DE2016030A1 - DC solenoid - Google Patents

Description

DC lifting magnet The invention relates to a DC lifting magnet, in which the field winding can act on two separate armature, so that these at the same time or - in a predetermined order - those assigned to them Can perform switching operations.

The lifting magnet designed according to the invention is particularly suitable for Use as a valve magnet to control pneumatic or hydraulic circuits.

Embodiments of the invention are described with reference to the drawing, Show in the drawing.

1 shows a lifting magnet designed according to the invention with two mechanically separated lifting armatures, which are when the common excitation winding is switched on move both upwards and at the same time the pneumatic ones attached to the solenoid or control hydraulic circuits; Figures 2 illustrate similar ones Lifting magnet in which and 3, however, the two armatures are switched on when the common Move the excitation winding in opposite directions, according to Fig. 1, the solenoid is used for control the top and bottom dashed lines indicated valve ports 1, 2. The through the common winding 13 excited magnetic circuit consists of the following parts: jacket tube 3, upper yoke disk 4, the cup-shaped core tube 11 and the lower yoke disk 21, which has a core tube approach surrounded by the winding 13, In which The upper armature space is the cylindrical armature 6, in the lower armature space the likewise cylindrical armature 15 displaceable. Both anchors are provided with longitudinal grooves on the circumference provided the passage of the pressure medium. Both anchor chambers are pressure-tight from one another separated. With 14 and 22 are intermediate rings made of antimagnetic material designated; the inserted O-rings 14a and 22a seal the upper and lower ones Anchor room.

There is a brass sleeve 12 in each armature space for guiding the armature or 20 provided, the upper armature 6 is under the action of a compression spring 7, which the anchor with its fixed by a cross pin 10 stop bolt 9 presses against the transverse wall of the cup-shaped core tube 11. The bolt 9 consists made of an anti-magnetic material. With 8 a seal is referred to, which on the lice 5 inserted in the yoke disk 4 come to rest. The anchor 15 is standing under the action of a compression spring 16, which is attached to the loosely inserted antimagnetic Material existing stop bolt 17 is supported and the armature with its seal 18 secured by the pin 19 against the nozzle c -in connector body 1 seeks to press.

In the rest position according to FIG. 1, the connection part 2 can Pressure medium flows freely through the bores a and b in the connection part 1 the connection between holes d and c is blocked. When switching on the Winding 13 move both armatures upwards, so that the bore a closed and the hole c is released.

Fig. 2 shows a modified embodiment of a lifting magnet, which with regard to of the upper anchor coincides with FIG. 1, while the lower anchor is a mirror image is designed to the upper armature, so that both armatures when switching on the Excitation winding in opposite directions, namely one upwards, the other downwards, move. The entire lifting magnet is symmetrical in relation to the central transverse plane educated. Accordingly, a middle core plate 23 is between the core tubes 11 and 111 inserted with the interposition of 0-rings on which the two anchors support with their glue sticks.

The embodiment according to FIG. 3 corresponds to FIG. 2, but with both Armature as the lower armature of Fig. 1 are formed and accordingly when switching on the excitation winding move in opposite directions towards each other.

If the solenoid is not to serve as a valve magnet, it goes without saying those in the described embodiments provided seals omitted, the invention also extends to Åusführung possibilities in which the two armatures are gradually moved one after the other when the excitation is switched on. This effect can be achieved in a number of ways, e.g.

in that the return springs of the two armatures have different restoring forces after the excitation winding is switched on, that of the weaker one would be the first Spring-subordinated armature respond, whereby through its movement the on the other Armature acting magnetic flux amplified and thereby also brought about its response Would0 The same effect could be achieved if the field winding was split in two separate windings is divided, one of which first and then both Windings are switched on, there are also palls conceivable, where one initially only a partial voltage is applied to the excitation winding and then the full voltage is applied. In In all of these cases, a step-by-step switching of the two lifting armatures can be achieved.

Claims

Claims (7)

P a t e n t a n 5 p r ü c h e DC solenoid, thereby g e k e n n -z e i e n e t that the common excitation winding (15) on two mechanically separate lifting armature (6 or 15) arranged in the interior of the core tube acts. 2. Lifting magnet according to claim 1, characterized in that g e -k e n n z e i c h n e t that by different design of the magnetic circuits of the two armatures and / or the gradual response of the both anchors is achieved. 3. Lifting magnet according to claim 1 or 2, characterized in that g e -k e n n z e i c It does not mean that both armatures move in the same direction after the excitation winding is switched on move. 4. Lifting magnet according to claim 1 or 2, characterized in that g e -k e n n e n z e i c h n e t that both armatures move in opposite directions after the excitation is switched on. 5. Lifting magnet according to one of claims 1 to 4, characterized g e k e n n z e i c h n e t that the armature is attached to a transverse yoke plate provided in the core tube (11) (25). 6. Lifting magnet according to one of claims 1 to 5, characterized in that g e k e n n z e i c h n e t that in the course of the core tube (11) intermediate rings (14 or 22) from antimagnetic material are arranged. 7. Lifting magnet according to one of claims 1 bi * -6, characterized g e k e n n shows that one or both anchors are attached to a loosely inserted bolt (17) made of an anti-magnetic material with a compression spring (16) in between prop up.