FR2900649A1 - Fluid solid material e.g. gravel, transferring device for prestorage of gravel, has hollow column hidden in hillock and lateral openings distributed on height of column, where each opening has selected dimensions - Google Patents

Abstract

The device has a lower wall (10) drowned under a hillock (6) of fluid solid material e.g. gravel, and an opening arranged in the wall. A motorized trap (16) adapts to closing and opening positions of the opening, in which gravitational discharge of the gravel via the opening is respectively authorized and blocked. A hollow column is hidden in the hillock and includes a lower end (24) emerging in the opening. The column has lateral openings (30) distributed on a height of the column, where each opening has selected dimensions.

Description

The invention generally relates to transfer devices

  gravitation of a fluid solid material formed of particles, such as sand, gravel, pebbles or grains. More specifically, the invention relates to a device for gravitational transfer of a fluid solid material formed of particles, of the type comprising a bottom wall capable of being embedded in a pile of said fluid solid material, a loading opening arranged in the lower wall, and a shutter capable of selectively adopting aperture release and closure positions in which the flow of flowable solid material through the aperture is respectively allowed and blocked. Such devices are used for example in gravel storage areas. The gravels are gathered in the form of a mound resting on a concrete slab. The mound initially has a generally conical general shape. The lower wall delimits a tunnel running on the slab and crossing the mound of gravel from one side to the other. The shutter is for example a hatch located at the top of the tunnel. A conveyor belt is placed in the tunnel and passes under the trapdoor.

  When the hatch is in release position, the gravel flows through the opening and falls onto the conveyor belt. The flow of gravel in the mound is done vertically, in a central zone of the mound, to the right of the hatch. Initially, the gravel at the top of the mound is pulled down when the hatch is open.

  The flow therefore causes the formation of a hollow cone at the top of the mound, as shown in Figure 1. Then, as the gravels flow through the opening, the layers of gravel found on the surface of the cone slide towards the low point of this cone, situated vertically to the right of the trap. These layers of gravel are sucked vertically. The gravels descend along the central vertical zone of the mound until the opening. The cone is going deeper.

  Such a transfer device has the defect that, when a per-sonne is in the cone at the time the hatch opens, this per-sonne is driven to the low point of the cone by the gravel layers that slip. It is then sucked by the gravel that flows to the hatch and buried in the central area of the mound. This person can not do anything to oppose the driving force of the gravel. Such accidents happen every year and are usually fatal to the person driven by the gravel. In this context, the invention aims to provide a transfer device 10 which is safer. To this end, the invention relates to a gravitational transfer device of the type described above, characterized in that it comprises a hollow column for transferring the substantially vertical fluid material capable of being buried in the pile of fluid solid material, having an open bottom end opening into the opening and a plurality of side lights distributed over substantially the height of the column, each of dimensions chosen so that a man driven with the fluid solid material can not pass through the light. The device may also have one or more of the following features, considered individually or in any technically possible combination: the column stands at the right of the opening; the lights are distributed over substantially the entire height of the column; The column has a closed upper end; the lights each have a passage section having a maximum dimension of less than 600 millimeters; the lower wall forms a tunnel capable of being traversed by means for conveying the fluid solid material; The opening is formed in an upper part of the wall; the device comprises a storage hopper for the fluid solid material delimited by a bottom formed by the bottom wall; and - the opening is disposed at a low point of the hopper, the bottom wall having a concave shape converging towards the opening. Other characteristics and advantages of the invention will emerge from the description which is given below, by way of indication and in no way limitative, with reference to the appended figures, among which: FIG. 1 is a diagrammatic representation of a transfer device according to the invention, applied to a pre-storage on slab of gravel; and - Figure 2 is a schematic representation of a transfer device according to the invention, applied to a gravel storage hopper suitable for loading dump trucks. The transfer device 1 shown in Figure 1 is used in a prestockage gravel 2 on a slab 4. The slab 4 is flat and made of cement, concrete, dirt, or any other suitable material. The gravel 2 form on the slab 4 a mound 6. This mound has, at the slab 4, a wide base, and tapers toward its top 8, so that it can for example have a shape conical or pyramidal. The transfer device 1 comprises a lower wall 10 forming a tunnel 11 embedded in the mound 6 of gravel. This tunnel 11 has for example a round section, and crosses the mound 6 from one side to the other. The tunnel 11 passes under the top 8 of the mound. The wall 10 is rigidly fixed to the slab 4, for example by a lower portion 12 embedded in the material constituting the slab 4.

  The transfer device 1 also comprises an opening 14 formed in an upper part of the wall 10, immediately below the top 8 of the gravel mound. The device 1 furthermore comprises a shutter, for example a motorized hatch 16 capable of selectively adopting clearance and closure positions of the opening 14, in which the gravity flow of the gravels through the opening 14 is respectively allowed and blocked.

  A conveyor belt 18 extends inside the tunnel 11. It passes under the hatch 14. It is intended to transport the gravel from the mound 6 to an end use area of these gravel. The device 1 also comprises an anti-burial column standing vertically in line with the opening 14. The column 20 is hollow, of circular section and made for example of steel or PVC. It is disposed above the opening 14, and extends vertically substantially from the opening 14 to the top 8 of the gravel mound. More specifically, the column 20 comprises a cylindrical portion 22 of vertical axis, a convergent portion 23 connecting the lower end 24 of the cylindrical portion 22 to the opening 14, and a cap 25. The frustoconical portion 23 has a convergent shape from the end 24 to the opening 14. It is rigidly fixed to the peripheral edge of the opening 14.

  The upper end 26 of the cylindrical portion 22 is closed by the conical cap 25. The cap 25 is solid and points upwards. The convergent portion 23 and the cap 25 are of small vertical heights relative to the cylindrical portion 22. Side lights 30 are cut in the cylindrical portion 22. The lights 30 are distributed over the entire height of the portion 22. They are distributed at several levels of the column 20, these levels being regularly spaced a height h. Four lights 30 are arranged at each level and regularly distributed around the axis of the portion 22, 90 of each other. The lights 30 at a given level are oriented 45 relative to the lights at the next higher level and the lights at the next lower level. The directions of the lights 30 are chosen so that a man dragged with the gravel can not pass through a light, or can easily stop his fall by clinging to the edges of the light.

  Preferably, the lights each have a square shape, with sides of between 200 mm and 600 mm. The dimension of the side will typically be 400 mm.

  The cylindrical portion 22 typically has a diameter of 800 mm, and the height h between two light levels is typically also 800 mm. This height h is taken between the horizontal horizontal planes of the lights located at the same level.

  The column 20 is held in place by suitable means (not shown), for example guy wires securing the column 20 to the slab 4, or metal beams. The operation of the transfer device 1 described above will now be detailed.

  The gravel 2 is first poured on the tunnel 11, using a suitable equipment, for example a crane or a conveyor belt substantially terminating above the tunnel 11. The gravel 2 is accumulated in a mound until the top of the mound slightly protrudes from the cap 25 of the column. Then, the circulation of the conveyor belt through the tunnel is started, and the hatch 16 is brought into the release position of the opening 14. The gravel 2 which had slipped inside the column 20 by the lights at the time of the formation of the mound 6 flow first through the opening 14 to the conveyor belt 18. This flow causes suction inside the column 20 gravel at the top 8 of the mound 6. The gravel penetrates inside the column 20 by the lights 30 and fall on the conveyor belt 18. It gradually forms a hollow cone 32 at the top 8 of the mound, as shown in Figure 1, whose column 20 constitutes the central axis.

  As the gravel flows on the conveyor belt through the opening 14, the gravel layers on the surface of the cone 32 slide inside the column 20 through the side lights, so that that the cone 32 tends to widen. The gravel located in the lower portions of mound 6 does not flow into column 20.

  The flow of the gravel may be interrupted at any time by moving the hatch 16 to the closed position of the opening 14. If the hatch 16 is brought to the release position accidentally at a time when a person is in the cone 32, this person will be driven to the column 20 by the superficial layers of gravel sliding towards the bottom of the cone. Due to the size of the lights 30, this person will not be trained inside the column 20 and will be able to stop his fall.

  Figure 2 illustrates a second embodiment of the invention. The transfer device is, in this case, a hopper 34 for loading dump trucks 36. The hopper 34 comprises a tank 38 disposed at a height H above the ground 40 and the support posts 42 of the tank 38 anchored in the soil 40.

  The bottom wall 10 here constitutes the bottom of the tank 38. It has a concave shape, for example frustoconical, converging downwards. The opening 14 is disposed at the low point of the tank 38, which means, in other words, that the bottom 10 converges towards the opening 14. The column 20 is identical to that described with respect to the first embodiment. of the invention. It extends vertically, substantially to the top of the tank 38. The height H is sufficient for dump trucks 36 can circulate under the tank 38, between the posts 42. The operation of the transfer device will now to be detailed. The tank 38 of the hopper is first filled with the gravel, through an opening provided for this purpose in the roof of the tank 38 (not shown). The gravel is brought by any suitable means, for example by a crane, by a conveyor belt or screw.

  Then, a dump truck 36 is brought under the tank 38, and more precisely under the opening 14. The hatch 16 is then brought into the release position of the opening 14. The gravel that has been introduced by the lights 30 to the interior of the column 20 during the loading of the hopper flows through the opening 14 in the truck body 36. As before, the gravel located in the upper part of the tank 38 are first drawn to the interior of the column 20 by the lights 30, and flow vertically to the opening 14 and the dump truck 36.

  As before, a hollow cone is created in the mass of gravel disposed inside the tank 38, in the upper part of this tank. This cone gradually widens as the upper layers of gravel slide along the cone down to the column 20, penetrate into it by the lights 30 and fall to the opening 14 to As before, a person in the hollow cone when the hatch 16 is in its disengaged position is driven to the column 20 but can not enter the interior of the column. this or may be retained in column 20. The transfer device described above has multiple advantages. The hollow anti-burial column allows the gravel to be transferred safely until it opens. It is pierced with a plurality of side lights of sufficient size to allow the gravel to pass but chosen so that a man driven with the gravel by accident can not pass through the lights. The risk of fatal accidents when using such a transfer device is therefore considerably reduced.

  The column is simple in structure and inexpensive. It can be easily installed on existing installations. It can easily adapt depending on the height of the gravel mound, or the height of the tank of the hopper. It can also easily adapt to the diameter of the flow opening of the gravel, by changing the diameter of the cylindrical portion, and / or by changing the convergent. The device has been described above in its application to gravel transfer. III is also suitable for gravitational transfer of all kinds of fluid particulate solids, for example sand, pebbles, cereals such as wheat, barley or any other cereal, and other food materials. in the form of small particles. The transfer device described above can have multiple variants.

  The column 20 may not be of round section but rather be of square section or have any other form of section. The height separating the different levels of lights may be less than or greater than 800 mm.

  In the case of a column of round section, the diameter of the cylindrical wall 22 will preferably vary between 800 mm and 1000 mm. Nevertheless, this diameter may be less than 800 mm or greater than 1000 mm. In the case of columns of non-circular section, this section can have all kinds of dimension.

  The lights 30 are not necessarily square but may be round, triangular, or have any other shape. The column, at each level, may have less than four lights, for example three lights, or more than four lights, for example five or six lights, depending on the diameter of the column and the size of the lights. The shutter 16 may not be a hatch but rather be a ball valve or any other type of valve adapted to the solid material to be transferred.

Claims (9)

  A device for the gravitational transfer of a fluid solid material formed of particles, comprising a bottom wall (10) capable of being embedded beneath a pile (6) of said fluid solid material, a loading aperture (14) formed in the bottom wall (10), and a shutter (16) capable of selectively adopting the opening and closing positions of the opening (14) in which the gravity flow of the solid material flows through the aperture (14) is respectively allowed and blocked, characterized in that it comprises a hollow column (20) for transferring the substantially vertical fluid material capable of being buried in the pile (6) of solid material fluid, having an open lower end (24) opening into the opening (14) and a plurality of lateral lights (30) distributed over most of the height of the column, each of dimensions chosen for a man driven with c the fluid solid material can not pass through the lumen (30).   2. Device according to claim 1, characterized in that the column (20) stands at the right of the opening (14).   3. Device according to claim 1 or 2, characterized in that the slots (30) are distributed over substantially the entire height of the column (20).   4. Device according to any one of claims 1 to 3, characterized in that the column (20) has a closed upper end (26).   5. Device according to any one of claims 1 to 4, character-ized in that the slots (30) each have a passage section pre-sensing a maximum dimension of less than 600 millimeters.   6. Device according to any one of claims 1 to 5, characterized in that the bottom wall (10) forms a tunnel (11) capable of being traversed by means (18) for transporting the solid solid material.   7. Device according to claim 6, characterized in that the opening (14) is formed in an upper part of the wall (10).   8. Device according to any one of claims 1 to 6, characterized in that it comprises a hopper (34) for storing the solid fluid defined by a bottom formed by the bottom wall (10).   9. Device according to claim 8, characterized in that the opening (14) is arranged at a low point of the hopper (34), the bottom wall (10) having a concave shape converging towards the opening (14) .