FR2686585A1 - AGGREGATE ELEVATOR HAVING TWO BUCKETS. - Google Patents

Abstract

The invention relates to a granulates elevator provided with two buckets (1, 2) travelling to and fro and connected by means of cables or chains (14). The two buckets (1, 2) or "skips" have the same lower and upper end-of-travel positions, but are guided by pairs of main rails (5, 6) which are separate over their entire length. These rails are fastened to one another to form an integrated rigid structure or frame (8) of the elevator. The main guide wheels (3) have different respective positions on the two buckets. Such an elevator can be used for conveying granular materials, especially in a plant for the production of concrete or cement-bound sand and gravel.

Description

AGGREGATE ELEVATOR HAVING TWO BUCKETS

  The present invention relates to a granulator hoist comprising a frame provided with guide rails, two bucket aggregates provided with wheels which are guided by the rails on the path of each bucket between a lower position and an upper bucket position, flexible members traction unit connecting the two buckets and passing on wheels or pulleys located near or above said upper position, so that one bucket is in its upper position when the other is in its lower position, and arranged motorized means to move the buckets simultaneously and in opposite directions along the guide rails Elevators of this type are used, particularly in concrete or similar production plants, to raise aggregates and to dump them in a kneader generally located several meters above the ground, so that the product can be dumped into a construction a vehicle or in a loading hopper Conventional lifts have a single truck equipped with an opening bucket or a tipping bucket (also called "skip"), this truck being moved by means of a cable winch which pulls it when climbing up and holding it down during emptying In the manufacture of concrete, these movements can take place during the mixing time of a batch. However their duration can be critical for the productivity of the plant, if the time This is particularly the case in the manufacture of a cement-stabilized gravel. It is then the duration of the cycle of the aggregate elevator, and not that of the mixer, which determines the rate of

  In addition, such an elevator consumes a lot of energy.

  This is why an advantageous solution consists of an elevator having two buckets connected so as to move alternately and so

  that their dead weights balance each other.

  The French patent published under number 1 465 168 describes such an elevator, having two buckets or buckets which circulate on a pair of main rails To allow the crossing of the buckets, the central section of each main rail is split into two tracks connected by needle connections defining two different paths in this zone, while the buckets follow the same paths in the upper and lower areas of the rails, so as to occupy the same positions Four pivoting needles are provided at each connection and are controlled by a mechanism. connecting rods having a movable cam driven by a wheel of each bucket Such a mechanical arrangement is susceptible to frequent deterioration or failure, under the severe operating conditions of an aggregate elevator where the rails can easily receive dust or solid elements escaping from the buckets Disturbances in the operation of The switches cause not only lift stops and productivity losses, but also risks of derailment that can have serious consequences. In addition, the openings in the rail flanges at the point of the needles weaken the rails and require reinforcements The deviations of the trajectories of the buckets at the passage of the branches produce forces which also require reinforcing the frame and the rails or of

  restrict the speed of the buckets, therefore the hourly flow of the aggregates.

  The object of the present invention is to create a two-bucket elevator having a simple and rigid construction and where the displacement of the buckets can be done in a particularly safe manner, particularly in

regarding the risk of breakdown.

  According to the invention, this object is filled by an elevator of the type indicated above, characterized in that the guide rails comprise two pairs of main rails, respectively associated with the buckets and defining, for main wheels of each bucket, two courses their entire length between the lower position and the upper position, and in that, on each side of the buckets, a main rail of one pair is fixed to the corresponding rail of the other pair in several points to form with it a lateral structure

rigid part of the frame.

  Preferably, said rigid lateral structure comprises an upper zone and a lower zone in which the two main rails belonging to it are adjacent and are fixed rigidly to one another to form a unitary structural element in said zone. In addition, said rigid lateral structure comprises a central crossing zone where the two main rails are spaced apart and are interconnected by bars forming with them a triangulated structure. An advantageous form of the invention provides that the main wheels have different locations on the two buckets, so that the lower and upper positions are the same for the two buckets. In addition, the guide rails may comprise secondary rails arranged at the two buckets. near the lower position and the upper position to guide a pair of secondary wheels of each bucket, which have identical locations on the two buckets. In a particularly safe embodiment, the flexible traction means are formed by two chains arranged laterally with respect to the buckets and passing on two toothed wheels which are integral with a common shaft. The motorized means may comprise an electric geared motor coupled to the An electric or hydraulic brake can be coupled to

the common tree.

  Instead of a geared motor drive, the motorized means may comprise at least one hydraulic jack mechanism. In particular, the motorized means may comprise a single hydraulic jack mechanism, comprising articulated arms coupled to only one of the buckets, the jack being double acting to drive said bucket in both directions of movement, while the other bucket follows the movements of the first thanks to the traction means

and at its own weight.

  Other features and advantages of the present invention

  will appear in the following description of two forms of

  embodiment, presented by way of non-limiting examples, and illustrated by the accompanying drawings, in which FIG. 1 is a diagrammatic side elevational view of an embodiment of an aggregate elevator according to the invention, in a first embodiment. extreme position of the buckets, Figure 2 is a view similar to Figure 1, for the other extreme position of the buckets, Figure 3 shows schematically how the buckets intersect in an intermediate position, Figure 4 is a schematic elevational view the object of FIG. 1, and FIG. 5 is a view similar to FIG.

  another embodiment of an elevator according to the invention.

  In the form illustrated in FIGS. 1 to 4, the aggregate elevator comprises a first bucket 1 and a second bucket 2 which have equal capacities and which each form a trolley having two main wheels 3 and two secondary wheels 4 The main wheels 3 of the bucket 1 circulate along a path formed by a pair of side rails 5, while the main wheels 3 of the bucket 2 circulate on the

  along another path, formed by another pair of side rails 6.

  The main rails of the same pair are preferably formed of mutually facing U-section sections in which the main wheels of the corresponding bucket are engaged. The rails and 6 on each side are arranged in the same vertical plane and part of a rigid frame 8 comprising in particular, in the vertical plane of two main rails, a base 8a, a stand 8b connecting the latter to the rail 6, as well as crossbars 8c and a diagonal 8d fixed to both rails 5 and 6 to form with them a rigid triangulated side structure 8e crosspieces (Figure 4) connect the two

  lateral structures thus formed.

  The secondary wheels 4 of the two buckets are arranged slightly inwards relative to the rails 5 and 6 and are intended to engage in sections of lower guide rails 9 and upper 10, to properly guide the buckets 1 and 2 at both ends of their stroke along the respective rails 5 and 6 Figure 1 shows the bucket 1 in its lower end position, where it is stabilized by the engagement of its guide wheels 4 in the rails 9 and where it is ready to be filled with aggregates from a weighing hopper 11 At the same time, the bucket 2 is in its upper limit position, where it is tilted so as to pour its contents into a container such as a mixer 12, for example in a power station

  manufacture of concrete or gravel-cement.

  The buckets 1 and 2 are connected to each other, in front of the axis of their main wheels 3, by a pair of Gall 14 chains arranged laterally with respect to the buckets and passing on integral toothed wheels of a transverse shaft 16 mounted at the top of the frame 8, on the upper ends of the rails 5 and 6 The rotation of the shaft 16 is controlled by an electric geared motor unit 17 comprising an electric or hydraulic brake 18 With the chain connection 14, the the empty weight of the two buckets 1 and 2 equilibrate each other, so that the geared motor unit 17 must not lead to the rise,

  or possibly braking when stopped, that the payload of the bucket full.

  The length of the chains 14 is such that, as shown in FIG. 1, the bucket 2 is in its upper discharge position in the mixer 12 when the bucket 1 is in its lower loading position through the hopper 11. lower limit position of bucket 2 is the same as the lower position of bucket 1, and at the same time bucket 1 is in a higher position similar to that of bucket 2 This identity of the respective positions of the two buckets is simply the result of a different positioning of the main wheels 3 of each bucket, as seen particularly in Figure 3 schematically showing a section along a median vertical plane of the elevator The X dimension represents the distance between the main rails 5 and 6 in their area upper 30 and lower 31, where they are superimposed and assembled to form a particularly rigid structure The axes of the wheels 3 of the two buckets are dec crosswise to the same extent X, perpendicular to the bottom of each bucket In the example shown, the axis of the wheels 3 of the bucket 1 is raised by X / 2 relative to the bottom of the bucket, while the corresponding axis of the bucket 2 is shifted to the same extent, but in the opposite direction, relative to the bottom of the bucket. There is further provided a longitudinal offset Y between these two axes, with respect to the guide wheels 4 which have substantially the same location on both buckets, to account for the different positions of the rails 5 and 6 relative to the upper position of the buckets, as seen in Figures 1 and 2. An operating cycle of the elevator allows to fill twice the mixer 12 A from the state illustrated in Figure 1, where the bucket 1 is filled along the arrow A and the bucket 2 is emptied along the arrow B, the geared motor 17 is actuated to drive the chains 14 in the direction indicated by the arrows, for fai go up the bucket 1 and down the bucket 2 Halfway, the two buckets cross as shown in Figure 3, their respective rails 5 and 6 having traces that deviate to a sufficient extent As soon as the bucket 1 approaching its upper position, its guide wheels 4 engage in the guide rails 10 and tilt to empty it in the final phase of its race At the same time, the wheels 4 of the bucket 2 engage in the rails lower guide 9 and stabilize this bucket during its filling This operation and the subsequent rise of the bucket 2 is performed while the mixer 12 treats the load he has received

of the bucket 1.

  In addition to the advantages of a two-bucket device compared to single-bucket elevators, ie almost doubled throughput, lower installed power, lower energy consumption per ton of aggregates, reduced solicitation and less the wear of the brakes, the elevator according to the invention also has remarkable advantages vis-à-vis the state of the art described above Because of the absence of referral, each bucket is guided by a continuous and positive manner by means of fixed members throughout its travel, which eliminates the risk of derailment and allows trouble-free operation The internal surfaces of the rails being smooth and continuous, they have no tendency to retain dust or aggregates The combination of the main rails 5 and 6 to form a rigid structure ensures a better stability of each rail and a better rigidity of the frame 8, without reinforcing the rails nor increase their section,

  which is particularly interesting for high heights.

  Thanks to the double chain 14 cooperating with the gears 15, there is a double security against a possible fall of a

  bucket, because the brake continues to act in case of breakage of a chain.

  FIG. 5 illustrates an embodiment in which the geared motor unit 17 is replaced by another drive means, namely an articulated mechanism 20 actuated by a hydraulic cylinder 21 and coupled to the first bucket 1 by a hinge located on the axis main wheels 3 or in the vicinity The mechanism 20 is preferably of the type described in the publication FR-A-2 642 410, with a rear arm 22, mounted by a hinge 23 with a horizontal axis on a fixed part 24 of the frame 8, and a front arm 25 connected to the rear arm 22, the cylinder 21 and the bucket 1 by hinges with horizontal axes The

  cylinder is also mounted on a hinge 26 with horizontal axis.

  All these axes are parallel This type of mechanism has the advantage of allowing a long race of the bucket for a relatively small footprint In the present example, the cylinder 21 is double-acting, to positively drive the bucket 1 in both directions indicated by arrows C and D, while the bucket 2 simply follows the bucket 1 while being suspended from the chains 14 When the cylinder raises the bucket 1 full, following the arrow C, the bucket 2 goes down empty by its own weight Then, a Once the bucket 1 has emptied and the other has been filled, the cylinder is actuated in the opposite direction so as to pull the bucket 1 empty, according to the arrow D, so that the chains 14 pull towards the top the bucket 2 full The shaft 16 rotates freely It can be coupled to a safety brake that comes into action in case of excessive speed However, in normal operation, there is no braking during the movements, this which avoids a waste The arrangement of the rails and wheels of the buckets is the same as in the previous example. The present invention is not limited to the examples described above, but it extends to any modification or variant obvious to a person skilled in the art. For example, the chain link 14 ensuring the combined drive of the two carriages could be replaced. By a double cable winch Similarly, with respect to the example of FIG. 4, the chains 14 could be removed and the double-acting mechanism 20 replaced by two single-acting hydraulic jack mechanisms, each acting on a bucket and coordinated by means of hydraulic connections also allowing

to balance the dead weights.

Claims (9)

claims   1 aggregate elevator comprising a frame (8) provided with guide rails, two aggregate buckets (1, 2) provided with wheels which are guided by the rails on the path of each bucket between a lower position and an upper position of the bucket , flexible traction members (114) connecting the two buckets and passing on wheels or pulleys located near or above said upper position, so that one bucket is in its upper position when the other is in its position lower, and motorized means (17) arranged to move the buckets simultaneously and in opposite directions along the guide rails, characterized in that the guide rails comprise two pairs of main rails (5, 6), respectively associated with the buckets (1,2) and defining, for main wheels (3) of each bucket, two distinct paths along their whole length between the lower position and the upper position, and in that, each a side of the buckets, a main rail (5) of a pair is fixed to the corresponding rail (6) of the other pair at several points to form with it a   rigid lateral structure forming part of the frame (8).   Elevator according to Claim 1, characterized in that the said rigid lateral structure comprises an upper zone (30) and a lower zone (31) in which the two main rails (5, 6) belonging to it are adjacent and are fixed rigidly to one another. one to another for   forming a unitary structural element in said zone (30,31).   3 lift according to claim 2, characterized in that said rigid lateral structure comprises a central crossing zone o the two main rails (5,6) are spaced apart and are interconnected by bars (8 c, 8 d) forming with them a triangulated structure. Elevator according to claim 1, characterized in that the main wheels (3) have different locations on the two buckets (1,2), so that the lower and upper positions are the same for both buckets.   Elevator according to claim 4, characterized in that the guide rails comprise secondary rails (9,10) arranged near the lower position and the upper position to guide a pair of secondary wheels (4) of each bucket, which   have identical locations on both buckets.   6 lift according to claim 1, characterized in that the flexible traction means are formed by two chains (14) arranged laterally relative to the buckets (1,2) and passing on two wheels   teeth (15) which are integral with a common shaft (16).   Elevator according to Claim 6, characterized in that the motorized means comprise a coupled electric geared motor unit (17). to the common shaft (6).   Elevator according to claim 6 or 7, characterized in that   electric brake (18) or hydraulic is coupled to the common shaft (16).   9 lift according to one of claims 1 to 6, characterized in that   that the motorized means comprise at least one jack mechanism hydraulic (21).   Elevator according to claim 9, characterized in that the motorized means comprise a single mechanism (20) with hydraulic jack, comprising articulated arms coupled to one (1) of the buckets, the jack (21) being double acting to drive said bucket (1) in both directions of movement, while the other bucket (2) follows the movements of the first thanks to the traction means (14) and at its own weight.