DE3337652C2 - - Google Patents

Description

The invention relates to a solenoid valve with the Oberbe handle of claim 1 specified features.

With such a directional valve (see. DE-OS 28 26 973) for example the pressure medium control between one Pressure medium source and a consumer connection or zwi possible between the consumer connection and the tank. Such Solenoid valves are susceptible to contamination in the Pressure medium are carried. As far as ferromag is concerned netic particles such as those originating from iron Abrasion particles, these can be on the anchor of the mag Apply netvalves so that they ver stuck and the valve can no longer be switched. This is also the case with another known valve (DE-AS 11 04 783) the case in which the anchor as a pin Valve bodies is formed at both ends, so that the Anchor space is flowed through by the working fluid and dirty is at risk.

It is also known (DE-OS 28 30 332) at both ends to store a magnet armature attached extensions. Here one extension serves as a plunger for an attached valve and the other extension as a spring plate. The cross section of the Processes are different.

The object underlying the invention is therefore in training a solenoid valve of the type described that it is against the entry of foreign particles in the stream is largely sealed and that between the Housing bore and the moving parts of the valve so much scope is provided that the interference-free radio tion of the solenoid valve is secured for a long time.

The stated object is according to the invention in Features specified claim 1 solved.

By forming the ends of the sleeve as a control piston there are bearing points for guiding the sleeve over which at best fluid, but no foreign particles and Contamination in the space between the bearings can occur in which the anchor is housed. The Anchor is therefore against access by ferromag in particular Protected against net contaminants. The pollution level driving is also reduced because with the choice of the same Diameter of the bearing points from the anchor in both switches direction displaced volume in the anchor space is the same size. The volume displaced from one anchor side is found corresponding space in front of the other side, so that no Outflow and thus no inflow into the anchor space can.

Between the housing and the anchor in the area between the Bearing points are provided such a large space that the unhindered movement of the moving parts is always possible and also pressure equalization of that displaced by the anchor Fluid can be done.

Advantageous developments of the invention are in the Subclaims marked.

With the features listed in claim 2 is secure represents that a flow path is only opened when the other flow path is closed. So that remains Advantage of the slide principle for the valve despite Vereini preservation of valve and solenoid part.

By sitting loosely on the sleeve according to claim 3 Anchors are also inexpensive to manufacture without endanger functional safety.

The inventive design of the solenoid valve enables the arrangement of the housing with those mentioned in claim 4 Characteristics.  

An embodiment of the invention is as follows explained with reference to the single figure of the drawing, in which represented an axial section through a solenoid valve is.

A sleeve 12 is slidably disposed in an axial housing bore 10 of the valve housing 11 . One end of the housing bore is closed with a screw plug 14 , while the opposite end is open and serves as a housing connection, which is connected to a consumer, not shown.

First channels 16 , 16 'and second channels 18 , 18 ' are arranged ra dial in the housing 11 and open into the housing bore 10th The ends of the sleeve 12 serve as control edges, which cooperate with the channels 16 and 18 , respectively. Thus, a close sliding fit between the sleeve 12 and the housing bore 10 is provided in the region of the radially opening channels 16 and 18 in order to keep the leakage oil flow as low as possible when the channels 16 or 18 are covered by the sleeve 12 . These sections of the housing bore thus serve as bearing points 20 , 22 for the sleeve 12 .

In the section between the bearing points 20 and 22 there is a tubular armature 24 and a spring 25. The sleeve 12 has a stop 26 . The armature 24 is loosely displaceable on the sleeve 12 . The arranged in the Ge magnetic coil 28 surrounds the armature 24th

In the switching position shown, the sleeve 12 is moved from the support to a housing stop 29 and the stop 26 of the sleeve supporting spring 25 in the drawing to the right, the armature 24 being carried along until it abuts the housing stop 30 .

In this position, the housing connection 15 connected to the consumer is connected to the channel 18, which is connected to a pressure medium source. To switch to the other switching position, the solenoid 28 is excited, the armature 24 moves to the left and presses the spring 25 together via the stop 26 until the armature 24 reaches the housing stop 31 . In this switching position, the channel 18 is closed by the sleeve 12 , and the fluid path from the working connection 15 via the sleeve in the first channel 16 is open.

Between the ends of the sleeve 12 serving as the control piston, that is to say in the section of the housing bore between the bearings 20 and 22 , the housing bore is at a sufficient distance from the sleeve or the armature in order to allow the armature 24 to flow freely back and forth to allow displaced fluid when switching the solenoid valve. The section between the bearing points 20 and 22 of the housing bore is protected against the entry of contaminants and foreign particles, in particular ferro-magnetic particles carried in the fluid, which would attach to the armature 24 until it becomes motionless over time.

The valve housing 11 consists of a pot-shaped housing seteil 33 , in which, after the valve parts have been assembled, the closure part 34 is inserted, which is fastened by flanging the edge 35 of the pot-like housing part.

Claims (4)

1. solenoid valve with a displaceable in a housing bore armature, which is arranged on a sleeve extended on both sides of the armature and can be switched by a spring and the solenoid in two switching positions, wherein in the first switching position from one end of the sleeve a first flow path between one shut off the first channel and the bore of the sleeve connected to a housing connection and a second flow path between a second channel and the housing connection is opened from the other end of the sleeve, while in the second switching position the first flow path is open and the second flow path is closed, thereby characterized in that the housing bore ( 10 ) at both ends of the sleeve ( 12 ) is designed as a bearing point ( 20 , 22 ) for the sleeve ( 12 ) and the armature ( 24 ) accommodating space between the bearing points of the sleeve through the bearing points ( 20 , 22 ) sealed against the entry of foreign bodies t is that the diameter of the sleeve ( 12 ) at both bearing points ( 20 , 22 ) is the same size and that the sleeve ( 12 ) cooperates at both ends with the radially opening first and second channel ( 16 , 18 ) like a piston. 2. Solenoid valve according to claim 1, characterized in that the length of the armature ( 24 ) projecting on both sides of the sleeve ( 12 ) with the radially opening channels ( 16 , 18 ) is matched so that when moving the sleeve one half of the stroke serves to close one channel and the second half of the stroke serves to open the other channel. 3. Solenoid valve according to claim 1 or 2, characterized in that the armature ( 24 ) loosely arranged on the sleeve ( 12 ) and a stop ( 26 ) is provided on the sleeve between the spring ( 25 ) and the armature, of which in the second switching position, the armature is taken along and pressed against a housing stop ( 30 ), while in the first switching position, when the solenoid coil ( 28 ) is excited, the armature ( 24 ) acts on the stop and compresses the spring. 4. Solenoid valve according to one of claims 1 to 3, characterized gekennzeichent that the housing of the solenoid valve consists of a bearing ( 20 ) having a pot-shaped housing part ( 33 ) in which the magnetic coil, the armature and the spring are received, and from one the other bearing ( 22 ) having an insert part ( 34 ) which is inserted into the cup-shaped housing part and is held by its border ( 35 ).