DE1203881B - Electromagnetic actuation device - Google Patents

Description

Electromagnetic Actuator The invention relates to a electromagnetic actuator consisting of one with a liquid filled housing and an electromagnet fixedly arranged therein, one in its laminated core frame laterally loosely guided, movable back and forth in the axial direction Immersion anchor and one axially aligned with the anchor and extending through the wall of the housing extending actuating pressure pin.

Such devices are often used in machines in such a way that that they do it thousands or millions of times over a period of a few months or one year. It happens very often that they are relatively Inaccessible places must be arranged so that the machines in which They are built in, largely needing to be taken apart when worn or to repair parts of the device that are no longer operational or have to be replaced, which is extremely undesirable in many ways. For the The service life of the device is determined by the speed with which the heat is generated can be derived, as well as the strength of the blow that hit the device during of the operation and by the sudden stop of the plunger movement the opposite ends of its stroke. The ones on the diving anchor at the sudden stop of his movements at opposite ends of his Strokes exerted also lead to the plunger core after prolonged use breaks. To solve these problems, it is therefore desirable that the device on the one hand must be able to be installed so that they can be installed in a simple manner and in the same positions as well as operated in the same way as the known devices of this type can. Furthermore, despite the high stresses, it should have a considerable service life be. Finally, it must be possible to use the device in the manner of the known embodiments directly on the device to be operated, e.g. B. on a valve, a switch Od. Like. To be able to grow and with a liquid-tight seal an essential To dissipate part of the heat developed during operation of the device in such a way that that an even stronger electric current can be used than before was possible without overheating.

While it is the present case with electromagnetic devices Kind have been known per se, a liquid-tight housing for assembly to train in all possible positions or the actuating pressure pin either as an independent component in a hole in an associated wall part to guide the housing with great accuracy axially freely movable. also was it is known per se, the end of the actuating pressure pin touching the plunger to keep permanently in the liquid in the housing and to keep this pin from a seal to surround the associated 'wall part so that an escape of the liquid from the housing or an entry of gaseous or liquid medium into the Housing is prevented. These are known from different institutions However, measures do not individually lead to an actuation device, which, as is aimed at by the present invention, by virtue of the advantages universal installation, long service life, high current load and better heat dissipation is excellent.

To achieve these advantages, an electromagnetic actuator of the type mentioned according to the invention with a combination of the following, features known per se: a) the housing is designed for assembly in all possible positions provided and sealed liquid-tight; b) the actuating pressure pin is an independent component and in the wall part of the housing axially freely movable in a bore, guided with great accuracy; c) the actuating pressure pin is in contact with the plunger End permanently in the housing liquid; d) the actuation push pin is of a Seal against the wall part surrounded in such a way that an escape of liquid from the housing or an entry of gaseous or liquid medium into the Housing is prevented.

For an advantageous further embodiment of the invention is also provided that the pressure pin is guided in a socket or sleeve or that between the pressure pin and an actuating rod arranged in its extension a membrane is arranged, in the latter case the membrane either on the pressure pin or attached to the operating rod or loosely inserted between the two.

The invention is illustrated below with the aid of exemplary embodiments and schematic drawings explained in more detail. In the drawings, F i g. 1 one Top view of the device of the embodiment of the invention, cut in level 1-1 of FIG. 2, fig. 2 shows a section along line 2-2 in FIG. 1, Fig. 3 is an enlarged partial section of the central part of the membrane, FIG. 4 a Section along line 4-4 of FIG. 3, fig. 5 and 6 the sectional view for respectively modified embodiments.

In the case of the one shown in FIG. 1 and 2, a base 10 is provided which can be fastened by means of bolts 12 and 14 on the device 16 to be actuated by the device, which has a stamp 18 which leads to the working mechanism of the device. When the stamp 18 z. B. is pressed down, then the desired actuation of the relevant mechanism of the device takes place.

The surface of the base 1.0 is recessed in the middle, so that a upwardly open recess 20 is present. In the middle of the base 10 is one Opening 26 is provided which extends through the bottom wall 24 of the recess 20 downwards and extends outside.

The base 10 carries the housing 30 in which the electromagnet generally designated 32 is located. The housing 30 is essentially pot-shaped and attached to the base 10 with its open end. In a groove 38 on the side of the base there is a sealing ring 36 which seals the connection between the housing 30 and the base 10.

To further seal the opening of the housing 30, the base 10 is provided with a flexible membrane 40 which prevents oil from escaping from the housing 30. This membrane 40 must primarily consist of a material that is not attacked by the liquid in the housing, and must be sufficiently flexible so that it does not significantly impede the movement of the plunger of the electromagnet described below. The membrane 40 is, as shown in FIG. 2 shows, inside the housing 30, so that the deflection of the membrane takes place into the recess 20 which is open at the top. The edge of the membrane 40 is held in a sealing manner on the base by an annular support plate 44. This support plate 44 and the membrane 40 jointly seal the open end of the housing 30 and, together with the ring 36, prevent oil from escaping from the housing 30.

The electromagnet 32 shown in the drawings has essentially a U-shaped laminated core frame 48 in which the coil 50 is located. Inside the frame 48, the plunger 52 of an approximately T-shaped cross-section, axially passing through the coil 50, is loosely guided laterally and axially movable to and fro. When the coil 50 is excited, the plunger 52 is pulled downwards, while when the coil 50 is de-energized, the plunger 52 is returned to its upper end position under the influence of a spring or the like provided in the device 16 to be actuated. In the in F i g. The position shown in FIG. 2 is the plunger 52 in its tightened lower position.

A bearing insert 62 is inserted in the lower part of the frame 48 and in the support plate 44.

The bearing insert 62 is provided with a central bore 65 through which a short pressure pin 66 is guided. The bore 65 is in alignment with the opening 26 in the base 10.

As can be seen from FIG. 2, the membrane 40 is provided with a stop button 68 in its center. One embodiment of this button is shown in greater detail in FIG. 3 and 4 shown, in which an upper annular plate 68 a and a lower annular plate 68 b are provided, which latter is formed with an upwardly extending projection 68 c, which is through an opening in the membrane 40 and an opening in the upper plate 68a protrudes. The two plates are held together and on the membrane 40 by an enlarged part 69 of the extension 68 c. The upper plate 68 a and the lower plate 68 b are provided with an annular groove 73 and an annular rib 71, which are concentric with one another. The membrane is clamped between the rib 71 and the groove 73, thereby ensuring that the button 68 is centered on the membrane 40 and remains in alignment with its bore through which the projection 68c extends. The approach 68 c and the lower plate 68 b serve to transfer the forces between the pressure pin 66 and the actuating rod 70, as will be described below.

The rod 70 arranged below the membrane 40 is slidable in the opening 26 of the base 10 and can come to rest at its upper end on the button 68 and at its lower end on the plunger 18 of the device 16 to be actuated. The rod 70 serves to transmit the force exerted at the front plunger 52 on the pin 66 and on the button 68 to the plunger 18, so that the plunger 18 is pressed down by the plunger moving downwards. Furthermore, the rod 70 serves to transmit the upward force of the spring in the device 16 via the plunger 18 to the button 68, the pin 66 and from there to the plunger armature 52 in order to move the latter upward in the frame 48 when the magnet is de-energized to press. The housing 30 is provided with an oil filler opening that can be closed by a plug 72. Furthermore, the housing 30 is provided with an electrical connection piece 74 for the two electrical leads 76 and 78 for the coil 50.

In Fig. 5 there is shown a further embodiment of the stop button for the diaphragm 40 , which has a rod 90 and two annular plates 92 and 94 provided with a central opening. The upper end of the rod 90 is stepped down at 96 with a reduced diameter and here extends through the plates 92 and 94 where it forms a shoulder 97.

Similar to FIG. 3 are a rib 101 and one concentric therewith Groove 103 is provided in the plates.

The lower end of the rod 90 is located in the guide opening 26 of the base 10 and can come to rest on the upper end of the plunger 18 of the device 16 to be actuated. Above the membrane 40 and for support on the rod 90 there is a pressure pin 102, the upper end of which rests on the plunger 52. The advantage of the in F i g. 5 compared to that of FIG. 3 consists in the fact that the stop button 92 and thus the membrane 40 are guided in the opening 26 by means of the rod 90 during their to-and-fro movement. In the case of the in FIG. 3, the movement of the stop button 68 and thus the membrane 40 along an axis perpendicular to the normal plane of the membrane 40 is not guaranteed.

In Fig. FIG. 6 is a further embodiment of one compared to FIG i g. 3 modified stop button shown. This button has a push pin 104 which is slidably guided in a bearing insert 62 and whose lower end is through two central apertured annular plates 110 and 112.

The in F i g. The embodiment shown in FIG. 6 is that of FIG. 5 is very similar except that some parts are connected in reverse. An actuating rod 106 is slidably guided in the base 10 , the lower end of which rests on the punch 18, while its upper end rests against an enlarged part 108 of the pin 104. The plates 110 and 112, which are arranged on opposite sides of the membrane 40, hold it in the manner already described by means of a rib and a groove and are in contact with the membrane 40 between the enlarged part 108 and the shoulder 109 of the pin 104 held.

It should be mentioned here that the rod 106 could also be omitted if the plunger 18 of the device 16 to be actuated extends sufficiently far into the base 10 . It should also be mentioned that the bearing insert 62 in FIG. 6 guides the movement of the plunger 18 and thus the membrane and prevents it from twisting.

Claims (4)

Claims: 1. Electromagnetic actuating device, consisting of a liquid-filled housing and an electromagnet fixedly arranged therein, which has a laterally loosely guided in its laminated core frame, movable back and forth in the axial direction and a plunger that is axially aligned with the armature and extends through the wall of the housing has extending actuating pressure pin, characterized by the combination of the following known features: a) The housing (30) is provided for assembly in all possible positions and is liquid-tight; b) the actuating pressure pin (66) is an independent component and can be moved axially freely in a bore (65) in the wall part (44) of the housing (30) and is guided with great accuracy; c) the actuating pressure pin (66) is permanently in the housing liquid with its end touching the plunger; d) the actuating pressure pin (66) is surrounded by a seal with respect to the wall part (44) in such a way that liquid is prevented from escaping from the housing (30) or gaseous or liquid medium from entering the housing. 2. Electromagnetic actuator according to claim 1, characterized in that the pressure pin is guided in a socket or sleeve (62) will. 3. Electromagnetic actuating device according to claim 1 or 2, characterized in that a membrane (40) is arranged between the pressure pin (66, 102, 104) and an actuating rod (70, 90, 106) arranged in its extension. 4. Electromagnetic actuator according to claim 3, characterized in that that the membrane is either attached to the pressure pin or to the actuating rod or is loosely inserted between the two. Publications considered: German U.S. Patent No. 636,517; French Patent Nos. 557 205, 957 709; Swiss U.S. Patent No. 288,577; U.S. Patents Nos. 2,548,239, 1166,699, 2,382,664, 2 465 036, 2 694165, 2 427 630, 987146, 2 706 795, 1721995, 2 663 826, 2 417 832, 2151213.