the inlet of the room in the air duct an air temperature sensor is placed, and in the pipeline in front of the valve that regulates the flow of coolant, the coolant temperature sensor is located, behind the first section of heating along the flow course of the air another coolant temperature sensor is mounted, and in an automation panel the following is mounted: the button and the warning lamp of turning on the control system, the buttons "start" and "stop" of the ventilator, the warning lamp of its turning on or off, the warning lamp "danger of freezing" of the air heater with a sound signaling, characterised in that in the bypass channel the electric heater is mounted, which is approximately equal in power and air heater, and in the automation panel a controller is mounted, which is connected to temperature sensors and actuators of the valves, in the panel the ventilator actuators and the electric heater and the warning lamp of turning on the electric heater is mounted.

Cooling system for shopping centre / 2483253

Cooling system for shopping centres involves the first cooling unit connected to a product cooling circuit and the second cooling unit connected to an air conditioning circuit, which provides for a cold accumulation device; besides, the system includes two connections, one with the product cooling circuit and the other one with the air conditioning circuit, each of which is operated by means of a control valve.

Conditioning system with heat-exchange devices / 2453774

In a conditioning system with heat-exchange devices, comprising heat-exchangers installed serially at the supply, a mixing chamber of external recirculation air, an irrigation chamber, a fan, a sensor to monitor enthalpy of supply air, an air valve to control supply of recirculation air, valves of seasonal switching, a heated water pump, a pump of water cooled by evaporation, a cooling tower, connection pipelines, a water heat exchanger to use waste heat of process water and an automatic valve to control flow of cooled water, the irrigation chamber is arranged in the form of a rotor heat mass exchanger and comprises an inlet and outlet nozzles arranged in a body, rotary discs fixed on the shaft, the lower part of which is in a tray with water, besides, discs are fixed to each other by pins via orifices and arranged from a properly soaked material with thickness of 0.5…1 mm, and the shaft with discs rotates along with air travel with frequency of 4…24 min-1 from a motor; besides, discs may be arranged as corrugated or flat in shape, and in the body there are protective canopies to reduce drop entrainment, and the body of each nozzle is hollow, axisymmetric, the axis of which is perpendicular to the axis of the header pipe hole, and the body shape is in the form of a solid of revolution formed by a curve of the second order, for instance, spherical, in the form of a truncated ellipsoid or paraboloid of revolution, and at the side of the flow hole of the header pipe in the nozzle there is a straightening element arranged in the form of a ring having a central bushing, with which at least three blades are rigidly connected as radially arranged and connected to the nozzle body, besides, the body is arranged with two ledges oppositely arranged to the axis of the nozzle, by means of which via yokes with locks the nozzle is fixed on the header, at the same time in the lower part of the nozzle body there is a conical throttling hole connected to a mixing chamber, which is installed between the throttling hole and the straightening element, and on the inner surface of the mixing chamber there are helical grooves.

Kochetov's rotary sprayer / 2499634

Invention relates to fluid sprayers and may be used in machine building, chemical and food industries. proposed sprayer comprises casing with auger inserted therein and fluid feed union. Said casing consists of two aligned cylindrical sleeves, i.e. larger-diameter and smaller-diameter sleeves. Note here that smaller-diameter sleeve houses auger fitted therein and aligned therewith and rigidly coupled with its inner surface. Note also that auger inner surface represents a helical groove while two rows of through holes concentric with circumferences are made there inside. Note that every row has at least three holes while holes diameters decrease from auger axis to peripheral holes. Larger-diameter sleeve houses union is aligned therewith and secured thereto by, for example, a threaded joint via gasket. Cylindrical bore is made inside said union changing into axially symmetric diffuser connected with cylindrical chamber composed by smaller-diameter sleeve inner surface and auger end surface. Rod is secured inside said auger with one end arranged flush with its end surface facing the union, while opposite free end has at least two discs perpendicular to rod axis arranged regularly over the disc rod length, diameters of said discs increasing towards rod free end.

Centrifugal wide-fan sprayer / 2497043

Sprayer comprises case with swirling chamber and nozzle insert. Note here that said case has inlet pipe with bore. It includes also inlet cylindrical chamber, swirling chamber aligned with inlet chamber and composed of cylindrical barrel, its side surface being provided with three tangential holes. Axe of said holes are located tangentially to swirling chamber, that is, there is a multichannel tangential inlet. Nozzle insert OD D₁ is arranged coaxially with swirling chamber. Three calibrated orifices are arranged aligned with swirling chamber cylindrical surface and with each other: taper orifice with bottom base diameter D, central cylindrical orifice with d₂ and outlet taper orifice with loser base diameter d₃ of truncated cone. Note here that diameter d₂ of central cylindrical orifice of nozzle insert equal that of truncated cone upper base and to that of upper base of outlet taper orifice truncated cone.

Vortex nozzle / 2489648

Vortex nozzle comprises a vessel with an auger, coaxially installed in the lower part of the body, and a socket piece arranged in the upper part of the vessel with a cylindrical hole for liquid supply connected with a diffuser, which is axisymmetric to the vessel and the socket piece, the auger is pressed into the vessel to form a conical chamber arranged above the auger, in alignment with the diffuser, and connected to it in series, besides, the auger is made as solid, and the outer surface of the auger represents at least a single-stage helical groove with the right or left thread. The end surface of the auger either matches with the end surface of the lower part of the vessel or protrudes beyond the end surface of the lower part of the vessel. The nozzle auger is made up of solid materials: tungsten carbide, ruby or sapphire.

Swirler with active sprayer / 2488038

Proposed swirler comprises case with auger fitted therein and fluid feed pipe. Note here that auger outer surface represents a helical groove. Threaded opening is made inside auger. Cylindrical bore is made inside the union extending in axisymmetric diffuser connected with cylindrical chamber. Said case consists of two aligned interconnected cylindrical larger- and smaller-diameters sleeves.Note also that said auger is arranged inside smaller-diameter sleeve, aligned therewith and inserted in its inner surface. Note that union is arranged inside larger-diameter sleeve , aligned therewith and screwed thereon via seal gasket. Cylindrical chamber is composed by smaller-diameter sleeve inner surface and auger end surface. At least, two inclined rods are secured to smaller-diameter sleeve end surface to support sprayers composed of, for example, vanes resting on thrusts secured perpendicular to rods. Note also that said rods are inclined from nozzle axis, i.e. along conical surface, surface vertex being directed toward larger-diameter sleeve.

Radial-flow vortex nozzle / 2486964

Invention relates to fluid and solution sprayers. Nozzle comprises case with swirling chamber and atomiser. Case is composed of union with fluid feed hole and coaxial cylindrical sleeve rigidly jointed thereto. Centrifugal swirler composed of blind cylindrical insert is connected to case lower section and aligned therewith. Insert has at least three tangential inlet cylindrical bores. Radial-flow swirler has communicated and aligned axial, taper and cylindrical throttling bores. Radial-flow swirler is arranged in case cylindrical chamber to form annular cylindrical chamber to feed fluid to radial-flow swirler tangential fluid inlets and communicated with two chambers: conical and cylindrical chambers aligned with said swirler. Chambers are arranged so that outlet of one chamber makes inlet for another chamber. Said tangential fluid inlets represent channels arranged tangentially to cylindrical insert inner surface. Swirling intensifier with inner helical thread is rigidly secured to cylindrical chamber edge and aligned therewith.

Centrifugal atomiser with flows swirled in opposite directions / 2479361

Invention relates to fluid and solution sprayers. Proposed atomiser comprises housing with swirling chamber and nozzle. Housing is composed of union with fluid feed hole and coaxial cylindrical sleeve rigidly jointed thereto. Said sleeve accommodates conical and cylindrical chambers aligned with fluid feed holes. Nozzle composed of two-stage centrifugal swirler connected with nozzle outlet conical chamber is arranged at housing bottom and separated from fluid feed hole by perforated web secured at housing end surface on fluid feed side. Note here that swirler first stage is arranged at its top and comprises cylindrical chamber accommodating the rod aligned therewith and provided with screw plate secured thereat. Note here that said rod is secured at the center of perforated web. Swirler second stage is aligned with first one and composed of annular cylindrical chamber. The latter is connected in series with swirler first-stage cylindrical chamber and furnished with tangential holes to feed fluid via aforesaid cylindrical annular chamber made by swirler case and sleeve cylindrical chamber.

Swirl atomiser / 2479360

Invention relates to fluid and solution sprayers. Swirl atomiser comprises case made up of feed union with central bore and nozzle. Said case is rigidly jointed with coaxial cylindrical sleeve with outer thread. Atomiser composed of centrifugal fluid swirler fitted to case lower part composed of cylindrical insert with, at least, three tangential inlet cylindrical holes. Note that said sleeve makes nozzle integral part aligned with radial-flow swirler that has cylindrical throttle bore made in its face surface. Radial-flow swirler is arranged in case cylindrical chamber to form annular cylindrical chamber to feed fluid to radial-flow swirler tangential fluid inlets and communicated with outlet diffuser chamber. Said tangential fluid inlets represent channels arranged tangentially to cylindrical insert inner surface. Conical cowl is made at centrifugal swirler end surface.

Centrifugal atomiser with concurrent vortex flows / 2479359

Invention relates to fluid and solution sprayers. Proposed atomiser comprises housing with swirling chamber and nozzle. Housing is composed of union with fluid feed hole and coaxial cylindrical sleeve rigidly jointed thereto. Atomiser comprises centrifugal fluid swirler fitted to case lower part composed of cylindrical insert with, at least, three tangential inlet cylindrical holes. Conical vortex chamber with screw 10 coaxially and rigidly secured therein to make second stage of fluid swirler. Note here that said centrifugal swirler is communicated via chamber connected with central restrictor to conical vertex chamber at its bottom. Note also that conical chamber top section has, at least, three tangential cylindrical inlets arranged tangentially at its inner surface. Working body is fed to tangential inlets via, at least, three cylindrical holes. The latter are connected with tangential inlets at straight angles while their axes are located parallel with nozzle axis. Note that said holes are connected with cylindrical chamber arranged above conical chamber cover, perpendicular to its axis. Note that cowl is arranged above cylindrical chamber and composed of truncated cone with central hole connected simultaneously with cylindrical; chamber and housing fluid feed opening. Note that clearance composed on conical ring is arranged between cowl conical surface and housing inner conical surface at joint with aforesaid sleeve. Note that centrifugal swirler is fitted in the housing to make annular cylindrical chamber for feeding fluid to aforesaid tangential inlets. Swirler cylindrical chamber is communicated with nozzle outlet conical chamber.

Centrifugal atomiser with flows swirled in opposite directions / 2479358

Centrifugal atomiser with sprayer / 2479357

Invention relates to fluid and solution sprayers. Proposed atomiser comprises housing with swirling chamber and nozzle. Housing is composed of union with fluid feed hole and coaxial cylindrical sleeve rigidly jointed thereto. Nozzle with inner thread is jointed by sleeve to housing bottom. Said nozzle is composed of second-stage centrifugal swirler making a cylindrical chamber with, at least, three tangential cylindrical inlets. Note here that said sleeve makes a part of said nozzle and is arranged coaxially with second-stage centrifugal swirler. The latter has cylindrical part at its top section that changes into conical part to make annular conical clearance with housing. Swirler cylindrical chamber is arranged above said second-stage swirler. It makes swirler first stage composed of rod arranged coaxially there inside and provided with screw plate. Said rod is secured at three pins connected to conical chamber communicating first- and second-stage swirlers. Note that centrifugal swirler is fitted in the housing to make annular cylindrical chamber for feeding fluid to aforesaid tangential inlets. Swirler cylindrical chamber is communicated with nozzle outlet conical chamber.

Burner for combustion of liquid fuel / 2248503

Burner comprises casing made of a scroll, hollow shaft for fuel supply arranged inside the casing, sucking and exhausting branch pipes for air secured to the casing, nozzle mounted in the conical sleeve, diffuser, and drive. The shaft is mounted for rotation and provided with blades of the fan. The nozzle and conical sleeve are secured to the hollow shaft. The drive is secured to the casing inside the sucking branch pipe. The branch pipe is mounted with a space relation to the casing to provide a space for air flow. The shaft of the drive is hollow to provide fuel flow to the nozzle. The shaft of the drive and hollow shaft of the burner are axially aligned and interconnected. The drive shaft is provided with emulsifier for generating emulsion or suspension and supplying fuel and/or water emulsion and cock for fuel supply.

FIELD: ventilation.

SUBSTANCE: in an air conditioner containing a section of receiving heat-insulated valves, connection sections, the first heating section consisting of heating elements, valves and a bypass channel, the first recirculation section, a spraying chamber, in which injectors and drop catches are installed; besides, a filter tray is located under the spraying chamber, and after the spraying chamber there located is the second recirculation section and a section of filters, which is connected to the second heating section consisting of heating elements and connected to a ventilation unit; drop catchers are made in the form of a pack of partition walls, one of which is a baffle element with a through hole, and the other ones are perforated and have perforation coefficient of 0.5, and at least three rows of plates, which follow them and have an inclination from upper plane to the lower one, and in the cross section perpendicular to length - a wedge-shaped streamlined shape, and the housing is installed on elastic elements, and a suction branch pipe of the fan is connected to the housing by means of an elastic link; besides, the baffle element with the through hole of the pack of partition walls is installed in the pack at the last point, and ratio of its height "b" to height of the through hole "c" is at optimum interval of values: b/c=2…5, and a gap between the partition walls of the pack is 0.01…0.1 of their height.

EFFECT: improving efficiency and reliability of a mist eliminating process.

4 cl, 4 dwg

The invention relates to techniques for air-conditioning and ventilation systems and can be used to create a comfortable environment and microclimate in residential, administrative and industrial premises.

The closest technical solution to the declared object is conditioned by the RF patent №2281435, CL F24F 3/06, comprising a housing, section receiving valves, and heating, irrigation camera, which is equipped with nozzles and drip pans with pan filter, the filter section is connected to the ventilation unit.

The disadvantage is the relatively low efficiency of the process Kapiolani.

The technical result is improved efficiency and process reliability Bryzgalova.

This is achieved by the fact that in conditioner that contains the partition foster insulated valves, connecting section, the first section of the pool, consisting of heaters, valves and bypass channel section of the first recirculation of irrigation camera, which is equipped with nozzles and drip pans, and under irrigation camera is a pan-filter and after irrigation camera is a section of the second recirculation and filter section connected to the second heating section, consisting of coils and connected to the ventilation unit, demisters performed in the de package walls, one of which is an air element with a through hole, and the other is made perforated with a perforation ratio of 0.5, and following them, at least three rows of plates having a slope from the top plane to the bottom, and in the cross section perpendicular to the length - tapered streamlined shape, and the casing is placed on the elastic elements, and the pump suction fan connected to the housing via the elastic element, and an air element with a through hole from the service partition is installed in the service of the latter, and the ratio of the height "b" to the height of the through hole "C" is in the optimal range values: b/c=2...5, and the gap between the partitions in the package walls is 0.01...0.1 to their height.

Figure 1 shows a General view of the air conditioner, figure 2 - cross section of the eliminator plates, figure 3 - cross section of perforated breaker plate, figure 4 - General view of the nozzle.

The conditioning consists of a number of series-connected sections (figure 1).

Section foster insulated valves 1 regulates the inflow of outside air into the air conditioning. The valves make insulated to protect them from frost and ice in the winter. The connecting section 2 are cameras that are connected to the working section; through these cameras can be accessed in workshops for them on the check-up and repair.

The next section of the first heating is used to heat the outdoor air in the volume of sanitary standards; it consists of radiators 3, 4 valves and bypass channel 5. Valves 4 can be directed outside air in the radiators 3 or bypassing them (in the summer), Obvodny Kanal 5. In section 6 first recirculation valves installed 7 regulating the flow of internal air of the shop. Section 8 is a irrigation (spray) camera, which is equipped with two rows of nozzles 9, the spray water counter torches.

Centrifugal shirokopalyj injector consists of a housing 26 with a length L from the inlet hole 29 made in the form of confuser length L₁, coaxially with it throttle openings 28 with a diameter of d₁camera turbulence 27, made in the form of a cylindrical Cup, with its axis in the plane of the drawing perpendicular to the axis of the inlet 29 and the throttle 28 holes. Thus the axis of the inlet 29 and the throttle 28 holes in the profile plane is tangent with respect to the cylindrical surface of the chamber turbulence 27, i.e. the tangential entry into the chamber turbulence 27 in the form of holes 34.

Coaxial chamber swirl nozzle 27 is the liner 30 with an outer diameter of D₁made of solid materials: tungsten carbide, ruby, sapphire. Inside the VC is adisa executed sequentially spaced and coaxially to each other and to the cylindrical surface of the chamber turbulence 27 three calibrated holes: tapered bore 31 with the diameter D of the lower base of the truncated cone, the Central cylindrical hole 32 with a diameter of d₂and output cylindrical hole 33 with a diameter of d₃. The diameter d₂the Central cylindrical hole nozzle 32 of the liner 30 is equal to the diameter of the upper base of the truncated cone tapered hole 31.

For jets in the optimal mode provides the following ratio settings:

the ratio of the diameter d₂the Central cylindrical hole nozzle 32 of the liner 30 to the diameter d₁throttle openings 28 of the body 26 of the nozzle lies in the optimum range of values: d₂/d₁=1,4÷2,2;

the ratio of the diameter d₃the output of the cylindrical hole 33 of the nozzle liner 30 to the diameter d₂the Central cylindrical hole 32 lies in the optimum range of values: d₃/d₂=1,5÷2,5;

the ratio of the outer diameter D₁nozzle liner 30 to the diameter D of the lower base of the truncated cone tapered hole 31 of the insert 30 lies in the optimum range of values: D₁/D=1.2÷1,8;

the ratio of the length L of the body 26 of the nozzle length L₁confuser inlet 29, lies in the optimum range of values: L/L₁=2,0÷2,5;

In the irrigation chamber, the air needs humidified or dehumidified, cooled or heated, and cleaned from dust. the moreover, the air in the irrigation chamber is charged ions, predominantly negative sign. On the inlet and outlet of the irrigation camera installed drip pans 10 and 11. The eliminators prevent the ejection of drops from irrigation camera in the related section.

The drip pans are made in the form of package walls 10 and 11, each of which contains an air element height "b" through hole "C" (figure 3), perforated partitions with a perforation ratio of 0.5, and following them, at least three rows of plates (2)having a slope from the top plane to the bottom, and in the cross section perpendicular to the length - tapered streamlined shape. The casing is placed on the elastic elements 25, and the pump suction fan connected to the housing by the elastic element 24. The bumper element with a through hole of the package walls 10 and 11 is installed in the service of the latter, and the ratio of the height "b" to the height of the through hole "C" is in the optimal range of values: b/c=2...5. The gap between the partitions in the package walls 10 and 11 is 0.01...0.1 to their height.

Under irrigation camera is a pan - filter 12 to Oceania and water purification. After irrigation camera is section 13 of the second recirculation valve 14, which regulates the flow of air from the shop. For air purification from dust set the joins section 15 filters. This is followed by the connection section and the second heating section, consisting of coils 16, the valves 77 and bypass channel 18, the purpose of which is the same as in the preheating section. This section is used during working hours at the lack of heat in the hall, and at weekends for heating industrial premises; in this case, open the valve 14, the second recirculation, and air conditioning works as a heating unit. At the end of the conditioning set fan section, consisting of a fan 19, of the reducer 20 and motor 21. To regulate the flow of air in the shop is located in the supply channel 22 is installed metering valve 23. Regulation of the air supply can also be performed by a guiding device 24. For ease of maintenance conditioners usually put on an elastic cradle 25.

Air conditioning works as follows.

Typical section of the link depending on the required process air. For example, if the calculation does not need a first or second heated air, the need for these sections is eliminated. If the installation should work without recirculation, air conditioning link without these sections.

Centrifugal shirokopalyj nozzle for atomization of liquids is as follows.

The liquid is fed via the inlet hole 29, vypolnen the mu in the form of a confusor length L ₁then passes through coaxially with him the orifice 28 of diameter d₁, and flows through the tangential entry through the opening 34 into the chamber turbulence 27, made in the form of a cylindrical Cup. The rotating flow of fluid from the chamber turbulence 27 passes through a calibrated tapered hole 31 of the nozzle liner 30, a Central cylindrical hole 32 and the output of the cylindrical hole 33 of the nozzle liner 30, resulting in a torch spray, root angle which is determined by the angle at the vertex of the cone of the conical hole nozzle 31 of the insert 30.

The proposed design shirokoekrannoi nozzle with the diameter of the Central cylindrical hole 32 is equal to 9 mm, with operating pressures of the fluid 150...250 kPa provides the opening angle of a water torch to 150° and preserves the stability of the flame in the fluid pressure before the injectors from 40 kPa and above, while the performance of the injector depends on the fluid pressure at the inlet to the inlet 29.

Air conditioners with capacity up to 120 thousand m³/h is made from metal and air conditioning greater performance of reinforced concrete.

To reduce the vibroacoustic activity of the device and its metal consumption, and improve its reliability in the proposed device has the following activities: on the surfaces coated with the layer of soft vibrationfree material, for example mastic VD-17, and the ratio between the thickness of the metal and vibrationfree cover is in an optimal range of values: 1/(2,5...4).

1. Air conditioning, contains the partition foster insulated valves, connecting section, the first section of the pool, consisting of heaters, valves and bypass channel section of the first recirculation of irrigation camera, which is equipped with nozzles and drip pans, and under irrigation camera is a pan-filter and after irrigation camera is a section of the second recirculation and filter section connected to the second heating section, consisting of coils and connected to the ventilation unit, characterized in that the drip pans are made in the form of the package walls, one of which is an air element with a through hole, and the other is made with perforated the perforation ratio of 0.5, and following them, at least three rows of plates having a slope from the top plane to the bottom, and in the cross section perpendicular to the length, tapered streamlined shape, characterized in that the nozzle is made with a filling hole is made in the form of a confuser and coaxially with it throttle openings, and the camera swirls made in the form of a cylindrical Cup, with its axis in the plane of the drawing perpendicular to the si intake and throttle openings, thus the axis of the intake and the throttle holes in the profile plane is about in relation to the camera twists and coaxially with the chamber of the swirl nozzle is the liner inside which performed consistently located and aligned with each other and the cylindrical surface of the chamber turbulence three calibrated holes: tapered bore, a Central cylindrical hole and output cylindrical hole, and the diameter of the Central cylindrical hole nozzle liner is equal to the diameter of the upper base of the truncated cone of the conical hole and the nozzle insert nozzle made of solid materials: tungsten carbide, ruby, sapphire, and the ratio of the diameter d of the cylindrical holes of the nozzle liner to the diameter d₁the throttle openings of the nozzle lies in the optimum range of values: d/d₁=1,4÷2.2, the ratio of the diameter d₃the output of the cylindrical holes of the nozzle liner to the diameter of the Central cylindrical hole lies in the optimum range of values: d₃/d₂=1,5÷2,5, the ratio of the outer diameter D₁nozzle liner to the diameter D of the lower base of the truncated cone of the conical hole of the insert lies in the optimum range of values: D₁/D=1.2÷1,8, the ratio of the length L to the pus nozzle length L ₁confuser inlet lies in the optimum range of values: L/L₁=2,0÷2,5.

2. Air conditioning according to claim 1, characterized in that the casing is placed on the elastic elements, and the pump suction fan connected to the housing via the elastic element.

3. Air conditioning according to claim 1, characterized in that the bumper element with a through hole from the service partition is installed in the service of the latter, and the ratio of its height b to the height of the through holes is in the optimal range of values: b/c=2...5.

4. Air conditioning according to claim 1, characterized in that the gap between the partitions in the package walls is 0.01÷0.1 to their height.