RU2208744C1 - Air distributor - Google Patents

Abstract

FIELD: ventilation. SUBSTANCE: the air distributor has a body with outlet holes at its outlet attached to the air conduit with the aid of a cylindrical inlet connection, ejecting ports made on the surface of the latter, contraction insert installed in the inlet connection, elastic collar secured on the cylindrical inlet connection, enveloping it and rigidly attached with its one edge to the inlet connection before the ejecting ports in the direction of air flow for displacement (rolling down) along the latters and their overlapping. The body has a corrugated shape and made of a flexible material, outlet ports are cut out on the surfaces of the corrugations, reflectors are attached to the recesses of the corrugations, they have the shape of spherical segments, the corrugated body is attached to the cylindrical inlet connection through a round plate with a central port for air passage, and the lower part of the corrugated body is also provided with a round plate with a central port, through which a screw installed coaxially with the inlet connection and body freely passes, and the upper end of the screw passes through a nut fastened in the lower part of the inlet connection, a helical spring resting with the extreme turns on the lower and upper round plates is fitted on the screw. EFFECT: provided control of air quantity supplied to the room within a sufficient range, provided suppression of speeds of the inflow jet. 1 dwg

Description

 The invention relates to the field of ventilation and allows to increase the intensity of the attenuation of the velocity of the supply jets by organizing three stages of damping the speed of the air flow, to ensure the regulation of temperature differences and the flow rate of supply air in the required range.

 It is known "Device for the distribution of supply air" (AS USSR 1560938, class F 24 F 13/06), containing a housing with exhaust holes at its outlet, attached to the duct using a cylindrical inlet pipe, made on the surface of the latter ejection windows and a confuser insert installed in the inlet pipe.

The disadvantages of this device are:
- incomplete attenuation of the supply jets speeds;
- insufficient range of regulation of the supply air flow, not allowing to provide comfortable conditions in the serviced room.

 Known "Air distributor" (AS USSR 1717908, class F 24 F 13/06 - the closest analogue), containing a diffuser housing, equipped with a bottom with exhaust holes and a perforated damper installed in the housing parallel to the bottom, while the bottom and the damper are made in the form of spherical segments convex to the inlet pipe, which is equipped with ejection windows and an elastic cuff installed for partial or complete overlap of the ejector windows.

The disadvantage of this device is:
- incomplete attenuation of the supply air velocity, leading to a deterioration in the comfort of the premises served.

 The objective of the invention is the provision of intensive attenuation of the velocity of the supply jets due to the organization of three stages of damping speeds, as well as the reduction of temperature differences between the supply air and the air of the room and regulation within the necessary limits of the flow rate of air entering the room.

 The problem is solved due to the fact that in the known air distributor containing the housing, equipped with exhaust openings at its outlet, attached to the duct using a cylindrical inlet pipe, ejector windows made on the surface of the latter, a confuser insert installed in the inlet pipe, an elastic cuff covering it and rigidly attached with one of its edges to the inlet pipe in front of the ejection windows with the possibility of movement (rolling) along the latter until they overlap, to the housing has a corrugated shape and is made of elastic elastic material, outlet openings are symmetrically made on the surface of the corrugations, and reflectors having the shape of spherical segments are attached to the hollows of the corrugations. The air distributor housing is attached to the inlet pipe through a flat round plate having a central hole for air passage. In the lower part, the casing is also equipped with a round plate with a central hole through which a screw freely mounted coaxially with the casing and the inlet pipe freely passes. The screw has a head in the form of a wing nut in the lower part, the upper end of the screw passes through the nut fixed in the lower part of the inlet pipe. A cylindrical spiral spring is dressed on the screw, resting on the lower and upper round plate of the housing with extreme turns.

 It follows from the foregoing that when implementing the claimed technical solution, a positive effect is achieved, consisting in a three-stage intense attenuation of the supply jets: in the case of a collision of jets facing toward each other from symmetric outlet openings of adjacent corrugations; in collision with reflector surfaces and in collision of jets reflected from adjacent reflectors. At the same time, the temperature of the supply jets is controlled by mixing air from the room through the ejection windows and the supply air is regulated by compressing or stretching the corrugated body under the action of a cylindrical spring when the screw is screwed in and out.

 An analysis of the closest analogue showed that the proposed solution is new. The novelty of this solution lies in the fact that the air distributor case is made of corrugated plastic elastic material, the corrugations have symmetrically located outlet openings, reflectors in the form of spherical segments are attached to the corrugations of the corrugations, the screw is equipped with a cylindrical spring resting on the upper and lower plates of the casing by extreme turns.

 Thus, the claimed technical solution is characterized by signs that give an additional positive effect and signs of compliance with the criterion of "inventive step".

 The drawing shows the proposed air distributor in the context. The air distributor comprises a housing 1 having a corrugated shape and made of elastic elastic material, symmetrically located outlet windows 2 cut on the surfaces of the corrugations, reflectors 4 having the shape of spherical segments are attached to the corrugations of the corrugations by rods 3. In the upper part of the housing 1 is fixed a round plate 5 with an opening 6 for the passage of air. In the lower part of the housing 1, a round plate 7 is fixed with a central hole 8 through which a screw 9 freely passes, having in the lower part a head 10 in the form of a wing nut. The upper end of the screw 9 passes through a nut 11 fixed in the inlet pipe 12. A spring 13 is mounted on the screw 9, resting on the upper and lower plates 5 and 7 with extreme turns. In the pipe 12, a confuser insert 14 is fixed, ejection windows 15 are cut out, and on the surface the pipe 12 is placed elastic cuff 16. The inlet pipe 12 is connected to the main duct 17.

 The air distributor operates as follows. Air flows from the main duct 17 to the inlet pipe 12 through the confuser insert 14, while due to the vacuum between the lower edge of the confuser insert 14 and the wall of the pipe 12, the air from the room is sucked through the ejection windows 15. This air is mixed with the supply air, changing its temperature. The amount of sucked air can be adjusted by partially or completely blocking the ejection windows 15 with an elastic cuff 16, moving its loose (lower) edge along the windows 15 by rolling or rolling it. When the windows 15 are completely blocked by the cuff 16, the suction of air from the room is reliably stopped, and due to the vacuum created in the zone of the lower edge of the confuser insert 14, the fit of the elastic cuff 16 to the surface of the nozzle 12 is improved. The mixed air stream flows from the nozzle 12 into the corrugated housing 1 of the air distributor, from where it is discharged into the room through the outlet 2, symmetrically placed on the corrugation surfaces. In this case, the air jets ejected from the holes 2 located on adjacent corrugations collide with each other, lose speed and with further movement hit the inner surfaces of the reflectors 4, while the speed of the air jets is still reduced. Then there is a collision of air jets reflected from neighboring reflectors and a further decrease in their speed.

 Thus, a three-stage damping of the velocity of the supply air jets is carried out: at the exit from the windows 2 adjacent corrugations due to collisions; in case of collision with reflectors 4; in the collision of jets reflected by adjacent reflectors. This process provides a fairly intense damping of the rates of the supply jets.

 The regulation of the flow of air entering the room is carried out by rotating the screw 9, while the corrugated housing and the spring 13 are compressed; at the same time, the surface tension of the elastic material of the corrugations decreases slightly and the area of the outlet openings (windows) 2 decreases. When the screw is rotated in the opposite direction, the spring 13 opens and the corrugated body 1 stretches under its influence, while the surface of the corrugations stretches and the area of the outlet openings 2 increases, which leads to an increase in the amount of air entering the room.

 The inventive air distributor is industrially applicable, because includes the device used by A.S. The USSR 1717908, improved by feasible elements - a corrugated case with outlet windows and reflectors symmetrically located on the corrugations, made in the form of spherical segments, while intensively damping the supply jets and regulating the air flow in a sufficient range, which provides a new significant feature of the invention.

Claims (1)

 An air distributor comprising a housing with outlet openings attached to the duct using a cylindrical inlet pipe, ejection windows made on the surface of the latter, a confuser insert installed in the inlet pipe, an elastic sleeve fixed to the cylindrical inlet pipe, covering it and rigidly attached with one of its own edge to the inlet pipe in front of the ejection windows along the air with the possibility of movement (rolling) along the latter and their overlap, excellent characterized in that the case has a corrugated shape and is made of flexible elastic material, outlet openings are cut out on the surfaces of the corrugations, reflectors having the shape of spherical segments are attached to the hollows of the corrugations, while the corrugated case is attached to the cylindrical inlet pipe through a round plate with a central opening for passage air, and the lower part of the corrugated case is also equipped with a round plate with a central hole through which a screw freely mounted coaxially with the inlet Deck and the housing, and the upper end of the screw passes through a nut affixed to the bottom of the inlet pipe, wherein the screw is fitted on the coil spring, the turns relies on extreme lower and upper circular plates.