NL1005833C1 - Output regulating valve fittable to suction apertures of mechanical ventilation system - Google Patents

Abstract

The valve (2) is located in a housing (1) and is rotatable around an axis (3) through or near its centre of gravity. The air through passage aperture of the valve is determined by the position of the valve in the housing. The valve is partially screened from the longitudinally flowing air. On the valve, as the result of the pressure drop over it and dependent upon its position, a torque is effective. When a specific pressure drop over the valve is exceeded, the valve is rotated in the most closed state. The angle of the valve is limited by means of two adjustable cams fixed to the valve housing. A spring provides the force with which the valve, with reducing pressure drop rotates openly in the most opened state (4). The sensitivity of the valve is adjusted by the position of the weight fixed to it (6).

Description

- 1 -

Two-position self-regulating flow control valve for a ventilation system.

The invention is applicable to the exhaust openings of a central mechanical ventilation system. In such a system, polluted air is extracted through a duct connected to various rooms of the house by means of a fan incorporated in that air duct. The branches of the air duct, which end up in the various rooms, are usually equipped with a so-called air valve. The need for 10 ventilation capacity differs per room and can be adjusted by choosing the air vents of the air valves larger or smaller.

In a kitchen there is usually a two- or three-position switch, with which the capacity of a central fan, for example during the preparation of meals, can be increased. However, when the central fan is switched to a higher position, not only more air is extracted from the kitchen, but also more air is extracted from all other rooms connected to the central system. This means that only part of the extra fan capacity is used to extract the polluted air from the kitchen.

The invention ensures that the extraction capacity in the kitchen improves. To this end, the invention must be applied to the exhaust openings of all rooms connected to the central system, with the exception of the kitchen. The invention limits the amount of air extracted from the other rooms by automatically limiting the air passage opening as soon as the central fan is switched to a higher position by turning in the least permeable position. As a result, the extraction capacity through the extraction opening in the kitchen, to which a fanless extractor hood is or is not connected, can be considerably improved.

When the ventilation capacity in a room connected to a central system, for example a kitchen, needs to be improved, there are three options: 1005833 2 1. A flow regulator is installed in all extraction openings in the house, with the exception of the kitchen, which constantly extracts the extracted flow regardless of the pressure drop. This solution is known from the 5 patents EP0634613, NL9102132, EP0078972, EP0503722 and has the drawback that the sensitivity to contamination is high. In addition, a different design is required for each desired volume flow rate, so that both the installation costs and the production costs are relatively high.

2. A separate duct is installed from the kitchen, usually from an io extractor hood with built-in fan, to the outside wall. The fan in the hood now provides the extraction capacity. A disadvantage of this solution is that it involves expensive architectural modifications and, moreover, the fan placed in the kitchen itself is a nuisance noise source.

15 3. The central fan is replaced by a fan with a larger capacity. The disadvantage of this is that this fan is more expensive and moreover costs extra energy, because not only the ventilation capacity in the kitchen increases, but also the ventilation capacity in the other rooms of the house where there is no need for additional ventilation capacity at that time.

The invention is explained with reference to Figure 1, in which the cross-section is given.

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The invention consists of a valve housing (1) which is slid into a channel of a ventilation system and clamped therein. The valve body contains a valve (2) that can rotate about its (imaginary) axis (3) and has two adjustable discrete opening positions. In the normal position 30 of the ventilation system (continuous operation), the flap is in the most open position (4), which is set depending on the extraction requirement per room. When the central fan is switched to the high position, the valve turns to the second, most closed and also adjustable position (2). This happens under the influence of the increased pressure drop over one half of the valve.

1005833 3

The other half of the valve is shielded from the airflow (5). As soon as the fan is switched back to normal position, the valve opens to the most open position (4).

5 The sensitivity of the valve is adjusted by varying the position of the weight attached to the valve (6). The positioning of the weight on the valve ensures that the opening moment in the most closed position is relatively small because the arm, under which the weight acts, is small in that position. However, in the closed position this opening moment is relatively large, so that the valve falls relatively easily when the pressure drops.

When the weight is (partly) made of hygroscopic material, the opening moment depends on the humidity of the room in which the flow control valve is located. Depending on the dimensioning, the valve can hereby remain in the openest position even with an increased pressure drop.

The fact that the valve rotates back and forth between two discrete positions, and not as with a constant volume control (infinite), must be able to assume many intermediate positions, makes the valve considerably less sensitive to pollution and other disturbances. Moreover, since the valve rotates against a cam in both positions, no provisions are required to damp the valve movement, as is the case if the valve must be able to assume intermediate positions.

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It will be clear that the description and the figure relate to one possible embodiment of the principles of the invention.

1005833

Claims (10)

1. Flow control valve, applicable to the exhaust vents of a mechanical ventilation system, characterized in that the valve has two positions with a different air passage and that, depending on the pressure drop across the valve, the valve automatically assumes one or the other discrete position . 2. Flow control valve according to claim 1, consisting of a valve located in an valve body, which is rotatable about an (imaginary) axis through or near the center of gravity of the valve and wherein the air passage of the valve is determined by the position of the valve in the valve body. 3. Flow control valve according to claim 2, wherein the valve is partially shielded from the air flowing past, as a result of which the valve acts for a moment as a result of the pressure drop over the valve and depending on the position of the valve, so that the valve when a certain pressure drop across the valve is exceeded, the valve is turned to the most closed position. Flow control valve according to claim 3, wherein the two positions of the valve are determined by limiting the angle over which the valve is rotatable. Flow control valve according to claim 4, wherein the angle is limited by two adjustable cams attached to the valve body. 6. Flow control valve according to claim 4 or 5, wherein a spring provides the force with which the valve opens in the most open position when the pressure drop decreases. Flow control valve according to claim 4 or 5, wherein the valve opens under the influence of gravity with decreasing pressure drop into the most open position. Flow control valve according to claim 7, wherein the pressure drops at which the tilt changes position are adjustable by the position of a weight relative to the valve, and thereby the location of the center of gravity of the valve relative to the pivot point. modify. 1005833 Flow control valve according to claim 8, wherein the weight is made of hygroscopic material, increasing the opening torque when the valve is in a humid environment. 10. Flow control valve according to one of claims 1 to 9, which can be used both horizontally (ceiling) and vertically (walls). 1005833