DE523647C - Control of valves with back pressure chamber and auxiliary valve - Google Patents

Description

Electrically controlled water valves are known. They are called normal spindle taps formed and opened and closed by an electric motor. Such arrangements offer considerable benefits in terms of execution Difficulties, since the engine has to be stopped exactly when the valve closes and also has to be reversed. at If there is no current, the valve does not close automatically.

On the other hand, valves with counter pressure chambers offer which are controlled by an auxiliary valve, great advantages. At least surrendered for these valves too

Difficulties as the water pressure in the pipes usually fluctuates. Wanted to in such cases the smallest actually occurring water pressure must be taken into account take, the counter-pressure chamber must be dimensioned with a correspondingly large pressure area which results in uneconomical dimensions of the valve.

The invention overcomes these difficulties when controlling valves with a back pressure chamber and auxiliary valve which the auxiliary valve is connected to the movable '!' part of an electromagnet and is initially opened by this. According to the invention, the lifting height of the Magnets only partially used, then the main valve is coupled to the moving part and using the residual stroke of the magnet and under the influence of the now acting counter pressure increased.

The drive electromagnet is expediently in a special housing underneath of the valve housing and the passage point of the valve spindle through the magnet housing is covered by a drain plate connected to the spindle. .

The drawings show the subject matter of the invention in an exemplary embodiment, namely Fig. 1 shows a longitudinal section through the valve along the line AB, specifically in the closed position, and Fig. 2 shows the valve in an end view in the closed position, Fig. 3 shows the valve according to Fig. 1 during the opening process.

The control device is connected to the valve 1, for example at the bottom, namely the valve rod 2 is first passed through and enters a box 3 in which the electromagnet 4 is stored in oil. The lower part 5 ^{e of} the magnet core 5 is movable and is coupled to the valve rod 2 by any bypass linkage 6. Furthermore, a switching device 7 is connected to the bypass linkage and to the core 5 ^ß , which actuates one or more switches simultaneously in any design. It consists of the rod 7, the springs 8 with the switching contacts 9 and the mating contacts 11 attached to a bridge 10 mounted in any way.

The valve rod 2 is now not directly connected to the valve disk, but rather the valve disk 12 is pierced (12 ") and

formed into a small valve seat at the point 13, which is closed directly by the valve rod 2 by a small valve disk 14. The bore I2 ^{a of} the valve disk 12 is so large that, in addition to the valve rod 2, a certain amount of liquid can also pass through. The interior of the cylinder-shaped valve disk has a small access hole 15 from the main liquid flow to the interior of the valve disk.

Furthermore, the valve rod carries a cap 16, which is used in the example Electromagnet housing 3 located below the valve before the ingress of To protect liquid through the passage opening for the valve rod 2. To this Cap ιό then presses the force at the same time a spring 17 which is intended to keep the valve closed. The mode of action of the valve is now as follows:

If the valve is to be opened, the circuit for the electromagnet 4 is closed, and the valve rod 2 will immediately lift while overcoming the spring force 17, whereby initially (see Fig. 3) the small pilot valve 14 is opened and from its seat 13 is lifted. Characterized the water located behind the cylindrical valve plate 12 will flow through the bore 12 "of the valve disc on the valve stem 2, and can through the opening 15, since the same is made smaller in cross section than the free annular space of the bore I2 ^a of the \ ^r entiltellers 12, not as much liquid flows in as flows out, so there will be a vacuum above the valve disk. At the same time, however, the valve rod will now be raised so high that the pin 18 passing through it is now able to lift the actual valve 2, which is lifted by The resulting vacuum is further facilitated and is further supported by the pressure of the penetrating water after it has been raised.Simultaneously with the raising of the valve, switches 7 to 11 are also closed, so that special circuits, other working machines, which with the valve opening

are related, without difficulties and secondary contacts and auxiliary lines can be put into operation. This JTaIl occurs, for example, with the cooling water circulation for refrigeration machines, which are useful during the closing of "des Valve cuts off the circulation of the cooling water and also the compressor of the chillers shut down, i.e. the electric motors for these two parts are switched off. These operations will do the solenoid operated valve easily.

If you want to close the valve again, you only need the electromagnet turn off; the force of the spring 17 overcomes the pressure of the water and closes first the pre-valve and then the main valve and then at the same time triggers the switch 7 bis 11 off.

Instead of the stuffing box 19, the valve can be provided with a metal membrane which takes over the sealing and has the great advantage for the \ ~ entilstange "and to be a constant load for the magnet and not like that can be tightened so that the magnet no longer provides the lifting force, as it is with Stuffing boxes is easily possible.

Claims (2)

Patent claims: ι. Control of \ ^T entilen with counter pressure chamber and auxiliary valve, in which the auxiliary valve is connected to the movable part "of an electromagnet and is initially opened by this, characterized in that the lifting height of the magnet is only partially used and that the main valve is then used is tilted with the moving organ and is raised using the residual stroke of the magnet and under the influence of the counter pressure that is now acting. 2. Controller according to claim 1, characterized in that the drive electromagnet housed in a - special housing below the valve housing and the passage point of the valve spindle through the magnet housing through io, a drain plate connected to the spindle is covered. For this 1 sheet of drawings