DE4237946C1 - Solenoid operated valve - Google Patents

Description

The invention relates to a magnet-actuated Ven til, especially hydraulic valve according to the Oberbe handle of claim 1, compare DE 34 06 570 A1.

It is known to use solenoid-operated hydraulic valves, to be used for example in machine tools. The solenoid valves take over there in the control function of on the machine tools arranged functional devices, for example be transport movements or clamping functions or the like.  

For this purpose, the valve has a base body on both sides attached electromagnets with a pistons arranged inside the base body Active connection. Whichever of the two magnets is activated, the Magnetic force of the pistons in one way or another Direction moves and there are flow openings free, through which then, for example Hydraulic fluid in different rich can flow, which in turn the movements the facility mentioned by, for example Piston cylinder units causes. The electromagnets be from a central point preferably controlled by an operating device, wherein  each of the two magnets has an electrical one Device connector and the attached electrical connection cable with the control unit direction is connected.

The disadvantage here is that for switching on a such hydraulic valve ver two connecting cables must be laid, the separate connector have elements and thus an additional Cabling effort when installing the Result in valves. In addition, at two device connectors additional installation to provide freedom.

The invention is based on the object solenoid-operated valve of the generic type to create that is simple and without large amount of wiring can be installed.

According to the invention, the object is achieved by that the electrical connection of the two electromagnets via a connector that is connected to the Electromagnet arranged contact pins elec connected and mechanically fixed.

The solution found is advantageous achieved that a solenoid-operated valve, ins special hydraulic valve that has two electromagnets has a guided in a base body Can lead pistons in different switching positions NEN, thus connected via only one cable and can be controlled. This ensures that both magnets connected via a connector can be controlled with just one cable an operating device is connected.  

By the connector advantageously in the entire valve is positively integrated, he give themselves in later use, for example when installed in machine tools, improved on building conditions because less space is required becomes.

It is advantageously provided that the An main connector is designed as a separate unit and outside, preferably above, the bottom body of the valve is arranged. The Plug on both sides of the electromagnet ordered plug contacts. Through the separate Training of the connector is more advantageous wisely achieved that a pre-wiring with the connecting cable and the plug device can be performed and the then to be connected Solenoid valve can be completed later.

In a further advantageous embodiment is before seen that the electromagnet with a forehead surface against the base body of the valve End face, however, at least on one side the main body is extended and there Has contact pins that the plug contacts of Connector are assigned. Through this preferred embodiment ensures that one on the one hand, the entire solenoid-operated valve attractive design and beyond through the electromagnets to be applied simultaneously realized a holder for the connector becomes.

Thus, the arrangement of additional plug connectors or distributors avoided.  

In the sense of the invention is further that the Connector has integrated light-emitting diodes, which, for example, the current switching state of the Show solenoid valve. This can be achieved that are immediately recognized by an operator can, for example, whether the solenoid valve is in is in an open or closed position, with the magnets on both sides each position must be assigned beforehand.

In addition, it is advantageously possible in the connector an integrated switch power amplifier and / or an integrated Proportional valve amplifier to be arranged. So can advantageously be achieved that also over a low switching power available the magnets can be switched directly.

Further advantageous embodiments of the invention result from the in the subclaims measures listed.

An embodiment of the invention is as follows based on the associated drawings explained in more detail.

It shows

Fig. 1 is a solenoid-operated valve in a perspective exploded view and

Fig. 2 shows a section through a solenoid actuated valve in more detail.

Fig. 1 shows a generally designated 10 , schematically illustrated electromagnetic hy draulic valve.

The valve 10 has a base body 12 , on which laterally opposite electromagnets 14 and 16 are arranged. The valve 10 also has a connector 18 connected above the base body 12 with a connecting cable 20 . The connector 18 and the base body 12 wei sen parallel surfaces and preferably have an identical outer dimension. On the end faces of the connector plug 18 which are assigned to the electromagnets 14 and 16 , the connector plug 22 has plug contacts 22 . Associated with the plug contacts 22 , the electromagnets 14 and 16 have contact pins 24 . The end faces 13 of the electromagnets 14 and 16 which bear against the base body 12 are extended beyond the base body, so that the electromagnets 14 and 16 have a region 15 in which the contact pins 24 are arranged.

Fig. 2 shows the valve 10 in the assembled state in a side section, the connector 18 is shown schematically.

The base body 12 can be seen with electromagnets 14 and 16 arranged on its side faces. The end faces 13 of the electromagnets 14 and 16 are extended beyond the base body and accommodate the connector 18 between them.

In the assembled state, the contact pins 24 of the electromagnets 14 and 16 engage in the plug contacts 22 of the connector 18 . Through this elec trical contacting the mechanical position fixation of the connector 18 is realized at the same time.

The electromagnets 14 and 16 are constructed identically in mirror image. They have a coil 30 which encloses an armature 32 . The armature 32 is movable against the force of a restoring element, preferably a spring 34 , in the axial direction.

The base body 12 of the valve 10 has in its interior a piston 26 movably guided in a channel 25 . The channel 25 or the piston 26 is aligned with the armatures 32 guided in the electromagnets 14 and 16 . The base body 12 furthermore has inlet and outlet openings 28 and a connecting channel 29 .

The electromagnetic valve has the following function from, the explanation of the actual valve effect only in the most essential limited.

By connecting the connector 18 via the connecting cable 20 to a control panel (not shown here) having a switch, in the fully assembled state, the contact pins 24 or plug contacts 22 provide an electrically conductive connection between the switches on the control panel and the switches 14 and the electromagnets 14 and 16 manufactured. Depending on which operating function is to be effected with the valve 10 , the coil 30 of the electromagnet 14 or the coil 30 of the electromagnet 16 is activated. The coil 30 builds up a magnetic field which axially displaces the armature 32 guided within the coil. This axial displacement of the armature 32 simultaneously displaces the piston 26 guided in the channel 25 . The piston 26 has such through openings which, after the axial displacement has taken place, close a circuit via the connecting channel 29 with the inlet and outlet openings 28 .

Thus, depending on which of the electromagnets 14 or 16 is activated, an opposite circuit, in the example a hydraulic circuit, is closed by a correspondingly differently effected axial displacement of the armature 32 or the piston 26 .

Due to the design of the areas 15 formed on the electromagnets 14 and 16 , a compact design is achieved which enables the entire valve 10 to be installed in a space-saving manner. At the same time a mechanical fixation of the connector 18 is hereby achieved in addition to the secure electrical contact.

Claims (8)

1. Solenoid-operated valve, in particular hydraulic valve, with a guided within a basic body, at least one flow connection-producing piston which is in active connection with both sides of the basic body angeord Neten, electrical connections having electro magnets, characterized in that the electrical connection of the electromagnets ( 14 , 16 ) via a connector ( 18 ), which is electrically connected to the electromagnets ( 14 , 16 ) and arranged with contact pins ( 24 ) and mechanically fixed. 2. Solenoid-operated valve according to claim 1, characterized in that the connector ( 18 ) is arranged as a separate unit outside, preferably upper half, of the base body ( 12 ) and on both sides, the electromagnets ( 14 , 16 ) assigned plug contacts ( 22nd ) having. 3. Magnetbetätigbares valve according to one of the foregoing claims, characterized in that the electromagnets (14, 16) engage with an end face (13) on the base body (12), the end faces (13) over the base body (12) also ver are elongated and have contact pins ( 24 ) there. 4. Solenoid-operated valve according to one of the preceding claims, characterized in that the contact pins ( 24 ) engage in the plug contacts ( 22 ) and fix the connector ( 18 ) position. 5. Solenoid-operated valve according to one of the preceding claims, characterized in that the connector ( 18 ) is connected to an electrical connection cable ( 20 ). 6. Solenoid-operated valve according to one of the preceding claims, characterized in that the connector ( 18 ) has the switching state of pointing LEDs. 7. Solenoid-operated valve according to one of the preceding claims, characterized in that the connector ( 18 ) has an integrated switching power amplifier. 8. Solenoid-operated valve according to one of the preceding claims, characterized in that the connector ( 18 ) has an integrated proportional valve amplifier pro.