RU2454610C2 - Terminal air distributing device - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention refers to terminal air distributing device (10) through which the air is supplied to room (H) or some other similar space, or air leaves room (H) or some other similar space. Terminal air distributing device (10) includes inflow chamber (11) and exhaust chamber (12), and partition (13) between them, in which there is hole (14) into which replaceable head piece (15) is installed so that it can be removed.

EFFECT: air distributing device has modular design in which head pieces can be replaced when it is required to change the working range of air flow for one and the same air distributing device without any other change made to the design.

5 cl, 8 dwg

Description

The present invention relates to a terminal air distribution device.

In the state of the art, various kinds of terminal air distribution devices are known through which air can diffuse into the room or be sucked from the room into the exhaust duct. Terminal air distribution devices usually include an inlet chamber and an exhaust surface on its outlet side, which can be formed using holes in the metal sheet, fixed ventilation grilles, etc. Some devices have special parameters of air flow, for example, air flow rate, pressure drop, level of pressure noise, flow rate and air jet emission diagram, etc. When the device is installed in an air conditioning system, any neny difficult in it. If there is a need to change the operating range of the air distribution device, then in this case it is often necessary to replace the entire air distribution device.

This application represents a new solution to the above problem. The present invention implements a method of forming an air distribution device using a replaceable nozzle, i.e., an intake device between the supply air chamber, i.e. the supply chamber, and the exhaust air chamber, i.e., the exhaust chamber of the structure. Thus, the air distribution device includes an inlet chamber and an exhaust chamber with a flow hole between them, while the replaceable nozzle is inserted into the specified flow hole. In a preferred embodiment, the nozzle is a nozzle comprising a flange with an inner surface having a rounded shape, which provides a smooth supply of air from the supply chamber to the exhaust chamber and then, using the exhaust surface, into a room or other similar space, or in the opposite direction. The replaceable nozzle used is inserted into the hole between the supply chamber and the exhaust chamber so that the nozzle is mounted on its flange to form a connection with the hole. The nozzles have different diameters of the inlet D. Thus, the nozzles form a modular system comprising different diameters of the inlets D ₁ , D ₂ , D ₃ ... D _n . When there is a need to change the operating parameters of the air distribution device, it is only necessary to replace the nozzle located in the hole between the supply chamber and the exhaust chamber in order to provide the required operating range of the device. Thus, the same device can be used for different purposes simply by changing the nozzle, and different operating ranges are provided for the same device simply by changing the nozzle. The cross-sectional shape of the nozzle may also differ from round, for example, it may be rectangular, and the flange may be connected to the pipe section without any rounding. In one embodiment, the nozzle is an elongated slot diffuser.

An air distribution device in accordance with the present invention is characterized by the features described in the claims.

The invention will be described below with reference to preferred embodiments of the invention shown in the accompanying drawings, but without intent to limit the invention to only these embodiments.

On figa and 1B shows the air distribution device in accordance with the prior art.

On figa shows an air distribution device in accordance with the present invention.

FIG. 2B is a cross-sectional view taken along line I-I of FIG. 2A.

FIG. 3A shows various nozzle designs for a modular air distribution device in accordance with the present invention. Thus, the air distribution device is a modular design in which the nozzles can be replaced when a change in the working range of the air flow for the same air distribution device is required without any other design change.

FIG. 3B is a cross-sectional view taken along line II-II illustrating the nozzle of FIG. 3A.

On figa and 1B shows the air distribution device 10 in accordance with the prior art. Supply air is supplied from the supply chamber by means of an exhaust surface to room H. The designs shown in FIGS. 1A and 1B cannot be changed. Thus, when the device is installed in an air conditioning system, it is selected in accordance with the purpose of the room. However, at present, the purpose of the room can be changed repeatedly during the entire period of its operation, and therefore, the air conditioning system must also be flexible and, for example, it must be possible to change the terminal air distribution devices in accordance with the purpose.

On figa and 2B shows a new type of terminal air distribution device 10 in accordance with the present invention either to supply air to the room, or to remove air from the room. The terminal air distribution device 10 includes a chamber 11 and a pipe 11a, through which an air stream enters from the duct system into the interior space S _{1 of the} supply chamber 11, when this device operates as a terminal air distribution device. The terminal air distribution device 10, in addition to the supply chamber 11, also includes an exhaust chamber 12, and between them there is a partition 13 with an air hole 14 located therein. It is preferable if the air hole 14 is a round hole including a replaceable nozzle 15, in accordance with the present invention. The nozzle 15 is a nozzle comprising a flange 16. On its inner surface t _{1, the} flange 16 is smoothly connected with the radius of curvature R directly to the wall t _{2 of the} tubular element 17. Between the tubular element 17 of the nozzle 15 and the flange 16 there is a bend with a radius of curvature R. Preferably, if the radius of curvature R is defined as (0.14-0.19) × the diameter of the inlet D of the pipe 17. The flange 16 includes apertures n ₁ , n ₂ ... into which fastening means such as a screw R ₁ , R ₂ can be inserted ... for the formation of a detachable connection nozzles 15 with a partition 13 between the supply chamber 11 and the exhaust chamber 12.

As shown by arrows L ₁ , air flows from the supply duct P (shown by dashed lines) inside the supply chamber 11 into the space S ₁ and from there further by means of the nozzle 15 into the interior space S _{2 of the} exhaust chamber 12 and further through the exhaust surface 18 into the room H. The direction of air flow can be reversed when this device is used as an exhaust device, that is, air is sucked from room H into the exhaust chamber 12 and through the nozzle 15 into the supply chamber 11 and further into the exhaust duct. The exhaust surface 18 can be any element that directs the flow of air, such as a perforated surface, fixed ventilation grilles, a surface formed with separate nozzles, etc.

If the purpose of the room H is changed, for example, if the range of variation of the air flow rate is to be changed, this is carried out in accordance with the present invention by replacing the nozzle 15 located between the supply chamber 11 and the exhaust chamber 12. The nozzle 15 is selected from a modular design, i.e. from sets of nozzles 100 so that the nozzle 15 had a certain hole diameter in cross-section, for example the diameter D ₁ or D ₂ or D ₃ ..., which will provide the desired range of air flow velocities, range equals the pressure range of noise levels, etc. Thus, the most suitable nozzle can be selected for the terminal air distribution device 10 from the set of nozzles 15 having different diameters of the tubular part D ₁ , D ₂ , D ₃ ...

2A, 2B, the connecting screws are shown as R ₁ , R ₂ ..., and with these screws, the nozzle 15 can be connected along its flange 16 to the partition 13. In addition, the exhaust chamber 12 can be connected along its partition 13 by screws E ₁ , E ₂ ... with the supply chamber 11, along the edge f ₁ of the camera structure, similar to the housing.

On figa shows a modular structure formed using a set of nozzles 100 having different diameters D ₁ , D ₂ ...

FIG. 3B is a cross-sectional view taken along line II-II of the nozzle 15 of FIG. 3A. The nozzle 15 includes a flange 16, the radius of curvature R of which is defined as (0.14-0.19) × D (D = diameter of the inlet of the pipe 17). The nozzle 15 is attached with screws R ₁ , R ₂ ... to the plate 13 of the exhaust chamber 12 in its hole 14, that is, in the partition 13 between the supply chamber 11 and the exhaust chamber 12. The flange 16 enters the exhaust chamber 12, and the pipe 17 enters supply chamber 11.

Claims (5)

1. The terminal air distribution device (10) through which air enters the room (N), or the air leaves the room (N), while the terminal air distribution device (10) contains an exhaust chamber (12) containing an exhaust surface ( 18), through which air flows further into the room (H), characterized in that the terminal air distribution device (10) also comprises a supply chamber (11) and a partition (13) between the supply chamber (11) and the exhaust chamber (12), this hole is made in the partition (14), into which a replaceable nozzle (15) is inserted, which can be replaced by different nozzles having a different inlet size so as to change the operating parameters of the air distribution device, while the nozzle (15) includes a pipe section (17) having a round or a rectangular section and a flange (16), and the nozzle (15) is made with the possibility of connection with a partition (13) between the supply chamber (11) and the exhaust chamber (12) of the air distribution device (10) so that the pipe section (17) enters the supply camera (11). 2. The device according to claim 1, characterized in that the nozzle (15) has a circular cross section, whereby there is a radius of curvature (R) between the pipe section (17) and the flange (16), which is preferably defined as (0.14- 0.19) × inlet diameter (D) of the pipe portion (17). 3. The device according to claim 1, characterized in that the flange (16) enters the exhaust chamber (12). 4. The device according to claim 1, characterized in that the exhaust chamber (12) is connected to the edge (f ₁ ) of the housing by means of fastening means (E ₁ , E ₂ ...), such as screws, through the partition wall (13) contained therein. supply chamber (11). 5. The device (10) according to claim 1, characterized in that the nozzles (15) form a modular system or a set of nozzles (100).

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