DE2016777C3 - Spiral vibratory conveyor - Google Patents

Description

The invention relates to a spiral vibratory conveyor of which the upper ends of several inclined leaf springs attached in a circle to a base, optionally with a reaction compound and are connected to a vibrating vessel, the vibrating drive being provided on the axis of symmetry.

In a generic vibratory conveyor (US-PS 33 22 260) is the reaction mass, apart from that Space for a central magnetic drive unit, designed as a full letter. The springs extend while outside the outer circumference of the reaction mass and also outside the support plate of the oscillating vessel. The springs are thus arranged relatively far from the axis of symmetry. To a mutual To exclude negative influence, radial attachments are provided on each disk, on which the upper ends of the leaf springs are screwed on. Therefore, the diameter of the reaction mass must also be larger than that of the vibrating vessel if the equality on the one hand of the mass (active mass and reaction mass) and on the other hand, their moments of inertia are to be ensured. The vibratory conveyor is demanding hence a relatively large space. In addition, the efficiency becomes small as the way the angular displacement of the edge of the vessel is at most equal to the displacement of the ends of the vessel bearing springs can be. The engagement of the springs radially outside the circumference of the disc also leads to great stress on the springs and thus premature signs of fatigue.

It is therefore the object of the invention to avoid these disadvantages and the spiral vibratory conveyor To improve the genus specified at the beginning so that the space requirement with a simultaneous increase in performance and its service life is significantly increased. 6s

This object is achieved according to the invention in that the reaction mass is an annular disk is formed, within the central recess of which the leaf springs protrude, with their outer diameter is smaller or at most equal to that of the container.

'' With that it is impossible to get the leaf springs very close to the bring the central axis of symmetry closer and reduce the degree of fatigue of the feathers. By the Leaf springs are passed through the reaction mass. they can be attached to the base under the vibrating vessel, so that its diameter and thus the space requirement can be considerably smaller than with the previously known designs. Should the space requirements do not play such a decisive role, significant increases in performance can be achieved, because the position of the leaf springs is independent of the outer diameter of the reaction mass. The Possibility of leading the chute for the conveyed parts down on the outside of the vibratory conveyor without that interfere with other conveyor parts. The discharge can take place almost vertically, so that all difficulties are switched off with regard to further transport. There is also a simplification at assembly.

A preferred development of the invention consists in the fact that the annular disk has internal grooves in which it associated leaf springs are attached, and has further internal grooves. through which the on a support plate of the The leaf springs attacking the oscillating vessel protrude through the washer.

By suitably designing the internal grooves through which the leaf springs of the support plate protrude, the maximum amplitude of the vibrations can be limited by adjusting the travel of the leaf springs is kept within limits by stopping against the inner groove walls of the annular disk. The stress on the This can significantly limit springs and slow down fatigue.

According to another embodiment, lugs or blocks can be attached to the central opening of the annular disk be provided, on which the leaf springs are attached or guided past. This allows a simplification achieve in manufacturing.

An exemplary embodiment according to the invention is described with reference to the drawing. It shows

F i g. 1 is a schematic perspective illustration of the exploded in the axial direction main components of a device,

2 shows a vertical axial section through the suspension part of the device,

F i g. 3 shows a plan view of the base of the device.

From the drawing it can be seen that the device, i.e. the vibratory conveyor, consists of a cylindrical There is a vessel 1 with a conveyor helix which is not visible and is arranged inside; this vessel 1 is open a support plate 2 attached. These parts together form the useful mass; they are with the base 3 of Relatively light construction connected by interposed, elastically deformable spring tongues 4.

The reaction mass consists of a relatively heavy ring body 5, which is just below the Support plate 2 is arranged and is connected to the base 3 via elastically deformable spring tongues 6. The useful mass and the reaction mass make oscillating movements about their axes along a path corresponds to a helical section.

The attachment point ^ c of the lower ends of the Spring tongues 4 and 6 consist of support blocks or retaining projections 7 and 8 of the base 3, iie along one Circumference C (Fig.3) are arranged, the center of which on the common axis of symmetry of

Groove / mass and the rcakiionsmassc is.

The upper ends of the conveyors 4 protrude with play through grooves 9 on the inside of the crane 5 beyond these freely and are set on blocks or projections SO that are attached to the underside of the Support plate 2 sit.

The attachment of the spring tongues 6 on the washer 5 takes place in inner grooves 9 'of the annular disk, which correspond to the grooves 9 but are symmetrical with respect to them are offset; however, it is clear that this attachment can also be done in any other way could, for example, with the help of approaches or blocks that sit on the washer and the blocks or projections 10 on the underside of the support plate 2 are similar.

The angle of inclination which a spring tongue encloses with the plane of the base 3 is the same for all spring tongues 4 and 6. The arrangement or alignment of the spring tongues 4 and 6 is such that all the spring tongues are tangents to a straight circular cylinder surface at one point of their extent, the center of which lies on the axis of symmetry xy , which is common to the useful mass and the reaction mass (Fig. 2 ).

The useful and the reaction dimensions are the same and the same spring tongues 4 and 6 are used to support them; the difference in the The height arrangement of the resiliently supported parts is made with the aid of the blocks or projections 7 and 8 balanced.

The arrangement of the spring tongues relative to the useful weight and the reaction mass makes it possible without impairing the guidance of this spring Bring reaction mass particularly close to the useful mass.

The spring tongues are also fastened without expensive additional fastening parts; she requires only a minimum of processing of the spring tongues.

Finally, it is possible to attach a protective cap 11 to attach the base 3, regardless of their weight and without the need for balancing arrangements to have to provide, since such a cap in no way affects the mechanical vibration tuning of the device or the vibratory conveyor acts. For this reason, the protective cap 11 can be used without disadvantage to accommodate the electric vibration drive, which is in this Can arrange cap.

As with most known vibration devices, the excitation forces between the useful mass and the reaction mass introduced or exercised

It is now possible (see. Fig. 2) using an electromagnet as a vibration generator, the exciter coil is located in the direction of the axis xy 12 and is fixedly connected to the support plate 2, while the F.lektromagnctanker 13 is connected fixedly to the ground rim 5.

Of course, the vibration forces can also be electrodynamic, mechanical, be pneumatic, hydraulic and similar forces.

Finally, the vibration spring tongues 4 and 6 be replaced by packets of spring leaves, which are stacked and made of steel, wood, bronze, made Glass fiber material or, more generally, consist of any elastically flexible material.

1 sheet of drawings

Claims (3)

Paichtunprüchc: 1. Spiral vibratory conveyor, of which the upper ends of a plurality of oblique leaf springs fastened in a circle on a base are alternately connected to a reaction mass and a Schw.nggcfaß, the vibratory drive being provided on the axis of symmetry, characterized in that the reaction mass is an annular disk (5 ) is trained. inside their central recess tfie \ leaf springs (4, b) . _;; ^ where their outer diameter is smaller or at most equal to that of the container (1). 2. Spiral vibratory conveyor according to claim 1, characterized in that the annular disc (5) Inner grooves (9 '), in which the leaf springs (6) assigned to it are fastened, and further inner grooves (9) through which the leaf springs (4) acting on a support plate (2) of the oscillating vessel (1) the The ring washer (5) protrudes. 3. spiral vibratory conveyor according to claim 1, characterized in that at the central Opening of the washer (5) lugs or blocks are provided on which the leaf springs (4, 6) are attached or passed.