RU2487303C1 - Device for adjusting airflow rate - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: device for adjusting airflow rate comprises a vertically disposed housing of the air duct with an end opening at the lower part and the valve mounted in it, the valve is made in the form of a leaf diaphragm, which leaves are mounted with its one end to the housing of the air duct with the ability to rotate about an axis of fastening, have two surfaces intersecting at angle to one another, the upper of which lies in a horizontal plane and is perforated. The valve comprises a mechanism of its return to the initial position, made in the form of a spring of temperature-sensitive material which changes its rigidity, which one end is fixed to the housing of the air duct and the second is fixed to the leaf of the diaphragm.

EFFECT: simplification of the device design, improvement of quality of adjusting airflow rate and extension of its field of application on existing exhaust shafts without changes in their design.

Description

The invention relates to techniques for ventilation and can be used in exhaust ventilation systems of agricultural and industrial buildings.

A device for regulating air flow, comprising a housing with a valve installed inside in the form of a leaf fixed on an axis (A.S. SU No. 1439363, F24F 13/08, 11/04, 11.23.88). The disadvantage of this device is the complexity of its execution.

A device for regulating air flow, comprising a housing with a valve installed inside in the form of a leaf fixed on an axis (A.S. SU No. 1260644, F24F 11/04, publ. 30.09.86. Bull. No. 36).

The disadvantages of this device are the significant material consumption and dimensions of the housing in height, which limits its use in buildings. So, in livestock buildings with mobile feed distribution, the height to the ceiling depends on the height of the feed distributor, and exhaust shafts are installed above the feed passages. This is justified by the fact that in winter there is condensation of steam in the exhaust shaft and water flows into the forage driveways, and not on animals. Therefore, it is impractical to install regulators with large dimensions in height on exhaust ventilation systems. The use of a multi-section device reduces overall height, but complicates the design, increases material consumption and reduces the quality of regulation.

The closest in technical essence is a device for regulating air flow, comprising a housing with a valve mounted on the axis in the form of a leaf (patent RU No. 2277206 C1, F24F 13/08, 11/04, publ. 05.27.2006. Bull. No. 15) .

The disadvantage of this device is the low quality of regulation with a decrease in size, since with their decrease the area of the sash decreases, and accordingly the sensitivity of the regulator decreases. In natural ventilation systems, the sensitivity threshold of the regulator does not exceed 5 Pa. Moreover, it should not depend on the size. All this leads to a decrease in the scope of the device.

The technical essence of the present invention is to simplify the design of the device, improving the quality of air flow regulation and expanding the scope of its application on existing exhaust shafts without making changes to their design.

The present technical essence is achieved by the fact that in the device for regulating the air flow comprising a vertically placed duct housing with an end hole in the lower part and a valve installed therein with a mechanism for returning it to its initial position, the valve is made in the form of a petal diaphragm, the petals of which are fixed at one end to the duct housing with the possibility of rotation relative to the axis of attachment, have two surfaces intersecting at an angle to each other, the upper of which lies in a horizontal plane speed and perforated. The return mechanism is made in the form of a spring of a heat-sensitive material that changes its stiffness, one end of which is attached to the duct housing, and the other to the diaphragm blade.

The drawing shows a diagram of the device.

The device for controlling the air flow rate comprises a vertically placed duct housing 1 with an end hole 2 (for example, the lower base of the exhaust shaft), in the lower part of which are mounted on hinges 3 made in the form of a diaphragm consisting of petals having two intersecting at an angle to each other each other surfaces 4 and 5, the upper 4 of which lies in the horizontal plane and has a perforation 6. The hinges 3 are mounted on the axes 7, mounted on the housing 1, and contain mechanisms for returning the petals to the initial position, p They are a spring 8 made of a thermosensitive material, one end attached to the housing 1 of the duct, and the other to the diaphragm blade.

A device for controlling air flow is as follows.

In the absence of a pressure differential between the input and output of the regulator, the petals by the springs 8 are withdrawn from the regulator body 1 and the live section of the regulator body is maximum, i.e. the lower base of the exhaust shaft, which is the end hole 2, is fully open. In the presence of a pressure differential between the input and output of the regulator, air movement also appears in the cavity of the housing 1, as well as a pressure differential along the lower faces 5 of the surface of the petals. The petals on the hinges 3, overcoming the counteraction of the springs 8, rotate on the axes 7, reducing the living section of the regulator body by converging surfaces 4, i.e. the end hole 2 of the duct is proportional to the increase in pressure drop in accordance with a given law and a control range, which provides air flow control. The control range is set by the initial adjustment of the spring stiffness 8. The regulation law is determined by both the characteristic of the spring and the perforation 6 on the horizontal surface 4 of the blade. This takes into account the stiffness of the springs 8, determined by the properties of the material. When the temperature of the air in the building changes, the springs 8 change their characteristics, adjusting the air flow depending on the change in air temperature in the building. The sensitivity threshold is set by surface area 5.

Claims (3)

1. A device for regulating air flow, comprising a vertically placed duct housing with an end hole in the lower part and a valve installed therein with a mechanism for returning it to its initial position, characterized in that the valve is made in the form of a flap diaphragm, the petals of which are attached to the body at one end air ducts with the possibility of rotation relative to the axis of attachment, have two surfaces intersecting at an angle to each other, the upper of which lies in a horizontal plane and is perforated. 2. The device according to claim 1, characterized in that the return mechanism is made in the form of a spring, one end of which is attached to the duct housing, and the second to the diaphragm blade. 3. The device according to claim 1, characterized in that the springs are made of heat-sensitive material having the ability to change its stiffness.