DE1098611B - AC solenoid - Google Patents

Description

AC lifting magnet The invention relates to an AC lifting magnet, how it is used, for example, for the various remote controls, in particular as valve switching solenoid, brake solenoid, control solenoid in machine tools and for similar purposes.

In the previously known AC magnets, the assembly the different parts - namely the magnet body, the guides for the moving one Armature and the suspension of the coil - cumbersome, since these parts are screwed, riveted or connected to each other in a similar way. Moreover, it is rigid Connection disadvantageous for various parts. So an electromagnet is known in which in the coil a tubular body extending therethrough is attached, which for guiding the armature and locking the coil with serves a two-part core. The core consists of a U-shaped for this purpose curved part with a cover plate closing the open side of the U-shaped part, which with a central recess over the elongated end of the tubular Body can be pushed. After assembling the two core parts connected to each other by means of screws. An alternating current magnet has already been added for electroacoustic devices, the yoke of which appears to be seen from the side pushed over the bobbin and with this in a manner not described in detail can be connected. The rod-shaped anchor protrudes through a corresponding recess in the yoke centrally into the bobbin. In another known electromagnet The magnetic circuit consists of two E-shaped halves, one of which is attached to one Insulating frame is attached. This frame has a rear wall and two perpendicular to standing, recessed flanges, of which the upper to Attachment of the upper magnet half and the lower one to guide the movable magnet half serves. Between the top of the resting on the lower flange of the insulating part Magnet winding and the upper magnet half are arranged springs, which are not only hold the winding in place on the lower flange, but the upper one Should also prevent the magnet halves from vibrating.

It is a different lifting magnet with a yoke-shaped magnet body known, which can be pushed over the bobbin from the side and after a slight shift in the direction of the coil axis with a middle yoke attachment penetrates the coil. The yoke and bobbin are replaced by inserting buffer pieces mutually fixed by frame parts that can be screwed together. This well-known Lifting magnet requires a relatively large number of individual parts and handles when assembling.

The invention aims to provide a type which with respect to the manufacture of the individual parts and with regard to the assembly a great simplification brings with it in production, while at the same time improving the effectiveness of the magnet.

The invention is based on an alternating current magnet with a yoke-shaped Magnet body from the side with little lateral play on the coil body postponed and after a slight shift in the direction of the coil axis, in the Magnet body and coil body partially intermesh by locking means is determined. In the case of the magnet according to the invention, the arrangement is now further developed that the bobbin has a stop wall, which the lateral sliding movement of the yoke, and that the stop wall together with a shoulder on the one side of the coil and two corresponding shoulders or shoulder pairs the other side of the coil, the yoke after the displacement in the direction of the coil axis secure against lateral movements. For assembling the magnet according to the invention it is only necessary to have the two parts, namely the yoke and the bobbin first laterally and then longitudinally against each other to move them to be fully defined in the lateral direction. After inserting the rubber buffers the connection between the two parts is already established. This connection also has the advantage that the parts are elastically supported against one another. The structure of the arrangement according to the invention is therefore much simpler and with a smaller number of individual parts feasible than that according to the known Arrangements. Since the subject of the invention is an article, which is required in very large numbers their way through the advantages gained by the invention are practically noticeable to a very considerable extent.

If the magnet body and coil are to be cushioned against each other, see above it is advisable to use rubber buffers or similar energy-consuming spacers, which after the relative displacement of the magnet body and coil body in the direction the coil axis between the coil body and the magnet body can and advantageously serve as locking means at the same time.

In addition, the bobbin used to hold the excitation coil can be used be expanded in such a way that good guidance of the movable armature is ensured is. With the bobbin, a base plate for the attachment can be expediently of the lifting magnet to form a unit. Preferably are also on the Coil body at the same time the terminals are arranged so that the lifting magnet is essentially consists of only three components, namely the extended coil body with excitation winding, Terminals and base plate, the magnet body and the movable armature.

The magnet body itself, which is known for AC magnets as well as the anchor is made from individual sheets, due to the The above-described division into magnet system and carrier system with large Dimensional accuracy can be produced. This is essential because the devices only then work hum-free.

The magnet system can easily be inserted into the extended coil body -.be introduced. The magnet body is pushed sideways over the coil to a stop and then in the direction of the lifting movement by a few millimeters postponed. In this position the magnet body is stopped by another shoulder secured and secured by inserted rubber buffers or similar flexible spacers held in this position.

The anchor is then inserted through the base plate, whereupon the solenoid is ready for operation.

The invention is described below with reference to schematic drawings explained using an exemplary embodiment.

Fig. 1, 2, 3 and 8 show the magnet in the assembled state, FIGS. 4 to 7 show individual parts; Fig.1 shows the magnet in view and in section at location A-A of Figure 2; Fig. 2 shows the magnet in relation to Fig. 1 by 90 ° rotated view; Fig. 3 is a view of the mounting plate of the magnet; FIG. 4 shows the armature, FIG. 5 the magnet body; Fig. 6 and 7 show the bobbin without introduced winding in two views rotated by 90 ° to each other, wherein the right side of Figure 6 is shown as a section on line B-B of Figure 7; Fig. 8 is a perspective view of the assembled device.

The widened bobbin 1 is, as is clearest from FIGS. 6 and 7 can be seen, executed in one piece with a base plate 7, which is used for fastening of the device is used. Support walls extend between the base plate 7 and the coil flange 10 4 and 14, one of which acts as a stop wall when the yoke-shaped one is pushed in from the side Magnetic body 2 is used, the open legs 8 of which then between the base plate 7 and the coil flange 10 are. There are protrusions 17 on the other spool flange provided, which determine the position of the built-in magnet yoke laterally. At the side of the support wall 4 facing away from the magnet yoke are expediently the terminals 16 arranged for the coil winding.

It is known that such magnets in the yoke-shaped magnetic body an inner center stop is attached. In the invention, this protrusion is 15, however, designed as a guide approach, which is in the interior 13 of the bobbin engages and extends sufficiently far into the opening of the bobbin, around a guide also in the lowest position of the magnet body 2 relative to the coil body 1 secure.

The one which is rectangular in cross-section and, as is known, of a large number Armature 3 composed of individual sheets slides as usual in the coil body, but is also in a correspondingly matched central opening 18 of the base plate and also guided between the support walls 4 and 14, which extend between the base plate and spool flange 10 extends.

Between the coil flange 10 and the free legs 8 of the magnet body rubber buffers 6. To assemble the device, refer to the ones shown in Figs The coil body is first applied to the winding 12. Then the magnet yoke 2 in the illustration according to FIG. 6 from the front up to the stop on the support wall 4 inserted; then there is a small shift towards the base plate 7, whereby the legs behind a shoulder 5 on the lower surface of the base plate 7 engage and the projection 15 provided on the central beam of the yoke into the opening 13 of the bobbin is inserted. Now the rubber buffers 6 are pushed in and then the anchor 3 is used.

The expanded bobbin is preferably molded from plastic. It is useful to use a plastic that is non-magnetic and electrically insulating and has high mechanical strength.

The construction according to the invention is simple. It also has the advantage that even if the armature hits the magnet yoke hard, there are no hard blows are transferred to the bobbin. The resiliently suspended mass of the magnet yoke is able to evade the impact of the armature a little, so that the kinetic Energy of the anchor can be intercepted in a simple way and also destroy it the sheet metal systems is avoided. The shock absorption is particularly important when there are high switching frequencies the lifting equipment is important. In addition, this suspension, the moving mass of the armature and the mass of the magnet yoke can be matched to one another so that a bounce-free Working of the reciprocator reached.

The same design is also used for the manufacture of choke coils or transformers etc. can be used.

Claims (6)

PATENT CLAIMS: 1: AC solenoid with yoke-shaped magnet body, which is pushed onto the coil body from the side with little lateral play and, after slight displacement in the direction of the coil axis, in which the magnet body and coil body partially intermesh, is fixed by locking means, characterized in that the coil body (1) has a stop wall (4) which limits the lateral sliding movement of the yoke (2), and that the stop wall (4) together with a shoulder (5) on one side of the coil (12) and two corresponding shoulders or shoulders. Pairs of shoulders (17) on the other side of the coil secure the yoke against lateral movements after it has been moved in the direction of the coil axis. 2. AC solenoid according to claim 1, characterized in that for Locking of the yoke and bobbin in the assembled state Rubber buffer (6) or the like energy-consuming spacers are used, which are known per se Way as a locking element in the direction of the coil axis between the yoke and the coil body be inserted. 3. AC solenoid, in which the coil body is at the same time serves to support the magnet system, according to claim 1 or 2, characterized by an enlarged coil former (1), which together with the base plate (7) of the Device forms a unit, with the base plate at the same time as a limit for the slight displacement of the magnet body (2) in the direction of the coil axis is used. 4th Alternating current lifting magnet according to Claims 1 to 3, characterized in that the extended Coil body is molded from plastic. 5. AC stroke magnet according to claim 1 to 4, characterized in that the open legs (8) of the magnet yoke and its cushioning (6, 6) between the one coil flange (10) of the magnet winding (12) and the one-piece base plate (7) with the coil body (1) are arranged while sliding in a known manner in the bobbin guided armature (3) also through the base plate (7) and between the coil body and support walls (4, 14) lying on the base plate. 6. AC stroke magnet according to claim 1 to 5, characterized in that the terminals (16) on the coil body between the coil flange (10) and the base plate (7) on the side facing from the insertion side of the magnet body al), preferably on the stop wall (4 ) are arranged. Documents considered: Swiss Patent No. 213 670; British Patent No. 665 537; USA. Patents No. 2,275,115, 2,305,415, the 2,494,470th Contemplated older patents: German patent no. 1030 460th.