DE1216775B - Apron conveyor for large conveying capacities - Google Patents

Description

Apron conveyor for large conveying capacities The invention works from a apron conveyor for large conveying capacities, in which the overlapping, rigid cells on the limbs of the side and bottom of the cells located endless chains, the pitch of which is smaller than the cell length both ends are pivotally mounted. The cell camp, their distance at least is four times the chain pitch, point here at the rear end, at the the wheelset, which is guided on rails, is only one and in the front area several degrees of freedom.

Such a well-known plate conveyor that is completely free of constraints Has run is used exclusively as a horizontal conveyor, and all previous ones Attempts to use it as an incline conveyor or to adapt it to such a type of conveyance, failed.

With this well-known large plate conveyor - inclined conveying can be achieved Do not perform a slope beyond 400, even if the plates have a larger capacity and the amount of panel overlap is increased, which is provided would have to be in order to prevent the goods from being thrown at the deflection point The panel does not fall into the panel in front of it. To enable funding in the steep position of the plates in the known conveyor they would have to be divided into individual sections be subdivided. The increase in the overlap would also be a large part of the filling volume of the plates and create dead weight. It would thus arise an inexpedient embodiment of a conveyor with an unsatisfactory degree of filling of the plates.

The steep conveyors known up to now, which in most cases do not have a constraint-free cell bypass in all operating positions, suffer mainly from the shortcoming that the falling through of bulk material on the Unloading can not be prevented, since the known devices consistently with the plate ends lying at the front in the conveying direction at the reversals Describe circular motion, which makes it impossible to complete the entire emptying process of the cells so far from the center of the axis to the outside that the penetration of bulk material in the space between the front edge of the panel and the chute can be prevented entirely.

Even if you use the well-known large plate conveyor described at the beginning wanted to use as inclined or inclined conveyor, the last described occurs Disadvantage of the known steep conveyor.

The invention solves the problem of a conveyor, its cells to be conveyed are stored and guided in the manner of the large plate conveyor described at the beginning, to use as a steep conveyor in the range from 40 to 700 inclination, it is completely free of constraints to lead and the falling through of bulk goods between the front edge of the cell to be conveyed and to prevent the receptacle from being tipped out.

This object is achieved according to the invention in that the for education Transverse wall attached to a closed material cell in the rear area of the cell has in a manner known per se a slope extending in the conveying direction and there is a front wall inclined forward and shortened with respect to the side walls is whose leading edge from the front cell bearing a distance of at least one third of the total cell length, while the cell back wall after is kinked at the back and the front wall of the next cell is free of contact overlaps.

In addition to the constraint-free plate bypassing, the avoidance of sensitive Structural elements such as joints, hinges and the like, and the arrangement of the chains outside of the bulk material during loading and unloading of the cells is caused by the Deviation of the front panel ends in the conveying direction from the circular path on the outside, the chute reaches under the front edge of the cell during the discharge movement achieved, because the vertical projection of the front cell edge overlaps out the chute.

A falling through of conveyed goods or a penetration of coarser ones Divide into the space in between between chute and cell, whereby the risk of jamming is made impossible.

In the drawing, an embodiment of the invention is shown, namely Fig. 1 shows partly the side view and partly a longitudinal section of the upper reversals and F i g. 2 shows a cross section through the upper strand.

On the chains 1 are at a distance of several times the chain pitch 2 wheel sets 3 loosely articulated via driver links 2, which are worn on rails 4 will. The cells 5 are attached to the wheel axles 6 of the wheel sets 3 and have a driver axle 7 at the other end, which is joined by double straps 8 Slot 9 pivotable on both sides with the adjacent driver member 2 or the chain link 10 following him is connected. The obtuse angles to the cell floor 11 forwardly bent front cell transverse wall 12 of the cell is lower than that Seitenwändel3 and is on the straight stretch from the rear transverse wall 14 of the cell lying in front through the one that runs backwards in relation to the conveying direction roof-shaped bend 15 covered. The side walls 13 and the bottom 11 of the cell are rearward over the rear transverse wall 14 also around the side wall pieces 16 and the bottom piece 17 extended. In these open at the top and at the back Area that is delimited by the side wall pieces 16 and the bottom piece 17, the front part of the next cell lies in a straight line. the the front transverse wall 12 and the rear transverse wall 14 run plane-parallel to one another. The angle of inclination α of the front transverse wall 12 towards the cell bottom 11 is fixed by the formula LuO = (1200-0) .tg300.

The angle ß is the angle of incline of the conveyor with respect to the Horizontal.

Claims (3)

Claims: 1. Apron conveyor for large conveying capacities, in which the overlapping, rigid cells on the limbs from the side and endless ones located in the bottom area of the cells Chains whose division is smaller is than the cell length, are pivotably mounted at both ends and the cell bearings, whose distance is at least four times the chain pitch, at the rear end, on which the wheel set on rails is located, only one and the other have several degrees of freedom in the front area, characterized in that those for forming a closed cell in the rear of the cell attached transverse wall (14) in a manner known per se extending in the conveying direction Has inclination and a forward inclined and with respect to the side wall (13) shortened front wall (12) is present, the front edge of which is from the front cell bearing a distance of at least one third of the total cell length, while the rear wall of the cell is bent backwards and the front wall of the next one Cell - overlaps without contact. 2. apron conveyor according to claim 1, characterized in that In addition to the side walls (13), the bottom (11) of the cell extends backwards over the cell rear wall (14) lying plane-parallel to the front transverse wall (12) continues and the following cell itself, with its front area the floor overlapping, in the part of the leading cell that is open at the back and at the top inserts. 3. apron conveyor according to claim 1 or 2, characterized in that that the cells on their front axle (7) in a known manner through with elongated holes (9) provided pivotable pairs of tabs (8) with. the chains (1), these on both sides encompassing, connected. Considered publications: German Patent Specifications No. 653 054, 940 638, 964127; German Auslegeschrift No. 1 115 639; German utility model No. 1,829,977; French Patent No. 1 308 730; British patent specification No. 616,472; U.S. Patent Nos. 2,944,657, 1211,224; 1171516, 2753979.