DE3641964A1 - Conveying means for continuous vertical conveying of bulk materials in the case of large conveying height differences - Google Patents

Abstract

Conveying means for continuous vertical conveying of bulk materials in the case of large conveying height differences, which is preferably suited for upward conveying but can also be arranged for downward conveying and simultaneous upward and downward conveying, all traction forces being transmitted by an endless traction element, which consists of cables, and the material to be conveyed being received by a belt-pocket-like carrying element arranged between the cables. The drive of the conveying strand, which is provided with a detachable endless connection, takes place non-positively according to the principle of a flexible drive. The feeding of material to be conveyed takes place in the region of the lower return unit, between the deflection wheels, while the delivery of conveyed material takes place in the region of the upper return unit, between the drive station and a further deflection station, according to the principle of gravity emptying, on an unloading section. Devices for the transport of personnel and/or equipment can be provided between the strands. <IMAGE>

Description

The invention relates to a funding with which Bulk goods in the vertical direction with large delivery heads differences in a continuous process can be changed.

There are tasks for such funding tasks in numerous industries, particularly in mining, in the cement industry, the stone industry and Er as well as in the conveyance of bulk goods in high silos. The primary means of funding for this are bucket elevators Available that a constantly pulsating flow of bulk material promote. The drive power is approximated determined only by the share of performance to be funded of the mass flow to the respective delivery head is necessary is. The idle power is due to the mass balance of the conveyor string almost insignificant. So cups belong works to the most economical continuous conveyor ever. The trend towards larger units e.g. B. the cement kilns is significantly hampered by the fact that today's Bucket elevator technology at its own performance limits bumps. Material strength, drive systems, wear phenomena and constructive details, such as B. the end loose connection of the conveyor line, are crucial bend.

From the further and new development of chains and belts are no significant progress in the medium term With regard to greater delivery heights with large mass flows  expected for bucket elevators.

A bucket elevator is described in DE-OS 27 36 634, in the ropes as a tension member for a non-positive Drive system are provided. With the conception "rope becherwerk ", whose ropes with extremely high strength only have a minimum of own weight, and conveying vessels, whose own weight is also minimized Bucket elevator technology to its limits leads.

As further funding for such funding tasks, however with significantly lower head differences, apply belt pocket conveyors, wave edge belt conveyors, Cover belt conveyor and double belt conveyor with foam tape, which were partly executed, partly only from the incl current specialist literature are known. With all of these sponsors applies - as with conventional bucket elevators - that due to high dead masses and the resulting Stresses of the funding body limited the overall height are. Occasionally, such systems with intermediate drives proposed, which, however, with high investment and operating costs.

According to the invention, a funding is proposed that from an endlessly connectable conveyor line with minimized specific weight, which is an upper reversal station consisting of at least one drive station and one Deflection station, and a lower reversing station, the consists of at least two deflection stations. The frictionally driven conveyor line is so efficient piert that the tensile forces of laterally arranged ropes be transferred as a train member and the material to be conveyed in an intermediate support element from a belt pocket well-designed flexible material.

The support member is attached to the tension member at Ver tie rods so between the two-sided train ropes are arranged that an unimpeded run over the Traction and deflection disks is guaranteed. The detachable  Endless connection of the conveyor line is also ge stalls that a so-called polygon effect during the run the discs are minimal and practically without any disadvantage Consequences occurs. So that the loading of the fiction proper conveyor and without losses the deflection disks are so on the lower reverser arranged that a straight or slightly inclined Conveyor section results on which a continuously incoming bulk goods flow via a chute without any problems can be handed over to the sponsor according to the invention.

Due to gravity, the flexible pockets of the Support member also according to the direction of gravity be aligned and a corresponding position in the maintain vertical conveyor sections. When passing These belt pockets take the upper reversing station inevitably a position in which the content itself emptied according to the principle of gravity. To the rest To enable loose emptying must be in the area of the upper Reverse another deflection station next to the drive station tion be arranged so that a drain line arises. The wrap angle of the conveyor string around the Drive station should be reduced only slightly be, so that according to the laws of the envelope drive proper drive can take place. The bulk material falls on a handover in the area of the emptying section chute and then arrives on another continuous conveyor for further transport.

Thus, the funding according to the invention a rope bucket elevator as a major advantage conveying goods carrier on, in a loading area a lossless loading and one in the unloading area complete and lossless emptying possible. The conveyor line, which consists of a traction element and a There is a supporting body on the stel le separable, which is great for transportation and assembly is advantageous. The drive station consists of driven ben traction sheaves, which a gear with differential equalization is connected upstream. This is to avoid  because due to different traction sheave diameters or uneven rope elongation a parallelogram sets the displacement of the conveyor line. Such one Appearance would cause different forces on the train carry carriers, which compensates for the transmission would take place automatically. Different rope stretches can be achieved by using pre-stretched ropes where the Part of the design-related stretch almost completely is eliminated, only on an insignificant scale to step. To avoid parallelogram-like shifts A control device can also be used for the conveyor line which monitors the synchronism of the conveyor line and if necessary brings about a correction. For this, a the traction sheaves are equipped with a constant drive, while the other with an additional drive or lagging is superimposed.

According to a further feature of the invention, a Conceived funding also for downward promotion as well for simultaneous upward and downward promotion to be used. The space between the dreams can e.g. B. for the installation of lifts for people and / or material transport as well as for supply and maintenance facilities be used.

An embodiment of the invention is based on the Drawing described.

In the drawing shows

Fig. 1 is a front view of the conveyor according to the invention in a schematic representation;

Fig. 2 is a front view of the traction member,

Fig. 3 is a side view of the traction member,

Fig. 4 is a plan view of the traction member,

Fig. 5 is a sectional view of the endless connection of the traction member,

Fig. 6 is a plan view of the endless connection of the traction member,

Fig. 7 is a sectional view of the conveyable-article carrier according incision in Fig. 9,

Fig. 8 is a side view of the conveyable-article carrier,

Fig. 9 is a plan view of the conveyed goods carrier.

In FIG. 1, a loading station is also shown and a discharge station. It can also be seen that the endless traction element 1 , to which the conveyed goods carrier 2 is fastened to the paired drive disks ben 3 , the upper deflection disks 4 and the lower deflection disks 5 and 6 . The lower deflection plates ben 5 and 6 can be designed together with the loading station as a tensioning station, on the one hand to compensate for operating strains of the tension member and, on the other hand, to ensure the function-related pretensioning force at the drive station. The latter is only necessary for low delivery heights, i.e. if, in the absence of a sufficient dead mass of the delivery line, an additional pretensioning force is required to meet Extelwein's drive criterion.

In Figs. 2, 3 and 4, the tension member 1 is shown, the bars of high-strength, bending-friendly and korrosionsbestän ended ropes with the clamped at intervals connection consists 7, whose mutual clamping connection is formed with the ropes so that they are sen completely umschlos and that there is only a minimal and practically meaningless polygon effect when running over the reversing stations. This is possible because the clamp connection causes a slight bending of the ropes and there are no spots on the running side. The endless connection of the ropes 1 is shown in FIGS . 5 and 6. Both ends of the rope open into conical sleeves 8 , in which they are cast with a hardenable material suitable for the rope material. The rope ends thus prepared are embedded within a lower shaped piece 9 , two lateral shaped pieces 10 and an upper shaped piece 11 in such a way that a releasable endless connection is formed, which can also pass through the reversing stations with only a minimal polygon effect. The fittings 9, 10 and 11 are connected by screws 12 . To absorb the forces in the pulling direction, the endless connection is also surrounded by a yoke 13 , which is secured with a screw connection 14 .

The conveyed goods carrier 2 is shown in FIGS. 7, 8 and 9. Said belt arranged waving to the connecting rods 7 and by terminal strips 15 bars by means of screws 16 to the connection 7 is attached a strap of a flexible and load-adapted material serves as a conveyable. The resulting belt pockets for receiving the material to be conveyed are laterally closed by caps 17 made of a flexible material.

Claims (10)

1. Funding for the continuous vertical conveyance of bulk goods, consisting of an endless and forcefully driven conveying member, characterized in that the conveying member consists of a pulling member provided with a releasable endless connection of at least two ropes, between which a continuous carrying member receiving the conveyed item made of flexible and load-bearing material is arranged and fastened like a belt bag. 2. Funding according to claim 1, characterized characterized in that the tension member from more is formed as just one rope per side. 3. Funding according to one of claims 1 or 2, characterized in that as Tension members are bend-friendly and corrosion-resistant Ropes made of high-strength fibers with wrapping material Application come. 4. Funding according to one of claims 1 to 3, characterized in that the detachable endless connection from a space-saving and assembled molding, consisting of a lower fitting, two side fittings and an upper fitting is formed, within which the rope ends next to each other in corresponding recesses are arranged differently. 5. Funding device according to one of claims 1 to 4, characterized in that the lower reversing station, which consists of the paired deflecting discs 5, 6 , is formed together with the loading station as a tensioning station. 6. Funding according to one of claims 1 to 5, characterized in that the Drive via synchronizable traction sheaves, e.g. B. about a gearbox with differential compensation. 7. Funding according to one of claims 1 to 6, characterized in that a Control device any parallelogram Ver shift of the conveyor line detected and this shift exercise about correcting the speed of one of the two Undo traction sheaves. 8. Funding according to one of claims 1 to 7, characterized in that under Retention of the train organ and corresponding redesign of the flexible support element and the loading and unloading station downward promotion is also made possible. 9. Funding according to one of claims 1 to 7, characterized in that under Retention of the train organ and corresponding redesign of the flexible support element and the loading and unloading station an upward and downward movement occur simultaneously can. 10. Funding according to one of claims 1 to 9, characterized in that between the dream funding for people and / or Material transport as well as supply and maintenance directions are provided.