DE648127C - Conveyor chute for the conveyance of bulk goods by means of fast, mainly elliptical vibrations of small dimensions - Google Patents

Description

Conveyor trough for conveying bulk goods by means of faster, primarily elliptical. running vibrations of small dimensions. To promote Bulk goods are often used conveyor troughs, which in rapid oscillations of relatively small dimensions are offset. It has been shown that for this Type of funding Oscillations with an approximately elliptical course are particularly advantageous are. However, the generation of these vibrations and their transmission to the channel is relatively difficult. The repercussions of the oscillating movements also occur in many cases on the foundations and through further transfer, for example, to the buildings in which the conveyor troughs are uncomfortably noticeable. It has been attempted to limit these repercussions as much as possible, mostly by the fact that several masses with a phase shift of iäo ° were allowed to run against each other, but these measures have not been satisfactory either.

Attempted by the conveyor trough according to the invention tvir d said N acliteile to be avoided by causing them to vibrate in spite of extremely simple vibrations flawless generation of the desired elliptical vibrations on the conveyor trough enables. In addition, due to its special arrangement, it can also be any one Adjustment of the position of this ellipse in space and any change of the Axial ratio of the oscillation ellipse. This advantage is particularly important because thereby the vibration can be adapted to any material, because each material generally requires a different position of the ellipse mentioned, if the promotion with the highest possible efficiency. should go ahead.

The disadvantage that the repercussions of the vibrations to the outside should also be transmitted through the conveyor trough according to the concept of the invention be avoided. The special type of suspension of this conveyor trough leaves a such a transfer is practically impossible at all.

The formation of conveyor troughs according to the concept of the invention is essentially that a mass, which expediently corresponds in length to the length of the conveyor trough, is suspended in soft springs. The excitement attacks you on it, if possible in the form of a simple circumferential imbalance. The actual conveyor trough is also located on it. The two are connected either by trailing arms or by connecting rods that are hinged to both parts. In both cases, the connection allows a movement that is essentially only in one direction between the said mass and the conveyor trough. Become inelastic Handlebars used for the connection so there is still an elastic connection between rule mass and conveyor trough approximately in Fo from intermediary screw fairy added. This elastic connection lcan @ e- but also in the case of use, n elastic trailing arm springs applied who ii :. Two embodiments of the inventive concept are shown schematically in the drawing. Fig. Z - tends to use trailing arm springs between the mass and the conveyor trough. In your example according to Fig. 2, there are rigid links in place of the link springs, which are supported by the arrangement of coil springs.

The conveyor trough u in Fig. R rests with the angled trailing arm springs b on the ground c. The latter is expediently about the same length or even around one slightly longer than the conveyor trough a. For the attachment of the trailing arm springs b are Provide corresponding side parts of the mass c, while the zzvisclzenlying Space can remain free. This results in an approximately frame-shaped design of the 'let c. Of course, however, the training can also be of a different type.

Approximately in the middle part of the mass c is the vibration exciter, which essentially consists of a disk d with an eccentric -Mass e is provided and rotates around shaft f. The drive may be through one '.Motor to which shaft f is connected by a - cardan shaft. However any other type of transmission of the necessary rotation is also possible. Appropriately there is such a disk on both sides of the 'let c' the rest of the centrifugal forces behler imbalance masses if possible through the center of gravity the mass c passes through it and also, if possible, through the center of gravity of the conveyor roller a vertical plane laid through it.

Due to the suspension of the mass c in soft coil springs g becomes achieved that this mass is seen to a certain extent as floating in the murmur can. The softness of these springs means that the resonance is relatively low is and as a result, the operation is quite considerably above the resonance plays. The repercussions at the feet of the springs facing away from your frame c g are so insignificant in these states that they are practically negligible.

If one proceeds from the just proven assumption that the Mass c, so to speak, floats in the Raulzte, then it would when the disk rotated d perform circular vibrations as a result of the centrifugal forces that occur, if the channel a supported on it is initially disregarded.

2 iclilicli, however, influences the latter the movements, ii-en der 'lasse c. This effect can be very different, depending on whether the speed of the Disk d above or below or also in the vicinity of the resonance of the Sclt @ vitzgungssvstetns is formed from derRinnea, the mass c and the intermediate suspension will.

] in one case, the groove becomes a mainly due to its inertia works. The circular vibrations of the cup c are then influenced as follows: That component of the circular oscillation that goes in the direction of. of the feathers, works the inertia of the channel a against, so that the circular oscillation in this direction is flattened. The influence is in the direction stilting perpendicular to this almost equal to zero, because the movement of the channel in relation to the mass is - of course depending on the resonance - more or less unhindered. The movement of the crowd So c changes into an ellipse. However, an elliptical movement is also created the conveyor trough a. This follows from the fact that the modification of a Circular oscillation into an elliptical oscillation through an oscillatable mass always an elliptical oscillation of this last-mentioned mass must result.

On the other hand, it can happen that by approaching the Resonance without getting close to it itself, an increase in movement between conveyor trough a and mass c straight in the direction perpendicular to the link springs b is caused. Here, as one can easily explain, "also an elliptical movement of the conveyor trough a arise, but the achaenic ratio becomes of the elliptical oscillations compared to the previously described case with otherwise the same relationships just be reversed, d. H. the direction of the major axis will be roughly that of the minor axis of the former case and vice versa.

Jan already has it in hand, the paths of the individual Ellipses more or less arbitrarily according to the material to be conveyed to be able to choose. These setting options can be increased by inan the inclination of the trailing arm springs b changes. However, there are still other possibilities the design according to Fig. 2.

Here, too, a mass c is excited to vibrate by a disc (t provided with an L 'imbalance) which is practically imperceptible to the outside due to the suspension in soft helical springs g In this exemplary embodiment, however, not by means of trailing arms b, but by means of trailing arms h. The latter are connected to the conveyor chute a by the joints i and to the mass c by the joints k.

The articulated connection between the conveyor trough a and the mass c alone is not sufficient, however, as can be seen from the above, in order to achieve the desired goal. Rather, an elastic connection must be added. This is realized in the embodiment by two helical springsf and m, which on the one hand attack a pin n, which is attached to the conveyor trough a, and on the other hand, are held by an abutment o or p, the latter resting on the mass c , so that the springs are also connected to this mass: The links lt work together with the coil springs in the same way as the link springs b do in the first embodiment. Appropriately, you will connect the abutments o and p to each other and give them a possibility of displacement on the mass c. If you move the abutments, you get a correspondingly changed position of the link h in the rest position, so that you have it in your hand according to the above, the position of the oscillation ellipses of the conveyor trough a. to change. The other adjustment options mentioned above naturally remain in place alongside.

In the second exemplary embodiment, control arm springs, for example as shown in Fig. I, can also be used in place of the control arm h. The coil springs L and m then act as additional suspension and, similar to the links h, result in a corresponding inclination of the springs when the abutments o and p are moved.

By adjusting the oscillation ellipses can not only achieve that the material to be conveyed is conveyed with the highest possible efficiency, but you can even achieve a change in the conveying direction without the direction of rotation of the disk d must be changed.

The position of the conveyor trough in relation to the frame-like mass is on arbitrarily. It is useful, however, that the focal points of these two parts are not too far apart, otherwise additional movements will occur, that could be disturbing. One is therefore the handlebars or the in such cases Arrange trailing arms between these two parts so that the conveyor trough is approximately lies in the same horizontal plane as the frame-like mass, so that the latter actually surrounds the conveyor chute, for example, like a frame. This:; arrangement is also therefore an advantage, because then the resultant of the excitation in the common center of gravity attacks the conveyor trough and the frame-like mass.

Claims (1)

PATENT CLAIMS: i. Conveyor trough for conveying bulk goods by means of the vibrations of .small dimensions are faster, mainly elliptical. which is resiliently supported on a vibrating base, characterized in that that the conveyor trough with the aid of elastic means with an approximately frame-like Ground is connected, which contains the vibration drive and in soft springs, in particular Coil springs, is suspended so that it floats in space, as it were. z. Conveyor trough according to claim i, characterized in that the channel with the frame-like mass by means of elastic or rigid links working together with elastic aids is connected, the oscillating movement of these two parts to each other essentially allow only a straight line or a circular arc approximated to it. 3. Conveyor trough according to claim i and a, characterized in that the inclination of the handlebars and thus the position of the elliptical oscillation path is set in that a or several auxiliary springs between the gutter and the frame-like mass by modification cause their bias a corresponding displacement of both parts to each other. q .. conveyor trough according to claim 1, ä and 3, characterized in that the link between the gutter and the frame-like mass of individual, expediently at rest vertically standing leaf springs exist. 5. conveyor trough according to claim 1, a and 3, characterized in that the link between the channel and frame-like mass consist of individual rods articulated to both parts, the vibrations enable both parts to each other by using elastic aids, for example coil springs, work together.