RU2450212C2 - Air conditioner for workshops with excessive heat release - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: air conditioner comprises the first heating section comprising heaters, valves and a bypass channel, the first recirculation section, an irrigation chamber, in which nozzles and drop catchers, besides, under the irrigation chamber there is a tray - filter, sections of the second recirculation, sections of the second heating, comprising heaters and connected with a ventilation device, a remote control valve in supply channels to feed supply air to a combined supply and exhaust plafond installed in a room floor, an impeller of a supply centrifugal fan via electric induction slip couplings is connected with an electric motor, besides, an impeller of an exhaust axial fan also via electric induction slip couplings is connected to an electric motor, and heaters of the second heating are installed in bypass taps of supply channels, where heater axial fans are also installed, besides, in supply channels there are remote control valves, and automatic two-position valves are installed on lines of coolant supply into heaters, besides, the exhaust channel is connected with supply and exhaust channel is connected to supply and exhaust plafonds and stretches in a room, where a thermal controller and a pressure controller sensor are installed, besides, the exhaust channel is connected with a chamber of the exhaust axial fan and an exhaust shaft, which adjoins an air intake shaft with a louver grid, and supply channels are installed inside an exhaust shaft, besides, on the surfaces of the air conditioner parts there is a layer of soft vibration damping material, for instance, a mastic VD-17, besides, the ratio between the metal thickness and the thickness of the vibration damping coating is in the optimal interval of values: 1/(2,5…4), each nozzle comprises a vessel, which is made with an inlet hole arranged in the form of a confusor and a coaxial throttling hole, and a swirling chamber is made in the form of a cylindrical sleeve, the axis of which in the drawing plane is perpendicular to the axis of inlet and throttling holes, besides, the axis of the inlet and throttling holes in the profile plane is arranged tangentially relative to the swirling chamber, moreover, coaxially to the swirling chamber there is a nozzle insert installed, inside which there are three calibrated holes arranged as serial and coaxial to each other and to the cylindrical surface of the swirling chamber: a conical one, a cylindrical one and a shaped one in the form of a cylindrical part with a rounding bevel at the outlet, at the same time the diameter of the cylindrical hole of the nozzle insert is equal to the diameter of the upper base of the truncated cone of the conical hole and the diameter of the cylindrical part of the shaped hole.

EFFECT: increased efficiency.

3 cl, 2 dwg

Description

The invention relates to techniques for air conditioning and ventilation and can be used to create comfortable conditions and microclimate in industrial premises with excessive heat.

The closest technical solution to the claimed object is air conditioning according to the patent of the Russian Federation No. 2320931, class. F24F 3/06, comprising a housing, receiving valve and heating sections, an irrigation chamber in which nozzles and drip traps are installed with a filter pan, a filter section connected to a ventilation unit (prototype).

The disadvantage of the prototype is the relatively low efficiency of the dust collection process due to the underdeveloped spray surface of the liquid.

EFFECT: increased efficiency and reliability of the dust collection process by increasing the degree of liquid atomization by nozzles.

This is achieved by the fact that in an air conditioner containing a first heating section, consisting of heaters, valves and a bypass channel, a first recirculation section, an irrigation chamber, in which nozzles and drip traps are installed, the filter pan is located under the irrigation chamber, and after the irrigation chamber is located a second recirculation section and a filter section connected to a second heating section consisting of heaters and connected to the ventilation unit, and the air conditioner includes a remote control valve supply air ducts for supplying fresh air to the combined supply and exhaust ceiling mounted in the floor of the room, and the impeller of the supply centrifugal fan is connected to the electric motor via electric induction slip couplings, and the axial exhaust fan is also connected to the electric motor via electric induction slip couplings and the heaters of the second heating are located in the bypass branches of the supply channels, which also contain axial valves torus heater, moreover, remote control valves are located in the supply ducts, and automatic on-off valves are installed on the coolant supply lines to the heaters, the exhaust duct connected to the supply and exhaust shades and passes in the room in which the temperature regulator and pressure regulator sensor are installed, and the exhaust duct connected to the chamber of the exhaust axial fan and the exhaust shaft, which is adjacent to the air intake shaft having a louvre grille, and the supply ducts are located inside a cotton mine, and on the surface of the air conditioner parts a layer of soft vibration-damping material is applied, for example, VD-17 mastic, and the ratio between the thickness of the metal and the vibration-damping coating is in the optimal range of values: 1 / (2.5 ... 4), each of the nozzles consists of a body which is made with an inlet made in the form of a confuser and a throttle hole coaxial with it, and the swirl chamber is made in the form of a cylindrical cup, the axis of which in the plane of the drawing is perpendicular to the axis of the inlet and throttle holes, while the axis of the inlet and throttle holes in the profile plane is located relative to the swirl chamber, and a nozzle insert is located coaxially with the swirl chamber, inside of which are three calibrated holes conically arranged and aligned with each other and the cylindrical surface of the swirl chamber: conical, cylindrical and shaped in the form of a cylindrical part with a rounding chamfer at the outlet, while the diameter of the cylindrical hole of the nozzle insert is equal to the diameter of hnego base of the truncated cone of the conical hole and the diameter of the cylindrical part of the shaped holes.

Figure 1 shows a diagram of a dual-fan air conditioner with automatic control for workshops with excess heat, figure 2 is a General view of the nozzle for spraying liquids.

The air conditioner includes a remote control valve 6 in the supply ducts 9 for supplying fresh air to the combined supply and exhaust ceiling 8 installed in the floor of the room 11 with excessive heat. The impeller of the supply centrifugal fan 1 through the electric induction slip clutch 2 is connected to the electric motor 3, and the impeller of the exhaust axial fan 12 through the electric induction slip clutch is also connected to the electric motor. The heaters 4 of the second heating are located in the bypass branches of the supply ducts 9, in which the axial fans 5 of the heater are located. In the supply channels placed valves 6 remote control. Automatic on-off valves 7 are installed on the coolant supply lines 4. The exhaust duct 10 is connected to the supply and exhaust shafts 8 and passes in the room 11, in which the temperature regulator T ₂ and the pressure sensor D are installed. Channel 10 is connected to the chamber of the axial exhaust fan 12 and the exhaust shaft, which is adjacent to the air intake shaft having a louvre grille 20.

The centrifugal nozzle (figure 2) consists of a housing 21 of length L with an inlet 24 made in the form of a confuser of length L ₁ , a throttle opening 3 coaxial with it, diameter d ₁ , swirl chamber 22 made in the form of a cylindrical glass whose axis in the plane drawing perpendicular to the axis of the inlet 24 and throttle 23 holes. In this case, the axis of the inlet 24 and the throttle 23 holes in the profile plane is located tangentially with respect to the swirl chamber 22, i.e. tangential input takes place.

Coaxial to the swirl chamber 22 is a nozzle insert 25 with an outer diameter D ₁ made of solid materials: tungsten carbide, ruby, sapphire. Three calibrated holes are made sequentially located and coaxial to each other and to the cylindrical surface of the turbulence chamber 22 inside the insert: a conical hole 26 with a diameter D of the lower base of the truncated cone, a cylindrical hole 27 and a shaped hole 28 in the form of a cylindrical part with a chamfer at the exit. The diameter d of the cylindrical hole 27 of the nozzle insert 25 is equal to the diameter of the upper base of the truncated cone of the conical hole 6 and the diameter of the cylindrical part of the shaped hole 28.

For the operation of the nozzle in optimal mode, the following ratios of its parameters are provided:

the ratio of the diameter d of the cylindrical hole 27 of the nozzle insert 25 to the diameter d _{1 of the} throttle hole 23 of the nozzle body 21 lies in the optimal range of values: d / d ₁ = 1.4 ÷ 2.2;

the ratio of the outer diameter D _{1 of the} nozzle insert 25 to the diameter D of the lower base of the truncated cone of the conical hole 26 of the insert 25 lies in the optimal range of values: D ₁ / D = 1.2 ÷ 1.8;

the ratio of the length L of the nozzle body 21 to the length L _{1 of the} inlet confuser 24 lies in the optimal range of values: L / L ₁ = 2.0 ÷ 2.5.

A valve 13 is installed in the mine to eject part of the exhaust air to the outside, and a valve 14 is installed on the outdoor air intake line. A recirculation air valve 15 is installed in front of the self-cleaning oil filter 16. The irrigation chamber 17 contains a pump 18 and a valve 19 on the cold water supply line. After the irrigation chamber, a temperature regulator T _{1 is} installed. The air conditioning system is designed so that the supply 20 and exhaust shafts have a common wall separating them, which allows the use of heat removed from the room 11 in the cold season and reduce the load on the heating coil. In addition, the supply shaft 20 can be placed inside the exhaust to save energy resources of the entire enterprise where air conditioners are installed (not shown).

Air conditioning works as follows.

The operation of the installation is regulated by two temperature controllers: T ₁ , T ₂ . The first of them, installed inside the air conditioner after the irrigation chamber, acts in the winter and transition periods of the year on the air valves 13, 14, 15, providing the necessary temperature of the mixture of cold external and warm recirculated air. In the summer, this thermostat controls a three-way valve that regulates the temperature of the water sprayed in the irrigation chamber to carry out the polytropic air treatment process. Thus, the temperature regulator T ₁ provides round-the-clock quality control of the air conditioner.

The temperature regulator T _{2 is} installed either directly in the room or in the exhaust duct 10, inside which air passes with the temperature of the workshop. This thermostat is mainly designed to regulate (depending on the room temperature) the number of revolutions of the supply centrifugal fan 1 by acting on an electric induction coupling connecting it to the electric motor. Thus, the temperature regulator T ₂ performs the task of quantitative regulation of the installation. A corresponding change in the volume of exhaust air is also made automatically when using a pressure regulator D as a sensor, which responds to changes in the differential pressure of air inside and outside the room, which depends on the ratio between the capacities of the supply and exhaust fans. This sensor acts on an induction coupling connecting the exhaust fan to its electric motor.

After reducing the performance of both fans to the minimum temperature controller T ₂ simultaneously opens the valve 7 for supplying coolant to the heaters of the second heating 4 and turns on the electric motor of the axial fan 5.

Wide-angle centrifugal nozzle for spraying liquids works as follows.

The fluid is supplied through the inlet 24, made in the form of a confuser with a length of L ₁ , then passes through a throttling hole 23 with a diameter of d ₁ coaxial with it and enters through a tangential inlet into the swirl chamber 22, made in the form of a cylindrical glass. The rotating fluid flow from the swirl chamber 22 passes through a calibrated conical hole 26 of the nozzle insert 25, a cylindrical hole 27 and a shaped hole 8 of the insert 25, as a result of which a spray of liquid is formed, the root angle of which is determined by the radius of the chamfer at the outlet of the shaped hole 28.

The proposed design of a wide-torch nozzle with an outlet diameter of 9 mm at a working fluid pressure of 150 ... 250 kPa ensures an opening angle of the water plume up to 140 ° and maintains the plume stability at a liquid pressure in front of nozzles of 40 kPa and higher, while the nozzle performance depends on the liquid pressure on inlet inlet 24.

The valve 14 on the outdoor air intake line is controlled by a two-position electric actuator, interlocked with the starting devices of the supply centrifugal fan 1 and closes the access of external air to the system when it stops. If there are a large number of air conditioners installed in large buildings of modern enterprises, their operation and the automatic control systems serving them, as well as monitoring the maintenance of the required air parameters in the premises, are controlled remotely. To do this, build control panels, which place buttons and control levers for all starting devices of fan, pump and other air conditioning and ventilation units of this building, as well as the corresponding signaling devices that monitor and record meteorological conditions in the premises.

The air conditioner works without the use of after-humidification, first heating in the winter and air recirculation in the summer. Air conditioners with a capacity of up to 120 thousand m ³ / h are made of metal, and air conditioners of greater productivity are made of reinforced concrete. To reduce the vibro-acoustic activity of the apparatus and its metal consumption, as well as to increase its reliability, the proposed device provides the following measures: a layer of soft vibration-damping material, for example, VD-17 mastic, is applied to the surface of the parts, and the ratio between the thickness of the metal and the vibration-damping coating is in the optimal range of values: 1 / (2.5 ... 4).

Claims (3)

1. Air conditioning for the workshop with excessive heat generation, containing a section of receiving insulated valves, connecting sections, a section for first heating, consisting of heaters, valves and a bypass channel, a section for first recirculation, an irrigation chamber in which nozzles and drip traps are installed, and under the irrigation chamber there is a pan - filter, and after the irrigation chamber there is a second recirculation section and a filter section connected to the second heating section, consisting of heaters and connected to the valve an ionic unit, and the air conditioner includes a remote control valve in the supply ducts for supplying fresh air to the combined supply and exhaust shade installed in the floor of the room, and the impeller of the supply centrifugal fan is connected to an electric motor via electric induction slip clutches, the axial impeller of the exhaust the fan is also connected to an electric motor through electric induction slip clutches, and the second heaters are placed in by inlet ducts of the supply ducts, in which the heater’s axial fans are also located, with the remote control valves located in the supply ducts and the automatic on / off valves installed on the coolant supply lines to the heaters, the exhaust duct connected to the supply and exhaust ducts and passing in the room in which a temperature regulator and a pressure regulator sensor are installed, the exhaust channel being connected to the chamber of the exhaust axial fan and the exhaust shaft, which is adjacent to the air intake a shaft having a louvre grille, and the supply ducts are located inside the exhaust shaft, moreover, a layer of soft vibration-damping material, for example, VD-17 mastic, is applied to the surface of the air conditioning components, the ratio between the thicknesses of the metal and the vibration-damping coating being in the optimal range of values: 1 / (2, 5 ... 4), characterized in that each of the nozzles consists of a housing, which is made with an inlet made in the form of a confuser and a throttle hole coaxial with it, and the swirl chamber is made in the form of a cylindrical cup, the axis of which in the plane of the drawing is perpendicular to the axis of the inlet and throttle openings, while the axis of the inlet and throttle openings in the profile plane is located tangent to the swirl chamber, and a nozzle insert is located coaxial with the swirl chamber, inside of which are made successively arranged and aligned with each other and the cylindrical surface of the swirl chamber three calibrated holes:
conical, cylindrical and shaped in the form of a cylindrical part with a chamfer rounding at the exit, while the diameter of the cylindrical hole of the nozzle insert is equal to the diameter of the upper base of the truncated cone of the conical hole and the diameter of the cylindrical part of the shaped hole. 2. The air conditioner according to claim 1, characterized in that the nozzle nozzle insert is made of solid materials: tungsten carbide, ruby, sapphire. 3. The air conditioner according to claim 1, characterized in that the ratio of the diameter d of the cylindrical hole of the nozzle nozzle insert to the diameter d _{1 of the} throttle hole of the nozzle body lies in the optimal range of values: d / d ₁ = 1.4-2.2; the ratio of the outer diameter D _{1 of the} nozzle insert to the diameter D of the lower base of the truncated cone of the conical hole of the insert lies in the optimal range of values: D ₁ / D = 1.2-1.8; the ratio of the length L of the nozzle body to the length L _{1 of the} inlet confuser lies in the optimal range of values: L / L ₁ = 2.0-2.5.

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