RU2607883C1 - Mechanical controlled ventilation system - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to systems for mechanical ventilation of forced-type with automatic control of the air flow rate and can be used for air distribution in rooms of public and industrial buildings. Mechanical controlled ventilation system comprises an air intake duct, the main air duct, air ducts on branches into rooms equipped with control gates and supply diffusers, control sensors in the rooms, the main fan before the main air duct with a control device, herewith the ventilation system additionally comprises a pressure sensor located at the end of the main air duct and connected with the control device of the main fan, the air intake duct is additionally equipped with a filter, an air heater and an air cooler, and the air ducts on branches are additionally equipped with local fans connected with the control sensors in the rooms.

EFFECT: invention provides higher efficiency of maintaining optimum air distribution parameters in rooms.

1 cl, 1 dwg

Description

The invention relates to forced ventilation systems with automatic control of air flow and can be used for air distribution in public and industrial buildings.

Known self-regulating mechanical ventilation network with automatic air flow control (RU No. 113535 U1, class F24F 7/06, publ. 2012), comprising a device for intake of external air, a fan, an air distributor, a device for controlling the flow rate of the supplied air, a tee, a main branch, self-adjusting gas-dynamic air flow regulator, which provides, depending on the size and direction of the resulting aerodynamic moment, a change in the degree of overlap of the "live" duct section in branching tee planted axle wind vane fixed on the shaft so that as it rotates rigidly associated axially symmetrical rotary sector overlaps passageways axisymmetric stationary sector rigidly secured to the walls of the tee, impeller and diffuser automatically regulating the air flow rate in the branch pipe.

A device for controlling a ventilation system (EP No. 1134509 A1, class F24F 11/00, publ. 2001) is known, comprising an air processing unit with a supply air fan connected to an air supply channel provided with exhaust channels and a first pressure sensor located in front of the first branch channel for controlling the fan speed in accordance with the specified parameter P _tot. Each of the branch channels is equipped with its own pressure sensor connected to the regulator to maintain a constant pressure in the corresponding duct channel. The controller contains a shutter with an actuator that sets the degree of opening of the shutter in each channel, data is transmitted to the system control device.

The disadvantages of the known analogues is that the regulators on the branches create additional aerodynamic resistance to air and the systems cannot change the air flow rate on the branches, depending on the change in ventilation requirements in the individual serviced rooms, but change the air flow rate simultaneously in all rooms.

Closest to the claimed technical solution is a known method for quantitatively controlling the parameters of the air in several rooms (SU No. 1103047 A, class F24F 11/00, publ. 1984), which consists in changing the air supply by supply or exhaust fans and adjusting the aerodynamic the resistance of the local air ducts connecting the main air duct to the rooms, according to the signals of the sensors of the adjustable parameter in the rooms, and the air supply by the fan is changed according to the signal of the sensor of one of the rooms minutes, while increasing the aerodynamic resistance of each of the remaining local Improvement duct by an amount equal to that under the maximum air supply fan static pressure difference in the main duct at the points of attachment thereto of local ducts at maximum and minimum intake air.

The disadvantage of the closest technical solution is that in the process of regulation there are energy losses due to throttling of air pressure by valves on the branches of the pipeline. Throttling is not available only in the farthest served premises. Another disadvantage of this method is the lack of regulation of air distribution parameters directly in the premises. And the issues of air distribution during ventilation of rooms with a constant presence of people are inextricably linked with the scheme of regulation of the ventilation system. A change in the flow rate in the room in the absence of measures for the appropriate adaptation of the air distributors leads to undesirable effects — too low air velocity (“falling” of the jet from the air distributor, lack of mixing) or too high air speed (“draft” effect).

The technical task of the invention is to increase efficiency and maintain optimal air distribution parameters in the premises.

The problem is solved in that the mechanical adjustable ventilation system containing an air intake duct, a main duct, ducts on the branches in the premises, equipped with control flaps and supply air distributors, control sensors in the rooms, the main fan in front of the main duct with a control device, additionally contains a pressure sensor, located at the end of the main duct and connected to the control device of the main fan, uhozaborny duct is further provided with a filter, an air heater and air cooler and the air ducts branches are further provided with local fan connected to the control sensors smokers.

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

In FIG. 1 schematically shows a mechanical adjustable ventilation system.

The mechanical adjustable ventilation system contains an air intake duct 1, a filter 2, an air heater 3, an air cooler 4, a main fan 5, a main air duct 6, air ducts on branches 7 to rooms 8, equipped with control flaps 9, local fans 10 and supply air distributors 11. Indoors 8, control sensors 12 are located, connected to local fans 10. At the end of the main air duct 6, a pressure sensor 13 is installed, connected to the control device of the main vent Ilator 14.

Mechanical adjustable ventilation system operates as follows.

The air through the intake duct 1 passes through the filter 2 and enters the main duct 6. The main fan 5 maintains a constant air pressure in the main duct 6. To control the air pressure at the far end of the main duct 5, an air pressure gauge 13 is connected to the control device 14 of the main fan 5. The control device 14 controls the speed of the main fan 5 so that a constant small static pressure is maintained in the main duct 6 air. From the main air duct 6, the air is distributed through the air ducts on the branches 7 to the rooms 8. The air ducts on the branches 7 are equipped with control flaps 9 for statically balancing the pressure in front of the air distributors 11 in one room, local fans 10 and supply air distributors 11, through which air is sent to rooms 8. In rooms 8 there are control sensors 12 connected to local fans 10. Carbon sensors or gas sensors can act as control sensors. ugih gases, volatile organic compounds, the particles, the presence of people. It depends on the purpose of the ventilation system and the features of the operating mode of the building being served. The control sensors 12 allow, depending on the specified parameters of the air or the presence of people, to turn on and off the local fans 10. When you turn off one or more local fans 10 on the branches (ducts on the branches), air analysis from the main duct 6 decreases, and the pressure in the main duct 6 rises . After that, at the signal of the pressure sensor 13, the regulating device 14 reduces the rotational speed of the main fan 5. Thus, if there is no need to ventilate one or more of the serviced rooms 8, the consumption of electricity, heat or cold (depending on the time of year) is reduced by the ventilation system by reducing the air flow on the main fan 5 and turning off part of the local fans 10 on the branches 7. At full load in rooms 8, the local Fans 10 are constantly running. When the load decreases in zones 8, the local fans 10 corresponding to these zones begin to operate in a "pulse" mode, periodically turning on and off. The use of such a "pulsed" operation scheme allows the use of air diffusers 11, designed for a constant air flow. Air distributors of this type are cheaper than air distributors designed for variable air flow. Also, instead of dynamic balancing valves used in variable flow ventilation systems, static balancing valves (control flaps 9) are used in conjunction with local fans 10, which also reduces the cost of the ventilation system. The inclusion in the proposed mechanical adjustable ventilation system of the air heater 3 and air cooler 4 allows you to use the proposed technical solution for air heating and air conditioning.

Thus, the use of the proposed mechanical adjustable ventilation system allows you to prevent losses during throttling to link the branches to each other due to the fact that local fans are installed on the branches so that they create the necessary air flow and pressure on each branch, thereby increasing profitability of the ventilation system. Maintaining optimal air distribution parameters in the premises is achieved due to the fact that local fans on the branches operate in discrete mode, that is, they either provide the calculated air flow rate or are turned off. Due to this, air distributors, selected for the estimated air flow, create the optimal air speed in the working area of the premises.

A pilot installation of an adjustable ventilation system has been tested, the results obtained allow us to recommend the claimed invention for widespread use as a system of forced ventilation in the premises of public and industrial buildings.

Claims (1)

A mechanical adjustable ventilation system comprising an air intake duct, a main duct, ducts on branches in the rooms equipped with control flaps and supply air distributors, control sensors in the rooms, a main fan in front of the main duct with a control device, characterized in that the ventilation system further comprises a pressure sensor, located at the end of the main duct and connected to the control device of the main fan , The air intake duct is further provided with a filter, an air heater and air cooler and the air ducts branches are further provided with local fan connected to the control sensors smokers.

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