DE2211480A1 - SHOULDER SLIDE - Google Patents

Description

Shaking slide (addendum to patent .... patent application P 21 33 838.5) The invention relates to a shaking slide, the conveyor of which on a support frame stored and by a drive device parallel to the conveying direction in the non-uniform translational shaking motion is movable.

As is well known, shake slides belong to the so-called system according to their system Vibratory conveyors. The hallmark of the Schüttelrutschen is that the Wurkennzahl is always smaller than one, i.e. the conveyed item remains during the conveying process always in connection with the conveying surface.

With such shaking slides, the maximum acceleration is usually chosen during the hanging so that the frictional connection between the conveyed and The conveying surface is not canceled, i.e. the material is moved forward at the speed of the slide will. In the Delay in slipping down or down the frictional connection is overcome, and the conveyed material moves as a result of the inertia forces sliding on the conveying surface in the conveying direction. As drives for the different Itin - and decrease acceleration are e.g. cam disc gears or similar Gear used.

Such shaking chutes are used to promote lumpy or granular or powdery material.

Failure when pumping jelly-like, i.e. wobbly conveying greens such shaking slides.

Vibratory conveyors are also known, in which the vibratory movement in the conveying direction a component of movement occurs perpendicular to it, namely in such a way; that when moving forward, the gutter and the goods are raised and the maximum vertical acceleration is greater than the acceleration due to gravity. So it stands out with the vibrating troughs Material to be conveyed from the bottom of the channel if the vertical, downward-facing The channel acceleration exceeds the amount of the acceleration due to gravity. The good will mainly moves in so-called micro-jumps and comes during each oscillation period only briefly in contact with the gutter. It is obvious that also through vibrating channels of this type do not promote a jelly-like product; can be.

In addition, both the well-known vibratory chutes and vibratory feeders are uneconomical to operate because of the conveyor for the purpose of exchange or repair or cleaning dismantled from the support frame in time-consuming work and must be separated from the drive device.

These disadvantages are after the main application by a pendulum-like Suspension of the conveyor on the support frame avoided.

It serves as an advantageous further development of the vibrating chute the 1? conveyor can be moved relative to one another in the translatory shaking path Rolling bearing elements each with opposite the running radius of an associated rolling element larger radii of curvature formed tread elements liftable against the support frame is supported and the drive device moves the conveyor in the free shaking back as well as --orhub are assigned to means accelerating abruptly against the direction of funding Because of this structurally simple measure, a promotion of jelly-like is also possible Good and other difficult materials, for example light substances such as powder, Cotton and the like., Possible by the good due to its inertia and the relative low friction between the ihlli and the conveyor, this initially does not apply to the impact can follow, so that there is a relative movement between the goods and the conveyor, i.e. the material to be conveyed slides down the conveyor in the opposite direction to the impact direction. even. the shock is also the one that is mounted on the support frame, swinging like a pendulum Conveyor set in oscillation, whereby the speed of the conveyed material increases during this oscillation the speed of the conveyor or its conveying surface aligns. This is done on the one hand by the force that is still present Friction is transmitted, on the other hand by the fact that the movement of the conveyor surface slows down. When the pendulum has finished its way, point the conveyed goods and The conveying surface has the same speed, so that at standstill, i.e. change from going down to going down the conveyed material does not slide further in the direction of oscillation, since it has become part of the pendulum, it becomes part of the pendulum transfer kinetic energy to the conveyed material.

This kinetic energy is first converted into static energy and is released again when the pendulum swings back.

When braking, the energy contained in the conveyed material is set in motion implemented or the movement is only slowed down by the friction. Get lost the force formed by the product of the coefficient of friction times the weight of the wet as well as the kinetic energy generated by the product of the channel weight and pendulum height is formed. By being able to keep the gutters very light - they need to be claimed only ai'f train and can be stored at any number of points - the dead weight is lower than with conveyor troughs of previous designs and enables a lightweight construction of the vibrating chute. The friction can be achieved by appropriate Channel coverings are kept very low This results in great economic efficiency. In addition, the vertical movement of the conveying surface, i.e. the Lifting the conveyed item also increases the frictional force between Conveyed goods, and conveying surface. In the decline, the conveying area and thus become a unit forming conveyed material accelerated uniformly due to gravity, so that a Relative movement cannot occur. At the end of the decline, there is then a jerk Braking of the conveying surface with the aid of the drive device or a separate one Brake, whereby the conveyed material is again under over-winding due to its mass inertia the friction with respect to the conveying surface carries out a relative movement in the conveying direction. This braking takes place of course before the end of the decline, i.e. at a point in time when the pendulum with the conveyed material has a sufficient Has speed.

Roof the shock-like drive of the pendulum is repeated, so that the The described process always recurs, but differently from throwing channels practically no segregation of the material can occur, since there are no relative speeds appear.

The drive device can be controlled automatically by conventional means (e.g. through light or sound barriers, oscillating in time with the pendulum Cylinders and similar means).

In particular, however, there is a great advantage due to the one on the support frame Liftable storage of the conveyor 7 because it takes little time and effort. can be lifted off the support frame and stored again on the latter. This will not only the replacement or repair and cleaning of the conveyor is essential simplified but also enables the latter as a transport container can be used.

A pressure cylinder-piston unit, for example, serves as the drive device with one in the sense of the acceleration shocks of the conveyor in its shaking path movable piston rod, so that the drive device is completely separated can be attached to the support frame by the conveyor. This means that when the conveyor is lifted from the support frame no frictional or form-fitting connections with the drive device solved and then restored. From alledela it follows that the shaking chute at au.ch is much more economical than before.

The invention will be explained in more detail below with reference to the attached drawing explained. These show: FIG. 1 a schematic side view of a vibrating chute of the type described above with associated roller bearing elements; Fig. 2 and 3 respectively with respect to FIG. 1 modified embodiments of roller bearing elements, and FIG. 4 a schematic side view of a further possible embodiment of a Shaking chute.

A vibrating chute according to the drawing has a support frame 1 and a conveyor mounted on the latter so that it can move parallel to the conveying direction FS, for example a conveyor trough 2.

This is by a drive device 3 in non-uniform translational Movable shaking gear.

The conveyor 2 can be lifted against the support frame 1 via elements supported by a roller bearing system, which in the execution: example emä.ß Fig.1 by rotatably mounted on the conveyor 2 or on the support frame 1 rollers 4, 5 formed rolling elements and tread elements 6, 7 associated therewith in each case on the support frame 1 or on the Conveyor 2 al has. The running surfaces of the elements 5, 7 are each assigned to the Rolling bodies 4 and 5 are curved with a greater radius of curvature than its running radius educated.

The drive device 3 consists of one in the embodiment on the support frame 1 arranged pressure cylinder-piston unit 3a with a para] .lel to the direction of conveyance FS in the shaking path of the conveyor 2 or one with the the latter connected stop 2a movable piston rod 3b, which is at the free End equipped with a buffer 3c to reduce noise.

can be. In contrast to this, an electric drive would also be for example linear motor, possible.

The drive device 3 is-l; so arranged and such, for example formed with double-acting cylinder that they the.

Conveyor 2 in the free translational shaking back and forward stroke jerky at the beginning of the shaking return stroke and positive at the end of the shaking forward stroke able to accelerate negatively against the sense of support FS.

During operation, the pressure cylinder-piston unit 3a is controlled in such a way that that the piston rod b abruptly in the direction of Illcs arrow 8 until it hits moves the stop 2a of the conveyor 2 and then immediately again in the return stroke is moved against the direction of arrow 8 into the dead center position on the return stroke side.

As a result of the impact, the conveyor 2 becomes oscillating like a pendulum Shaking movement offset, where he at the end of the Schüttelvorhubs taking place in the conveying direction FS by the piston rod 3b drawn into the cylinder up to the dead center position braked and then by a shock pulse of the piston rod 3b in the direction of arrow 8 again accelerated positively in the shaking return stroke against the conveying direction FS will.

With each positive or negative acceleration shock, the conveyed material regardless of its respective consistency in the conveyor 2 relative to the latter in the direction of the conveying sense moved. In contrast, the demand experiences between the acceleration shocks relatively during the pendulum-like free-swinging shaking movements of the conveyor to the latter no feed, since here the force of gravity uniformly on both the conveyed material acts as well as the conveyor.

The Fig.2 shows a roller bearing system with rotatable through on the support frame 1 or on the conveyor 2 mounted rollers or rollers 5 'formed rolling elements, which each associated with a tread element with an infinitely large radius of curvature is, which is formed in the embodiment by the support frame 1: The one shown Roller 5 'has an approximately elliptical cross section. Even with one of these Formation of the roller bearing system, the conveyor 2 is swinging like a pendulum on the support frame 1 stored so that it can be lifted off and can therefore be used as a container after it has been lifted off.

Another possible embodiment of the rolling bearing system igt in of Figure 3 and has rolling elements designed as balls or rollers 5 " to which two tread elements 6 ″ are assigned and mirror images of one another are attached to the support frame 1 and to the conveyor 2. It's obvious that too this embodiment of the roller bearing system has a pendulum-like oscillating bearing of the conveyor 2 on the support frame 1 ensured, however, the horizontal vibration component a larger movement component compared to the embodiment of the roller bearing system according to FIG is superimposed in the vertical direction.

4 shows a modified embodiment of a vibrating slide with a conveyor 2 'shown by means of V-belt 7 as a pendulum on a Support frame 1 'is suspended.

There are V-belt pulleys on both the latter and the conveyor 2 ' 8 non-rotatably arranged around one of the V-belts in the exemplary embodiment is shown around. Such a suspension of the conveyor 2 'is particularly important for this reason advantageous because they are due to the rotationally fixed arrangement of the V-belt pulleys 8-am Support frame 1 'and on the conveyor 2' a smooth and consequently wear-free Processing between the V-belt 7 and the V-belt pulleys 8 without loss of energy guaranteed. In addition, the conveyor 2 'by the V-belt suspension, in particular with broadband or multiple belts, stabilized transversely during the pendulum movement.

The invention is particularly related to tread formation for the rolling elements 4 and 5, not on the embodiments shown in the drawing limited. The running surfaces could, for example, also be corrugated, jagged or otherwise Way deviating from a circular arc or shaped tapering into a straight line a.

Furthermore, the drive device could be via a cable pull on the conveyor 2 attack and / or the latter differently, for example as a conveyor trough; as well as be designed with a much greater length. The length of the conveyor 2 is basically only limited to the extent that this is caused by the impact of the drive device can be set in a pendulum-like swinging movement. In this context consists of Possibility of multiple shock pulses in the same direction, however, to intervene in different areas at the same time on the conveyor 2, if its length so requires. Likewise, through appropriate training of the drive device 3 a regulation of the impact and consequently the conveying speed as well as the frequency possible, e.g. via infinitely variable regulation of the impact energy. the Amplitude and frequency and thus also the delivery rate are about displacement of the shock generator and / or the switching device can be regulated.

To relieve the support frame 1 from the impact loads, can the drive device 3 or its pressure cylinder-piston unit 3a likewise be stored for pendulum-like oscillations, whereby the impact energy is not is introduced into the support frame 1 but is essentially stored.

If the conveyance of the good is in an aggressive atmosphere or is to take place in a very hot environment, the drive device 3 can also outside of the conveying space and with one through a sealing wall up to the conveyor 2 through the piston rod or some other bumper.

- Patent Claims -

Claims (7)

Claims 1.) Shaking noise, the conveyor on a support frame mounted like a pendulum and parallel to the conveyor Xnn by a drive device movable in non-uniform transient shaking, according to patent ... (patent application P 21 33 838.5), that the conveyor (2) via roller bearing elements which can be moved relative to one another in the translatory shaking path each with larger than the running radius of an associated rolling element (4 or 5) Radii of curvature formed tread elements (6 or 7) can be lifted against the Tragrahmen- (1) is supported and the drive device (3) the conveyor in the open Shaking back and vanguard accelerating abruptly against the conveying sense (FS) Means (3a, 3b) are assigned. 2. vibrating chute according to claim 1, d a d u r c h g e -k k e n n z e i c h n e t that the rolling elements through on the support frame (1) or on the conveyor (2) rotatably mounted rollers (4 or 5) are formed. 3. vibrating chute according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the rolling elements (5 ') have an approximately elliptical cross section and the associated tread elements with an infinitely large radius of curvature are trained. 4. vibrating chute according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that two running surface elements each assigned to a rolling element (5 ") (6 ", 6") mirror images of each other alternately on the support frame (1) and on the conveyor (2) are arranged. 5. Shaking chute, in particular according to claim 1, d a -d u r c h g It is not noted that the conveyor (2 ') is attached to the support frame (1') by means of a belt (7) is suspended and these are arranged alternately on the support frame and on the conveyor Pulleys (8) are passed around. 6. vibrating chute according to claim 5, d a d u r c h g e -k e n n z e i c h n e t that the belt pulleys (8) are arranged in a rotationally fixed manner. 7. vibrating chute according to claim 6, g e k e n n z e i c h n e t d u r c h V-belts (7) and V-belt pulleys (8) in either multiple or single belt designs ung, if necessary, for broadband belts.