UA122241U - SYSTEM OF AUTOMATIC CONTROL OF AIR CONSUMPTION IN BUILDINGS - Google Patents

Abstract

The system of automatic control of air flow in the premises of buildings includes a regular ventilation duct of the building with a louver grille and additionally installed air flow controller in the form of connected with the channel of the housing with hinged and parallel axially arranged upper and lower axes, on which the swing flaps are rigidly fixed as well as the one ends of the upper and lower levers, which are pivotally connected by the other ends to the shoulders vertically housed in the body of the common two-arm lever through the thrust. The center point of the lever is pivotally connected via a central rod via a piston rod, with axial air bypass calibrated openings mounted in a pneumatic damper housing for damping high-frequency oscillations of the flaps. The opposite end of the thrust through the restoration spring is connected to the mechanism of manual adjustment, balancing both valves of force, elastic deformation of the spring.

Description

The useful model belongs to the field of construction and can be used mainly in the residential lower floors of multi-story buildings to save heat, which is spent on heating the infiltrated air that comes out through the ventilation ducts.

There are no schematic and structural solutions for devices in ventilation systems that provide regulation of heat loss in the premises of residential buildings, associated with above-standard heat costs for heating the infiltrating air that penetrates through the gaps in the window enclosures.

However, the absence of automatic regulation systems causes, depending on the temperature difference of the internal and external air, significant excess heat consumption, which increases the cost of thermal energy and the cost of heating residential buildings.

In this regard, the basis of a useful model is the task of reducing heat loss for heating infiltrating air through ventilation grilles in kitchens and bathrooms.

To solve the problem, according to the useful model, the essential features are that in the proposed building with a standard ventilation duct with a louvre grill, an air flow regulator is additionally installed. The regulator is made in the form of a body connected to the channel, in which the upper and lower axes are hingedly connected and placed in parallel with rotary dampers rigidly attached to them, as well as the upper and lower levers at one end.

The other ends of the levers are hingedly connected through rods to the shoulders of a common two-armed lever vertically placed in the housing, the middle point of which is hinged to the piston installed in the pneumatic damper housing through one end of the central rod and a rod. Axial holes are made in the piston, through which, when moving, air flows from one rod cavity of the damper to the other, ensuring damping of high-frequency vibrations of the dampers.

The opposite end of the central rod is connected to a restoring spring connected to a mechanism for manual adjustment of its elastic deformation necessary to ensure the balancing force of both flaps.

In the proposed technical solution, the air, entering the regulator, creates a pressure greater than the natural pressure on its valves. Under the action of air pressure, the dampers on the axles turn, proportionally covering or closing the passage opening of the regulator and accordingly changing its resistance in such a way that the flow of air passing through the regulator remains in

From the given limits. At the same time, balancing on the axes of the flaps is provided by the balancing moment of the active restoring spring, which changes in proportion to the variable dynamic air pressure. In all cases, due to the automatic maintenance of the air flow within the specified limits, the heat loss associated with the heating of the infiltrated air will be reduced.

The presented drawing schematically shows: in fig. 1 - general cross-sectional view

A-A systems with a communication channel and an exhaust ventilation regulator; in fig. 2 - side view of the regulator in section.

The proposed system includes the standard ventilation channel 1 of the building with a louver grid 2 and an additionally installed regulator Z of the exhaust ventilation of the residential building.

The direct action regulator is made in the form of a housing 4 connected to the channel. The upper 5 and lower 6 axes are hinged in the body 4, on which the upper 7 and lower 8 flaps are rigidly fixed, as well as the upper 9 and lower 10 levers at one end, and the other ends of the levers 9, 10 are connected to the arms by rods 11, 12 vertically placed two-armed lever 13. The middle point of the lever 13 through the central rod 14 is hingedly connected to the rod 15 and the piston 16 with axial air bypass calibrated holes. The piston 16 is installed in the casing 17 of the pneumatic damper for damping the high-frequency oscillations of the flaps caused by the alternating thrust of the ventilation. The opposite end of the rod 14 is connected to one end of the restoring spring 18, the other end of which is with the manual adjustment mechanism, with the screw 19 and the adjusting nut 20, its elastic deformation necessary for balancing both valves.

To protect against mechanical damage, the regulator is covered with a protective cover 21.

The exhaust ventilation system of the building works as follows.

The room air enters the regulator 3, exerts a greater pressure on the dampers 7,8 than the natural draft. Under the action of air pressure, the dampers on the axes 5, 6 turn, proportionally covering or opening the passage section of the regulator and accordingly changing its resistance in such a way that the flow of air passing through the regulator remains within the specified limits. At the same time, the restoring spring 18 on the axes of the flaps is balanced by a moment that changes in proportion to the dynamic air pressure. With an increase in the torque caused by an increase in air pressure, the balancing moment 60 by the spring 18 on the rod 14 of the double-armed lever 13, which is transmitted to the lever by the rods 11, 12, increases proportionally

9,10 flaps 7,8, providing automatic maintenance of the necessary ventilation hood over the entire range of air pressure.

Damping of high-frequency oscillations of dampers 7,8 is provided by pneumatic resistance to the flow of internal air through calibrated holes in the piston of the pneumatic damper from one rod cavity to the other.

The use of the proposed system will make it possible to: save part of the heat for heating the infiltration air, which in the absence of a regulator is consumed through the ventilation grills; reduce fuel consumption and the cost of the heating system of residential buildings; create certain conveniences for residents of residential buildings due to automatic maintenance of standard values of internal air temperature and improvement of air exchange in the premises; to expand the scope of application of the proposed system in residential buildings, which in general will give the national economy a certain economic effect.

Claims (1)

USEFUL MODEL FORMULA A system of automatic regulation of air flow in building premises, which is distinguished by the fact that it includes a regular building ventilation channel with a louvered grid 20 and an additionally installed air flow regulator in the form of a housing connected to the channel with hinged and parallelly placed upper and the lower axles, on which the rotary valves are rigidly fixed, as well as the upper and lower levers at one end, which are connected to the arms of a common two-armed lever vertically placed in the body, the middle point of which is hinged through the central rod, by means of the other ends, hinged through the rods 25 through a rod with a piston, with axial air-passage calibrated holes, installed in the case of a pneumatic damper for damping high-frequency oscillations of the dampers, and the opposite end of the thrust through a restoring spring is connected to the mechanism of manual adjustment, balancing the force of both dampers, elastic deformation of the spring. A-D Z "LY ; vin I chan Male le I piglet ; Y x "ee pt pop sen | ; o NY she 7 oo. Ж Ж sko kh ИZ h і M Z Z : Her Neck bath ovasoso oon MK peche n | g M Sh-- ; Fig. 1