RU2607872C1 - Energy resource efficient conditioning system - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to equipment of air conditioning and ventilation and can be used to make comfortable microclimate conditions in habitable, administrative and production premises. This is achieved by fact, that in energy-saving air conditioning system containing plenum chamber, washer, drop catcher and fan, at plenum chamber inlet deicer is installed, in form of air heater, which input is connected to direct heating main line, and output is to return heating main line of heat supply system, and before drop catcher secondary energy resources (SER) system heat exchanger is installed, which input is connected to supply line from SER source, and output is with return line, and after drop catcher in parallel to deicer in heat supply system, second heating air heater is installed, which input is connected to direct heating main line, and output is to return heating main line of heat supply system, every nozzle consists of housing with inlet opening, cover, sealing gasket between housing and cover, spring, arranged between cover and swirler, made in form of upturned cylindrical cup, installed with annular gap relative to housing, wherein in swirler is made, at least, two rows of throttling holes, and in each row is made, at least, two tangential throttling orifices uniformly located along swirler circular wall, and in housing lower part insert in form of tapered washer with calibrated conical opening is installed, coaxial with swirler cylindrical surface, and conicity, reverse to insert tapered washer conicity.

EFFECT: technical result is increase in dust separation process efficiency and reliability by increasing liquid spraying degree by nozzles.

1 cl, 2 dwg

Description

The invention relates to techniques for air conditioning and ventilation and can be used to create comfortable microclimate conditions in domestic, administrative and industrial premises.

The closest technical solution to the claimed object is the air conditioning system according to the patent of the Russian Federation No. 2319906, class. F24F 5/00 (prototype) containing a supply chamber, an irrigation chamber, a droplet eliminator and a fan.

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 energy-saving air conditioning system containing an inlet chamber, an irrigation chamber, a droplet eliminator and a fan, an anti-icer is installed at the inlet of the inlet chamber, made in the form of a heater, the inlet of which is connected to a direct heating main, and the output - to the return heating main of the heating system, and in front of the droplet eliminator, a heat exchanger of the secondary energy resources (VER) system is installed, the input of which is connected to the supply line from the VER source, and the output is to the discharge line, and after the drip trap, in parallel with the de-icer in the heat supply system, a second heating air heater is installed, the input of which is connected to the direct heating main, and the output - to the return heating main of the heat supply system, each nozzle consists of a body with an inlet, a cover, a sealing gasket between the body and the cover; a spring located between the cover and the swirl made in the form of a cylindrical cup turned upside down, mounted relative to the housing with an annular gap, and at least two rows of throttle openings are made in the swirl, and at least two evenly made in each row located on the annular wall of the swirl of tangential throttle openings, and in the lower part of the casing a nozzle insert with a calibrated conical hole coaxial with the cylinder is installed in the form of a conical washer the surface of the swirl, and the taper, the inverse taper of the conical washer of the liner.

In FIG. 1 is a schematic diagram of an energy-saving air conditioning system; FIG. 2 - general view of the nozzle.

The energy-saving air conditioning system contains a supply air chamber 1, at the inlet of which an anti-icer 6 is installed, which is a heater, the inlet of which is connected to the direct heat pipe 10, and the output to the return heat pipe 11 of the heat supply system. At the outlet of the supply chamber 1, a fan 2 is installed. In the irrigation chamber 4 there is a collector 14 with nozzles for forming a finely divided water curtain, a bath 15 for collecting waste water, overflowing and draining it through valves 3 and 8, filtering through a filter 16 and pumping 5 manifold 14 with nozzles, i.e. the irrigation chamber 4 operates in a closed cycle. In front of the drip catcher 17, a heat exchanger 7 of the secondary energy resources (VER) system is installed, the input of which is connected to the supply line 12 from the VER source, and the outlet with the discharge line 13, and after the drop catcher 17, parallel to the defroster 6 in the heat supply system, a second heater, 9 is installed. the input of which is connected to the direct heating main 10, and the output to the return heating 11.

The vortex nozzle comprises a housing 18 with a screw 24 coaxially located in the lower part of the housing, and a nozzle 19 located in the upper part of the housing with a cylindrical hole 20 for supplying fluid connected to the diffuser 21, axisymmetric housing 18 and fitting 19. For tight connection of the housing 18 with the fitting 19 is provided with a sealing gasket 22. The screw 24 is pressed into the housing to form a conical chamber 23 located above the screw 24, coaxially with the diffuser 21, which is connected in series with it. The screw 24 is made continuous, and the outer surface of the screw 24 is two serially connected surfaces, one of which is at least a single-thread screw groove 25 with right or left thread and is located inside the housing 18, and the second surface 27 is made smooth in the form body rotation, axisymmetrically connected to the spray disk 28, located perpendicular to the axis of the housing, and stands for the end surface of the lower part of the housing, and as a line forming this surface, there can be either a straight line or an nth-order curved line, for example, spherical, elliptical, parabolic, etc. (not shown in the drawing). In this case, the screw 24 can be fixed in the housing by means of screws 26. The nozzle screw 24 is made of solid materials: tungsten carbide, ruby, sapphire.

The surface of the spray disk 28, protruding beyond the end surface of the lower part of the housing 18, is bent toward the lower part of the housing and has radial cutouts (not shown) in the peripheral part, alternating with the solid part of the surface of the spray disk 28.

The spray disk 28 is displaced along the axis of the nozzle down from the smooth surface of the body of revolution 27 of the screw 24, connected to the screw surface 25 of the screw by an amount h, depending on the viscosity of the sprayed liquid, and connected to the screw 24 by means of a rod 29, axisymmetrically located on the screw 24.

Energy-saving air conditioning system operates as follows.

An anti-icer 6 is installed at the inlet to the inlet chamber, which in the cold season reduces the aerodynamic drag of the tract and avoids icing of the intake valve elements. In front of the drip catcher 17, a heat exchanger 7 of the secondary energy resources (VER) system is installed, the input of which is connected to the supply line 12 from the VER source, and the outlet with the discharge line 13, and after the drop catcher 17, parallel to the defroster 6 in the heat supply system, a second heater, 9 is installed. the input of which is connected to the direct heat supply line 10, and the output - to the return heat supply line 11, which allows for optimal heat and humidity operation of the supply chamber and the entire air conditioning system as a whole.

Vortex nozzle operates as follows.

The liquid is supplied through a cylindrical hole 20 to the diffuser 21, and from it to the conical chamber 23, from which it flows under pressure into the screw external cavity of the screw 24. The rotating fluid flow in the external screw cavity of the screw forms a vortex movement, with additional crushing of liquid drops due to turbulization of the outlet stream, and a finely dispersed rotating stream leaves the nozzle with a wide rotating torch of the sprayed liquid (solution) and encounters the surface of the spray disk 28, otorrhea at the peripheral portion bent toward the lower housing portion, provided with radial cutouts alternating with a continuous part of the surface of the spray disk 28, thus increasing the surface of the liquid while spraying additional fragmentation of liquid droplets. At a pressure of 6 ... 9 MPa, spraying is provided from 400 to 1000 kg / h of liquid.

Claims (1)

An energy-saving air-conditioning system containing an inlet chamber, an irrigation chamber, a droplet eliminator and a fan, an anti-icer is installed at the inlet to the inlet chamber, made in the form of a calorifer, the inlet of which is connected to a direct heat main, and the output is connected to a return heat main of the heat supply system, and a system heat exchanger is installed in front of the droplet eliminator secondary energy resources (WER), the input of which is connected to the supply line from the source of WER, and the output is with the outlet line, and after the drip catcher, pa in parallel with the defroster in the heat supply system, a second heating air heater is installed, the input of which is connected to the direct heat main, and the output is connected to the return heat main of the heat supply system, characterized in that each nozzle contains a housing with a screw coaxially located in the lower part of the body and located in the upper parts of the body a nozzle with a cylindrical hole for supplying fluid connected to a diffuser, axisymmetric to the body and the fitting, the screw is pressed into the body with the formation of a conical chamber, laid above the screw, coaxial to the diffuser, and connected in series with it, and the screw is solid, and the outer surface of the screw is two serially connected surfaces, one of which is at least a single-thread screw groove with right or left thread and is located inside case, and the second surface is made smooth in the form of a body of revolution, axisymmetrically connected to the spray disk located perpendicular to the axis of the case, and protrudes beyond the end surface of the lower th part of the casing, moreover, the line forming this surface can be either a straight line or an nth-order curved line, while the surface of the spray disk protruding beyond the end surface of the lower part of the casing is bent toward the lower part of the casing and has on the peripheral part radial cuts alternating with the solid part of the surface of the spray disk.

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