DE869438C - Electromagnetic vibrator - Google Patents

Description

Electromagnetic Vibrator The present invention relates to generally to electromagnetically operated vibrating motors: or those with Fine and here walking motion, in particular, on a vibrator motor with a Anchor element and an electromagnetic field element: which are in the operating position be kept so apart that magnetic coupling between them consists and where, when the electromagnetic field element through its pulsating Current is excited, the armature is caused to vibrate. Vibrator motors of these Art 'can be attached to various objects, such as B. tables, sieves, gutters, Outlet nozzles, containers, funnels and the like., Are attached through which Bulk goods, powdery, or finely divided materials, are supplied, which prone to clogging or uneven flow, if not vibrating means of this type can be used.

The present invention provides an improvement to the vibrator motor as described in American patents 2310185 and 238o622.

That. @imagnetic field element can be excited directly from its power source with an alternating current of 60 periods, which results in 7200 oscillations per minute. If a pier-permanent magnet is used as the armature, then the vibrator motor can be constructed in such a way that it vibrates with 360o vibrations every minute. The same oscillation frequency can also be achieved if one uses an armature made up of lamellas and a rectifier that is fed from an alternating current source. The vibrating element Moder of this kind can be made so that they against. Striking a part (of the. frame. This (results in a direct mechanical shock, which dilent to set the object in vibration. Such contact of metal on metal results in a very loud noise and is very unpleasant for the nerves of Persons who have to work in the vicinity of and on these vibrator motors. The main object and aim of the present invention is to provide a resilient anvil which is independent of the resilient support of the vibrating element and which is arranged in such a way that it Stob of the vibrating element: picks up and causes the same to transmit the vibrations noiselessly to the frame of the object.

Another goal is ies, a rubber anvil for the; Shock of the .swinging Provide a member of a vibrato: rmotor to control the oscillation amplitude and vibration to enlarge dreary engine.

Another aim is to have a rubber diamond in a vibr: atormoitoir to be provided, which can be adjusted so that the characteristics of the engine Vibration can be changed. The present invention provides an electromagnetic Vi, brator before with (one to be attached to an object to be set in motion. S, oekel, also a vibrator motor @ including its anchor element, an electromagnetic one Field element which is built in so that it is possible to operate at a distance is held to the mentioned anchor element and _due to a magnetic coupling between them also forms means for: one of the elements mentioned on the base to attach, said vibrator comprising leaf springs, which in their middle Moder close to it are attached to the mentioned base, spring holder, the next attached to the outer ends of said leaf springs for supporting the other of the vibration elements mentioned; finally resilient anvil remedies that are relative attached to one of the elements mentioned and arranged so that they are for Effect come, we = the other element mentioned is set in vibration.

The present invention further comprises an electromagnetic Vibratos with a base that is attached to an object to be vibrated can be a vibrator motor including leg armature element, an electromagnetic Field element, which is kept at a distance from the mentioned anchor element during operation is that there is a magnetic coupling between the two, means of attachment one of this mentioned elements on the base, the mentioned field element on the mentioned Sorckel and the mentioned anchor element. your flexible limb attached i, st and in which an anvil is provided at each end of the base Stand between the ends of each pedestal, arranged facing each other elastic - spring holder. aligned by the movable element to each stand be worn. a set of blue feathers, üie (on each stand in their center or attached nearby and: the ends of which are arranged in each holder: are, and -a resilient Amb, outdoor equipment, such as B. a rubber pad attached to the anvil on each side of each the mentioned stand attached for the purpose of contact by the mentioned leaf springs is.

The present invention also includes a vibratos having a Base element and: a movable element, an @electromagnetic field on the base element and an anchor on the movable element, resilient means around the movable: element to wear relative to the base element in such a way that the armature is spaced in the operating position from the: electromagnetic field, has a pocket in the @ mentioned movable Item and load weights in the mentioned bag, which will help that Set the natural frequency of oscillation of the movable element mentioned.

In the following, the present invention is intended to be referred to the drawings are described and explained in more detail.

Fig. I is an end view of an electromagnetic vibrator motor; Figure 2 is a side elevation of the vibrator motor as shown in Figure i; Fig.3 is a Front elevation of a modified form of the vibrator motor; Fig. 4 is a side elevation of the construction according to Fig. 3 and Fig. 5 a Dietailrißer a modified form of the elastic (resilient) Anvil of a vibrator motor.s. As FIGS. I and 2 show, the vibrator motor is mounted on the base i designed as a hollow box, which at its ends, as indicated at z, j is open and at 3 has an "intermediate window. This The lower part of the base is provided with suitable holes 4 to attach the base to to screw on the object to be set in vibration. -The upper part 5 of the base carries an anvil 36 at each end and the electromagnetic field coil in the middle 6, which surrounds the central core 7 of the E-shaped, lamellar magretic Core element 8 is arranged, which -latter attached within the Siockelelements is. Each of the three. Pole goes up through the cover plate 5. The three Pole faces of the field core element are kept at a distance from the armature 9, which is stored in the hollow vibrator element i o, the latter in relation to Base spring-loaded (is.

In the construction which is shown in FIGS. I and 2, the oscillating element has a recess ii for receiving the encapsulated electromagnetic coil 6 at the appropriate distance from it. The ends 12 of the vibrating element have the shape of a hood or show -in cross-section the shape of an inverted U; they are also provided with outwardly lengthened flanges 13 which are reinforced by the ribs 14 between the flanges and the body of the vibrating element. Each of these flanges 13 covers the corresponding anvil element at the end of the hump element. The undersides of these flanges are in the same plane and are provided with a hole for receiving the spring retainer bolt.15.

The base is provided with a stand 16 on both sides, vein consists of a stud bolt with a thread at both ends. Each of the Studs 16 goes through your opening in the base and is on hers the lower end fastened by the nut 18. Immediately above the anvil is that Sift the stand 16 with a spacer block 2o on which a series of leaf springs 21 is arranged, which have holes in their central part so that they; on the Stand 16 can be pushed up; above are the feathers through the central Spring clip 22 held. Shims can be used on both sides of the leaf springs are to adjust this = same vertically on the stands 16 correctly.

Immediately above the clamp 22 is the pin: screw 16 with your nut 23 on which a washer 24 rests to receive the helical spring 25. The stud screw 16 then goes through your opening in the ends 12 of the oscillating element and is set up to accommodate the upper spring element 26, the washer 27, the nut 28 and the counter nut 29 . In this way, the coil springs 25 and 26 support the vibrating element and the armature arrangement resiliently against the base. Diesel springs steal enough under pressure to tune the vibrating door motor's mechanical oscillation system. The leaf springs 21 have open slots at their outer ends in order to receive the bolts 15. The undersides of the flanges 13 carry the spacers 30, which keep the leaf springs 21 at a distance from the vibrating element. On the underside of the leaf springs 21 hold: the bolts 15, the spring clamp arrangement or leaf spring clamps 31, which are made from a rubber pad 32 between: the metal clamp 33 and the washer 34, which are held together by the nut 35.

The base is on the inside or on the resilient leaf spring holder 31 i provided with your rubber anvil 36, which is on the upper side of the plate 37 is vulcanized, which latter is fastened to the base by bolts 38 b =. These Rubber diamonds can be adjusted between the stud screw 16 and the resilient holders 31 and are designed to sit on the underside of the leaf springs 21 lay down. Diiesie Gurnmiambossie provide your vibration damper for the vibrating Element i o, which absorbs the thrust of the movement of the latter,,, and each prevents metallic impact between the moving parts and the base, whereby Impact noises can be avoided in this vibrator motor. Those springy anvils have another function, namely a more rapid decline of the moving to cause vibrating element.

This vibrator motor is preferably operated with up to 36oo vibrations per minute. 3,600 oscillations per minute are obtained by: using an armature in the form of a permanent magnet or by using a rectifier connected in series with the electromagnetic field current. This rectifier can be your tube rectifier or a dry rectifier for just its curve branch. The vibrating element would fed erloden network 3ooo oscillations per minute result, although D or by using a half-wave rectifier consisting of silken your permanent magnet armature can also be obtained i5oo oscillations per minute; directly from a 25-P.

In the Kon shown in dden Fig.3 and 4; Structures, the studs 16 are replaced by the bolts 40, and the latter are arranged in such a way as to clamp the centers of the leaf springs 21 between the spacers 20 and 22. Shims are used between the spacers and the leaf springs 21 in order to correctly adjust the springs relative to the base of the vibrating element. In the vibrating element 10 of the construction shown in FIGS. 3 and 4 d, the end parts and coil springs have been removed; they are intended to be in the same plane as the intermediate part of the housing, as indicated at 42d, in order to accommodate the weights 43 which extend the entire length of the housing and can vary in thickness. The weights 43 can be added to the weight of the vibrating element io more loosely removed from it in order to achieve the desired size of the oscillation and natural frequency. Of course, it is necessary to provide the correct number of leaf springs 21i according to the load on the weights 4.3 for tuning the vibrating element.

In the construction shown in Fig. 5, the resilient spring holders are 31 replaced by the coil spring holder 5o, while the resilient anvil 36 by dthe coil spring anvil 51 has been replaced. To muffle the noise, @ it is preferable to a rubber cushion 52: to be used at the top of the coil spring amb, oß 5 i.

By using coil springs or rubber of various degrees of softness, it is possible to create an anvil which has a considerable influence on the vibration characteristics of this vibrator motor. It is also possible to change the vibration characteristics in one sitting, the location of the resilient anvils relative to the Stiftschraubie 1 or 6 serving bolt 40 changes.

Claims (1)

PATENT CLAIMS: i. Electromagnetic vibrator, consisting of your base, which can be attached to an object to be set in vibration,: an anchor element, - an electromagnetic field element, which is kept at a distance from the anchor element mentioned in the company, so that there is one between them To create magnetic coupling and means of bio-fastening the linen ider iex-mentioned elements, on the base, characterized, that leaf springs are attached in their middle or close to the base mentioned, spring holders next to the outer spring ends are attached to the latter domanderen of the aforementioned swing element, and resilient dampers are attached relative to its of the mentioned elements to come into contact with the other member i or Iden leaf springs when the vibrator vibrates. a. Vibrator according to claim 1, characterized in that the above-mentioned resilient anvil means is formed sio a; @ that they swing; touches the leaf springs in points which are located between their bio-attachments on the mentioned base and the above mentioned spring holders .. 3. Vibrator, according to claim i or z, characterized in that idxe mentioned spring halfier ian, the ends of the mentioned leaf springs are arranged. 'q .. Vibrator according to claims i, a or 3, characterized in that each end of the:, mentioned base carries a stand and that the mentioned leaf springs are fastened in their middle to each @dveser stand. 5. Vibxator according to one of the preceding claims, characterized in that idiie mentioned resilient Ambioßmittel- are arranged next to each spring holder. 6. Vibrator, according to one of the preceding claims, characterized in that said resilient Ambioßmttel consist of rubber cushions. 7: Vib ator according to one of the preceding claims, characterized in that the mentioned field element i on the mentioned base and the mentioned anchor element on: a movable one. Member, and an anvil at each end of the base and a post between the ends of each anvil, said spring holders being held in alignment with each post by the movable member. B. Vibrätor according to claim 7, characterized indicates overall that each upright mentioned by the adjacent Endedles movable member passes! And opposing springs Üurch be worn every column and are connected to the beweglichten element into contact. Vibrator according to claim 7 or 8, characterized in that a stand is arranged at each end of said base, further a seat is provided on said movable element on each side of each stand, one of the aforesaid resilient spring holders being attached to each seat is that the ends of said leaf springs are located between their respective seats and holders and that said seats extend towards said uprights so as to partially overlap said anvil means. 1-o. - Vi @ brator according to claims 1 7, 8 i or 9, characterized by a pocket in the mentioned movable element and loading weights in the mentioned pocket, which help to determine the natural oscillation of the mentioned movable element.