DE3312054A1 - Reversing valve controlling the through-flow of a pressure medium - Google Patents

Abstract

Due to different diameters (D, d, s) of the valve seats (14 and 15) and the valve stem (5), the pressure medium produces at the valve body (4) a force which is used as a drive for actuating the valve. The control device (16) can therefore be reduced to a simple holder (only acting passively) without external drive. This holder is released by an electric impulse signal (24, 25). Therefore the signal energy produced and transported in electronic control systems is sufficient for the valve actuation without the necessity of additional drives. <IMAGE>

Description

Switching valve controlling the flow of a pressure medium

valve The invention relates to the flow of a pressure medium controlling changeover valve, the valve body of which is attached to a shaft, controlled by a control device, from one stable end position to a second stable end position, where he is in both end positions of the control device each held a valve seat and loaded at least on one side by the pressure medium is.

Changeover valves of the type mentioned are known (DE-A1-31 19 049); they are so far designed that the control device for the actuation of the Valve has an active, external drive through which the movement the valve body necessary energy is supplied. For such drives are generally pneumatic, hydraulic or electromagnetic systems, e.g. Lifting magnets, used.

Are the control signals by which a movement of the valve in the is triggered in one direction or the other, generated by electronic means, so the energy of the electronic system is generally insufficient to generate the Ensure valve movements. It is therefore necessary to add the mentioned additional Provide control drives and the electronic control means only to the Triggering these drives to use. Due to the need to have active drives for To provide the valves, such control systems require a significant amount Effort and are prone to failure.

The invention is therefore based on the object of a - electronically - To create controlled switching valve of the type mentioned, for which no additional external drive is required.- This task is carried out with the present Invention achieved in that the seat diameter of the valve seat on the Valve stem facing side larger and that of the valve seat on the from The valve stem facing away from the valve stem are smaller than the stem diameter.

This occurs in each of the two end positions on the valve body of the to be controlled pressure medium caused, resulting forces that the valve actuate from the respective end position in the desired direction. It will the necessary kinetic energy is withdrawn from the print medium itself, which is very common is under a high pressure of, for example, 1000 bar. An additional outer one In this way, the drive for the valve can be dispensed with. The control device therefore only has the task of holding the valve in each of the two end positions, thus becomes a passive holding element that is no longer responsible for the movement of the valve "must come up".

The holding effected by the control device can advantageously take place directly on the valve or its stem, if a simple structure The aim is a construction that also enables relatively short switching times; a direct bracket is therefore available especially for small, fast ones Valves suitable.

If relatively large valve forces have to be controlled, it is advisable to the control device indirectly via a lock on the valve body or to let his shaft work. This indirect bracket is therefore mainly used for large valves used that are moved relatively slowly.

In the following, the invention is explained in more detail with the aid of exemplary embodiments explained.

Fig. 1 shows a first embodiment in a longitudinal section through a valve the invention; Fig. 2 schematically gives an example of an indirect holder of the valve again with the help of a lock.

In a valve housing 1 (Fig. 1) is a feed channel 2 for a hydraulic Pressure medium provided, which is connected to a pressure medium source, not shown is. The channel 2 ends in a dome-like chamber 3, which is open and through at the bottom a plate-like valve body 4 is closed. This sits at the lower end a valve stem 5, which through a bore 6 upwards from the valve housing 1 protrudes. The diameter of the shaft 5, which is reduced in the area of the chamber 3 is denoted by s. Furthermore, the shaft 5 has a about halfway up second annular constriction 7, which has horizontal bores 8 with a longitudinal bore 9 is connected, which leads to the side of the valve body 4 facing away from the shaft 5. The flow path 7, 8, 9 is used to remove pressure medium leakage.

The valve body 4 is located in a trough-like recess 10 of a base 11 which is attached to the valve housing 1 from below. Of the Recess 10, a control channel 12 and a drain 13 go out. In control channel 12 the hydraulic pressure medium is a not shown, to be actuated organ, for example an injection and valve of an internal combustion engine, to / from this returned again, it being through the drain 13 to a collecting device, not shown drains.

The valve body 4 opens or closes the flow path on the one hand from the chamber 3 to the flow channel 12, wherein it rests on a valve seat 14, the diameter of which corresponds to that of the chamber 3 and is denoted by D. On the other hand, it closes or opens in cooperation with a valve seat 15 the outflow of the pressure medium from the control channel 12 into the always pressureless drain 13; the diameter of this valve seat 15 is d.

Because of the different diameters D and S acts in the upper Position of the valve body 4 in which the valve seat 14 rests, a resulting Downward force, which is the product of the pressure medium pressure with the annular surface FD - F corresponds, where FD is the cross-sectional area of the valve seat 14 and F is the cross-sectional area 5 of the valve stem 5 are.

Conversely, the valve is driven when the valve body rests on it 4 on the valve seat 15 by a resulting force, which is the pressure medium pressure multiplied by the ring area F - F d corresponds to (Fd = cross-sectional area of the valve seat 15). In both directions of movement e follows a Damping of the movement of the valve body 4 by the counterforce of the hydraulic Pressure medium automatically when approaching the valve seats 14 or

15th

The actuation of the valve driven by the pressure medium is controlled by a magnet arrangement 16, which is in its own housing 17 on the valve housing 1 is housed. It consists of two permanent magnets 18, 19, whose magnetic Force fields through annular cores or pole pieces 20, 21 and 26, 27 except for one Air gap 22 are closed. In this air gap 22 is a movable armature 23 is provided, the end of the valve stem protruding from the valve housing 1 5 is attached. The armature 23 is in an upper position from the magnet 18 and in a lower position of the magnet 9 against the described, resulting Forces held on the valve body 4.

Coils housed in the annular cores 20, 21 and 26, 27 24 and 25 are connected to a power source (not shown) in such a way that a Current flowing through them creates a magnetic field similar to that of the associated Permanent magnets 18 and 19 are directed in opposite directions. The field of the permanent magnet 18 or 19 is therefore weakened so far in the event of a current surge that the armature 23 is released and swings from one "held" position to the other. "The high magnetic flux, which is achieved with the help of permanent magnets 18 and 19, respectively can be, it allows a relatively large gap distance between the pole pieces 20, 21 or 26, 27 and the anchor 23 to be observed, whereby Manufacturing tolerances and thermal expansion differences can be compensated. The excitement of Coils 24 and 25 for generating a magnetic counter-flux and for temporary The effect of the permanent magnets 18 or 19 is neutralized for an extremely short period of time, so that there is practically no heating due to the sudden electrical current of the system takes place.

In the embodiment of FIG. 2, in which only the control device is sketched, the magnet assembly 16 is replaced by a mechanical lock. This consists of a tapered locking pin 30, which is also with conical locking surfaces 31 and 32 cooperate; these are on a disk 33 which is attached to the front end of the valve stem 5 at a distance is.

The locking pin 30 is part of an armature 37 of an electromagnet 36, which is housed in a separate housing arranged on the valve housing 1 is. In the event of a current surge through the coil 35 of the electromagnet 36, which is via lines 34 is connected to a power supply, not shown, the armature 33 of that generated by the current and essentially shaped by the core 38 Magnetic field attracted against the force of a spring 39, causing the locking pin 30 releases the valve stem 5. A vent on the housing 37 of the magnet 36 is denoted by 40.

Of course, the mechanical locking can also be used on other Way than done by a locking pin, provided that they do the required Has insensitivity to manufacturing tolerances and thermal expansion and - apart from the activated state of the release - always one against the "during operation standing "valve seat exerts acting force.

- blank page -

Claims (3)

Claims controlling the flow of a pressure medium Switching valve, the valve body of which is attached to a shaft, from a Control device controlled, from a stable end position to a second stable end position moves, whereby he is in both end positions of the control device on each one valve seat is held and loaded on at least one side by the pressure medium, characterized in that that the seat diameter (D) of the valve seat (14) corresponds to that of the valve stem (5) facing side is larger and that (d) of the valve seat (15) on that of the valve stem (5 on the opposite side are smaller than the shaft diameter (s). 2. Switching valve according to claim 1, characterized in that the Control device (16, 36) directly on the valve body (4) or its shaft (5) acts. 3. Switching valve according to claim 1, characterized in that the Control device (36) indirectly to the valve body via a lock (30-33) (4) or its shaft (5) acts.