DE691403C - Continuous conveyor - Google Patents

Description

Continuous conveyor Of the continuous ones currently in use Conveyors for bulk goods of all kinds, for example for mined products, like coals and the like, the revolving belts have the advantage over the others that the conveyed material remains lying quietly on the belt even during transport and is therefore treated extremely gently. A disadvantage of such conveyor belts consists in @ that they are laid as straight as possible "; lateral pivoting A few degrees can cause considerable difficulties under certain circumstances. Farther adapting the conveyor belts to a changing conveyor length is cumbersome. The subject of the invention is a continuous conveyor in which this Disadvantages are avoided. These are. around one running around on rails Conveyor trough, which consists of individual trough sections connected to one another. The new consists in that the two strands of the conveyor trough are separated from each other and the trough sections located at the ends of the strands after uncoupling be transferred to the other strand without reversing and coupled to it.

Further details of the invention are given below with reference to FIG Drawings explained in more detail in some embodiments: FIG Top view of the conveyor in its entirety, FIG. 2 the connection of two conveyor trough sections with each other, FIG. 3 the end view of a feed margin, FIG. q. and 5 two Execution possibilities -for relocating devices in which the channel sections are lifted upwards from the channel corridor, Fig. 6 shows a relocating device, in which the channel sections are moved downward from the channel run, Fig. 7 another. Transfer device in which the channel sections in the same way are moved away by the channel run, in top view, FIG. 8 is an associated side view, Fig. g another device for emptying the inland sections; schematically, Fig. io a different arrangement of the inner strands to one another in cross-section.

As can be seen in Fig. I, the conveyor consists of a larger one Number of individual inland sections 12, which are advantageously trough-shaped as shown in FIG are trained. The inland sections form two strings arranged next to each other, a conveying line and a return line running continuously in the direction of the arrow be moved. The trough section arriving at the end is transferred to the other strand ferried over. Each individual trough section is provided with running wheels 13. Included the arrangement of a wheel set at one end is sufficient if, as shown in FIG. 2 is, the individual inland sections with the free end on the next channel be supported. For this purpose, each channel has a mandrel 14 at one end, while it has a pocket 1 5 at the other end. Thorn and pocket are advantageously designed and arranged so that two interconnected inland sections butt butt against each other at a short distance. The remaining gap 16 is in a suitable manner, for example, by means of an external channel attached to the one Lug bridged. The wefts in each strand form a chain-like coherent one long conveyor trough. The wheels 13 are advantageously arranged so that their axes lie below the parting lines 16 between the individual inland sections. This has the advantage that, for example, the steel part 17, which the pocket 15 has, at the same time as a carrier of the wheel set 13 and as a roofing tab can serve for the parting line 16. In addition, the driving claws also grip for driving the conveyor on the steel part. 17, as explained in more detail below shall be.

The running wheels 13 are advantageously somewhat inclined as shown in FIG set so that they during normal 'operation the angularly towering Touch the legs of the guide rails 18 only on the smallest possible area. on the other hand the towering angle rails 18 derail the inland sections made impossible or at least made extremely difficult ..

Protection brakes can be arranged on the side of the route, see above that the route can be driven safely even during operation. These Schutzbraken ig can in turn in a suitable manner with guide strips 2o -o. .like be provided that the jumping out of the individual inland shots impossible do. If necessary, the facing side edges of the conveyor and of the return line overlap each other. Then only need on the two outer sides the overall conveyor to be arranged protective devices.

If the individual inland sections 12 are attached to one another in a chain-like manner in the manner shown in FIG. Pull chains or ropes for driving the conveyor are unnecessary. Rather, it is then sufficient that a driver chain 23 is driven by the drive motor 21 via a gear mechanism 22, which is arranged under one strand, for example the conveyor strand. This revolving driver chain 23 expediently carries driver shoes 2q., The mutual spacing of which corresponds to the length of a channel section 12 and which engage the steel parts 17 at the end of the individual inland sections. If the chain 23 extends over a little more than a chute length, a driver shoe 24 is constantly in engagement with the inner strand.

Is advantageous from the chain 23 via a reverse gear 25 a second driver chain 26 is driven, which is formed in the same way as the chain 23 is and has a pushing effect on the rear end of the return line.

Since the driver chain 23 exerts a train on the conveyor line and on the other hand the individual inland sections in the conveyor line are a cohesive one Form a chain, there is easily the possibility at the other end of the conveyor line driving a third keyed chain 27 in a similar manner is designed like the chain 23 and acts in a pushing manner on the conveyor line. Of the Chain 27 becomes the fourth driver chain 2g via the reversing gear 28. in circulation offset, which causes the return line to be pulled forward.

In that the inner strands at both ends by the drive mechanism 23 25, 26 or 27, 28, 2g are coupled with each other, is achieved with certainty, that the inland sections 12 to be implemented in each case are clearly defined categorize the rhythm of movement of the strand into which they are to be transferred.

This is of importance for the transfer devices 30 and 31 arranged at the ends of the conveyor, which are only indicated schematically in FIG. 1 of the drawing. These transfer devices are also advantageously actuated via a gear 32 from the drive motor 2i or from the drive device 27, 28, 29 by means of suitable coupling members 33.

The individual inland sections are repositioned at one end of the line in that the last trough section is lifted upwards from the inner line, so that his driving mandrel 14 (Fig. 2) from. the pocket 15 of the next inland section 12 is lifted out.- Then the channel section must be at the other end of the strand be lowered down so that his pocket i5 is free of the driving mandrel of the next inland section 12, which is still coupled to the entire run of channels is.

Fig. 4 - the drawing shows schematically a transfer device for the last gutter shot, in_which this is lifted from the pin catcher upwards. The channel section i2 is detected by the support beam 34, which is moved in a circle, for example, by two synchronously rotating cranks 35- parallel to itself. The support beam 34 then strikes from below against the channel section 12 in the position shown in FIG. 4 in solid lines. The gutter section 12 is raised and placed over the path indicated by the arrow 36 into the other strand. Approximately in the position shown in dotted lines, the running wheels of the inland section 12 hit the rails 18. The support beam 34 is then lowered further. The rails 18 are perforated in a suitable manner, so that. the bar 34 can perform a full loop until it finally detects the next channel section 12, which has meanwhile been pulled forward accordingly, in the position shown in solid lines. So that the trajectory of the girder. 34 is not crossed prematurely by the downstream channel section 12, the left crank 35 could optionally also be arranged between the two running tracks or even on the other side of the second crank. The turnover bar 34 could possibly also be moved in the desired manner by a different type of gear.

The detected by the turnover bar 34 trough shot 12 takes during the Sales period does not affect the longitudinal shift in one direction or another moving inland part. It is therefore expedient to discontinue the Channel section 12 through the beam 34 in good time that the coupling bolt 14 some distance before the end of the already coupled channel section based on this. The overlying gutter section 12 then initially remains at rest, until the coupling pin 14 is pulled forward as shown in FIG. 2- slides into the driver pocket 15 of the previous inland section.

The transfer of the inland shot by lifting it up and then lowering it on the adjacent channel run can also be carried out in accordance with FIG. 5. Included the running rails 18 need not have any interruptions. The gutter shot 12 is, for example, if the repositioning is to take place from right to left, detected by simply lowering the bar 3: 7 in the conveying direction, the driving claws 38 being the edges. of the shot 12 under the action of Spring 39 or just your own. Encompassing the effect of weight. The support beam 37 is then moved from the crank 40 via the gear 41 and the in-phase Crank arms 42 moved over in the direction of arrow 43. When releasing the retaining claws 3a,. For example -by placing the projection 44 on the stop 45 the trough section i2-released, which is then in the above on hand of the Fig. 4 automatically coupled to the relevant internal line. The support beam 37 then moves in the opposite direction to the path of movement 43 Direction back over to the right strand to capture the next gutter shot.

While the two devices according to FIGS. 4 and 5 serve to to lift a channel section and then transfer it to the adjacent strand, are in Fig. 6; and 7 and 8 show two devices in which the The channel section to be converted -first lowered and after the lateral shift moved onto the other strand from below against the trough weft of the latter strand to which it is to be connected. In Fig. 2 of the drawing is. recognizable, _ that the left channel weft with an obliquely upward movement against the trough section shown on the right, for example, the free end of an internal strand represents, is readily coupled with the latter.

The device according to FIG. 6 of the drawing is a double rocker, the two rocker drums 46 and 47 of which are held by the rollers 48 in the common frame 5o rotatable about the axis 49. Each of the rocker drums 46 and 47 can perform a rotary movement on its own, and the frame 5o, in which the two rocker drums 46 and 47 are mounted, can also rotate about the axis 49. These. .three rotatable systems 46, 47 and 50 are interconnected by the planet gears 51, 52 and 53, the gear 52 being fixed and only serving to roll off the gears 5i and 53, which are attached to the rocker drums 46 üiid 47 at the front .

The device described is on the front, the emptying end of the conveyor line and the adjacent return line attached. The incoming one Channel section i2 is to be pushed into the left seesaw drum146, for example and thereby securely grasped by suitable guide elements, such as guide bars 54 will. Instead of the embodiment shown, in which the guide bars 54 of two leading edges of the gutter pan 12 could optionally also be included the edge of the trough pan from suitable guide rails of the rocker drum 46 be led.

- Is the trough section 12 sufficiently far into the seesaw drum 46 pushed in, it appropriately automatically releases the locking device, which so far the whole rocker device kept in rest position. The bogie rotates 5o then either automatically under the load of the conveyed material, which is the left Trough pan 12 fills in the rocker drum 46, or as a result of a special one Drive (32 in Fig. I) in the direction of arrow 55. At the same time, however, as a result the engagement of the two planet gears 51, 52 and the rocker drum 46 in addition rotated in the direction of the arrow 56 with the effect that the Rinnenschüß iz immediately through sideways tilting all of its contents in the conveyed material, for example into the collecting funnel 57 drops, from where it is carried on in a suitable manner, for example by a conveyor belt 58 0 will.

So that the independent gyroscopic movement of the rocker drum46 does not make it difficult to disengage the coupling members 14, 15 (Fig. 2), the planetary gears 51, 52 and 53 can optionally have an elliptical shape, whereby the longer axis of the central wheel 52 would have to be perpendicular: One such Transmission would have the consequence that at the beginning of the rotational movement of the frame 5o in the direction of arrow 55, the rocker drums 4.6 and 47 would initially only perform a very small rotational movement of their own. During this time, the coupling pocket 15 of the channel section 1a to be separated would have lowered sufficiently relative to the mandrel 14 of the connecting channel section. As the entire system continues to rotate, the rocker drum 46 would then rotate itself around its longitudinal axis at a higher speed, with the result that the complete emptying of the trough pan 12 contained in the rocker drum 50 would in any case be completed before this trough pan was Moved over the right edge of the collecting funnel 57. During the further turning movement. of the frame 5o then the rocker drum146 rotates so far that it assumes the position of the rocker drum147 shown. While the frame 5o rotates by only i 8o °, the rocker drums 46, 47 each perform a rotary movement of 36o '. In this movement, the rocker system comes to rest again.

When the channel section 12 swings into the dotted line on the right in FIG Position pushes its free end, which protrudes from the rocker drum 46, under the free end of the last channel section in the drainage line. The coupling mandrel 14 of the last inland section is therefore raised by the trough section which has been pushed under. Since the empty return line moves forward continuously, briefly dara) zf the mandrel 14 of the last already coupled inland section into the pocket 15 of the inland shot still standing in the rocker and then this one afterwards Pull the channel section out of the rocker.

When the entire rocker system is rotated 5o, the right rocker drum becomes 47 empty, that is, brought into the position of the rocker drum 46 shown without a gutter section.

In the one shown in FIGS. 7 and 8 in plan and side view Transfer device slides the last trough section 12 by its own weight Inclined surface 588 and is thereby easily uncoupled from the conveyor line. This freed channel section is thereupon by two levers 59 and 6o, the for example, grab behind the wheels and the coupling mandrel 14, in parallel pushed himself over to the next line. There will be his clutch bag 15 detected by a driver chain 61, which the converted channel section 12 again the inclined surface 58 pulls up and thus under the last Ri.nnenschuß the 'other inland line encounters that this is partially raised. The drivers the lifting chain do not cause any further advancement of the inland section 12; this couple rather, it automatically adopts the other in the manner described above Inland line.

Thus in the coupling according to FIGS. 7 and 8 the penultimate channel section at its free end does not immediately lower itself, are suitable guide brakes 62 intended for the gutter section. Such guide elements are advantageous also arranged on the other strand. The - Umsetzvoriichtung nach 7 and 8 can optionally also be designed so that the side. to shifting gutter section is not lowered at one end, but vice versa the two last inland sections in the conveyor and return line at their free end temporarily be raised.

Of particular importance for the transfer devices is after Fig. Q. and 5 and according to FIG. 6 and according to FIGS. 7 and 8 that .these with the drive mechanism are coupled because this guarantees that the channel section to be implemented is fits into the rhythm of movement of the two inner strands.

The transfer device according to FIGS. 7 and 8 does not have a simultaneous one Emptying of the inland section 12 to be transferred, such as the wipper after Fig. 6. A different emptying device must therefore be provided. . These can be done, for example, by tilting the inland section about its longitudinal axis or also around its' transverse axis. The conveyed goods seem to be particularly advantageous shortly before the end of the conveyor line according to FIG. 9 by a coulter 63 laterally plow over the edge of the inland sections 12. The flock will be advantageous hinged only on one side at about 64 so that it is constantly under its own weight , and possibly an additional weight or a spring is pressed against the bottom of the conveyor trough sections r2. For fine-grained bulk goods If a flock 63 is generally high, no completely clean emptying of the Cause gutter z2. A second coulter 65 can then optionally be provided which is at a suitable distance behind the first and also expedient is hinged on one side at 66. Instead of this second group, however, any one can also be used other cleaning device, for example one firmly over the bottom of the inland sections painting rubber sheet, a rotating broom roller o. The like. Be provided. Appropriate it is the space 67 between the two shares 63 and 65, which is shown in Fig. 9 of the drawing is highlighted by hatching, to be covered above and then, for example, by the Nozzles 68 the exhaust air of the compressed air drive motor or also fresh air in to blow this space. The compressed air then blows what remains in the trough section Fine material over the edge of the inland section, where it is covered by a dust bag or the like. is caught.

A conveyor according to the invention is against both lateral and lateral extremely insensitive to vertical pivoting. It even exists the possibility of the channel sections i2 in the manner shown in Fig. Ro one above the other or alternate the channels crosswise on the route to lead away. Thereby, the two internal strands are promoted in the same way useful. So there is no problem in a mining stretch to carry away the coal that has been extracted through one strand and through that other strand «to convey the mountains of offset.

In the case of conveyors of considerable length, this could be done in the same way as in the currently known cable cars or the like, sensitive disturbances arise as a result, that occasionally, when moving, a gutter shot does not work properly changes over to the next line or, but that an occasional gutter shot, jumps out of the inner line. It was already on the basis of Fi.g. 3 described, that by overpasses such derailments largely avoided on the line can be. In addition, however, you can still use the inland strands especially endangered places the conveyor trough sections holding down pressure, rolls arranged be that the jumping out of the coupling links impossible. do. Finally you can Scanning devices are provided both at the reversing stations and on the open road in the event of any deviations from normal operating conditions Give alarm signals or switch off the drive of the conveyor immediately. At sloping points of the conveyor line are advantageous additional brakes any Kind of arranged, which make the inadmissible shooting forward of a gutter impossible. These brakes can also be switched on automatically in a suitable manner any disturbance shows up.

Claims (2)

PATENT CLAIMS "z. Continuous conveyor with circulating on rails Conveyor trough, which consists of individual concatenated Rin. There is no shots, as a result characterized in that the two _ strands of the conveyor trough are separated from each other and the inland sections located at the ends of the strands after uncoupling be put over the other strand and coupled to this without reversing. 2. Conveyor according to claim z, characterized in that the individual inland sections (z2) carry wheels (13) only at one end, while the other end z. B. by a mandrel (1q.) Is supported and attached to the next channel section ".- -. ' 3. Conveyor according to claims i and 2, characterized in that the two channel strands are laid with a slight difference in height from one another and one strand with its inner longitudinal edge overlaps the inner longitudinal edge of the other strand that the end edges of the trough sections (12) face each other at a short distance and the gap remaining between them is covered on the outside of the trough strand is effected by a supporting beam (34) formed by interruptions of the rails (18), the strands passing on, raising the 'conveyor pan and it to -.. settles a lateral displacement on the rails of the other strand again 6. the conveyor of claim i to 5, characterized in that the support beam (34) be by two cranks (35) rotating in phase is moved away. 7. Conveyor according to claim i to 6, characterized in that the two cranks (35) on the same side next to the track of that. Strand are arranged from which the gutter section (12) is to be excavated. B. Conveyor according to claim i and 2, characterized in that the running wheels (13) of the trough sections are attached to a steel part (17) which carries a pocket (15) for hanging a coupling mandrel (14). G. Conveyor according to Claims 1, 2 and 8, characterized in that the axes of the running wheels (13) lie below the parting line of two successive inland sections (i2). ok Conveyor according to Claims 1 to 9, characterized in that the running rails (18) of the inland sections are designed as angle rails and the axes of the running wheels are inclined outwards. i i. Conveyor according to Claims 1, 4 and 8 to 10, characterized in that the transfer of the inland sections is effected by an automatic gripper device (38) which is moved by parallel cranks (42) and which grips the channel section from above. 12. Conveyor according to claims i to 4 and 8 to ii, characterized in that the gripper device (38) is opened by a stop (45) when it is lowered onto the trough section to be detected and when it is set down on the other strand. 13. Conveyor according to claims i to 4 and 8 to -1o, characterized in that the transfer. the channel section (i2) is carried out by a bogie (So), which picks up and lowers the channel sections and then pushes against the last channel section of the other channel run from below. 14. Conveyor according to claim i to 4, 8 to io and 13, characterized in that the bogie (So) is designed as a double rocker with two rocker drums (46, 47). 15. Conveyor according to claim z to 4, 8 to 10, 13 and 14, characterized in that the rocker drums (46, 47) displaced in the bogie (50) during the rotation of the former (5o), for example by planet gears (51, 52 , 53) are set in an additional independent rotation, whereby an emptying of the channel to be moved is effected. 16. Conveyor according to claim i to 4, 8 to io and 13 to 15, characterized in that the planetary gear (51, 52, 53) is designed as an elliptical gear. 17. Conveyor according to claim i to 4 and 8 to io, characterized in that the trough section to be converted is lowered at its coupling end, then moved laterally and raised again under the second run of troughs. 18. Conveyor according to claim i to 4, 8 to io and 17, characterized. that the lowering of the channel section is effected by rolling or sliding on an inclined surface (58). i9. Conveyor according to Claims 1 to 4, 8 to 10, 17 and 18, characterized in that the lifting of the inland section is brought about by a chain belt (61) which is driven from the drive shaft of the channel strands. 2o. Conveyor according to claims i to 4, 8 to io and 17 to i9, characterized in that the lateral displacement of the inland sections is effected by swivel arms (59, 6o) which are moved jointly by a crank (K) from the drive device for the inward strands . 21. Conveyor according to claim i to 2o, characterized in that the emptying of the inland sections is effected by a ploughshare-like scraper (63) which lifts the conveyed material out over the edge of the inland sections. 22. Conveyor according to claim i to 21, characterized in that the scraper (63) on one side (at 64) is angelen4. 23. Sponsor after. Claims 1 to 22, characterized in that a second clearer (65) for fine material is also arranged behind the first clearer (63). 24: Conveyor according to claims i to 23, characterized in that the second scraper is made of flexible material, for example rubber. 25. Conveyor according to claim i to 24, characterized in that the space between the two clearers (63, 65) is covered at the top and a blower nozzle (68) is arranged for removing fine material located therein. 26. Conveyor according to claim i to 25 with drive by compressed air motöx, characterized in that the blow nozzle (68) from the exhaust. of the air motor. is fed. 27. Conveyor according to ° claim i to 26, characterized in that; that the tensile force in the two internal strands is only transmitted through the chain-shaped inland sections. 28. Conveyor according to claim i to 27, characterized in that the one inner strand is driven at one end by a driver chain (23) o. The like. And at its other end drives a second driver chain (27) from which a Reverse gear (28) the adjacent internal line is driven. 29. Conveyor according to claim i to 28, characterized in that the two inner strands are coupled to one another at both ends by reversing gears (25, 28). 30. Conveyor according to claim i to ä9, characterized in that the transfer devices are coupled at both ends of the conveyor to the drive devices for the inner strands by gears. 31. Conveyor according to claim i to 30, characterized in that the emptying of the inland sections is effected by tilting about a transverse axis after they have been uncoupled from the inland line. 32: Conveyor according to Claims 1 to 31, characterized by the arrangement of brakes that come into effect automatically for the inner strands when driving through troughs. 33. Conveyor according to claim i to 32, characterized in that brakes are arranged for the same at different points on the conveyor, which brakes can be switched on as required when the drive is switched off. 34. Conveyor according to claim i, characterized in that the engagement of the coupling members (14, 15) is secured by pressure levers or rollers which hold down the conveyor ring sections.