DE3402117C2 - - Google Patents

Description

The invention relates to a pressure regulator according to the Genus of the main claim. Such a known one Pressure regulator is only suitable for a 2- or 3-way circuit so that its usability is very limited is. The permanent magnet can be in the passage chamber swing, so that the setpoint changes during the through flow of the pressure medium can change.

From DE-OS 31 09 560 a solenoid valve is known in which the Magnetic coil through a magnetic field with a permanent magnet in effect connection stands. By superimposing the magnetic circuit of the permanent magnets and the solenoid will have a low driving power of the electromagnetic circuit. By appropriate weakening or reinforcement of the magnetic circuit of the permanent magnet Control characteristic of the valve influenced in the desired manner. Devices for damping the vibrations of the closing body or of a spool are not available.

Furthermore, from DE-OS 31 44 362 is a magnetically actuated control member known in which an electromagnet with the help of an anchor attached plunger operated a spool. To on the spool To dampen vibrations that occur is the inside the housing of the electromagnet, in which the armature and the Coils are connected to the return via a hole, so that the housing is filled with pressure medium. This builds the Device but relatively expensive.

The invention has for its object to a pressure regulator create in which the vibrations of the spool by eddy currents can be dampened. This object is achieved by the in claim 1 marked features solved.

The pressure regulator according to the invention with the characteristics the features of the main claim compared to the prior art Advantage that it is simple and compact. The tax slide has a defined starting position. For the Permanent magnets do not require additional storage agile. Due to the electrically conductive layer damping the movement of the permanent magnet and of the control spool reached by eddy currents. There is an approximately proportional relationship between current and set target pressure possible  Lich. This setpoint pressure can also be constant be put. The pressure regulator is for special needs application possibilities suitable, in particular for ge precise control even of the smallest pressure medium flows.

By the measure listed in the subclaims These are advantageous further training and improvements possible against the features specified in the main claim.

drawing

An embodiment of the invention is in the drawing shown and in the description below explained in more detail. The only figure shows a longitudinal cut through a pressure regulator.

Description of the embodiment

In the housing 10 of an electro-hydraulic pressure regulator 11 , a soft magnetic coil body 12 is angeord net, the annular recess 13 receives a coil 14 . On the housing 10 , a valve housing 15 is attached, which has a central, continuous slide bore 16 . This is conventionally known to two control chambers 17 , 18 , both of which are formed as annular grooves. The Steuerkam elements 17 , 18 are connected via channels 19 , 20 , 21 extending transversely to the slide bore 16 to a hydraulic system, not shown, and cause an inflow or outflow of a hydraulic pressure medium. The slide bore 16 is connected on the side facing away from the housing 10 by a line 23 to the channel 21 leading to the consumer (not shown).

In the slide bore 16, a control slide is guided in a sliding non-magnetic material 24, which has a central annular groove 25 with control edges 26th At the housing 10 facing end of the control slide 24 a permanent magnet 27 is arranged which projects into a cylindrical recess 28 . This connects to the recess 13 of the coil body 12 . The recess 28 is in the area in which the Permanentma gnet 27 is guided with an electrically good conduct the layer 29 z. B. lined with copper. But it can also, for. B. a copper ring. In addition, the inner part 12 'of the bobbin 12 can have a copper sleeve. The permanent magnet 27 is magnetized axially. Advantageously, the permanent magnet 27 is made of a rare earth-cobalt alloy.

If the coil 14 of the pressure regulator 11 is excited, a magnetic field is generated in the coil 14 , which has the same pole as the permanent magnet 27 . The water together with the control slide 24 are thereby moved away from the housing 10 . Depending on the size of the magnetic field generated, a certain force is exerted on the control slide 24 , that is, a certain target pressure is set. Via the line 23, the actual regulating pressure also acts on the control slide 24 . Set target pressure and actual control pressure are thus continuously compared. If the control pressure exceeds the set pressure, the spool 24 is pushed against the force of the magnetic field until the control pressure has reached the desired set pressure again. Pressure medium can flow out through the channel 19 .

If the coil 14 is no longer energized, the Perma is nentmagnet 27 attracted by the soft-magnetic bobbin 12, and thus the spool valve 24 is returned to its off gear position Probable by the pressure of mean flow-induced vibrations of the slide and of the permanent magnet 27 are by induced eddy currents in the copper layer 29 , in particular in the recess 28 , effectively damped. An approximately proportional relationship between the current applied and the setpoint pressure to be set is achieved, after which a so-called minimum current has been overcome. This is necessary in order to push the permanent magnet 27 away from the coil body 12 . Since the spool valve 24 and the by manentmagnet 27 are fixed to each other, no extra storage is not manoeuvrable for the permanent magnet 27th

The pressure regulator according to the invention is particularly suitable to adjust the pressure at an electronic transmission control of a motor vehicle. It ver it goes without saying that he uses these applications is by no means restricted, but rather everywhere can be used where there is a hydraulic pressure regulate is.

Claims (5)

1. Pressure regulator, in particular for electronic transmission control, with a housing ( 10 ), a magnetic coil ( 14 ) arranged therein with a ferromagnetic coil body ( 12 ) and a permanent magnet which is in operative connection with the magnetic coil ( 14 ) via a magnetic field, characterized in that on the permanent magnet ( 27 ) a control slide ( 24 ) slidably guided in the slide bore ( 16 ) is arranged, on which the control pressure generated by the pressure regulator ( 11 ) acts against the magnetic force, and that in a spatial area ( 28 ), in which the permanent magnet ( 27 ) moves, an electrically highly conductive layer ( 29 ) is arranged for eddy current damping of the vibrations of the control slide ( 24 ). 2. Pressure regulator according to claim 1, characterized in that the electrically highly conductive layer ( 29 ) is additionally formed on the coil body ( 12 ) at least in the areas in which the magnetic field lines of the permanent magnet ( 27 ) are a substantially horizontal component to the coil body surface to have. 3. Pressure regulator according to claim 1 or 2, characterized in that the permanent magnet ( 27 ) consists of a rare earth-cobalt alloy. 4. Pressure regulator according to one of claims 1 to 3, characterized in that the control slide ( 24 ) consists of non-magnetic material. 5. Pressure regulator according to one of claims 1 to 4, characterized in that the electrically highly conductive layer ( 29 ) consists of copper.