FR3088920A1 - Silo emptying device with adjustable drain screw - Google Patents

Abstract

Device (1) for emptying a silo (20) with orifice (21) for central evacuation, said device (1) comprising a screw (2) for emptying supported in rotation by a beam (3) equipped with wheels (4 ) to form a rolling scanning assembly (5) for sweeping the silo (20), a first system for rotating the wheels (4) and a second system (7) for driving the screw (2) ) for emptying, a base (8) which can be positioned in the orifice (21) for central evacuation of the silo (22), and comprising a fixed part surmounted by a mobile part for coupling the end (51) called proximal of the assembly (5) for scanning at said base (8), this movable part of the base (8) being a rotary part rotatably mounted on the fixed part of the base (8) about an axis (XX ') vertical pivot transverse to the axis (YY') of rotation of the drain screw (2). The scanning assembly is mounted on the movable part of the base adjustable in angular position around an axis (ZZ '), orthogonal to the pivot axis (XX') of the mobile part of the base (8) . (Figure 1)

Description

Description

Title of the invention: Silo emptying device with adjustable height drain screw [0001] The invention relates to a emptying device for emptying a silo with a flat or slightly inclined bottom for storing granular or powdery materials and comprising a so-called central discharge orifice.

It more particularly relates to a device comprising an endless drain screw rotatably supported by a beam equipped with one or more ground support wheels to form a rolling scanning assembly to allow sweeping the bottom of the silo, a first system for rotating the wheel (s) in rotation and a second system for driving the drain screw in rotation, a base intended to be positioned in the central discharge opening of the silo, this base comprising a part said fixed part surmounted by a movable part for coupling the so-called proximal end of the scanning assembly to said base, this mobile part of the base being a rotary part rotatably mounted on the fixed part of the base around 'a pivot axis called vertical transverse to the axis of rotation of the drain screw to allow, in the rotated state of the wheels of the scanning assembly about their axis of rotation, a rotational movement of the together sweep around the pivot axis of the movable part of the base.

The sweeping screws for silos, in particular circular, are known as illustrated in document ER 3 057 560. In a silo, preferably circular with a flat or substantially flat bottom, the stored product flows by gravity through an orifice central and by side openings located on either side of it in a gallery or gutter from where it is transported by means of a recovery device to be routed outside the silo. In general, the quantity of product that can flow by gravity or gravity emptying represents only roughly two-thirds of the silo's storage capacity. Indeed, part of the products are not disposed of. This residual quantity of products at the bottom of the silo results from the sloping effect, the angle of which depends on the type of product, but also on the ambient humidity which influences the compactness of the product. Thus, it is necessary to completely empty the silo, to evacuate the product with a shovel, which is laborious, expensive and potentially dangerous for people having to enter the silo, or to use a motorized mechanical device. It is thus known to implement a motorized Archimedes screw, commonly known as a sweeper screw, which sweeps the floor of a circular silo while rotating around the axis of the silo, to bring the product to be evacuated to the central orifice. . However, the quality of the scan is imperfect and it is often necessary to finalize the scan by hand. We are therefore looking for solutions to improve the quality of the scan.

An object of the invention is to provide a drainage device of the aforementioned type, the design of which improves the quality of the sweep.

To this end, the invention relates to a draining device for emptying a silo for storing granular or powdery materials, the bottom of which comprises a so-called central discharge orifice, said device comprising a draining screw endlessly supported in rotation by a beam equipped with one or more ground support wheels to form a rolling sweeping assembly for sweeping the bottom of the silo, a first system for rotating the wheel or wheels and a second drive system for rotating the drain screw, a base which can be positioned in the central discharge opening of the silo, this base comprising a so-called fixed part surmounted by a mobile part for coupling the so-called proximal end of the scanning assembly at said base, this movable part of the base being a rotary part rotatably mounted on the fixed part of the base around a pivot axis called vertical transverse to the axis of rotation of the drain screw for pe rmitting, in the rotated state of the wheel or wheels of the scanning assembly around their axis of rotation, a rotational movement of the scanning assembly around the pivot axis of the movable part of the base, characterized in that the scanning assembly is mounted on the movable part of the adjustable base in angular position around an axis, this said axis of adjustment in angular position of the scanning assembly being orthogonal to the pivot axis of the movable part of the base. The fact of mounting the scanning assembly on the movable part of the adjustable base in angular position around an axis called adjustment in angular position of the scanning assembly orthogonal to the pivot axis of the movable part of the 'base allows to vary the position of the drain screw relative to the ground. The height of the drain screw above the ground can thus be adjusted according to the type of product and the quality of the sweep can be improved.

According to one embodiment of the invention, the axis of adjustment in the angular position of the scanning assembly is parallel to the axis of rotation of the drain screw and preferably, perpendicular to the pivot axis of the movable part of the base.

According to one embodiment of the invention, the or each support wheel on the ground of the beam is configured to occupy at least one position in which the axis of rotation of said support wheel on the ground of the beam and the axis of adjustment in angular position of the scanning assembly are coaxial. This arrangement can allow the optimal positioning of the wheel or wheels to be maintained independently of the angular position occupied by the scanning assembly.

According to one embodiment of the invention, the emptying device comprises, for adjusting the angular position of the scanning assembly, at least one drive member for moving the scanning assembly around rotation of the adjustment axis in the angular position of the scanning assembly and of the holding members by screwing or bolting the scanning assembly in the selected angular position. This results in easy adjustment of the angular position of the scanning assembly.

According to one embodiment of the invention, the drive member for moving the scanning assembly in rotation about the adjustment axis in angular position of the scanning assembly comprises at least one cylinder mechanical disposed between the movable part of the base and the scanning assembly.

According to one embodiment of the invention, the or at least one, preferably each, of the support wheels on the ground of the beam of the scanning assembly is configured to occupy at least one position in which the axis of rotation of the wheel intersects the pivot axis of the movable part of the base.

The positioning of the radiating wheel or wheels allows optimal operation of the wheel or wheels without sliding of the latter. This results in a reduced risk of skating.

According to one embodiment of the invention, the so-called off-center drain screw of the scanning assembly extends on one side of the plane passing through the pivot axis of the movable part of the base and by the axis of rotation of the or at least one of the ground support wheels. This arrangement frees the spoke passing through the pivot axis.

According to one embodiment of the invention, the beam is an at least partially metallic perforated beam and the wheel or wheels extend perpendicular to the beam. This results in better grip on the ground of the wheels which take up the weight of the beam.

According to one embodiment of the invention, the beam being equipped with at least two support wheels on the ground, said wheels are driving wheels and the first system for driving the wheels in rotation comprises, for each wheel, a hydraulic motor associated with said wheel.

According to one embodiment of the invention, the first system for driving the wheels in rotation comprises a hydraulic unit and a fluid circulation circuit for supplying each of the hydraulic motors for driving the wheels in rotation from said hydraulic unit and the hydraulic motors are mounted in series on the fluid circulation circuit. The series mounting of the motors ensures optimal pressure in each of the motors depending on the force opposing the advance of the wheel.

Preferably, the hydraulic motors are motors with two directions of rotation and the hydraulic motor disposed closest to the pivot axis of the movable part of the base has a displacement greater than the displacement of the other motor (s) . In practice, the ratio of the displacement of one of the motors to the displacement of the other motor is a function of the ratio of the distance of one of the motors to the pivot axis over the distance of the other motor to l pivot axis. In other words, the displacement of the motors is chosen so as to be inversely proportional to the position of one wheel relative to the other along the radius passing through the pivot axis.

The invention will be clearly understood on reading the following description of exemplary embodiments, with reference to the accompanying drawings in which:

[Fig. 1] shows a schematic perspective view of a drain device according to the invention in the state arranged on the bottom of a silo;

[Fig.2] shows a perspective view of a drain device according to the invention;

[Fig.3] shows a partial perspective view taken from another angle of a drain device according to the invention;

[Fig.4] shows a perspective view taken from another angle of a drain device according to the invention;

[Fig.5] shows a schematic top view of a drain device according to the invention;

[Fig.6] shows a partial view of a drain device according to the invention;

[Fig.7] shows a partial perspective view of a drain device according to the invention in exploded position of the fixed and movable parts of the base;

[Fig.8] shows a partial perspective view of the movable part of the base and the proximal end of the scanning assembly in the exploded position of certain elements;

[Fig.9] shows a partial perspective view of the movable part of the base and the proximal end of the scanning assembly;

[Fig. 10] shows a schematic side view of a drain device according to the invention in the high position of the drain screw;

[Fig.l 1] shows a schematic side view of a drain device according to the invention in the low position of the drain screw;

[Fig. 12] schematically represents the first system for rotating the wheel or wheels;

[Fig. 13] shows a partial perspective view taken from below of a drain device according to the invention; and [fig. 31 14] shows a partial perspective view of a wheel and its motor ready to be fixed to the beam of the scanning assembly.

The invention therefore relates to a device 1 for emptying a silo 20 as illustrated in Figure 1. This silo 20 for storing granular or powdery materials generally has a circular base with flat bottom 22. This bottom 22 is provided with a central discharge orifice 21 through which the materials can flow towards a lower level of the silo 20. The bottom 22 of the silo 20 also comprises, in the example shown, peripheral outlets d material removal. At the lower level of the silo 20, vertical to the central discharge orifice 21 and the peripheral outlets, a conveyor (not shown) is disposed which discharges the product towards the outside of the silo 20. The device 1 for draining, intended for allow the evacuation of the residual product contained in the silo 20, comprises an endless drain screw 2 rotatably supported by a beam 3. The beam 3 is equipped with one or more wheels 4 for supporting the ground to form an assembly 5 rolling scan. In the example shown, the scanning assembly 5 comprises two ground support wheels 4 offset along the longitudinal axis of the beam 3. Each ground support wheel 4 is a rotary wheel rotatably mounted around of an axis of rotation represented in WW '. A first system 6 for rotating the emptying device 1 enables the wheels 4 for supporting the ground to rotate.

In the example shown, the wheels 4 are driving wheels and this first system 6 for driving the wheels 4 in rotation comprises, for each driving wheel 4, a hydraulic motor 61 associated with said wheel 4. This first system 6 for driving the wheels in rotation 4 therefore comprises a hydraulic central 62 offset or positioned in the central orifice 21 of the silo 20 under the rest of the drain device 1 and a circuit 63 for circulating fluid to supply each of the hydraulic motors 61 for driving the wheels 4 in rotation from said hydraulic central unit 62. On this circuit 63 formed of hydraulic lines, the hydraulic motors 61 are mounted in series to allow the successive supply of said hydraulic motors 61 from the hydraulic power station 62. Thus, the exhaust port of one of the hydraulic motors 61 is coupled to the intake port of the other hydraulic motor 61. These hydraulic motors 61 are preferably motors with two directions of rotation to allow movement in one direction and in the other direction of the wheels 4 for supporting the ground, thus permitting movement in forward and reverse directions of the assembly. 5 inside the silo.

In the examples shown, each wheel assembly formed by a wheel 4 and a hydraulic motor 61 is coupled to the beam 3 by means of pivoting arms 41 with a pivot axis parallel to the axis of rotation of the drain screw 2.

In the examples shown, these arms 41 are connected by a cross member to form a cradle. This cradle is coupled to the beam 3 using a mechanical jack 42 disposed between the cradle and the beam 3. Thus, each wheel 4 is coupled to the beam 3 so as to be adjustable in position. The angular position of the pivoting arms 41 and, consequently, of the cradle can be adjusted by manual or controlled actuation of the mechanical jack 42. The scanning assembly 5 makes it possible to scan the bottom 22 of the silo 20.

The emptying device also comprises a base 8 which can be positioned in the orifice 21 for the central discharge of the silo 20, as illustrated in FIG. 1. This base 8 comprises a so-called fixed part 9 and a movable part 10 arranged at least partially above the fixed part 9. One end 51, called the proximal end 51 of the scanning assembly 5, is coupled to the mobile part 10 of this base 8. The mobile part 10 of the base 8 is a part rotary mounted on rotation on the fixed part 9 of the base 8 about an axis XX 'said vertical pivot transverse to the axis YY' of rotation of the drain screw 2 to allow, in the state driven in rotation of the wheels 4 of the scanning assembly 5, a rotational movement of the scanning assembly 5 around the pivot axis XX ′ of the movable part 10 of the base 8. Thus, the scanning assembly 5 can perform an angular sweep around the pivot axis XX ′ of the mobile part 10 of the base 8 to scan the bottom 22 circulai re from silo 1 and evacuate the residual product which remains on the periphery of the silo towards the base 8 and / or the peripheral outlets. To this end, the fixed part 9 of the base 8 comprises a frame which fits into the hole 21 in the central outlet and a hollowed-out stud disposed in the center of the frame. The hollowed-out stud is connected to the frame by arms radiating around said stud. The space left free between arms allows the evacuation of the product to a lower level of the silo. The drain screw 2 is an Archimedes screw whose screw pitch allows product movement from the distal end 52 to the proximal end 51 of the scanning assembly 5. This drain screw 2 is therefore an endless helical screw. Preferably, a concave concave baffle plate facing the drain screw 2 partially surrounds the screw. This deflector plate is disposed between the screw and the wheels 4. The end of the drain screw 2 proximal end side 51 of the scanning assembly 5 extends above the fixed part 9 of the base 8 for allow the transfer by gravity fall of products from the drain screw 2 to the lower level of the silo through the fixed part 9 of the base 8.

The emptying device 1 comprises, for the rotational driving of the emptying screw 2, a second system 7 for driving in rotation. This second system 7 for driving the drainage screw 2 in rotation comprises a hydraulic motor 71 disposed at the proximal end 51 of the scanning assembly 5. This hydraulic motor 71 can be supplied with fluid by the same hydraulic unit as that supplying the hydraulic motors 61 of the wheels 4. The movable part 10 of the base 8 is coupled to the fixed part 9 of the base 8 via a crown for allow a relative displacement in rotation about the pivot axis XX 'of the movable part 10 of the base 8 relative to the fixed part 9 of the base 8 in the rotated state of the scanning assembly 5 via the ground support wheels 4. To allow such displacement under optimal conditions, the hydraulic motor 61 for driving in rotation of a wheel disposed closest to the pivot axis XX ′ of the mobile part 10 of the base 5, has a displacement of less than the displacement of the other motor (s) 61. The displacement of each hydraulic motor 6 for driving a wheel 4 in rotation is chosen as a function of the distance from the motor 61 relative to the pivot axis XX ′ of the movable part 10 of the base 8. Thus, in the examples shown where the scanning assembly 5 comprises two hydraulic motors 61, one of the motors 61 being disposed relative to the axis XX 'pivot at mid-distance relative to the 'other hydraulic motor, the displacement of the hydraulic motor arranged at mid-distance corresponds to twice the displacement of the hydraulic motor arranged furthest from the axis XX' pivot. These motors 61 are of fixed displacement.

Typically to the invention, the scanning assembly 5 is mounted on the movable part 10 of the base 8, adjustable in angular position around an axis ZZ 'orthogonal to the axis XX' pivot of the movable part 10 of the base 8 to vary the position of the drain screw relative to the ground. This axis ZZ ′ is called the axis for adjusting the angular position of the scanning assembly 5. The so-called mobile part 10 of the base 8 has the general shape of a stud surmounting the fixed part 9 of the base 8. The proximal end 51 of the scanning assembly 5 is pivotally articulated on said stud around the axis ZZ '. This axis ZZ 'for adjusting the angular position of the scanning assembly 5 is perpendicular to the axis XX' pivot of the movable part 10 of the base 8 and parallel to the axis YY 'of rotation of the screw 2 of emptying. Furthermore, the axis WW 'of rotation of each ground support wheel 4 has at least one position in which said axis WW' occupies a position coaxial with the axis ZZ 'for adjusting the angular position of the assembly 5 sweep.

The device 1 for emptying a silo 20 comprises, for adjusting the angular position of the scanning assembly 5, at least one member 11 for driving the displacement of the scanning assembly 5 in rotation around the axis ZZ 'orthogonal to the axis XX' pivot of the movable part 10 of the base 8.

This drive member 11 comprises at least one actuator with manual or controlled operation, disposed between the movable part 10 of the base 8 and the scanning assembly 5. The draining device 1 also comprises members 12 for holding the scanning assembly 5 by screwing or bolting in the desired angular position. To this end, the proximal end 51 of the scanning assembly 5 comprises oblong slots arranged on a center circle passing through the axis ZZ 'for adjusting the angular position of the scanning assembly 5. The movable part 10 of the base 8 comprises for its positionable bores facing the lights. The retaining members 12, such as bolts or screws, each pass through a bore and a lumen and allow the angular immobilization of the proximal end 51 of the scanning assembly 5 relative to the movable part 10 of the base 8, once the adjustment has been made using the drive member 11. The drain screw 2 can thus occupy a variable height position relative to the ground as illustrated in FIGS. 10 and 11 where the drain screw 2 is in the high position in FIG. 10 and in the low position in FIG. 11.

To perfect the device 1 for emptying, each wheel 4 for supporting the ground of the beam 3 of the scanning assembly 5 has at least one position in which the axis WW 'of rotation of the wheel 4 cuts l 'axis XX' pivot of the movable part 10 of the base 8. This results in better grip on the ground of the wheels 4 for supporting the ground without slipping of the latter. Thus, in the case where the angular position of the pivoting arms 41 connecting the wheel 4 supporting the ground to the beam 3 is adjustable using a mechanical jack 42 as described above, at least the one of the positions occupied by each wheel 4 corresponds to a position in which the axis WW 'of rotation of the wheels 4 intersects the axis XX' pivot of the movable part 10 of the base 8.

In the examples shown, the beam 3 is an openwork beam and the wheels 4 for supporting the ground extend in line with the beam 3. This beam 3 is preferably an at least partially metallic beam. In particular, in the examples shown, the beam 3 is a modular beam formed by an alignment of modules. Each module is formed by two longitudinal members 31, two flanges 32 for connecting the longitudinal members 31 to one another and spacers 33 for connecting said flanges to each other. The drain screw 2 is offset and extends on one side of the plane passing through the axis XX 'pivot of the movable part 10 of the base 8 and through the axis WW' of rotation of the or at minus one of the ground support wheels 4. This drain screw 2 is generally separated from the plane by a distance at least equal to 450 mm.

Such a drain device 1 as described above allows scanning efficiency of the scanning assembly 5 while allowing the use of such a drain device 1 in an explosive atmosphere.

The operation of such a drain device 1 is similar to the operation of the drain devices 1 of the prior art and allows, in the state driven in rotation of the drain screw 2 and the wheels 4, in parallel with the rotation drive of the scanning assembly 5 around the pivot axis XX 'of the movable part 10 of the base 8, a displacement of the products towards the proximal end 51 of the assembly 5 scanning.

Claims (1)

Emptying device (1) for emptying a silo (20) for storing granular or powdery materials, the bottom (22) of which comprises a so-called central discharge orifice (21), said device (1) comprising a screw ( 2) endless emptying supported in rotation by a beam (3) equipped with one or more wheels (4) supporting the ground to form a rolling sweep assembly (5) making it possible to sweep the bottom (22) of the silo (20), a first system (6) for rotating the wheel or wheels (4) and a second system (7) for driving the drain screw (2) in rotation, a positionable base (8) in the hole (21) for central discharge of the silo (22), this base (8) comprising a so-called fixed part (9) surmounted by a mobile part (10) for coupling the end (51) called the proximal from the scanning assembly (5) to said base (8), this movable part (10) of the base (8) being a rotary part rotatably mounted on the fixed part (9) of the base (8) around an axis (XX ') so-called vertical pivot transverse to the axis (YY ¹ ) of rotation of the drain screw (2) to allow, in the rotated state of the wheel or wheels (4) of the assembly (5) to be swept around of their axis of rotation (WW ¹ ), a movement in rotation of the scanning assembly around the pivot axis of the movable part of the base, characterized in that the scanning assembly is mounted on the movable part of the base adjustable in angular position around an axis (ZZ '), this axis (ZZ') said of adjustment in angular position of the scanning assembly (5) being orthogonal to the pivot axis (XX ¹ ) of the movable part (10) of the base (8). Draining device (1) according to claim 1, characterized in that the axis (ZZ ') for adjusting the angular position of the scanning assembly (5) is parallel to the axis (YY ¹ ) of rotation of the drain screw (2) and preferably perpendicular to the axis (XX ¹ ) pivot of the movable part (10) of the base (8). Draining device (1) according to one of claims 1 or 2, characterized in that the or each wheel (4) for supporting the ground of the beam (3) is configured to occupy at least one position in which the axis (WW ¹ ) of rotation of said wheel (4) for supporting the ground of the beam (3) and the axis (ZZ ') for adjusting the angular position of the scanning assembly (5) are coaxial. Draining device (1) according to one of claims 1 to 3, characterized in that the draining device (1) comprises, for the adjustment in angular position of the scanning assembly (5), at least one member (11) for moving the scanning assembly (5) in rotation about the position adjustment axis (ZZ ') angle of the scanning assembly (5) and of the members (12) for screwing or bolting the scanning assembly (5) in the selected angular position. [Claim 5] Draining device (1) according to claim 4, characterized in that the member (11) for driving the displacement of the scanning assembly in rotation about the axis (ZZ ') for adjusting the angular position of the 'scanning assembly comprises at least one cylinder disposed between the movable part (10) of the base (8) and the assembly (5) scanning. [Claim 6] Draining device (1) according to one of claims 1 to 5, characterized in that the or at least one preferably each of the wheels (4) supporting the ground of the beam (3) of the assembly (5) scanning is configured to occupy at least one position in which the axis (WW ¹ ) of rotation of the wheel (4) intersects the axis (XX ¹ ) pivot of the movable part (10) of the base (8). [Claim 7] Draining device (1) according to claim 6, characterized in that the said drain screw (2) offset from the scanning assembly (5) extends on one side of the plane passing through the axis (XX ¹ ) pivot of the mobile part (10) of the base (8) and by the axis (WW ¹ ) of rotation of the or at least one of the wheels (4) for supporting the ground. [Claim 8] Draining device (1) according to one of claims 1 to 7, characterized in that the beam (3) is an at least partially metallic perforated beam and in that the wheel or wheels (4) extend to the plumb with the beam (3). [Claim 9] Draining device (1) according to one of claims 1 to 8, characterized in that the beam (3) being equipped with at least two wheels (4) for supporting the ground, said wheels (4) are wheels driving and in that the first system (6) for rotating the wheels (4) comprises, for each wheel (4), a hydraulic motor (61) associated with said wheel (4). [Claim 10] Draining device (1) according to claim 9, characterized in that the first system (6) for driving the wheels in rotation comprises a hydraulic unit (62) and a circuit (63) for circulating fluid to supply each of the motors (61) hydraulic drive in rotation of the wheels (4) from said hydraulic unit (62) and in that the hydraulic motors (61) are mounted in series on the circuit (63) of fluid circulation.