RU2647247C1 - Air distributor combined with source of artificial lighting - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to ventilation and air conditioning systems and can be used in public and industrial buildings for various purposes. Air distributor, combined with the artificial light source, contains a static pressure chamber, an outdoor air nozzle, a diffuser, a recirculation air nozzle, a source of artificial lighting, with the outlines of the outdoor air and recirculation air being separated in the static pressure chamber, a ventilator and a filter are installed in the recirculation air nozzle, outdoor air circuit at the outlet is connected to a heat-removable chamber, which is additionally provided with a separator and in which a source of artificial lighting with ballasts is placed.

EFFECT: creation of the most comfortable conditions in the room due to the formation of a supply jet with the optimum adjustable parameters, increasing the efficiency of recycling secondary heat of the artificial lighting source and providing the possibility of recycling the secondary heat generated in the room.

1 cl, 2 dwg

Description

The invention relates to ventilation and air conditioning systems and can be used in public and industrial buildings for various purposes.

Known devices related to air distributors combined with lighting equipment, in particular a device for distributing air and lighting rooms (SU No. 794335, class F24F 13/078, publ. 1981); lighting and ventilation device (SU No. 1392307, class F21V 33/00, publ. 1981); a lighting, ventilation and photocatalytic air purification system (US No. 7875252, class F24F 13/078, publ. 2011); a device with lighting and an air conditioning function (WO No.2009087096, class F24F 13/078, publ. 2009); lighting and ventilation device (SU No. 859759, class F21V 29/00, publ. 1981); a device for ventilation and lighting of the working area (SU No. 1315748, class F24F 7/06, publ. 1987); lighting and ventilation duct (WO No. 2009081127 A1, class F24F 13/04, published 2009), etc.

In known analogues, the recycling of the secondary heat of the luminaires is carried out by blowing the supply air to the lamps and / or ballasts. However, part of the heat enters the room with a luminous flux. In addition, in addition to artificial lighting sources, secondary heat is generated in the room by such sources as people, office equipment, etc.

Closest to the claimed technical solution is a known air distributor containing a lamp-shade, an annular chamber located above it for mixing fresh air coming in through the nozzle and coming in from the room through rarefaction, a diffuser through which the supply air returns to the room (SU No. 159278, C. F24F 13/078, publ. 1963).

The disadvantages of the known technical solutions are:

- low efficiency of recycling the secondary heat of the source of artificial lighting;

- the inability to regulate the supply air parameters.

The technical task of the invention is to create the most comfortable conditions in the room by forming a supply stream with optimal adjustable parameters, increasing the efficiency of recycling the secondary heat of an artificial light source and making it possible to utilize the secondary heat generated in the room.

The problem is solved in that the air distributor, combined with a source of artificial lighting, contains a static pressure chamber, an outside air pipe, a diffuser, a recirculation air pipe, a source of artificial lighting, while the circuits of the outdoor air and recirculation air are separated in a static pressure chamber, in a recirculation pipe air fan and filter are installed, the outdoor air circuit at the outlet is connected to a heat-removable chamber, which is additionally equipped with a separator and in which a source of artificial lighting with ballast equipment is located.

The invention is illustrated in more detail by the drawings and description thereof.

In FIG. 1 schematically shows an air distributor combined with a source of artificial lighting, in section, side view; in FIG. 2 - bottom view.

The air distributor, combined with an artificial light source, comprises a rectangular static pressure chamber 1, wherein the circuits of the external and recirculated air are separated. The outside air pipe 2 is led perpendicularly to the static pressure chamber 1, and then it rotates 90 ° inside it, which ensures the compactness of the air distributor, and through the heat removal chamber 3 it is led to the square diffuser 4 (external air circuit). Recirculation air enters the static pressure chamber 1 through the recirculation air pipe 5, in which the fan 6 and filter 7 are installed, and through the outlet openings for recirculation air 8 is directed to the room (recirculation air circuit). An artificial lighting source 9 with ballast equipment 10 is located in the heat-removing chamber 3. To separate the outside air into the heat-removing chamber 3, a flow separator 11 is located in the outside air pipe.

The air distributor, combined with a source of artificial lighting, operates as follows.

Outside air with a reduced temperature t _n , ° C (≥ + 6 ° C) from the air supply unit (not shown) is supplied to the pipe 2 of the static pressure chamber 1, it is directed using a flow divider 11 into the heat removal chamber 3, where it blows around the source control gear 10 artificial lighting 9, thereby utilizing secondary heat and heating at the same time. The heated external air flow is supplied to the square diffuser 4, which forms a stream swirling against the artificial light source 9. Thus, a second stage of recycling secondary heat is ensured - from a source of artificial light penetrating into a room with a light flux. Outside air consumption (L _n , m ³ / h) remains constant during operation of the system.

To utilize the secondary heat generated by sources directly in the room, the recirculation air from the upper zone of the room, characterized by an elevated temperature, t _times , ° C, if there is a heat surplus, is supplied to the static pressure chamber 1 through the recirculation air pipe 5 through a fan 6. Recirculated air from the room before being fed to the static pressure chamber 1 is cleaned with the help of an air filter 7 and through the outlet openings 8, forming a swirling stream that flows on the ceiling, enters the room. The jets of outside air and recirculation air mix, forming a supply air stream with a temperature, t _cm , ° С, determined by the formula

,

,

where L _pom - air flow from the upper zone of the room, m ³ / h;

_substituting t - temperature of an upper space zone, ° C;

L _n - consumption of external air (remains constant during operation), m ³ / h;

t _n - outdoor temperature, determined using a temperature sensor, ° C.

The air flow from the room L _p , m ³ / h, can be controlled by changing the speed of the fan 6 to maintain the set value of the supply air temperature t _cm , ° C.

Separation of the circuits of the external and recirculated air allows for the constancy of the aerodynamic drag in the circuit of the outdoor air when the flow rate of recirculated air changes.

Thus, the proposed design of the air distributor combined with the source of artificial lighting allows to increase the efficiency of recycling the secondary heat of the source of artificial lighting and to provide the possibility of recycling the secondary heat generated in the room by people, office equipment, etc.

Claims (1)

An air distributor combined with an artificial light source, comprising a static pressure chamber, an outside air pipe, a diffuser, a recirculation air pipe, an artificial light source, characterized in that the outdoor air and recirculation air circuits are separated in a static pressure chamber, a fan and a recirculation air pipe are installed filter, the external air circuit at the outlet is connected to a heat-removing chamber, which is additionally equipped with a separator and in which The source of artificial lighting with ballast equipment is located.

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