DE335056C - Device for eliminating or damping mass vibrations - Google Patents

Description

Device for eliminating or damping mass vibrations. The invention relates to the formation of devices which, according to the patent 321994 System changes by alternately increasing and decreasing the pale or moments of inertia of mass systems and especially for such Systems that carry out torsional vibrations are suitable.

The exemplary embodiments of the invention are shown in the drawing.

According to Fig. I and: 2 of the drawing, a disk is on a shaft i 9 attached, the mass of which is alternately increased and decreased that a second disc 13 loosely rotatable on balls, for example by means of a helical spring 1: 1 is positively coupled to the first disc g.

At the junction 15 of the spring 14 and the washer g can for noise dampening air buffers or spacers 25 made of wood, leather, felt and similar noise-dampening materials should be present.

If the shaft i and the disk 9 fixed on it start to vibrate, thus the connection of the helical spring 14 with the disk 9 is alternated repealed and restored.

The through the junction 15 of the coil spring 14 and the fixed Disk 9 mass effect transferred from the loose disk z3 to the fixed disk must therefore alternately stop or at least change according to the spring tension, whereby the vibrations are disturbed and therefore do not reach critical values can.

The device can be produced particularly easily and simply and quickly attach to systems that have already been completed or put into operation are, and acts in both directions of rotation of the shaft i, because on the helical spring 1.4 two stops 28 for both sides of the connecting cam 15 are present.

In the variant according to FIGS. 3 and 4, however, the helical spring 14 is clamped between the cams 15, 38 of the disks 9, 13 and lies on the cam 15 the disk 9 only on one side with a force fit. The one to attach the spring 14 The cam 38 present on the loose disk 13 lies loosely on the fixed disk 9 on when it is at rest, as indicated by the dashed offset of the cam 38 is indicated, and must therefore lag along with the loose disk 13 when the shaft i and the fixed disk 9 rotate in the direction of arrow 29. Device the Wave i vibrates, so the disk g can strike against the cam 38, whereby the system vibrations are disturbed.

According to FIGS. 5 and 6, a disk 13o is axially displaceable on the shaft i and secured against rotation. On the end face of the disk 130 , projections 16 are provided at a regular distance parallel to the disk circumference, which projections run against fixed stops when the disk 130 is circumnavigated. in the illustrated embodiment from rollers 1; exist. which axles 18 are rotatable. By bonding the projections 16 against the rollers 1; the disk 13o is axially displaced clockwise and thereby tensioned a coil spring arranged between @einein adjusting ring 2o and the disk 13o, which pushes the disk back into the position shown after one of the projections io at a stop i; is over- @ regangen.

1 The arrangement and number of projections and stops can be similar to the brands of music sheets of mechanical llusikxverke. manifold kind and z. B. also be interchangeable, which is the case in the illustrated embodiment by arranging the projections 16 on special ones that can be easily removed from the disc 13o Plates could happen.

Through this exemplary embodiment of the invention, a certain The cycle of system changes can be enforced in a particularly simple and reliable manner.

According to Fig.; and 8 is a disk on the adjusting ring 2o of the shaft i 13 rotatable on balls and with axial displacement of the disk i .-, o with this is coupled and released again in a tactile fashion by means of frictional force.

By coupling a loose 'let 13 finite axially displaceable disk 130 , the system changes are considerably more effective than through the mere axial displacement of disk 13o of the device according to FIG. and 6.

llan can also arrange the additional mass 13o of the device according to FIGS. 5 and 6 loosely on the shaft i and alternately couple and uncouple it with the adjusting ring 2o. In this case, the spring 19 between disc 130 and collar 2o except the uncoupling also take away the _Nockenscheibe 130 must cause.

According to Fig. 9, projections 17 are tooth-like ain the circumference of one on the Shaft i fixed disk o arranged, in the area of which electromagnets 13 1 approximately tangentially or are displaceable concentrically to the circumferential direction of the disk o, so that the protrusions 1 made of niagnetable stoa; when rotating the disc 9 the magnets 131 counter to the tension of those wound around their Fühningsbolzen21 Moving springs 22 as a result of magnetic infiuence according to the magnetic force. as soon as they enter the force field, and release again when they move out of the Have removed the force field of the magnets 131, d. 1i. when tooth gaps in the force field have occurred.

The excitation current for the magnets 131 can be interrupted clockwise, to keep a certain rate of system changes, and can be z. B. by Do not switch on the rotation indicator of shaft i until the system reaches the critical Rpm reached.

The magnets can be connected to ordinary gears like those on revolving Svste-.nien for power transmission are common, cooperate and therefore enable the use of the invention of the main patent 321994 without any change of form the timla: tifenclen parts of a system.

According to Fig. 1o are radial on a disk g fixed on the shaft i movable mass pieces 132 articulated by means of pins 2o and are by an between their facing sides engaging, fixed, non-circular disc 23 alternately moves radially against the tension of the common return spring 24, causing changes of the moment of inertia of the disc 9 and thus system changes in certain cycles enter.

The disk 23 is attached to the carrier 26 and has in the middle a hole 2; for the passage of the wave i.

This device is characterized by a simple arrangement and can even on already used, circulating mass systems relatively quickly attach.

The periodic movement of the mass pieces 132 can also be arbitrarily other way than by a non-circular disk 23 effect.

A further embodiment of the invention is that according to FIGS. 11 and 12 at least one container 31 is attached to any part of the system, which is filled with balls or similar easily movable mass pieces, which act just like the movable, except for a small margin "Frictionally connected to the system and independent of its direction of movement or direction of rotation" let 13 of the embodiment according to FIGS. i and 2. Lead balls move fairly silently. -Multiple containers 31 can be arranged diametrically opposite one another. 11 According to FIGS. 13 and 14, at least a resilient hammer 32; can also be introduced into the disk 9, which on one side rests against an anvil 15 fixed to the disk d. Diametrically opposite 12, a second hammer can be present in order to maintain equilibrium, which rests against the anvil i. # In the opposite direction of rotation. : o because (i the torsional vibrations in both rotating devices are disturbed.

Claims (1)

PATENT CLAIMS: i. \ device for eliminating or attenuating 'letschwingullgeil. especially Drehuchwingurlgeii. according to patent "21994th thereby marked. : let .with your oscillating system a 'loose or cushioned' let (13) is alternately coupled non-positively and released from it. orrichtunz after Claim i. characterized. rlali one on a rotating mass t t) axially displaceable mass (130) by means of protrusions # 16). those against fixed attacks (i;) start up. and a reset element (19) is adjustable (Fig. 5 and 6). 3. Apparatus according to claim =. characterized. (let: I the Mass (i 3o) for each Htlb with a mass (13) that can be loosely rotated on the shaft (i) clockwise coupled and uncoupled again (Fig.; and S). Apparatus according to claim i. dagekmarks, characterized in that a revolving 'let (9) clockwise with tangential or concentric to the direction of travel can be moved (131) manetically is coupled and uncoupled again (Fig. 9). Device according to claim 4 .. characterized by a rotating between movable and resettable magnets (z 3 i) Toothed disc (9) made of material that can be magrietizable (Fig. 9). f. Device according to claim i, characterized by a rotating mass (9) with articulated clockwise movable Bulk pieces (i32) (Fig. Io). ;. 1 "device flat claim 6, characterized by pendulum pieces (i32) articulated on a rotating mass (9), which through a fixed cam (23) against the tension of a return spring (24) are alternately pushed radially outwards and swing back again (Fig. to). B. 'Device according to claim i, characterized in that the Systerr at least one container (31) is attached, which with easily movable mass pieces, such as B. lead balls, until a small margin is filled (Fig. I i and 12). 9. Device according to. Claim i. characterized by at least one arg System fixed, resilient hammer (32) (against one fixed to the system. Ainbo; (i5) Lay down and open up karlr (Fig. 13 and .4.).