NO127160B - - Google Patents

Description

Devices at float valve.

The present invention relates to a float valve to reduce variations in a liquid flow. The main purpose of the invention is to provide a float valve which can be used for regulating the supply of sewage water to an apparatus for the biological purification of such sewage water. The supply of such sewage varies greatly, and it is desirable that the sewage flows in an even current through the cleaning device. Another object of the invention is to provide a float valve which contains a minimum of moving parts and which functions satisfactorily in a liquid containing solid and semi-solid contaminants, which is often the case with sewage water. A further object of the invention is to provide a float valve which under normal conditions produces a steady flow of liquid and which, when the supply of liquid is abnormally high, opens completely to allow a maximum of liquid to pass through the valve.

The float valve according to the invention is of the type where one float is connected to the valve body of the valve in order to regulate the level of the valve body in relation to the inlet opening depending on the liquid level, and the float valve according to the invention is characterized by the fact that the valve body is tapered upwards and has the shape of a double valve which has an upper conical part which thus tapers upwards and a lower conical part which tapers downwards, which valve body extends through the inlet opening of the valve, the widest part of the valve body being narrower than the inlet opening to enable the entire valve body to pass through the inlet opening.

The invention will now be described with reference to the accompanying drawing. The float valve illustrated in the drawing is mounted on a vertical wall 12 which forms a partition between two separated chambers, namely a first chamber 9 and a second chamber 10. Both chambers contain sewage water supplied to the chamber 9 by

no means shown. The water surface in the chamber 9 varies between a highest level 13 and a lowest level 14. The chamber 10 represents a cleaning apparatus, of which no details are shown, as this apparatus does not form any part of the invention. It is desirable that the sewage should flow through the device in a steady stream and have the surface at level 15.

The valve contains a vertical pipe 1 situated in the divided chamber 9 and whose lower end projects below the lowest water level 14 and /zSvre end projects above the highest water level 13. A branch pipe 11 extends horizontally from the vertical pipe 1 through an opening in the wall 12 into the divided chamber 10. The lower wall of the branch pipe 11 delimits the desired water level 15 in the chamber 10. The lower end of the vertical pipe 1 has a flange 5 which extends inwards and constitutes a narrower part which delimits the inlet opening 8 for the water in the chamber 9 into the pipe 1. A valve body with the general shape of a double cone extends through the inlet opening 8. The valve body 2 has an upper conical part 2a which tapers upwards, and a lower conical part 2b which tapers downwards.

The widest part of the valve body 2 is narrower than the inlet opening 8, so that the entire valve body 2 can easily pass up and down through the inlet opening. 8. This widest part of the valve body 2 should preferably be located near the lower end of the valve body, preferably at a distance from the lower end of 1/5-1/10 of the valve body's total length.

The lower end of the valve body 2 is attached to the lower end of a rod V which extends on the outside of and is parallel to the vertical pipe 1. The upper end of the rod 4 is attached to a float 5 which floats on the water in the chamber -9. The upper end of the valve body 2 is attached to a rod 16 which extends through a guide part 17 which holds the rod in a vertical position and coaxial with the pipe 1.

The illustrated valve functions as follows. A low water level in the chamber 9 results in a low position of the valve body 2, whereby the top of the valve body 2 is lower than the inlet opening 8. Consequently, the water in the chamber 9 can flow through the entire opening 8 to the chamber 10. If the water level in the chamber 9 rises, will also raise the valve body and reduce the free area of the inlet opening 8. In other words: When the difference in the water level between the chambers 9 and 10 increases, the free area of the inlet opening 8 decreases, and this results in the flow rate from the chamber 9 to the chamber 10 becoming approximately constant. In the position shown in the drawing, the valve body 2 has reduced the free area of the inlet opening 8 to approximately a minimum. If the water level in the chamber 9 continues to rise, the widest part of the valve body 2 will come to a position that is higher than the inlet opening 8, which results in an increase in the free area of the inlet opening and also in an increase in the flow rate from the chamber 9 to the chamber 10. The capacity of the treatment apparatus is not sufficient for this increased flow rate of sewage water, but such an abnormally increased flow is usually of short duration. It is therefore preferred to let the purification device operate with reduced power for such short periods instead of building larger devices that have a capacity sufficient for maximum supply of sewage water.

The entire amount of sewage must pass through the inlet opening 8. This inlet opening is permanently located below the water surface. Accordingly, no water will pass from the chamber 9 to the chamber 10 via an overflow. Absence of such overflow results in the stated advantage that sludge and dirt floating on the surface of the sewage in the chamber 9 cannot enter the chamber 10.

Claims (2)

1. Float valve to reduce the variations in a liquid flow, of the kind where a float is connected to the valve body of the valve to regulate the level of the valve body in relation to the inlet opening depending on the liquid level, characterized in that the valve body (2) is upwardly tapered and has the shape of a double cone which has an upper conical part (2a) which thus tapers upwards and a lower conical part (2b) which tapers downwards, which valve body (2) extends through the inlet opening (8) of the valve, as the valve body (2) widest part is narrower than the inlet opening to enable the entire valve body to pass through the inlet opening. 2. Valve as specified in claim 1, characterized in that the valve body (2) has its widest part near its lower end.