DE2538881A1 - Improved scraper chain conveyor - has single chain conveyor with pivotted flights each having upright abutment - Google Patents

Abstract

Described is a single chain conveyor having a series of flights each pivoted to the chain near one end and each having an upstanding abutment which, during the conveying run, bears against member forming part of or attached to the conveying chain so that the flights are located across a trough along which material is to be conveyed. The abutment is passed under the chain at the end of the conveying run and the flights are trailed behind their pivots on the return run of the conveyor.

Description

Conveyor device The invention relates to a conveyor device a single chain having a plurality of arms, each of which is pivotable is attached to the chain near one of its ends, with means to the Bring arms into a position during the work cycle of the conveyor, which lies transversely to the container along which the material is conveyed, while the Arms pass behind their pivot points when the chain is idling backwards.

To move the arms into a position transverse to the container or tray bring along which the material is conveyed, up to now you had every arm on you End provided with a foot or shoulder that carries the pivot, this Foot slides along a side wall of the conveyor strand.

In this context, reference is made to the British patent No. 1 1b9 171, which describes a conveyor of this type. With further developments Among other things, wear plates were used on the links of the chains which arms were pivotably mounted (British Patent No. 1,260,412) and a locking device was provided to prevent the arms from being closed swing far forward from the rear end of the conveyor and so not the right one Assume funding position (British Patent No. 1,267,349).

Although the single chain conveyor has advantages over the conveyor Has double chain, the energy consumption is relatively high, especially in the longer ones Sections of the conveyor. It would therefore be a great benefit in terms of energy consumption to be able to reduce.

It appears that one of the reasons for the energy loss in the single chain conveyor the friction between the foot of each arm and the side wall of the conveyor is, whereby this energy loss is increased by the fact that small-grained Material (e.g. coal dust when pumping coal) collects in front of this foot and builds up between the arm and the side wall and this so agglomerates Dust must be pushed or pushed away from the conveyor arms.

The invention is therefore based on the object while avoiding this Disadvantages, the energy losses in conveyor systems of the type mentioned to reduce.

According to the invention this is achieved by each arm with one after upward approach or stop is provided during the conveying cycle rests against a link that forms part of the conveyor chain or is attached to it is.

In this way, the friction loss between the foot and the Wall avoided, just as practically every possibility of dust or small parts there Ball up between the arms and the side wall and build up. Appropriately For example, an upwardly directed peg can be provided on each arm between this member and the side wall of the container is arranged to pivot forwardly limit the arms.

Preferably, the upward approach is during the work cycle, so during the conveying movement on a part that is attached to the chain link is to which the arm is pivotably articulated. The upward approach can be arranged with respect to this member so that it has the forward pivoting movement the arms are limited.

At the discharge end of the conveyor it is necessary that the approach passes under the chain so that the arm can take its trailing position. This can expediently be done by changing the level of the floor at this point of the conveyor, along which the material is pushed, is lowered so that the Lug falls down or is pushed down out of contact with the part, which forms part of the conveyor chain with which it was in contact.

At the end of the conveyor it is preferred to use the neck of each arm, to guide the arm into its correct working position, or to support the leadership, by the part of the shoulder that is remote from the pivot point of the arm a cam surface is created.

Exemplary embodiments of the invention are provided below explained with reference to the drawing in which Fig. 1 is a plan view of shows an arm of a first embodiment of the invention, wherein for comparison a well-known arm is also shown.

Fig. 2 shows in perspective part of the conveying dream of the invention Conveyor with part of the chain cover broken away.

Fig. 3 shows a plan view of the device for controlling the position of the arm at the end of the conveyor in a known conveyor.

Fig. 4 shows a plan view of the device for controlling the position of the arm at the end of the conveyor in a conveyor according to the invention.

Fig. 5 shows in perspective part of the conveyor strand of another Embodiment of the invention with part of the cover removed.

Fig. 6 shows a side view of one of the vertical chain links of second embodiment, this being a chain link on which an arm is pivotable is mounted, further comprising a wear block and an arm in section along the Line VI-VI in Fig. 8 is shown.

FIG. 7 shows the pivot pin in section along the line VII-VII in FIG of the arm at right angles to the section in FIG. 6.

Fig. 8 shows in plan view three links of the chain and an arm, showing the displacement of the chain when the arms are loaded.

The old shape of an arm, shown in dashed lines in Fig. 1, was rotatably mounted at 12 on the vertical link of a chain with a wear protection (wear pad) was provided. At the same end of the arm was an 8 foot, the one on the work span Made contact with the wall 14 of a conveying vessel and slid along it. The material, such as coal, that has been carried by the conveyor is exercising a considerable moment around the pivot, creating a great force between the foot 8 and the wall 14 is created. In addition, small material, e.g. dust, des material to be conveyed accumulate and a wedge between the end of the arm and form the wall 14 immediately in front of the foot 8. Both, i.e. the friction between the foot 8 and the wall 14 and the dust wedge that is carried away by the conveyor, contribute significantly to energy losses.

An embodiment of the arm according to the invention is the arm 10. This is also pivotally attached to the chain at 12, but the foot is omitted been. Instead, a lug 16 is arranged on the top of the arm, the can lay against a part of one of the chain links. In Fig. 2 is the part 18, which is attached to the horizontal chain link, e.g. forged or is welded and extends downwards, which is immediately adjacent to the vertical Adjacent chain link on which the arm is rotatably mounted. When material on the conveyor is loaded, the moment acting on the pivot 12 is applied to the Link 18 transferred. Since this moves with the chain, there is no friction between surfaces that slide against each other. There is also no accumulation or agglomeration of dust or other fine material between the arm and the wall 14. The arm can, as the drawing shows, be shaped so that any sharp corners or edges are avoided that have such a build-up or agglomeration from Would enable or encourage dust.

The wear and tear on the chain links that the pivot pins for bear the arms have been retained.

They protect the chain, side wall 14, and the inner side wall 22 of the chain cover 20 from damage that could be caused, when the chain drags along the walls 14 and 22. The protective plates have also a function related to the end of the conveyor, which will be discussed below will.

At the discharge end of the conveyor (not shown) the floor slopes the conveyed goods container down and ends in an edge over which the material is discharged. When the arms reach the downward part of the container, the approach 16 falls below the level of the part 18 or becomes below this level pressed, whereupon the chain, as it runs around the drive wheel, moves each arm one after the other under itself and under the sprocket in the return run of the conveyor, such as for example described in British Patent No. 1,169,171. Where the anunt sentence 16 must be pressed after (in contrast to this when the arm is under its own weight may fall), this can be done by removing the lower edge of the inside wall 22 of the chain cover 20 is shaped so that it acts as a cam surface to the Pushing arms down.

Means are to be provided at the rear end of the conveyor to allow the To swivel arms into the position they are in when conveying, i.e. during the work cycle need to take. Figure 3 shows how this was done earlier.

As the arms move along the socket of the rear run 30, each arm lies behind its pivot pin 12 along the path of the conveyor chain, as by the dashed Line C is shown. The chain runs around a sprocket supported from above, with the center of the sprocket immediately lies over a bolt 32 which extends upward from the bottom of the conveyor. While As the pins 12 go around this pin, the sides of the arms come into contact with the bolt and arms swing around. In Fig. 3 are consecutive Positions shown sequentially taken by a single arm and are denoted by the letters a to k. When an arm reaches position g, abuts the foot 8 of the arm against the protruding end of a stop 34, the Surface 36 acts as a cam surface for foot 8 so that the arm (at least in the Theory) takes the consecutive positions h, i, j and k. In practice however, the arm moves faster than shown, with the foot 8 moving away from the Surface 36 disengages and the arm continues to pivot about its pivot (specifically if the conveyor is on a slope so that the chain is on a lower one Level than the outer edge of the pan of the conveyor belt is).

Devices to prevent this are in the UK patent No. 1,267,349, but it was found that the violent movement and the impact on the arm sometimes ends up monitoring the vibration the arm rips off.

In Fig. 4 is a device according to the invention for the control of the Position of the arms shown. The bolt 32 and the stop 34 are through a Guide member 40 has been replaced, the left end in Figure 4 by a circular Surface 42 is formed around a center 43 opposite the position of the pivot of the sprocket located above point 44 of the drawing to the left in the figure is offset. The dashed line C shows the normal position of the Conveyor chain on, although the arms the Chain something out of this normal Move position out while moving along face 42 and along the side of the guide member 40 to the wall 14 of the conveyor.

Successive positions of the arms are here with the letters a to h. It can be seen that while the chain link that holds the pin of the arm carries to the sprocket running towards the conveying side, the surface 42 and the side of the Guide member 40 act as a cam surface for the side and end of the arm. As the arm moves from position a to position d, the moves Part of the side of the arm that contacts surface 42 onto the free end of the arm to, which changes the angle that the arm makes with the chain. This movement of the arm is continued until it is finally in the conveying position.

To ensure that the arm is in its correct conveying position remains during the conveying cycle, an upstanding bolt 50 is provided on the arm, which prevents forward pivoting of the arm, as such forward pivoting the bolt 50 would abut the side of the part 18 which is the wall 14 of the conveyor section opposite. At the rear end of the conveyor there is therefore a double problem namely to ensure that the approach 16 passes under the chain and that the The arm does not swing around so far that the bolt 50 runs under the part 18. In order to the shoulder 16 passes under the chain is the rear sprocket for the chain arranged a little higher. The arms are guided so that they stay on the pan and lifting the chain on the sprocket enables the lug 16 (the down to the upper surface of the arm along the edge 17 in FIG. 1 beveled is) passes under the chain. However, as soon as the arm reaches a position has, in which the approach 16 has completed its way under the chain, meets the wear plate 19, which protrudes beyond the chain, on the pivot of the arm a beveled downwards Surface (not shown) on the cover of the rear end of the conveyor which the Chain pushes down, with the part 18 between the lug 16 and the bolt 50 lies.

To prevent the arm from going too far around the rear end swings around and before the chain in the manner described above is pushed down, another cam surface 46 is used, which extends from the cover extends down and terminates just above the arms. On this cam wall 46 hits the stop 16 when an arm pivots too far in the clockwise direction and it prevents any attempt by an arm to close the bolt 50 under the part 18 before the chain has reached the position where it goes down and makes this impossible.

In Figures 5 to 8 is a further embodiment of the invention shown. Fig. 5 shows the conveyor chain in its conveyor cycle. where they between the side wall of the conveying container and the side wall 22 of a cover 20 extends, which covers the chain both on the conveying side and on the return side 60. Everyone Arm 10 is pivotable about a pin which is an integral part of a block 19 forms, with each arm carrying an upstanding pin 62 which during the The conveying cycle rests against a stop 64 which forms part of the block 19.

Figures 6 and 7 show in detail the pivoting of each arm.

The block 19 consists of two parts 65 and 66, which are vertical Include link 67 of the drive chain. Before the block 19 is brought over a link in the chain a block 68 made of metal is inserted into this chain link to deform it of the limb if the two parts 65 and 66 by suitable means are held together, for example, as shown, by screws 70, of each of which has a head which rests on a shoulder of part 66 and which is screwed into part 65.

The lower part 65 is integral with the pin 12, which is central extends below part 65 and fits into a bore 71 in arm 10. The hole 71 in the arm 10 opens outwards to a recess 72 which has a larger diameter and this in turn has a recess 73 with an even larger diameter at the lower end of the arm 10. The arm and block 19 are assembled by the plug 12 is pushed through the hole 71, whereupon two half-rings 74 made of metal are inserted into a groove 75 in the pin 12 and a fuse lock 76 in the Recess 73 is used.

The stop 64 is an integral part of part 65 of the block 19. The arrangement is built around the chain so that the stop 64 is behind the rest Part of the block 19 is when the conveyor is in operation.

It can be seen from Fig. 8 that as the load on each arm increases as a result of the arm moving material along the conveyor, thereby the torque around the pin 12 increases and with it the pressure on the bolt 62 at the stop 64. This in turn causes the chain link carrying the block 19 to be out of line to pivot and pulled out in Fig. 8 position shown to take. In this extreme position, the sides of the adjacent horizontal Chain links may hit sides 14 and 22.

The straight position of the chain that it occupies when there is no load is present, is shown in dashed lines.

A major advantage of this arrangement relates to the elongation of the chain under load. It has been found that when a single chain conveyor is exposed to high levels of lasers is, the chain stretches itself elastically, which leads to difficulties because a The chain coming off the drive wheel is too loose, jamming or seizing can lead. So far this problem has been addressed by doing some exercise allowed between the conveyor pans (or bearings) near the end of the conveyor and increased the length of the conveyor with the help of a hydraulic piston, when the length of the chain has increased. However, if, as described above, the Load on the conveyor twisting the vertical chain links that support the arms, so this has the effect of stretching the links of the chains more or less so that the need for a piston or the like to increase the length of the conveyor does not apply if it is under load, either completely or at least the amount by which the conveyor has to be extended, greatly reduced.

It is further emphasized that in the embodiment described, in which both the pivot pin and the stop are carried by the chain link to which the arm is pivotally attached, are releasably attached to the limb, the chain can be a standard chain with no special forged or welded on Elements. This allows the number of arms on the chain according to requirements can be changed and adjusted and it can be done without difficulty Chain links added or removed. The arrangements at the end of the discharge and at the end of the conveyor are substantially the same as in the first embodiment 1 to 4. At the discharge end of the conveyor is the bottom of the conveyor trough sloping at the bottom and ending in an edge over which the material is discharged. When the arms reach the downward part of the conveyor chute, they fall in their height relative to the chain, which remains on its horizontal path, so that the Bolt 42 falls down below the stop 64 and comes to rest. When the chain then running around the sprocket, she pulls each arm under and under her, one after the other the sprocket through to the return part of the conveyor.

At the rear end of the conveyor is, as in the first embodiment, the rear sprocket for the chain is arranged a little higher, so that the arms that stay on the pan, swivel around and the bolt 62 runs under the Chain through. When the chain comes back down to its normal position, with If the arm pivots around the pivot, the forward movement of the Arm prevented by the bolt 62 that hits the stop 64. Like Fig. 8 shows, the stop 64 is symmetrical to the line VI-VI in plan view. This means that the stop 64 and the bolt 62 not only a clockwise movement of the Prevent arm in the position shown in Fig. 8, but also a movement counterclockwise (which could otherwise occur at the rear end of the conveyor) over an angle greater than about 35 °.

Claims (8)

Claims 1. Single chain conveyor with a plurality of arms on the chain, each of which is pivotally attached to the chain near one of its ends, Means to move the arms into a position during the conveying cycle of the conveyor to bring, which runs transversely to the conveyor trough along which the material is conveyed, while the arms run behind their pivot points during the return stroke, thereby g e k e n n n n e i c h n e t that an upwardly directed stop is provided, which rests on a link during the conveyor cycle, which is part of the conveyor chain forms or is attached to it. 2. Conveyor according to claim 1, characterized in that g e k e n n z e i c h -n e t that an upwardly directed bolt is arranged on each arm which is between this member and the side wall of the channel during the conveying cycle is to a Limit forward pivoting of the arm. 3. Conveyor according to claim 1, characterized in that it g e k e n n z e i c h -n e t that the upward stop rests against a part during the conveying cycle, carried by the link in the chain to which the arm is hinged. 4. Conveyor according to claim 3, characterized in that g e k e n n z e i c h -n e t that the upward stop is arranged with respect to this member so that the forward pivoting of the arm can be limited by him. 5. Conveyor according to one of the preceding claims, characterized in that g e k Note that the level of the soil of the Conveyor trough drops at the discharge end of the conveyor so that the stop can fall down or can be pressed and come out of contact with this part. 6. Conveyor according to one of the preceding claims, characterized in that g e k It is noted that the rear sprocket of the chain is arranged in a slightly elevated position is that the chain is also pushed down in a position in front of the rear sprocket is to move this part down into its correct position relative to the stop bring to. 7. A conveyor according to claim 6, characterized in that it is e k e n n z e i c h -n e t that the stop on each arm forms a guide for the arm to place it in his to bring the correct working position and that part of the stop that is removed from the pivot point of the arm, strikes against a cam surface. 8. Conveyor according to one of the preceding claims, characterized in that g e k It should be noted that a guide is provided at the rear end of the conveyor which has a rounded surface that is in a position on the side of the rear sprocket is arranged facing away from the drive sprocket that furthermore the rounded surface and the adjoining part of the guide that goes towards leads to the conveying cycle, as a cam surface for a surface at the pivoting end of the Arms serve to bring this evenly into its correct position in the conveying cycle sway.