NL1038436C2 - MECHANICAL INSTALLATION FOR REGULATING THE RESULT OF RECOVERY VALVES IN LIQUID FLOWS. - Google Patents

Description

MECHANICAL INSTALLATION FOR REGULATING THE RESULT OF FLOW VALVES IN LIQUID FLOWS

Mechanical installation mounted on or in combination with a non-return valve of the type that allows flow of water or other liquid through a recess in a wall only in one direction, for the purpose of regulating the stroke of the valve. The purpose of regulating the movement is to guarantee the functioning of the non-return valve and to reduce the flow or to stop it completely when the liquid level on the discharge side is increased.

10 explanation

Non-return valves of the type that are mounted on the wall of a reservoir or in an intermediate wall in a pipe are available in many designs. The aim is to prevent water or other liquid from flowing back when the liquid level, or water pressure, on the drain side is increased. In sewerage - for example - non-return valves are often used to prevent waste water from flowing into the relatively cleaner rainwater sewer, or to prevent surface water from flowing back into sewage systems when the water level rises.

However, it regularly happens that non-return valves are not sufficiently shut-off and that, as a result, the return flow is not sufficiently impeded. Causes for this can be flow phenomena along the valve, wear or failure of the closing mechanism. One of the aims of the invention is to provide more certainty for this.

A second object of the invention relates to automatic and mechanical braking of the flow along a non-return valve, without added energy and / or control. A common application of non-return valves in sewers is the separation between rainwater system and waste water system. If the supply from the rainwater system to the waste water system can lead to nuisance, there is a need for the supply to be braked or stopped completely. However: as long as the level in the rainwater system is higher than that in the waste water system, the normal limitless non-return valve will allow water to pass through the law of 30 communicating vessels.

There are various automatic working mechanical solutions to limit the flow rate of liquids through a wall or other opening, inter alia float-controlled float-controlled sliders, automatically adjusting diaphragms, vortex valves, etc .; in this case, however, a combination with non-return valve is always required to prevent backflow at the same or higher liquid level on the discharge side. In existing configurations, however, it is often difficult and / or expensive to achieve the intended regulation. The invention offers an easy-to-apply solution for existing situations, with which it can be avoided that large costs have to be incurred for the production and installation of new wells.

Description of the invention

The invention consists of a hinged badding between a support point and the non-return valve, which is brought into position by a float and a mechanical transmission and which deflection of the non-return valve is limited, and which, if desired, can fully close the non-return valve with sufficient force to drive the propulsion. to resist behind the check valve.

Because the badding consists of two (or more) hinged parts which form an angle approaching or ultimately equal to 180 degrees (of a circle of 360 degrees), a large pressure of the liquid column on the inflow side of the inflow side can be applied with relatively little force. non-return valve.

technical description

The mechanical installation for limiting the stroke or opening of a non-return valve according to the invention can for instance have the following embodiment, see figure 1: the non-return valve (1) is connected with a movable coupling to one of the two parts of the hinged badding (2), the second part of which is provided with a slotted hole (3); in the slot hole the hinged connection (4) can slide between the two badding parts, so that when the float (5) rises due to the rising liquid level, the angle between the badding parts can become increasingly larger; the second part of the badding is hinged to the mounting beam (8); an auxiliary float (6), hinged at its own hinge point (7), ensures that the badding is pushed in the right direction when the water level is raised.

The different phases during operation are shown in figures 1 to 25 with: figure 1: rest position of the non-return valve, the liquid level on the receiving side is low; figure 2: when the liquid level on the supply side is increased, free outflow can take place through the free travel of the valve; Figure 3: when the liquid level rises on the receiving side, the badding is pressed by the float floating in the liquid in a limiting position, the non-return valve can no longer fully open; figure 4: the rising liquid level on the receiving side has pushed the float further upwards; as a result, the badding is in the extreme position, with the greatest possible angle between the hinged parts, approaching up to 180 °, pushed upwards by which the non-return valve is kept closed with greater pressure.

1038436

Claims (4)

A mechanical installation for regulating the stroke of non-return valves in a liquid flow, characterized in that a badding composed of two mutually hinged parts between a support point and the non-return valve is adjusted in position by a float and a mechanical transmission, so that the parts the longer the liquid level pushes the float further upwards, so that the running badding reduces the deflection of the non-return valve, the force that the badding can withstand increases as the parts are aligned more, and the badding the clearance space of the non-return valve increases as the liquid level and thus the float drops, so that the angle between the hinged badding parts is reduced. 2. Mechanical installation for regulating the stroke of non-return valves in a liquid flow as in claim 1, characterized in that the badding consists of more than two mutually hinged parts whose mutual angles are adjusted by one or more floats due to the action. 3. Mechanical installation for regulating the stroke of non-return valves in a fluid flow as in claims 1 and 2, characterized in that the badding is secured in a predetermined limiting position with a mechanical lock which is removed by a separately operating float whereby the non-return valve is released. Mechanical installation for regulating the stroke of non-return valves in a fluid flow as in claims 1, 2 and 3, characterized in that when the mutually hinged parts extend, the badding presses the non-return valve open instead of closing, so that when the flow rate rises liquid level and thus the float, the passage is increased. 1 03 8 4 3 6