DE974296C - Electromagnetic vibrating motor - Google Patents

Description

Electromagnetic vibrating motor The invention relates to a electromagnetic oscillating motor for driving handlebar-guided conveyors with circular Conveyor track.

The main purpose of the invention is to improve performance and adaptability and to increase or improve the mode of operation of such oscillating motors.

It is already known in a spiral conveyor of the specified type which only has a single electromagnetic oscillation system in the form of a single one, field magnet provided on the bottom plate of the conveyor with an associated one, magnet armature attached to the frame is provided. The only one thus formed Drive device responds only to one half-wave of the alternating current, while the other half-wave is not used, and therefore works with one low efficiency; the working method of the known conveyor is also because of this not satisfactory because the drive component only works in one direction, namely parallel to the axis of the drive device, is made usable.

It is also used to move movably attached masses to and fro an oscillating motor became known in which, although several electromagnetic oscillating systems used from an AC power source via electric valves are excited in such a way that the armature or the mechanically rigidly interconnected Anchoring a reciprocating Movement is bestowed. Apart from that from the fact that such a double motor can only work in the vertical direction capable of being balanced in its structure and as a result of the use of several Coil springs, spring seats, guide rods, a box frame for anchor bearings, Connecting plates, etc. is complicated and bulky, leads the vibrating mass of the known system only a translational oscillating movement with respect to the starting position.

Compared to the known, the handlebar-driven one stands out Oscillating motor according to the invention serving conveyors with circular conveyor tracks thereby from that on a base plate symmetrical to the vertical central axis of the system Vibration exciters are arranged by a lying in a vertical plane Air gap through on a common anchor firmly connected to the conveyor track act periodically and alternately in phase opposition, such that the armature alternates receives energy in opposite directions and goes around the central axis and floats. As a result, compared to the known oscillating systems caused a drive component which already describes a circular path; the vibration exciters thus generate a torsional vibration around the central axis, i.e. H. a circular motion, which makes the driving process more effective than known Bauarten is supported. At the same time there is a space saving and a better utilization of the supplied alternating current achieved, so that any or any armature returns can be avoided by energy storage. The flexible frame support elements are preferably tuned to their own frequency, which is close to the normal Frequency of the drive impulses. The oscillating motor according to the invention can be varied Applications and is particularly beneficial for packaging and conveying equipment, in which the objects are to be conveyed around corners, also for circular conveyors, circular dryers, screening devices and in general for spiral conveyors. In the case of spiral conveyors, the objects to be conveyed are selected and then brought back to the conveyor bowl, where they are raised from the spiral to the others are guided, she finally bit out of the conveyor bowl to a machine arrive, which in turn processes each object supplied to it. Of the positive drive pulse in both directions due to the double action of the motor gives the funding material a big boost. This will promote the Substances of relatively small mass along an arcuate, circular shape or upward spiral path.

The air gap plane between the vibration exciters can be advantageous according to a further proposal of the invention through the vertical central axis of the System. According to a further proposal of the invention, the two Magnet coils each of an electromagnet with a C-shaped core with rectified Alternating current excited in such a way that alternating with each half cycle of the alternating current one of the two magnet coils receives a current pulse. Thus, by such a double-acting electromagnetic vibrating motor each the entire alternating current wave harnessed without the anchor being polarized or by elastic means needs to be moved back to its original position. Another type of alternating excitation the field magnet of a double-acting oscillating motor is the use of permanent, so polarized magnet armature. The poles of the field and of the anchor must be alternating Be adapted to the attraction and repulsion forces. For a motor with permanent magnets no rectifiers are required.

Another possibility according to the invention is that several Excitation systems arranged in pairs and complementary with respect to the central axis and act on a common anchor and that the air gap planes are parallel to a plane passing through the central axis. The wraps on each one Field magnets can be used to adapt the voltage available to the field be switched. Thus, two windings can be connected in multiple for a higher Voltage can be switched. This is an advantage because the oscillating motor at different Voltages by changing the circuit can work with it.

The invention is explained further with reference to the drawings; it is Fig. I is a side view of an oscillating device with a double-acting electromagnetic Oscillating motor according to the invention, FIG. 2 its front view, FIG. 3 an individual representation of an electromagnetic oscillating motor in a horizontal section similar to the motor I and 2, but with a permanent magnet as the armature, FIG. 4 shows a circuit arrangement of the electromagnetic oscillating motor according to FIGS. 1 to 3, FIG. 5 shows a circuit arrangement for a double, double-acting electromagnetic oscillating motor according to Invention.

The oscillating device according to FIGS. I and 2 has a massive basic or support plate i. It is preferably a casting. It is with rubber feet 2 for the elastic installation of the oscillating device. At the base plate i the housing 3 is attached, which gives the electromagnetic oscillating motor q. This consists of the field magnets 5 and 5 'and the armatures 6 and 6'. The field magnets are attached to the vertical console 7, which is screwed to the base plate i at 8 is.

The frame io is resiliently held by a number of flexible elements. In the exemplary embodiment, they are leaf springs i i. Their ends are on the sloping seats 12 of the base plate i and the Inclined seats 13 of the frame Io attached. There are four mounting seats for the four springs i i, which are to the vertical Center axis I4 are arranged symmetrically.

On the frame Io is the open top conveyor through the screws I6 15 attached. It has a spiral-shaped conveying surface on its inner circumferential surface which starts from the bottom of the bowl and spirals up to the inner top edge of the Shell extends.

The armature 6 a and 6 b of the motor according to FIG. 3 are permanent magnet armatures. Each armature is attracted by the alternating current half-waves, which are around i 8o 'in the Phase are offset from one another.

The armature 6 and 6 'of the oscillating motor of FIGS. I and 2 are at the Bracket 17 attached to the underside of the frame Io by screws 18 is held. The console 17 preferably consists of a non-magnetizable one Material so that the magnetic fields of the separate excitation systems 5 and 5 ' are not influenced. These are symmetrical to the vertical center axis 14 arranged. The two windings of each field magnet are on the one side of the central axis, and their associated armatures are with the pole faces their field magnets aligned. The vertical central axis 14 goes, as at 20 in FIG Fig. I indicated by the air gap. The double-acting electromagnetic oscillating motor generates an electromagnetic field on each side of the oscillation axis I4. Will the Field magnet 5 excited alternately with respect to field magnet 5 ', each field magnet responds to one half of an alternating current wave, the armatures and oscillate the frame around the vertical central axis I4. As the frame from the elastic elements II is held, he can only move back and forth in a limited, inclined arc move forward, which is determined by the length and flexibility of the elastic elements II will. The magnetic shock generated by any electromagnetic field magnet causes the anchor, its support bracket 17 and the frame to move around the vertical Move the central axis 14 back and forth. This back and forth movement in a limited, inclined arch is on the spiral conveyor surface within the open top Transfer bowl 15. The objects in the bowl are along the inclined conveying surface, as indicated at 21, conveyed upwards by be lifted from one level of the spiral to the other until it reaches the opening of the conveyor bowl reach.

In Fig. 4 with 22 and 23, the AC supply network is designated. The motor housing is grounded by the earth conductor 24. In the feed network 22, 23 is the switch 25 is turned on. The feed line 23 goes through the switch 25 to Line 26 and the rheostat 27. From there, line 28 goes to one end of the Coils 30, 31, 32 and 33. The other end of the coils 30 and 31 is on the line 34, the Gleichritchter 35 and the line 36 with the other side of the switch 25 and the feed line 22 connected. Likewise is the other end of the coils 32 and 33 via line 37, rectifier 38 and line 36 to the feed line 22 connected. The two rectifiers 35 and 38 are connected in opposition, so that each one passes half a wave of alternating current. The windings 30, 31, 32 and 33 are in multiple circuit via the rectifiers 35 and 38 in rhythm the pole change mixes half-wave current fed. Thus, the coils 30 and 31 become and the coils 32 and 33 are energized in multiple connection at the half-waves of each period. This exerts a double-acting force on the armature and on the console 17 to move the frame Io back and forth in its limited, inclined arc. By setting the rheostat 27 you can de voltage for the multiple windings and thus change the vibration magnitude of the device.

In Fig. 5, the field magnets 4 and 4 'are through the field magnets 4o and 4o 'added. Each field magnet has two windings, as shown in FIG and 2 explained. For each of the double-acting electromagnetic oscillating motors includes an anchor 6 and 6 '. They are attached to the frame 42, which is symmetrical to the Central axis 14 lies. The central axis 14 accordingly goes through the center of the frame 42. Such an arrangement can be excited by a single dry rectifier will. In the exemplary embodiment, however, there is a rectifier for each electromagnetic Field provided. The additional oscillating motors need additional lines for their excitement. An additional rectifier 35 'is connected via line 34' connected to windings 30 'and 31', as well as an additional rectifier 38 'with the additional windings 32' and 33 'via the line 37'. In the circuit arrangement 5, the electromagnetic vibrating motors 4 and 4o are excited simultaneously. You rotate the anchor frame in Fig. 5 clockwise. At the next half-wave the electromagnetic oscillating motors 4 'and 4o' are excited. You turn the Anchor frame 42 in Fig. 5 then counterclockwise. It will therefore be a total of eight windings, two for each field magnet, used to make such a double-acting to excite electromagnetic vibrating motor, so that a frame along a limited, inclined arc is set in vibration.

Claims (3)

PATENT CLAIMS: i. Electromagnetic vibrating motor for driving of handlebar-guided conveyors with a circular conveyor track, characterized in that that on a base plate symmetrical to the vertical central axis (1q.) of the system Vibration exciters are arranged, which by a lying in a vertical plane Air gap through on a common anchor firmly connected to the conveyor track act periodically and alternately in phase opposition, such that the armature alternates in opposite Directions receives energy and around the central axis floats around. 2. Electromagnetic vibrating motor after Claim I, characterized in that the air gap plane passes through the vertical central axis of the system is placed (Fig. 3 and 4). 3. Electromagnetic vibrating motor according to claim I to 3, characterized in that the two magnet coils of an electromagnet with a C-shaped core with rectified alternating current are excited in such a way that one of the two magnet coils alternately receives a current pulse for each half-wave of the alternating current. Electromagnetic oscillating motor according to claims 1 and 3, characterized in that several excitation systems are arranged in pairs and complementary with respect to the central axis and act on a common armature, and that the air gap planes run parallel to a plane passing through the central axis (Fig. 5). Documents considered: German Patent No. 703 559; Swedish Patent No. 122 728; British Patent No. 27919; U.S. Patent Nos. 2,374,664, 2,164,216.