DE3522719A1 - Disc elevator - Google Patents

Abstract

Disc elevator having two pipes (3, 4) which extend overhead at a distance from and parallel to one another and are connected to one another at one end by means of a pipe bend (5), while at the other, open ends of the pipes there is arranged a drive means for an endless cable (1) which extends through the pipes and the pipe bend and to which there is attached a plurality of equally spaced transport discs (2), which drive means is formed by a drive disc (6) which can be made to rotate by means of a motor (8) and is provided with a circumferential groove for accommodating the cable and with recesses (9) on its circumference, which recesses serve to partially accommodate the discs, the drive disc being provided with means (13) which, during rotation of the drive disc, can execute a movement which is in the direction opposite to the direction of rotation of the drive disc, in such a way that the transport disc situated in the recess is moved a certain distance in a direction opposite to the direction of rotation of the drive disc, the cable being displaced on the drive disc. <IMAGE>

Description

Disc elevator

The invention relates to a disc elevator with two spaced apart mutually parallel upwardly extending tubes, which at one end with each other connected by a pipe bend, while at the other open ends of the pipes a drive means for an endless one extending through the pipes and the pipe bend flexible member, in particular a rope, is arranged on which at equal intervals from each other a plurality of transport disks are attached, their circumferential shape is the same as the cross-sectional shape of the pipes and the pipe bend, with the dimensions are chosen so that the discs with a little play through the pipes and the Elbows can be moved, which drive means by means of a Motor set in rotation drive pulley is formed, the axis of rotation of which is perpendicular runs to the plane leading through the axes of the tubes, and which has a circumferential groove for receiving the rope and is provided with recesses on the circumference, which serve to partially accommodate the discs.

Such an elevator is from the Dutch patent application 73 07491 known.

During the work of the disc elevator, the material to be transported is introduced through an entrance opening in the pipe bend, whereupon this material through the transport disks attached to a rope through one of the upwards running discs Pipes is conveyed and then ejected through an outlet opening. Included the transport disks run through the other pipe unloaded back down again so that there is a relatively large difference between the forces which on the rope in the upward part and in the downward part Work part. This difference is also influenced by the resistance, which acts on the transport disks when passing through the pipe bend.

For a good drive of the drive pulley, it is desired that the The distance between the transport disks is smaller than the distance between the recesses on the circumference the drive pulley. This means that only one transport disc is used during operation, or the fastening hub of this disk in engagement with the relative to the direction of rotation stand at the rear edge of the recess receiving the disc, while at the moment where this recess is moved out of engagement with the disc, the rope in each case until the disc behind it slides through the rear edge of the disc Disc receiving recess is detected.

It has been shown that with an idling elevator of the present Type, i.e. an elevator in which the rope with the pulleys moves will, however, not promote any material, after a certain amount of time has elapsed Time the transport disks are no longer properly received by the recesses, and the rope is stuck.

This difficulty occurs particularly with disc elevators considerable height.

According to the invention it has been found that the cause of the problem mentioned when the elevator is idling due to the small force difference between the forces exists in the upward and downward moving section of the rope, so that the The rope can no longer slip, as stated above, and when the drive pulley rotates the transport disks get more and more to the front ends of the recesses. The mentioned force difference is mainly with an idling elevator due to the friction between the transport discs and the inner wall of the pipe bend determines what the force in the upward moving part and in the downward moving part Part decreases compared to a stationary elevator.

With an increasing height of the elevator, the forces in both Divide by the weight of the pulleys and the rope increasingly larger the mentioned friction is relatively small compared to the forces in both sections, so that there is no sufficiently large difference in force, to allow the rope to slide.

The invention has to provide a disc elevator of the kind mentioned Kind to the goal in which this difficulty does not arise.

This goal is achieved in that the drive pulley with means is provided that when rotating the Drive pulley on an in a recess located disc act and with a further rotation of the Drive pulley can move in the opposite direction to the direction of rotation the drive pulley is directed in such a way that the located in the recess Transport disk a certain distance in a direction opposite to the direction of rotation the drive pulley is moved. and the rope slips on the drive pulley.

By this means, when the disc elevator is idling a transport disk from the center to the front edge of the sheath receiving this Recess arrives, the rope is forced to slide, whereby the recesses the Pick up the transport disks again in the right way so that there is no longer any danger exists that the rope can jam.

The means mentioned are advantageously formed by a lever which is pivoted about a point on the drive pulley, and one end of which is in the area of the axis of rotation of the drive pulley, and the other end in the area of the, viewed in the direction of movement of the drive pulley, front edge of a recess of the drive pulley, the first end at a cam member fixedly attached to the axis of rotation or may be applied, which Cam member has such a shape that upon rotation of the drive pulley around 1800, the recess mentioned from a position in which it is essentially lies in the horizontal plane that runs through the axis of rotation of the drive pulley, passes through the highest point of the drive pulley and back into the aforementioned horizontal one Level, move the other end of the lever out of the starting position is moved outwards with respect to the axis of rotation, in such a way that the mentioned end is moved from the front edge of the recess inward into the recess.

The lever is preferably made by means of a resilient member held against a stop in such a way that said one end is free from the cam member is, and the other end in the 'area of the front edge of a recess is located that if a transport disc gets into this recess, the the middle comes to lie to the front edge of the recess, the other mentioned The end of the lever is pushed away in the direction of rotation by the transport disc, so that the first end of the lever is pressed against the spring force against the cam member will.

This ensures that the lever only becomes effective when if the rope does not slide when the elevator is idling.

Preferably, the cam member is formed by an organ with a circular shape Formed circumference, the center of which at a distance below the axis of rotation Drive pulley lies.

The invention is explained in more detail with reference to the drawing, in which show: Fig.l a disk elevator in a side view, Fig.2 the inventive Lever mechanism on a larger scale and Figures 3 and 4 the mode of operation the lever mechanism.

The disk elevator shown in Fig.l contains a rotating Rope 1 on which at equal intervals a plurality of each other are attached by transport disks 2. The rope with the attached washers 2 runs through a pipe with two vertical sections 3 and 4 and one of these Sections connecting pipe bends 5, the inner diameter of this pipe in is essentially the same as the diameter of the disks 2, such that the disks can be pushed through the pipe with little play. The pipe sections 3 and 4 are open at their upper end. Over the open upper ends of the tubes 3 and 4, a drive pulley 6 is rotatably arranged, which by means of a drive chain 7 can be set in rotation by a drive motor 8. On the circumference of the drive pulley 6 a groove is formed which receives the rope 1, while the recesses 9 take up the disks 2 on the circumference of the drive disk 6 and engage behind these disks Pipe bend 5, an inlet 10 is arranged for the material to be transported, while an exit port 11 is located below the drive pulley 6. the Sheaves 2 are attached to the rope 1 by hubs 12.

A lever mechanism 13 is mounted on the drive pulley 6, which is shown on a larger scale in FIG.

The lever mechanism 13 includes a lever which is connected by two both sides of the drive pulley 6 attached rods 14 is formed, which on the Point 15 by means of an opening in the drive pulley 6 Bolts are connected to each other, and the rotatable at the point 16 on the drive pulley 6 are stored.

At one end, a stop member 17 is attached to the rods 14, on at the other end there is arranged a follower 18 in the form of a rotatable roller.

- In a manner not shown, a cam member 20 is attached, which has a circular circumference, the center of which is at a distance e below the axis of rotation 19 of the drive pulley 6 lies.

Next, a spring member 22 is provided with one end to the Point 23 of the lever 14 and the other end at point 24 of the drive disk 6 is attached in such a way that normally the lever 14 is actuated by the spring member 22 is pulled against a fixed to the drive pulley 6 stop 25, whereby the follower member 18 is lifted from the cam member 20. In Figure 2 it is shown, however, that the transport disk 2 located in the recess 9 is so close to the front edge of the recess 9 is that the hub 12 against the stop 17 of the Lever 14 presses, whereby the lever 14 counteracts the spring force of the spring member 22 is pivoted so that the follower roller 18 rests on the cam member 20. as As a result, when the drive pulley 6 rotates, the follower element 18 will move roll on the cam member 20, whereby the lever 14 in a direction against the Direction of rotation of the drive pulley 6 is pivoted, the rope 1 along the Drive pulley 6 slides so that the transport pulleys 2 in the right way are encompassed by the recesses 9.

This effect of the lever mechanism is further schematically shown in the figures 3 and 4 shown.

After the position shown in Figure 4, where the Rope 1 was pushed over the drive pulley 6, with a further rotation the drive pulley 6, the stop 17 lifted from the hub 12, whereby the Lever 14 is pulled by the spring member 22 against the stop 25, and the follower roller 18 is lifted off the cam member 20.

The distance e of the eccentricity of the cam member 20 is preferably equal to the product of the number of recesses in the drive pulley and the difference the distances between the transport disks and the recesses. When shown Example with twelve recesses and a difference in spacing of 0.5 mm therefore the distance e = 6 mm.

Claims (5)

Claims 1. Disc elevator with two spaced apart parallel upward tubes (3, 4), which at one end with each other through a pipe bend (5) are connected, while at the other open ends of the pipes a drive means for an endless one extending through the pipes and the pipe bend flexible organ, in particular a Sei3 (1), is arranged on which in the same Distances from each other a plurality of transport disks (2) is attached, the The circumferential shape is the same as the cross-sectional shape of the pipes and the pipe bend, where the dimensions are chosen so that the discs pass through with a little play the pipes and the pipe bend can be moved, which drive means by a a drive pulley (6) which can be set in rotation is formed by means of a motor (8), whose axis of rotation is perpendicular to the plane passing through the axes of the tubes, and those with a circumferential groove for receiving the rope as well as with recesses (9) is provided on the circumference, which to partially accommodate the discs and the rope serve that the drive pulley (6) is provided with means (13,17,18) that open when the drive pulley rotates a disc located in a recess act and with a further rotation the drive pulley can perform a movement in the opposite direction to the direction of rotation the drive pulley is directed in such a way that the located in the recess Transport disk a certain distance in a direction opposite to the direction of rotation the drive pulley is moved, with the rope shifted on the drive pulley will. 2. Disc elevator 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 means mentioned are formed by a lever (13) which is mounted pivotably about a point (16) on the drive pulley (6), and its one end (ls) is in the area of the axis of rotation of the drive pulley, and that the other end (17) in the area of the, viewed in the direction of movement of the drive pulley, front edge of a recess (9) of the drive pulley, the first end at a cam member (20) fixedly attached to the axis of rotation rests or rests against it can, which cam member has such a shape that upon rotation of the drive pulley around 1800, - the mentioned recess from a position in which the recess lies essentially in the horizontal plane passing through the axis of rotation of the drive pulley runs, passes through the highest point of the drive disk and back into the aforementioned horizontal plane arrives, the other end of the lever from the starting position opposite the axis of rotation is moved outwards, in such a way that the mentioned other end of the front edge of the recess is moved inward into the recess. 3. Disc elevator according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that the lever (13) counteracts by means of a resilient member (12) a stop (25) is held that said one end (18) is free from the cam member is, and the other end (for) such in the area of the front edge of a recess (9) is located that if a transport disk (2) gets into this recess, which comes to lie from the center to the front edge of the recess, the mentioned other end of the lever in the direction of rotation the transport disk is pushed away so that the first end of the lever against the spring force to the Cam member is pressed. 4. disk elevator according to claim 2 or 3, d a d u r c h g e k e It is noted that the cam member (20) is formed by an organ with a circular Perimeter is formed, the center of which is at a distance (e) below the axis of rotation the drive pulley lies. 5. disk elevator according to claim 4, d a d ii r c h-- g ek e n n z e i c h e t that the distance (e) is equal to the product of the number of recesses in the drive pulley and the difference in the distances between the transport pulleys and the recesses, the distance between the transport disks being smaller than that Distance between the recesses, and the pivot point of the lever arranged in its center is.