RU2647248C1 - Adjustable recirculation air distributor - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to ventilation and air conditioning systems and can be used to create optimal microclimate parameters in public and industrial buildings for various purposes. Recirculating air distributor contains a static pressure chamber with outlets, an outdoor air nozzle, a recirculation air nozzle with an inlet fan installed in it, fan speed converter, temperature sensors, controller, while the outlines of the outdoor air and recirculation air being separated in the static pressure chamber, circuit of recirculation air in the static pressure chamber is divided into three zones: the inner zone A, the middle zone B and the outer zone C, areas of zones A, B and C have a ratio of 1/2.75/4.58, and at the recirculation air inlet in zones B and C there are control dampers installed.

EFFECT: ensuring the permanence of the characteristics of the supply jet and aerodynamic resistance in the outdoor air network with a change in the flow rate of the recirculation air.

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.

There are a large number of devices related to air distributors in which the supply air entering the room is obtained by mixing fresh (outdoor) air with recirculated air (room air) (for example, GB No. 2438638, class F24F 3/044, publ. 2007; US No. 6168517, class F24F 7/007, publ. 2001; EP No. 1571402, class F24F 1/01, publ. 2005; FR No. 2912808, class F24F 13/06, publ. 2008; RU No. 2543594, class F24F 3/00, publ. 2012, RU No. 2420696, class F24F 11/00, publ. 2008, etc.).

высоты цилиндрического кожуха, а верхний торец заглушен и расположен выше заглушенного торца кожуха, в верхней части поверхности патрубка вырезано щелевое отверстие, к которому тангенциально относительно поверхности патрубка присоединен воздуховод для соединения с системой кондиционирования воздуха; к воздухоприемной щели кожуха тангенциально по отношению к поверхности кожуха присоединен воздуховод, снабженный осевым вентилятором, сообщенным с помещением, причем воздуховоды присоединены так, чтобы выходящие из них потоки воздуха, поступающие в кожух и в цилиндрический патрубок, двигались в одном направлении, а электродвигатель осевого вентилятора подключен к системе автоматического управления числом оборотов, состоящей из частотного регулятора, сравнивающего устройства, и двух датчиков температуры воздуха, один из которых установлен на выходе воздуха из воздухораспределителя, а другой - в помещении.Known air distributor (RU No. 2479797 C1, class F24F 13/00, publ. 2013), comprising a cylindrical casing with an air inlet slit made in its surface and with a diffuser mounted on the edges of the outlet in one of the ends of the casing, and the opposite end, near of which the air-intake slit is made, is muffled, while in the center of the muffled end of the casing a hole is cut in which a cylindrical pipe is fixed coaxially with the casing, the lower end of which is located approximately at the level

the height of the cylindrical casing, and the upper end is muffled and located above the muffled end of the casing, a slit hole is cut out in the upper part of the pipe surface, to which an air duct is connected tangentially to the pipe surface for connection with an air conditioning system; to the air inlet slit of the casing tangentially with respect to the surface of the casing is connected an air duct equipped with an axial fan in communication with the room, the air ducts being connected so that the outgoing air flows into the casing and in the cylindrical nozzle move in one direction, and the electric motor of the axial fan connected to an automatic speed control system consisting of a frequency controller, a comparator, and two air temperature sensors, one of which is set copulating on the outlet of the diffuser, and the other - in the room.

Closest to the claimed technical solution is a known air distributor (RU No. 2479799, class F24F 13/06, publ. 2011), comprising a cylindrical body with adjustable guide vanes located in the outlet, and an axial fan is installed at its inlet in the side surface of the body a hole is cut out, equipped with a nozzle for connection to a supply duct, a hollow cylinder is placed coaxially with a gap from its inner surface inside the housing, the side surface of which is perforated between the sealing surface of the body and the edges of the ends of the cylinder are sealing annular partitions; the air distributor is equipped with a frequency regulator connected to an axial fan motor, two air temperature sensors are connected to the frequency regulator through a comparator, one of which is installed in the room, and the other is located at the air outlet from the guide vanes.

The disadvantages of these technical solutions are:

- change in aerodynamic drag in the outdoor air network when changing the flow rate of recirculated air (air from the room);

- a significant change in the characteristics of the supply jet with a change in the flow rate of recirculated air: the flow velocity, its range, aerodynamic characteristics.

The technical task of the invention is to ensure relative constancy of the characteristics of the supply jet and the constancy of aerodynamic drag in the outdoor air network when the flow rate of recirculated air (air from the room) changes.

The problem is solved in that the recirculation air distributor contains a static pressure chamber with outlet openings, an outside air pipe, a recirculation air pipe with a fan installed in it, a fan speed converter, temperature sensors, a controller, while the outside air and recirculation air circuits are separated in the static pressure chamber, the recirculation air circuit in the static pressure chamber is divided into three zones: inner zone A, Independent user - B and outer - B area zones A, B and C have a ratio of 1 / 2.75 / 4.58, and the recirculation air inlet in zone B and B mounted regulating flap.

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

In FIG. 1 is a schematic cross-sectional view of an adjustable recirculation air distributor, side view; in FIG. 2 - bottom view.

The adjustable recirculation air distributor contains a static pressure chamber 1, in the center of which there is an external air pipe 2 with an outlet, at the inlet of which an outdoor temperature sensor (t1) 3 is installed (external air circuit). The recirculation air circuit is equipped with a recirculation air pipe 4 with a recirculation air temperature sensor (t2) 5 installed in it and a fan 6. The recirculation air circuit is divided into three zones: inner zone A, middle zone B and outer zone C, area ratio of zones A , B and C in the horizontal projection is 1 / 2.75 / 4.58, at the inlet of the recirculated air to zones B and C, control flaps 7 and 8 are installed. The flow rate of recirculated air supplied by the rotator 6 is changed using the converter For the speed of fan 9 as specified by controller 10.

Adjustable recirculating air distributor operates as follows.

External air supplied at a constant flow rate from the supply ventilation unit (not shown) is sent to the static pressure chamber 1 through the pipe 2 and through the outlet (diffuser) is sent to the room. Using the fan 6 through the pipe recirculation air 4 in the chamber of static pressure 1 is fed to the recirculation air (air from the room). The recirculation air circuit is divided into three zones: the inner zone A adjacent to the outdoor air circuit, the middle one B and the outer one B, control dampers 7 are installed at the inlet of recirculated air to zone B, control dampers 8 are installed at the inlet of recirculated air to zone B. taking position open / closed on the instructions of the controller using an electric drive. The flow rate of recirculated air supplied by the rotor 6 is changed using the speed converter of the fan 9 on the instructions of the controller 10, associated with the sensors of the outdoor temperature (t1) 3 and recirculated air (t2) 5.

The algorithm for regulating the flow of recirculated air and the characteristics of the jet of recirculated air during operation is as follows.

During operation of the adjustable recirculation air distributor, the flow rate of recirculated air supplied by the fan 6 is changed using the frequency converter 9 on the instructions of the controller 10. The task of the controller 10 is to maintain the set value of the supply air temperature t _p (° C), determined by the formula:

Where

L _p - flow rate of recirculation air supplied by the fan, m ³ / h;

t _p is the temperature of the recirculated air, determined using a temperature sensor (t2), ° C;

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

t _n - outdoor temperature, determined using a temperature sensor (t1), ° C.

In order to maintain the relative constancy of the characteristics of the recirculation air stream, the recirculation air circuit of the static pressure chamber 1 is divided by partitions into three zones A (internal or central), B (middle), B (external or peripheral), while the area of the zones is correlated as follows: area of the zone A (S _A ) / area of zone B (S _B ) / area of zone B (S _B ) = 1 / 2.75 / 4.58. The area of the zones is calculated in such a way that when the fan 6 supplies the flow of recirculated air in a volume of 0 ÷ 33% of the maximum calculated flow rate L _{p, the} adjustable dampers 7 and 8 are in the closed position, so the recirculated air enters the room only through zone A. from the recirculation air flow in the volume from 34 to 66%, the adjustable dampers 7 open, recirculation air is supplied through zones A and B. When the recirculation air is supplied in the volume from 67 to 100%, all dampers 7 and 8 open, recirculation Bleeding air is supplied through zones A, B and C.

To maintain a predetermined supply air temperature with the help of a controller 10 and a frequency converter 9, the rotational speed of the fan 6 and, accordingly, the flow rate of recirculated air are changed. The design of the adjustable recirculation air distributor provides the necessary mixing of the flows of external and recirculated air directly in the room, which allows maintaining the optimal parameters of the supply stream at the entrance to the working area of public buildings for various purposes.

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 the recirculated air changes.

Thus, the proposed adjustable recirculation air distributor provides relative constancy of the characteristics of the supply air stream and the constant aerodynamic resistance in the external air circuit when the flow rate of recirculated air changes, is effective when used in ventilation and air conditioning systems with a constant flow of external air to assimilate internal heat surpluses by means of underheating outside air during the cold and transitional periods of the year.

Claims (1)

Adjustable recirculating air distributor containing a static pressure chamber with exhaust openings, an outside air pipe, a recirculating air pipe with a fan installed in it, a fan speed converter, temperature sensors, a controller, characterized in that the outdoor air and recirculating air circuits are separated in the camera static pressure, the recirculation air circuit in the static pressure chamber is divided into three zones: inner zone A, middle - B and outer - B area zones A, B and C have a ratio of 1 / 2.75 / 4.58, and the recirculation air inlet in zone B and B mounted regulating flap.

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