DE653868C - Height conveyor for bulk goods - Google Patents

Description

Elevator for bulk goods For inclined downward conveyance of coal in underground operations, especially in steep seams, it is known to work in a To arrange chute flaps, which are controlled by rods in the sense, that alternating the 'even-numbered and the odd-numbered baffle flaps the cross-section Lock the slide and open it so that the coal is filled into the slide always intermittently from one formed from the slide profile and the storage flap Room slides into the next room or the room after that.

It has also been used for surface systems, e.g. B. for ship loading, proposed that the coal flowing out of railroad cars or bunkers via a An inclined slide suspended in a crane away from a vertical one into the ship's hold to slide downward conveyor, with the flow of coal stream also is regulated by flaps controlled by rods, so as to reduce the coal as possible to keep them from being shattered by free fall. Here are on the inclined slide Flaps provided so that the pivot points are in the bottom of the slide. The subdivision In this case, the slide into individual rooms should be done in such a way that the flaps alternate be raised and lowered.

The vertical conveyor used here consists of a shaft-shaped one Frame made of profile iron, in which on two opposite sides, namely in offset from one another in height, pocket-shaped containers pivotable about horizontal axes are stored. These containers are moved by a linkage so that the floors the container on one side with the bottoms of the container on the other side come to rest in one direction while touching the abutting surfaces, namely take the floors thereby ein.solche sloping position that the goods from the upper to the lower Container slips in under the effect of gravity. The containers are on each Page always moves in the same direction, so that the connection to the upper or lower container on the opposite side takes place.

Albeit through the subdivision of the transport route into individual sections the risk is avoided that the coal a with increasing length of the conveying path with regard to the protection of the same, assumes impermissible speed, so However, it should be noted that especially with steep slide surfaces always a relatively large amount of coal is still produced. In addition, these facilities the disadvantage that due to the sudden impact of the coal on the next partitions the boom is constantly exposed to harmful impacts. On the other hand, persists the simultaneous closing and opening of the flaps the risk of the flaps move in the closing direction before the coal completely slipped under you is and thus place the flaps on the hollow and clamp them. Although it has already been suggested to switch on springs in the linkage, In order to achieve a yield of the individual flaps, however, is no guarantee for the fast and reliable operation of these devices, apart from the basic disadvantages.

The invention relates to a. Conveyor for bulk materials, especially For the vertical downward conveyance of coal in the original, tertiary operation, in the case of auxiliary materials are used, which probably - from a purely external point of view - those of the previously known facilities used are similar; the invention differs fundamentally from the previously known Einrichturigen, however, that the coal is not released through storage flaps can slide freely down to the next flaps under the effect of gravity, rather, the aim is to promote the coal downwards in the same way as this is the case with the known Seiger conveyors, the coal passing through at an endless one Funding hinged flaps rin inside a manhole is carried down.

According to the invention this is achieved in that in a shaft on two opposite sides offset from one another flaps about horizontal axes stored tverden, the flaps are circularly curved according to the swing radius. The coal is always in -part quantities of two opposite each other Side flaps formed pockets worn. The flaps are controlled so that when the movement of the bottom flap of this bag is set in the conveying direction the next lower flap on the opposite side is already in one is in such a position that it is an extension of the upper_Klappe of the carrier bag represents. `Coal does not lose its support in any position; man Rather, it is able to continuously and precisely regulate the speed of the coal. In the context of the overall arrangement, a distinction is made between four groups of by a linkage closed flaps, two of which are on each side of the shaft. In each promotion game, two groups are moved on one side at the same time, and in such a way that one group carries the coal downwards in the conveying direction, while the other group simultaneously makes an empty retrograde motion in order to move of the work cycle to the other side for the downward movement of the Coal to represent the necessary support.

The structure and mode of operation of the subject matter of the invention as well as its other advantages are to be described in more detail with reference to the accompanying drawings -will. These Ussen in Fig. - the accommodation of a FCIrreis according to the invention recognize in a blinds @ chacht, while Fig. 2 and 3 the conveyor in elevation and Show the ground plan on a larger scale; in Fig. 4, S, 6 and 7 is the conveying process reproduced in a schematic representation.

In the one to be installed in a blind shaft; Shaft ii constructed from sheet metal are supported around horizontal axes 12, 12, the support plates 13, 14. The flaps 13 are formed in the shape of a circular arc; namely the radius of the bending circle corresponds to the chord length of the flaps. The flaps 13 and 14 are provided on two opposite sides of the shaft; the pivot points of one row of flaps being offset from those on the other side by half the length of the flap division. The distance between the pivot points of the flaps lying one above the other and the distance between them and the pivot point of the flap lying between them on the other: side is approximately equal to the flap length. On their rear side, the flaps 13 and 14 are provided with levers 15, at the free ends of which the control rods 16, -i7, 18 and i9 engage. The connection of the flaps to the linkage takes place in groups in the sense that the groups 13 'to the linkage 16, the groups 13 "to the linkage 17, the flaps i4' to the linkage 18 and the flaps i." -be connected to the linkage i9. The movement of the support flaps 13 'and 13 "and 14' and 14" always takes place in opposite directions and in such a way that the flaps 13 'and 13 " are controlled in one work cycle and the flaps i4' and 14" are controlled in the following work cycle.

The coal is conveyed by a conveyor, e.g. a conveyor belt 2o, the Cell wheel 21 supplied, through which the introduction of the goods to the actual Vertical conveyor is effected. The cell wheel itself has: six lock set chimneys and moves in a closed housing 2: 2. In the position shown in Fig the lock chamber just above the vertical conveyor through the top one Flap 13 'completed, while the underlying flaps 13' with the flaps Form 14 "pockets that hold the goods that have already been transported downwards. At your '* on This position taking place work cycle, the flaps 13 'in the conveying direction opened so that the screed now rests in pockets that are out of the flaps 13 ' i4 'are formed. Simultaneously with the movement of the linkage 16, through which the hlappell 13 'have been moved, the linkage i; Likewise reversed so that the flaps 13 "moved upwards and continued the flaps 13 'form (see. Fig. 5).

The next work cycle takes place on the left side of the conveyor instead, by now by the linkage 18 the flaps 1q. ' moved in the opening sense - while the flaps 1q. "through the linkage i9 the opposite way to take. The coal is in the position according to Fig. 6 through the flaps i, 'and i3 " held. Numnehr is the movement of the flaps 13 "in the conveying sense so that the Coal lying on the flaps i4 "Ai comes to get out of this position by opening the Flaps 14 "to be transferred to the flap 13 '. In this last working cycle takes place at the same time a rotation of the lock drum 21, so that again the Condition according to fig. Q. is achieved. It should be noted here that the Coal is also fed directly into the conveyor instead of via a lock drum can be.

The linkage is controlled by an appropriate one in the sole installed machine, which must work primarily as a brake, since it is in motion the flaps in the conveying sense the weight of the coal pushes the flaps down. The device can be made so that the excess force at the same time is used to raise the empty flaps. For the rotation of the Lock drum, a separate drive can be provided, which is driven by the Linkage is controlled; but it is also possible to use the linkage directly To use the lock drum drive. Since the coal is continuously through the carrying flaps Moved in a closed pocket, could possibly be the one on the back the shaft walls provided for the flap are no longer available. On completion The flaps to closed pockets would also be conceivable, also the side ones Omit shaft walls.

In view of the fact that the flaps must be guided past one another with a certain amount of play, it will be advisable, however, to surround the flaps with a light sheet metal lining in order to prevent trickling coal from falling freely into the shaft. The bearings 23 of the support shaft 12 are expediently relocated to the outside in order to protect them from the ingress of coal dust. the penetration in contrast to the Seigerförder @ ern provided with a revolving conveyor according to the invention, the space for the returning strand is superfluous, is. Conveyors are particularly well suited to be built into existing blind shafts. In any case, it is possible, with the available strand width of a normal blind shaft, to build a conveyor that provides sufficient performance for the movement of the individual support plates at a relatively low speed. Furthermore, the subject of the invention has the advantage over the known Seiger conveyors that it can be built for every shaft depth, since the weights of the control rods of the flaps and loads do not add up as in the Seiger conveyors; rather, a balance between the weights can be brought about according to plan, which also has a favorable effect on the drive of the device.

As a result of the fact that the coal with constant support through If a support flap is put down evenly, there will be blows in the rods avoided, while on the other hand due to the fact that the return movement of the support flaps always only takes place when the intermediate supporting flaps are in the conveying direction move, a jamming of coal pieces is avoided, since between these two Movements a movement of the opposite flap has occurred through which the Coal has been lowered to such an extent that it is definitely out of the range of oscillation of the declining mouth is out.

It is also possible to use the conveyor to convey bulk material upwards to use, for example in the position according to Fig. 7 by tightening the Linkage 17, the flaps 13 "are moved upwards, which in the pockets, formed from the flaps 13 "and @ i4", move the goods in front of you to it is now in one of the flaps 13 "and 1q. ' keep educated pocket This position is then -it by tightening the linkage i8 through the flaps i4 'raised so far that it comes to rest on the flaps 13', etc. Finally it is also possible to use the conveyor as a face conveyor, especially on very steep slopes stored seams, with the swing axes of the flaps being perpendicular to collapse the seam, as it is also possible on the other hand, to use the conveyor in surface operations.

Claims (1)

LEGAL CLAIMS: i. Conveyor for bulk goods, especially vertical ones Downward conveyance of coal in underground operation, characterized in that in one Shaft on opposite sides offset in height to each other in an arc shape trained Flaps are stored; those in groups in the sense of control are divided, which are controlled so that by two opposite Flaps pockets are formed that accommodate the conveyed, and that when moving the respective lower flap in the conveying sense by the previous conveying game already the next lower flap on the opposite side has been pivoted so that they are an extension of the one on the resonant circuit that is on the same side represents her lying flap, so that the subsets of the conveyed material always from one flap carried downwards and smoothly to the next lower one, on the opposite one Side mounted flap can be delivered. : #. Conveyor according to claim i, characterized in that; that the flaps are bent to a radius equal to the length of the flaps and the connecting lines of the pivot points of the one on top of the other on one side Flaps and 'the fulcrum of the on the opposite side of the height between their mounted flap form equilateral triangles, the length of the flaps is approximately equal to the length of one side of the triangle. 3. conveyor according to claim i and z, characterized in that the support flaps 1 are divided into four groups and each group is summarized by a linkage and the control takes place in such a way that> two groups of flaps on one side are controlled alternately at the same time, with the even-numbered and odd-numbered flaps on each side miner running in opposite directions move. q .. conveyor according to claims i to 3, characterized in that the task of the conveyed goods on the conveyor through a lock drum provided with six chambers takes place, with the further rotation of the lock drum every fourth work cycle of the conveyor is effected. 5. Conveyor according to claims i to .4, characterized in that that the control of the linkage is carried out by a prime mover, the at the downward movement of the loaded flaps to be braked excess force to Lifting of the empty retracting flaps is used. 6. conveyor according to claim 5, characterized in that the rotation of the lock drum by a special Drive takes place, which is controlled by the linkage. . 7. conveyor according to claim 6, characterized in that the lock drum is controlled by the linkage itself will.