DE841473C - Electric vibration motor - Google Patents

Description

Electric vibration motor The invention relates to vibrating or reciprocating electric motors and concerns, in particular such motors, which are used to vibrate conveyor troughs or the like.

An object of the invention is a vibration motor in which the Air gap between armature and electromagnet is easily adjustable.

Another object of the invention is a vibration motor that can be easily disassembled for inspection and repair.

The invention is also directed to a vibration motor that effectively transfers the vibrations to the object to be shaken.

Another object of the invention is a vibration motor from Flat spring type in which the springs and anchor arrangement are slightly from the foot part or the to the jarring object can be removed for replacement or repair.

Finally, the invention is simpler to a vibration motor Design and with relatively few parts that are easily disassembled can, directed. Such a vibration motor can be used for a variety of purposes Find use.

According to the invention, an electric vibration motor is provided, -the a number of leaf springs, one in the middle of the springs attached to the latter Anchor frame with an anchor, a massive motor frame with separate open Slots for receiving the springs, removable; terminating the open ends of the slots and the spring ends against the base of the slots jamming means has, -wherein the spring and the anchor frame are easily removable and one Electromagnet picked up by the frame near the armature: possesses. Other Features of the invention emerge from the description below.

To facilitate understanding of the invention, it will now be referred to described on the drawings. FIG. 1 shows a perspective view of a example conveyor according to the invention, Fig. 2 is an enlarged and partial side view, shown in section, of the vibration motor according to FIGS. 1 and 3 Section along the: Lin @ ie III-III of Fig. 2,.

Fig. 4 is a plan view of. Kien motor frame, Fig. 5 a section along the line V-V of FIG. 4, FIG. 6 shows a side view of a vibration motor with pedestal, FIG. 7 is a rear view of FIG. 6 and FIG. 8 is a circuit diagram of a preferred mode of operation of the device.

According to the drawings, a motor frame i has two C-shaped side parts 2 and 3 which are connected to one another by separate ribs or flanges 4 and provide an open central portion between the side panels. The one-sided open Slots 6 of the C-parts are used to receive a number of substantially flat ones Springs 7. At the front end of the frame are screws screwed into holes io i i clamp straps 8 and 9 attached and press .the spacer blocks 12 and 13 against the springs at their ends so that they are clamped against the end walls 14 of the slots will. In the lower part of the frame are screws screwed into holes 19 18 alignment plates 16 attached to align the lower edges of the leaf spring stack. The number of leaf springs used depends on the body or object to be shaken. from, whereby fewer leaf springs than shown can be used by additional filling blocks, similar to the blocks 12, are attached.

The anchor frame consists of a casting 20 with a yoke 21 or the like at one end and of side parts 22 which are connected at their opposite ends by a foot part 23. A pad or punch head 24 is attached to the foot part 23. The A: nkerggstell is clamped in the middle of the leaf springs 7 between pad 24 and a rotary clamp) loek 25, which is pressed into a clamped connection by a clamping screw 26 in a wall 27 of the yoke part. The armature 28 preferably consists of a number of soft iron lamellas or the like; .which are riveted together or otherwise connected to one another, and is attached to the end pieces by rivets or to angle irons 29 in any other desired manner. The anchor is attached to the anchor foot part by screws 30 which are screwed through the angle iron 29 into the foot part. The electromagnetic magnet 31 has the shape of an E, the spindle 32 being wound around the middle limb. It consists of a number of riveted or similarly held together soft iron lamellas or other metal with low remanence and is riveted to the angle plates 33 and 34, which are preferably non-magnetic and are bolted by screws 35 screwed into the holes 35 'in the inner ribs 36. Angle plates 33 and 34 are slotted at 37 to receive screws 35 to allow the electrical support frame to be moved toward or away from the anchor. In order to be able to isolate the plates 33 and 34 in order to prevent induced currents, isolating washers38 and isolating sleeves39 are attached. A cover 40 is provided for the electromagnet and is fastened to the flanges 40, which are connected to the flanges 4, of the side parts.

Angle plates 41 (see Fig. 2) are rotatably fastened to the sides of the motor frame by means of screws 42 and an annular bar 43 goes through a suitable hole 44 in the plate and through a spring 45. a washer 46 and a nut q: 7, which prevents the Ringstadbe from moving away. In the embodiment shown in FIG. An eyebolt 53 is screwed into the bracket 48 and can be adjusted by a counter mat 54. As can be seen in FIG. 1, the conveyor trough 55 has a downwardly projecting flange 56 which is screwed to the yoke by screws 57 which are screwed into holes 58 in the yoke. The angle plates 61 are = trough welded or otherwise attached and have Rüngsdhrauben 62, which lead through them and through buffer springs. It goes without saying that a suitable other device can take the place of the conveyor trough 55 and be attached to the anchor.

Motor frames turn during operation and! Conveyor by cables, rods or other suitable means suspended on a main beam, being elastic cables for this purpose are preferable to the transmission: of the vibrations to the Carrier; to lower: This is made further by the spring, the limbs 45 and 49 and 63 supports .. The electromagnet is powered by alternating current ,,, chopped direct current or another suitable type of current operated to a pulsating or an alternating magnetic field to create.

In Fig. 8, which is a circuit diagram of a preferred mode of operation, at 65 denotes an AC power source, which: for example, an ordinary Power line is of suitable frequency, and 66 is a rectifier, for example a vacuum tube, but also a plate rectifier od. 4g1 ,. be. can. A Transformer 67 supplies power to filament 68 and resistor 69 im Anode circuit or another suitable stand controls the power supply to the SI> ule 32 of the engine. For pickling the filament before switching on the Suitable switches are used for motors in the circuit. The springs y are together with the Anchor frame and the associated parts matched accordingly to create a resonance to vibrate under the influence of the magnetic field. Thus all are belonging to the anchor Parts, such as the conveyor trough and parts attached to it, are mounted on springs that run through Changing the size and number can be coordinated. These feathers are selected so that the mechanical oscillation system with respect to the influence of the magnetic field can be adjusted so that the mechanical vibration system when the conveyor trough is fully loaded a natural frequency of at least approximately the frequency of the electrical pulsations 'that are fed to the electromagnet. Preferably the weight is the fixed parts, which in the exemplary embodiment consist of motor frame i, electromagnet 31, etc., consist of at least twice the weight of the unloaded, vibrating one Parts and can, under certain circumstances, be three or more times larger than that of the vibrating parts. If, for example, at 3000 or 36oo vibrations per Minute is to be worked, which corresponds to 5o or 6o Hz alternating current, it is preferable, the weight of the solid parts at least three times greater than that of the to make vibrating parts. This design has the advantage that when breaking the Spring leaves or another part of the conveyor trough taken up by a loop Can be removed, the screws 26 and i i - and the broken springs from the Motor frame removed and new springs inserted i and 26 are then tightened, the noose removed and the device restored ready for use. Likewise, if desired, the anchor assembly and the Leaf springs by loosening the screws 57 and i i and by removing the clamping plates 8 can be removed. This embodiment also has the advantage that a massive Foot part can be provided in a relatively small space.

In the modified embodiment according to FIGS. 6 and 7, a foot part 71, which has the shape of an inverted profile member, carries spiral springs 72 which sit on lugs 73 welded to the profile member or otherwise attached. The motor frame i has extensions 74 which rest on the springs to support the motor. At the front end, a flanged base 75, which can be screwed to the floor, receives a post 76 which carries a spring 77 at its upper end. A flange 78 is welded or otherwise attached to the conveyor trough, and angle irons 79 and 81 welded to the flange 78 and a plate 82 form. a support through which the conveyor trough is supported by the spring 77. Appropriate extensions on lug 74, plate 82 and post center springs 72 and 77, providing three point elastic support.

Claims (7)

PATENT CLAIMS: i. Electric vibration motor with a number of leaf springs and an armature frame with armature attached to the latter in the middle of the springs, characterized by a massive one. Frame (i) with separate slots (6) for receiving the ends of the springs (7), each slot being substantially U-shaped so that the springs slide out of the slots and into them across the engine and along the springs can be used. 2. Electric vibration motor according to claim i, characterized in that the open ends of the U-shaped slots with removable means (8, 9) for closing the open ends and for clamping the ends of the springs (7) are provided against the associated base part (14), wherein the springs can be easily removed across the engine. 3. Vi: bration engine after Claim i or 2, characterized by. one or more spacers, blocks (12, 13) between the springs (7) and the removable means (8, 9), at least a block (13) on these means; a curved outer surface engaging these means owns. 4. Vibration motor according to claim 1 "2 or 3, characterized in that the Electromagnet (31) adjustable on the frame (i) by bars (36) and adjustable on these spars attached angle iron (31, 34) is arranged, wherein the electromagnet attached to the angle iron. 5. Vibration motor do one of the previous ones Claims, characterized in that the anchor frame consists of a yoke (21) with Side parts (22) which are united by the foot part (23), the foot part correctly carries the anchor (28) and forms a cushion (24) against which the springs (7) are clamped. 6. Vibration motor according to one of the preceding claims, characterized by suspension means elastically attached to the frame (i). 7. Vibration motor after One of the preceding claims, characterized by adjustable escape plates (16) which engage the sides of the springs (7).