METHOD AND APPARATUS TO REDUCE VOLUME OCCUPIED BY DRY PARTICULATE COMMODITIES DURING TRANSPORTATION OR STORAGE

Abstract

A method and apparatus for increasing the specific weight of a dry particulate bulk commodity while said commodity is within a transportation vessel, using an array of pokers, these pokers equipped with the means of emitting lateral vibrations into the surrounding commodity and simultaneously creating an air flow through that dry commodity towards the nearest poker of the array.

Claims

1. An apparatus for achieving volume reduction in a dry particulate bulk commodity while said commodity is within a transportation vessel, and comprising: a poker activated while it is surrounded by said commodity, said poker comprising an elongated cylindrical assembly of members; and the long axis of the said poker being vertical; and a drive shaft extending within said poker and operatively connecting a rotational power source to an eccentric weight located close to lower end of the said poker; and said drive shaft to be flexible, comprised of two straight lengths connected by means of a universal joint; and said eccentric weight enveloped within an air-permeable filtered drain; and an air extraction fan located close to upper end of the said poker; and air-tight containment of said poker extending from base of said fan to top of said filtered drain; and said universal joint being positioned within the said poker at an elevation where the said air-tight containment of said poker is comprised of flexible tubing.

2. An apparatus for achieving volume reduction in a dry particulate bulk commodity while said commodity is within a transportation vessel, and comprising: a plurality of pokers such as defined in claim 1 arranged to form a horizontal array; and said pokers comprising said array being held in place relative to one another by a stiff structure; and said structure being supported by a hoisting mechanism capable of lowering and raising said array relative to the said commodity; and said array having a horizontal extent sufficient to substantially treat the plan area of said commodity.

3. A method for maximizing the specific weight of a dry particulate bulk commodity while said commodity is within a transportation vessel, by activation of an array of pokers as defined in claim 2 whereby each of the said pokers comprising the said array timely emit lateral vibratory forces while concurrently creating an air flow through the said commodity towards the nearest of the said pokers of the said array.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0014] FIG. 1 is a side view of the preferred embodiment of the commodity volume reduction poker of this invention.

[0015] FIG. 2 is a plan view of a horizontal section taken through the poker at the level of the eccentric weight.

[0016] FIG. 3 is a plan view of a rectangular array (6 by 3) of pokers deployed within the confines of a containment vessel such as a railway wagon, and showing the preferred embodiment of the support structure with its cantilevered deployment distribution arms spanning the containment vessel.

[0017] FIG. 4a is a side view of the rectangular array of pokers, shortly after the start of payload filling, with their adaptable conduit lengths adjusted so that the poker's lower end rests on the floor or sidewall of the containment area.

[0018] FIG. 4b shows the same profile as in FIG. 4a, but now at the termination of the filling process, and with the adaptable conduit lengths suitably shortened so that the pokers work at the optimal elevation within the payload.

[0019] FIG. 5 are side views of a telescoping pipe-type design for the adaptable length conduit, shown on the left in its fully extended configuration, and on the right in its fully retracted position.

[0020] FIG. 6 is a plan view of an alternative hexagonal-type array which may be more suitable to larger containment vessels such as the hold of a merchant ship.

DESCRIPTION OF PREFERRED EMBODIMENT

Detailed Description of Apparatus

[0021] The fundamental mechanism which is the novel aspect of the apparatus and method claimed herein is referred to as the a poker.

[0022] With reference to FIG. 1: the poker 10 is comprised of several right cylindrical components fitted together either concentrically with respect to the vertical axis, or placed one atop another.

[0023] The uppermost functional element of the poker is a full-throat suction, or extractor fan 11, housed in a cylindrical section; its purpose is to maintain sub-atmospheric pressures within the poker while it is active.

TABLE-US-00001 LIST OF REFERENCE NUMERALS 10 poker 11 extraction fan 12 bottom plug 13 payload 14 air-permeable conduit 15 perforated pipe 16 well screen 17 vibrating module 18 eccentric weight 19 roller bearings 20 lower drive shaft 21 electric motor 22 air-tight housing 23 supporting strut 24 upper drive shaft 25 universal joint 26 spline connection 27 flexible tubing 28 air-tight conduit 29 fasteners 30 depth sensor 31 top of well screen 40 containment vessel 41 rectangular array 42 integrated assembly 43 cantilevered manifolds 44 support structure 45 filtered exhaust fan 46 pitched roof of manifold 47 treated payload 48 adaptable length conduit 49 top rim of container 50 telescoping pipe sections 51 stacked telescoped pipes 52 bead weld 53 cable 54 drum winch 60 hexagonal array of pokers

[0024] The bottommost item is a solid plug 12 which is screwed to the lower end of the poker. It has two purposes: to prevent external material from entering into the body of the poker; and, to allow easy access to the inside of the lower poker to facilitate maintenance.

[0025] Immediately above the plug is as an intimately fitted pair of tubes 14 consisting of an inner perforated steel pipe 15 to which the outer conduit, a stainless steel well screen 16, is pre-bonded. An off-the-shelf instance of this piping is the stainless steel Johnson pipe based well screen. The function of this pairing is to provide access for the air outside the poker (from the payload side) to the annular space within the poker by means of the porous openings in this arrangement of conduits. It is the function of the outer well screen 16 to prevent particles of the payload 13 from entering the system while at the same time providing low-resistance entry for air sucked into the poker from the voids spaces within the surrounding commodity.

[0026] Close to the bottom of the air intake tubes, and secured thereto, is the vibration module 17. The components of this vibrator are shown as a horizontal sectional view in FIG. 2. The vibrations are generated by the rotation of an eccentric weight 18 about its vertical axis. The eccentric weight consists of one half of a metal shape derived by cutting an upright cylinder in two equal parts along its central vertical axis. This mechanism has been in use for many years, and as such, has no current novelty.

[0027] Roller bearings 19 at either end of the eccentric weight hold it in position central to the poker axis. The bearings are themselves fixed in place vertically, and in a horizontally orientation, using a conventional method such as by retaining rings anchored in groves cut into the perforated pipe 15.

[0028] The source of axial rotation is a drive shaft 20 fixed to the top of the eccentric, and which is in its turn, made to rotate by a speed controlled electric motor 21, located towards the top of the poker, just beneath the fan 11. The motor is held in its place within an air-tight housing 22 by radial struts 23. This arrangement allows air from below to pass around the motor to exit the apparatus through the fan 11.

[0029] The drive shaft is comprised of three parts: an upper 24 and a lower 20 straight bar, with a universal joint 25 connecting them at about mid-height.

[0030] The top of the upper shaft is joined to the motor drive using a male/female spline-type coupling 26; this sort of connection has the desirable attribute of being able to accommodate some amount of axial translation without loss of torsional transmission.

[0031] Surrounding the universal joint 25, and forming the outside of the poker hereabouts, is a bulbous conduit 27 made from a flexible fabric such as reinforced rubber-type material.

[0032] This length of conduit is fixed to the air-tight conduit 28 above it, and to the air-permeable pair of tubes beneath 14 with hermetically sealed fasteners 29, such as pipe clamps in this instance. The function of this section is to permit for lateral angular straining of the lower part of the poker with respect to the upper, such staining resulting from the activity of the vibration module 17.

[0033] The lower drive shaft 20 carries the rotation of the drive motor from the universal joint down to the eccentric weight.

[0034] A remote sensing device 30, such as a depth/distance measuring instrument, is attached to the underside of the motor housing 22. Its purpose is to determine two things: the position of the plugged end of the poker 12 with respect to the floor or sidewall of the containment vessel directly beneath; and also, where the top of the payload 13 is with respect to the top of the well screen 31 at all stages during commodity loading.

[0035] With reference to FIG. 3: shown here is a plan view of an empty freight container 40 of relatively small size such as a railway wagon. Superimposed on the container outline is a 6 by 3 rectangular array 41 of pokers such as might be deployed in this case.

[0036] It is essential, for the sake of efficiency, that the poker array 41 be deployed into proper position and orientation within the containment vessel as a single integrated assembly 42, and if possible, in a single movement. One instance of such an assembly is depicted here as a plurality of horizontal conduits 43, each collecting the air discharge from the individual poker fans 11 it serves, while at the same time feeding each individual poker with the electrical power it needs to function. Although these members are hereinafter shown as cantilevered, it is obvious that these beams could be made to rest on the edge of the freight container 40 itself.

[0037] The third element of the structural assembly 42 is a pipe 44 which serves two purposes: it acts as a manifold to gather the discharges from each of the horizontal conduits 43; and, it acts as the foundational structure supporting the cantilevered conduits and the pokers hanging beneath. Furthermore, should a large filtered ventilation fan 45 be fitted to the discharge end of 44 it would serve two useful purposes: it would rid the air exhaust of dust before releasing it back to the atmosphere; and, would minimize backpressure on the individual poker fans 11.

[0038] It is anticipated that the structural assembly 42 will be formed out of mild steel or aluminium, in which case the detailed geometry of the assemblage is a simple matter of structural fabrication involving no novelty. The design criterion will be to minimize the loss of flow area available to the commodity entering from the chute. Consequently, the cantilevered manifolds 43, which are deployed between the delivery chute and the top area of the container 40, need to be slender in plan, with roofs 46 steeply pitched (snow-shedding A-frame type), to avoid presenting flat surfaces on which the commodity might lodge.

[0039] FIG. 4 shows two longitudinal sections through the objects shown in plan in FIG. 3. The support structure 44 is located at some convenient height above the rim 49 of the containment vessel 40. The pitched roofs 46 are shown on top the cantilevered manifolds 43. Two stages of container filling are shown. In the upper section FIG. 4a, the payload has reached the elevation where some the more central pokers are sufficiently buried to have been activated and the deposited payload 47 is considered to have been treated thereabouts. In the lower section FIG. 4b, the container has been filled to the brim 49, and the full volume of the commodity 47 has been treated.

[0040] It is apparent that although the length of the individual pokers 10 have remained unchanged during the treatment process, that the lengths of the adaptable conduits 48 have altered substantially.

[0041] With reference to FIG. 5: An example of a methodology whereby a relatively air-tight adaptable length conduit 48 can be constructed is shown on the left hand side of this sketch. It involves using a set of pipe sizes 50 which are such that each of the series can fit within its larger neighbour above itself. While this solution is not entirely hermetically sealed from the surrounding environment, it is believed to be adequately so, on the understanding that the air flow potential gradient at joints is predominantly axially upwards.

[0042] The top of the largest diameter pipe is fixed 29 to the roof 46 structure, and the bottom of the smallest diameter pipe is fixed 29 to the fan 11 housing. The natural disposition of the nested stack of pipes 51, shown on the left hand side of this sketch, is to deploy itself in its longest formation under the weight of the poker 10. So that the nested conduits cannot fall apart vertically it is enough to provide bead welds 52, in the manner shown in the enlargement in the lower left of FIG. 5. To constrain this tendency a cable 53 is attached to the fan housing 11 at the top of the poker 10. The played-out length of this cable is controlled by a drum winch 54 advantageously located within the pitched roof 46 above each poker. This arrangement makes it possible to determine where the poker 10 resides within the payload; the position of the poker is dictated by the length of cable which the drum hoist reels out. Consequently, by making the activity of the hoist dependent upon, and controlled by, signals coming from the depth/distance sensor 30, the elevation at which the poker is then working can be optimized throughout the process of commodity treatment.

[0043] It will be appreciated by those skilled in the art that the preferred embodiments have been described in some detail but that certain modifications may be practiced without departing from the principles of the invention.

[0044] FIG. 6 is a depiction of a hexagonal array 60, the natural (bee-hive) cell shape, and it is suggested this configuration as possibly being better suited to larger areas such as the holds of a merchant ship.

Operation of Invention

[0045] The goal in the deployment of an array of these tools is to avoid interfering with the normal filling rate of the transportation vessel, and also to limit any complication to established procedures as far as possible.

[0046] Sometime before the arrival of the transportation vessel at the loading bay, the integrated poker array and its support structure, would be appropriately positioned beneath the delivery chute.

[0047] At that time the speed control of the electric motors within the pokers would be set to provide the particular rate of rotational vibration previously determined to be optimal for the type of commodity to be treated on this particular occasion.

[0048] The winch cables would be activated so as to set the individual lengths of the adjustable conduits in order that the bottom plug of each poker comes to rest just above the floor or sidewall of the vessel at each of their pre-designated positions.

[0049] As soon as the containment vessel arrived in its assigned position beneath the commodity chute the support structure would lowered/rotated the poker array into it in one motion. Electrical power would be made available to the apparatus as soon as loading commenced but power to the individual pokers would not be switched on until the depth sensor of each particular poker indicated that the payload material had covered the top of that poker's well screen. This is to avoid swamping the air extraction capacity of the manifolds.

[0050] As loading progressed, and various well screens became submerged beneath the payload, such pokers would receive power and both its vibrator and the fan turned on, thereby forcing the individual particles of the dry mass commodity to adopt a closer packing arrangement.

[0051] Shortly thereafter the cable winch, in response to indications from the sensors, would begin to withdraw individual pokers towards the top of the vessel so as to apply the vibratory and air suction most effectively, that is, close beneath the surface of the loose mass. In other words, each poker would be individually raised to keep pace with containment filling at each of their separate locations.

[0052] It is further contemplated that this apparatus might advantageously be fixed to the chute delivering the payload to the container.

[0053] Because the functional elements of the apparatus are all driven by electrical power, and their activity controlled by electronic sensors, this system lends itself to robotization. The computer program required for full automation of the process is a rather simple matter.