DE1133033B - AC electromagnet - Google Patents

Description

AC electromagnet The invention relates to one with a magnetizable Laminated core and arranged in this, made of electrically conductive, non-magne'ti'schem Metal phase shift circuits provided with an alternating current electromagnet for the operation of electric gate valves and other devices.

The use of phase shift rings that are within the magnetic Circle are arranged, namely with fixed magnetic circles or two movable ones magnetic circuits of an electromagnet is known. This known phase shift: rings consist of rings called short-circuit rings or short-circuit windings will. The rings are on the surface of the same branch of the electromagnet visible, each ring in an annular recess or in two in this Grooves provided on the surface. However, these known arrangements have serious ones. Cons, on.

Decrease the notches provided in one branch of the electromagnet the passage area of the magnetic flux in the layered plates Core. Furthermore, the fragility of the ends of these sheet metal masses is due of the recesses on the contact surface: enlarged, and the known ring constructions are for a quick work cycle due to the fragility of these organs not suitable, so that they also do not fit into the moving branches of an electromagnet can be used. The rapid succession of blows to the contact surface also causes the magnetic ones to unfold after a certain amount of work Sheets, irrespective of whether they are movable or fixed, i.e. H. a destruction of the sheet metal ends, which causes the sheets to move away from each other, so that for this reason the known phase shift rings are quickly destroyed. It should be noted that in the development of automation technology, in which Electromagnets are being used to an ever greater extent, making these magnets extraordinary have to exercise fast work cycles.

The invention is intended to meet an acute need in technology the task underlying to create an alternating current electromagnet, in particular is suitable for actuating electric slide valves and other devices and the does not have the disadvantages inherent in the known devices described above. This problem on which the invention is based is solved in that the phase shift circles of small rods located in notches provided within the laminated core and the Wandungsteslen of the movable, flat magnet armature receiving and him tightly enclosing housing and that the ends of the rods in intimate electrical Make contact with the wall parts.

According to a preferred embodiment of the invention, there is the moving magnet armature enclosing housing made of a casting, which together A monoblock casting forms with the rods, which by casting around the laminated core is achieved. In the device according to the invention, the fixed magnetic circuit is stored in a housing and the armature also in a corresponding housing. The two aluminum: cast parts have reworked edges that are in the , lie on the same plane as the support surfaces of the magnetic circuits, so that the Impacts of the anchor when tightening are distributed over as large an area as possible and -This reduces the fatigue of the metal.

The rods obtained by casting with the housing form with the housing together a monoblock casting, which is particularly resistant, and also the electrical contact between the rods and the cap is ensured.

Further features of the device according to the invention emerge from the following Description on the basis of the figures. It shows Fig. 1 is an axial section through the electromagnet, FIG. 2 shows a cross section through the electromagnet according to the line 2-2 in Fig. 1, Fig. 3 shows a section according to the line 3-3 in Fig. 1, Fig. 4 an individual representation in axial section of a part of the electromagnet in the open position and FIG. 5, with individual parts broken away, an individual illustration in the axial section of the manual switching device, the electromagnet by actuation this device in the: closed position is performed, with the coil but mch: t is fed.

In a non-magnetic metal housing 1 there is a fixed magnetic circuit 2; which consists of laminated cores which surround an excitation coil 3. A movable magnet armature 4, which is closed off by a hood 5, rests on the magnetic circuit 2 as a result of the magnetic force of attraction. The armature 4 is pushed back by an axially arranged counter spring 6 which is arranged in the fixed magnetic circuit. The armature 4 is connected to an actuating rod 7 which, for example, when the electromagnet forms part of an electric slide, controls the movement of a valve. The rod 7 slides in the fixed magnetic circuit and thus contributes to the guidance of the movable armature 4.

The armature 4 consists of a housing 8 made of non-magnetic, but electrically.good conductive and easily deformable metal, such as: aluminum or bronze. It is provided with a cylindrical, threaded extension 9 and stiffening wings 10.

A magnetizable laminated core 11, which forms the actual armature, is arranged inside the housing 8. The metal sheets are provided with notches which form channels which are open towards the air gap 13. These channels are filled with bronze or aluminum by pouring, so that the front and rear sides (Fig. 1) of the housing are electrically connected by four solid or tubular rods 12a to 12d. The casting of the housing and the rods forms a single operation, so that a closed monoblock part is created in which the laminated core 11 is mounted. To improve the adhesion of the sheets and .des cast metal, are; As shown at 11 a in Fig. 3, the metal sheets 11 are preferably bent.

The operating rod is connected to the armature housing through a shock absorber of adjustable value. In the threaded extension 9, a likewise threaded sleeve 14 is screwed, the position of which can be regulated in the longitudinal direction by engaging in notches or blind bores 15 and in which a shock absorber 16 made of elastic material, for example from Kautsdhuk od is. This damper has a cylindrical sleeve shape and a recess 16a on its circumference, which enables this part to be compressed in the longitudinal direction. The actuating rod 7 is connected to the damper via an annular shoulder 17. A controllable axial pressure can be exerted on the damper by a tappet 18 which is subject to the action of a regulating screw 19 which is screwed into the sleeve 14 and blocked by a nut 20. The sleeve itself is fixed by a lock nut 21. The electromagnet is also provided with a hand holding device 22 .

This device consists of a sleeve 23 which is screwed into the hood 5 in the axial direction of the electromagnet. The sleeve 23 has an upper bore 23 a and a lower bore 23 b, the diameter of which is slightly larger than that of the bore 23 a. In this, a housing 24, which is connected to a button 25 slides, which is driven outwards via a return spring 26. In the housing 24, a rod 27 can slide axially, which has an annular throat 28 with a conical ramp surface 29 and a disc 30 in the transverse direction, which lies in an annular gap and is pushed to the right by a spring 31 (FIG. 2) so that it rests against the inner wall of the sleeve 23 .

The hole 30a of the washer 30 has a slightly larger diameter than that of the rod 27 , so that it can pass through the washer when the hole of the latter is centered in the direction of the axis of the device.

The mode of operation of this electromagnet is as follows. If the coil 3 is excited, an alternating magnetic field is generated in the two directions indicated by the arrows f1 and f. Each of the closed rods 12 a to 12 d forms with the side walls of the housing, to which they are welded, and with the upper wall: a closed circle which forms a regular conductive ring 32 (FIG. 3). If, according to FIG. 1, the lines of force pass between points m and n or p and q , these force lenses do not cause any phase shift, since they do not cross the conductive rods. However, if the lines of force pass between points r and s or t and u , they generate alternating electrical currents in these rods. These currents in turn generate the magnetic fields represented by the lines of force F, and F., which: are out of phase with the lines f, and f2. The magnetic attraction of the armature is therefore practically constant, as if the electromagnet were excited by direct current.

The closed magnetic circuits forming the small circles are through Casting has been achieved, d. H. through an extremely inexpensive process.

The various operations of the apparatus in the following way: According to Figure 4 is not the device under electrical voltage and the armature 4 is raised from the yoke. 2 If a voltage is applied, the armature is attracted and assumes the position shown in FIG. 1 in that the spring 6 is compressed. If the voltage is interrupted, the device returns to the starting position according to FIG. 4 under the action of the spring 6. In both cases, the rod 27 slides in the housing 24 and traverses the washer 30. If no voltage is available, the manual control device is used. In this case, the button 25 is also of the embodiment illustrated in Figure 4 position, starting, depressed, the disk 30 then slides in the longitudinal direction by receiving gap, and when this disc in height of the shoulder defined by the different diameters of the bores 23 a and 23 b is formed, elongated, it moves laterally under the action of the spring 31 and rests against the wall of the bore 23 b. Here the disc forms a stop and prevents the button from returning to the starting position, so that the armature and the actuating rod 7, which are connected to it, are automatically locked in a certain position, the springs 26 and 6 being compressed. The device can be adjusted so that this position corresponds to an almost complete closing of the magnetic circuit, whereby, as shown at 13 a in vehicle 5, a small air gap remains free. From Fig. 5 it can also be seen that the upper end of the rod 27 in relation to the upper level of the hood 5, which forms a fixed reference point, is slightly above the level which it assumes according to FIG. This air gap can be adjusted by screwing the sleeve 14 into the threaded extension 9 or through the sleeve 23 in the hood 5.

When the current in the coil is restored, the armature 4 is attracted until contact with the fixed magnetic circuit, the rod 27 being carried along. The cone 29 now acts as an unlocking device by pushing the washer 30 against the action of the spring 31 to the left until the washer is centered again and enables the housing 24 and the button 25 to move back under the action of the spring 26, so that the position shown in FIG. 1 is assumed again. The operating rod, which is connected to the movable armature, follows it in motion. The strong impulse of the rod given by the sudden tightening is dampened by the damping device 16, the value of which can be adjusted via the screw 19, as already mentioned above.

The displacement of the operating rod 7 can be used to control various devices. The electromagnet described above is particularly suitable for actuating a slide in which it is installed, the actuating rod 7 then being coupled directly to the control valve.

Claims (10)

PATENT CLAIMS: 1. With a magnetizable laminated core and in this arranged, made of electrically good conductive, non-magnetic metal AC solenoid provided with phase shifting circuits for actuation of electric slide valves and other devices, characterized in that the Phase shift circles from small, provided in within the laminated core (11) Notches lying rods (12a to 12d) and the wall parts of the movable, Flat magnet armature receiving and tightly enclosing the housing (8) exist and that the ends of the rods are in intimate electrical contact with the wall parts stand. 2. Electromagnet according to claim 1, characterized in that the movable Housing (8) enclosing magnet armature consists of a cast part which, together with the rods (12a to 12d) form a monoblock casting, which by casting around the laminated core is achieved. 3. Electromagnet according to claim 1 or 2, characterized in that the rods (12a to 12d) receiving notches on the pole faces of the movable Anchor, d. H. on the side that delimits the air gap (13) are open. 4. Electromagnet according to claim 3, characterized in that the thickness of each rod (12a to 12d) on the pole face of the movable armature to prevent a magnetic Minimum value required for contact between the two edges of each gap is limited and the strength of this area to the furthest from it Area distant area (r) of the circumferential surface of the rod increases rapidly, so that each rod has a large cross-section, which gives it a sufficient mechanical Lends resistance and the electrical resistance to a possible limited value. 5. Electromagnet according to claim 1, characterized in that that the rods (12 a to 12 d) are tubular. 6. Electromagnet after Claim 2, characterized in that in a known manner the open side of the the laminated core (11) of the movable armature receiving housing (8) a completely flat support surface forms, which is also flat, through the sheets of the fixed magnetic circuit and the open side of the not magnetic, metallic housing (1) surrounding said magnetic circuit Lays support surface, so that the shock that occurs when the electromagnet is closed at the same time from the sheets of the magnetic circuit and the metallic housing (8, 1) of this circle is included. 7. Electromagnet according to claim 1 with a Shock absorber between the movable armature and the operating rod of the to actuating device is switched on, characterized in that the shock absorber (16) and its adjusting elements (18, 19) arranged in the armature housing (8) are. B. electromagnet according to claim 7, characterized in that the shock absorber (16) made of an elastic, between a device (1. 8) with adjustable pressure activated block, e.g. B. made of rubber. 9. Electromagnet according to claim 6 with a manual operating device which has a locking device, the locking of the movable armature in the closed position in the event of a power failure enables, characterized in that in the locking position of the movable Armature (4) assumes such a position that a small space between the two flat movable or fixed pole faces is formed, and that the locking device can move so far that when the current flow is restored, the electromagnet unlocked as soon as the movable armature is tightened in such a way that the two pole faces touch. 10. Electromagnet according to claim 9, characterized in that the Manual control device has a housing (24) which is located in the hood (5) of the electromagnet move axially with respect to a rod (27) fixed on the movable magnet armature can, and a groove of the rod (27) surrounding and displaced transversely thereto and such a locking device cooperating with a fixed shoulder extension of the hood (30) has because, ß also the groove of the rod has a conical area (29), which forms a cam which when the rod (27) is at the moment of restoration the current flow executes a small axial movement, the locking device (30) moves in the direction of the axis of the device, so that the locking device (30) comes free from the shoulder approach and the housing (24) via a return spring (26) lengthened to the rest position again. Publications considered: German Patent Nos. 441715, 715 020, 739 507; German utility model No. 1744 489; Swiss Patent No. 164 345; French Patent No. 1158123; British Patent No. 573,203; U.S. Patent No. 2,009,188; Prospectus of "Cannon Electric Company" (Los Angeles 31) DCS 4-1953, titled DC Solenoid Bulletin.