RU2263850C1 - Air distributor - Google Patents

Abstract

FIELD: air ventilation systems, possibly in rooms.

SUBSTANCE: air distributor includes housing with outlet openings. Said housing is secured to air duct by means of cylindrical inlet branch pipe with ejection windows in its surface. Converging insert is mounted in inlet branch pipe. Housing is diverging one and it is provided with perforated damper mounted in housing in parallel relative to its bottom with possibility of axial rotation. Discharge openings are formed in bottom of housing. The last discharge opening and perforated damper are in the form of spherical segments whose convex portions are turned to inlet branch pipe. Cylindrical inlet branch pipe has two formed in press spherical grooves arranged in parallel relative to bases of cylindrical inlet branch pipe (one groove is arranged over and other groove is arranged under ejection windows). Inlet branch pipe itself is embraced by cylindrical collar spaced by minimum gap from its surface. Said collar has openings identical to ejection windows and arranged at the same level. Cylindrical collar also has formed in press spherical grooves having diameter slightly less than diameter of grooves of inlet branch pipe and arranged at the same level. Such structure provides rotation of cylindrical collar around inlet branch pipe on its surface. Cylindrical collar is provided in addition with gear wheel secured to its surface and engaged with pinion of actuating mechanism. The last is electrically connected to air temperature controller and air temperature pickup. Perforated damper mounted at minimum gap relative to bottom of housing has shaft secured to it, passing with gap through bottom of housing and having in its lower end thread engaging with pinion of other actuating mechanism. The last is electrically connected with air stream speed regulator and pickup of said parameter.

EFFECT: possibility for automatic control of temperature and speed of inlet air streams.

2 dwg

Description

The invention relates to the field of air ventilation and can be used in rooms for various purposes.

Known air distributor (AS USSR No. 1560938, class F 24 F 13/06, 1987), comprising 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, a confuser insert installed in the inlet pipe.

The disadvantage of such an air diffuser is the low-intensity attenuation of the rates of the supply jets, as well as the inability to automatically control the temperature and speeds of the supply air jets.

Known air distributor (AS USSR No. 1717908, class F 24 F 13/06, 1991), the closest analogue containing a housing with exhaust holes at its outlet, attached to the duct using a cylindrical inlet pipe, execution on the surface of the latter ejection windows, a confuser insert installed in the inlet nozzle, the case being made diffuser and provided with a bottom with outlet openings attached to its outlet, and a perforated damper with the possibility of rotation around the axis is placed parallel to the bottom of the case, with cm bottom of the housing and the flap are formed as spherical segments facing bulges to the inlet, a cylindrical inlet pipe is provided with a covering its elastic cuff is rigidly attached at one end to the inlet before ejecting windows of air move movable along the latter, and their overlapping. The disadvantage of this air distributor is the insufficient attenuation of the supply jets and the inability to automatically control the temperature and speed of the supply jets.

The aim of the invention is the creation of an air distributor that allows automatic control of the temperature and speed of the supply jets, providing the necessary air parameters in the room.

This goal is achieved due to the fact that in the proposed design of the air distributor uses a housing with outlet openings at its outlet. The housing is attached to the duct using a cylindrical inlet pipe, on the surface of which ejector windows are made, a confuser insert is placed inside the inlet pipe. The inlet has two stamped spherical grooves located parallel to the bases of the cylindrical inlet. One of the grooves is placed above and the other below the ejection windows. The inlet pipe is covered by a cylindrical belt covering the inlet pipe with a minimum clearance from its surface. The cylindrical belt has holes identical in shape and size to the ejector windows of the inlet pipe and located at the same level with them. Spherical grooves are stamped on the surface of the cylindrical belt, coinciding in location with the grooves of the inlet pipe. The cylindrical belt is equipped with a gear wheel fixed on it, which is in mechanical contact with the gear of the actuator, which is electrically connected to the controller and the temperature sensor located in the room. The device body is made diffuser and is equipped with a perforated damper installed with a minimum clearance from the bottom of the body and equipped with a shaft attached to it, passing through the bottom of the body with a gap from it. The lower part of the shaft has a thread in contact with the gear of another actuator, electrically connected to the controller and the speed sensor installed in the room. Both actuators are mounted on brackets attached to a clamp, which, in turn, is mounted on a cylindrical inlet pipe. Mentioned brackets and belt are not included in the subject of the invention.

This design of the air distributor allows for the distribution of air into the room in automatic mode, maintaining a given temperature and speed of the supply jets through the use of sensors and temperature and air speed regulators using actuators and the design of the inventive device.

Thus, when implementing this technical solution, a technical result is achieved, which consists in ensuring the attenuation of air jets while automatically maintaining their temperature (due to the necessary intake of air from the room through the ejection windows, which can partially or completely overlap with a cylindrical belt depending on the set temperature set on the air temperature controller). The speed of the supply jets is controlled by the angle of rotation of the spherical damper, depending on the value set on the speed controller.

Analysis of analogues showed that the claimed technical solution is new. The novelty of the solution lies in the use of a cylindrical belt covering the inlet pipe having windows identical to the ejector windows of the inlet pipe located at the same level with them and in the presence of a gear and stamped on the inlet pipe and the spherical groove belt, which together with the actuator and temperature controller with a sensor allows you to partially or fully eject the inlet windows of the inlet pipe. The presence of a shaft fastened with a perforated damper and having a thread at the lower end that is in contact with the gear of another actuator controlled by a speed controller equipped with a sensor allows you to adjust the speed of the supply jets in accordance with the value set on the controller.

Thus, the claimed technical solution is characterized by a new set of essential features that give a positive effect, and has signs of compliance with the criterion of "inventive step".

In Fig.1 shows the proposed air distributor, in Fig.2 - the junction of the spherical grooves of the cylindrical belt and the inlet pipe. The air distributor comprises a housing 1 with outlet openings 2 at its outlet 3, attached to the duct 4 by means of a cylindrical inlet pipe 5, ejection windows 6 made on the surface of the pipe 5, a confuser insert 7 installed in the inlet pipe 5. The housing 1 is made diffuser and provided with attached its exit 3 with a bottom 8 and a perforated shutter 9 mounted parallel to the bottom 8 with a minimum clearance from it, with the bottom 8 and the shutter 9 made in the form of spherical segments facing their bumps to one nozzle 5. On the nozzle 5 there are stamped grooves 10 of spherical shape located parallel to the bases of the cylindrical nozzle 5. The inlet nozzle 5 is surrounded by a cylindrical belt 11, on which there are holes 12, identical in shape and size to the ejector windows 6 and located at the same level with the last . The belt 12 is equipped with stamped grooves 13 of a spherical shape, having a diameter slightly smaller than the diameter of the grooves 10 and located at the same level with the latter, which makes it possible to rotate the belt 11 around an axis along the surface of the inlet pipe 5. A gear wheel 14 located in the belt 11 is located in mechanical contact with the gear 15 of the actuator 16, which is electrically connected with the air temperature controller 17 and the temperature sensor 18. The perforated damper 9 is provided with a shaft 19 attached to it, the lower end which is equipped with a thread 20, which is in mechanical contact with the gear 21 of the actuator 22, which is electrically connected to the air speed regulator 23 and the speed sensor 24. The actuators 16 and 22 are mounted on brackets 25 and 26 attached to the clamp 27, mounted on the inlet pipe. The brackets 25 and 26, as well as the clamp 27, are not included in the subject of the invention.

The air distributor operates as follows. Air from the duct 4 is pumped into the cylindrical inlet pipe 5, after passing through the confuser insert 7, while a vacuum is created between the edge of the confuser insert 7 and the wall of the inlet pipe 5, due to which air from the room (not shown) is sucked in through the ejection windows 6, which mixes with the supply air, changing its temperature. The amount of air drawn in from the room is regulated by turning the cylindrical belt 11, covering the inlet 5. In this case, the ejection windows partially or completely overlap or fully open when the belt 11 is turned, depending on what temperature is installed on the controller 17, which, receiving signals from temperature sensor 18, rotates by means of an actuator 16 a gear 14 mounted on a cylindrical belt 11 in one direction or another, which, in turn, provides various Opening degree of ejection windows 6.

The air stream passing through the inlet pipe 5 enters the housing 1, passes through the perforation of the valve 9 and through the exhaust holes 2 the air jets enter the space bounded by the outer surface of the bottom 8, where the jets flowing from the outlet openings 2 collide with each other, turbulent the air flow, which contributes to a more intense attenuation. The degree of opening of the windows 8, and therefore the speed of the air flow, is controlled by turning the perforated air damper 9 depending on the set flow rate at the outlet of the air distributor, which is installed on the regulator 23, which receives signals from the sensor 24. The regulator 23, in turn, gives the executive a mechanism 22 that rotates the shaft 19 together with the shutter 9 in one direction or another, providing the necessary degree of opening of the outlet openings 2.

The proposed air distributor is industrially applicable, because does not contain elements that are difficult in their manufacture, installation.

The proposed air distributor according to the principle of operation provided by a new set of essential features allows intensive attenuation of the supply air jets in the room, while ensuring automatically set temperature and speed of the supply jets.

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, the housing being diffuser and provided with a perforated damper installed in the housing parallel to its bottom with the possibility of axial rotation, the exhaust holes are made in the bottom of the housing, and the last and perforated damper are in the form of spherical segms entrances facing their inlets to the inlet pipe, characterized in that the cylindrical inlet pipe has two spherical stamped grooves located parallel to the bases of the cylindrical inlet pipe, one above and the second below the ejection windows, and the inlet pipe is covered at the minimum possible distance from it the surface with a cylindrical belt, on which there are holes identical in shape and size to the ejector windows and located at the same level with them, in addition, a cylindrical belt with is also equipped with stamped spherical grooves having a diameter slightly smaller than that of the grooves of the inlet pipe and located at the same level with the latter, which ensures rotation of the cylindrical belt around the inlet pipe on its surface, in addition, the cylindrical belt is equipped with a gear wheel attached to its surface in mechanical contact with the gear of the actuator, to which the regulator and air temperature sensor are electrically connected, and the perforated damper, tanned with a minimum clearance from the bottom of the housing, equipped with a shaft attached to it, passing through the bottom of the housing with a clearance from it and having a thread at the lower end that is in mechanical contact with the gear of another actuator, electrically connected to the controller and the air speed sensor.

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