GB2428660A - A container on a vehicle reciprocated to assist the discharging of fluent material - Google Patents

A container on a vehicle reciprocated to assist the discharging of fluent material Download PDF

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Publication number
GB2428660A
GB2428660A GB0617711A GB0617711A GB2428660A GB 2428660 A GB2428660 A GB 2428660A GB 0617711 A GB0617711 A GB 0617711A GB 0617711 A GB0617711 A GB 0617711A GB 2428660 A GB2428660 A GB 2428660A
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United Kingdom
Prior art keywords
container
chassis
vehicle
load
translational movement
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Granted
Application number
GB0617711A
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GB0617711D0 (en
GB2428660B (en
Inventor
John Edward Morten
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Individual
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Individual
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Priority claimed from GBGB0419763.8A external-priority patent/GB0419763D0/en
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Publication of GB0617711D0 publication Critical patent/GB0617711D0/en
Publication of GB2428660A publication Critical patent/GB2428660A/en
Application granted granted Critical
Publication of GB2428660B publication Critical patent/GB2428660B/en
Expired - Fee Related legal-status Critical Current
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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60PVEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
    • B60P1/00Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading
    • B60P1/04Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading with a tipping movement of load-transporting element
    • B60P1/045Levelling or stabilising systems for tippers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60PVEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
    • B60P1/00Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading
    • B60P1/58Vehicles predominantly for transporting loads and modified to facilitate loading, consolidating the load, or unloading using vibratory effect

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  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Loading Or Unloading Of Vehicles (AREA)
  • Body Structure For Vehicles (AREA)

Abstract

A vehicle or trailer for transporting a load of, for example, fluent bulk material comprises a chassis 28 and a container 29mounted on said chassis. Said container comprises a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening. The container is mounted to the chassis by at least one connector 46 that permits reciprocal translational movement of the container relative to the chassis between first and second positions with the movement having both a horizontal component and a vertical component so as to agitate the load and encourage it to flow out of the discharge opening. The movement may be generated by hydraulic rams and pneumatic springs. The movement may be faster in one direction than the other to direct the flow of material. Provision of such an arrangement in which the load is discharged by reciprocal translational movement of the container relative to the chassis obviates or at least reduces the need to tip the container to discharge the load. Thus the risk of the container rolling over whilst the load is discharged is greatly reduced. The vehicle may also have a suspension leveling system to further enhance stability.

Description

1 2428660
VEHICLE OR TRAILER
The present invention relates to a vehicle or trailer for transporting a load, particularly but not exclusively a load of fluent bulk material, such as sand, earth and the like.
Load carrying vehicles, such as articulated lorries and tankers, are often used to transport general freight loads comprised of, for example, fluent bulk material, such as sand, earth, powder etc. An example of an articulated lorry used to transport such a load is illustrated in Figures 1 to 5. Referring to Figures 1 and 2, the lorry I comprises a cab 2 mounted on a cab chassis 3 which is coupled via a kingpin (not shown) to a trailer 4 comprising a chassis 5 to which is mounted a container 6 having a base 7, first and second opposite side walls 8, 9, a fixed front end wall 10 and a hinged rear end wall Ii. The walls 8, 9, 10, 11 and base 7 define a volume to house the fluent bulk material during transportation. The container 6 is mounted to the chassis 5 by front and rear mountings 12, 13 located adjacent to the front and rear ends 14, 15 of the container 6.
Referring now to Figures 3 to 5, when it is desired to discharge the load from the container 6 a telescopic arm 16, which connects the front end 17 of the chassis 5 to the front mounting 12, is extended to raise the front end 14 of the container 6 to a height of up to around 13 metres above the ground (depending on the length of the container 6, and the size and nature of the fluent bulk material) whilst the rear end 15 of the container 6 pivots via the rear mounting 13 about a shall 18 fixed to the chassis S. This action tips the container 6 to an angle a of up to approximately 70 relative to the chassis 5. As a result, the fluent bulk material flows under gravity from the rear end 15 of the container 6 via the hinged rear end wall 11 During a tipping operation the centre of gravity 19 of the container 6 and the load can be as high as 6.5 metres above ground level. It is at this point when the trailer 4 is most susceptible to roll over'. Roll over refers to the situation where the trailer 4 is tipping and an event takes place that upsets the equilibrium of the trailer 4 and causes the centre of gravity 19 to move outside the trailer's pivotal point', which is located at the outside edge of the rear trailer tyres 20 of the lorry 1. Events which may cause roll over include the load sticking, a strong sidewind, mechanical failure, unequal tyre pressures or the ground giving way due to the uneven distnbution of forces between the nearside and offside tyres 21, 22. When roll over occurs the trailer 4 falls sideways and is often damaged. Moreover, persons in the vicinity of the trailer 4 may also be harmed by the trailer rolling over. When the container 6 of the lorry 1 is raised to 70 it has been calculated that a sideways tilt of only 14 to the vertical will cause roll over to occur. In practice, a sideways tilt of 8 to 9 can cause a well designed and well maintained trailer to roll over. A poorly designed and/or poorly maintained trailer may be susceptible to roll over at sideways tilt angles of as low as 4 to 5 * The difference between the calculated and practical sideways tilt angles required to cause roll over is primarily due to the fact that the chassis of the trailer is inclined to flex.
Additionally, the air suspension and tyres on the side of the trailer taking the extra load when the trailer is tilting undergo greater compression than those on the opposite side which further increases the risk of roll over occurring.
Roll over has become a progressively greater problem as legislation has permitted heavier vehicles to operate on public roads. For example, in the UK it is currently permitted to operate articulated lorries at 44 tonnes gross weight. As a result, current trailer bodies are now longer than before, which raises the centre of gravity of the trailer when in a tipping position and increases the risk of roll over occurring. Further factors which can increase the risk of trailers rolling over are the use of such trailers on uneven ground and trailers carrying loads in excess of their allotted capacity.
Problems associated with roll over are assuming greater importance within both the haulage industry and Health and Safety groups. Indeed, the UK Health and Safety Executive has recently expressed concern regarding the safety of conventional tipping trailers. There are therefore significant problems associated with the safety of conventional load canying vehicles which employ a tipping trailer to discharge their load.
Several systems have been proposed to enable load carrying vehicles to be unloaded more safely. One such system employs an ejector system in which a heavy duty hydraulic ram connected to the front end of the trailer is fitted with a face plate which acts as a moving bulkhead. As the hydraulic ram extends the face plate moves from the front towards the rear of the trailer pushing the load out of the rear of the trailer.
Unfortunately this system suffers from a number of disadvantages, for example, due to the size of the hydraulic ram and face plate required the load capacity of the trailer is reduced, and the system is expensive to set up and maintain. Another system uses a walking floor system. The floor of the trailer consists of a plurality of sets of longitudinal planks which support the load during transportation. Movement of each set of planks moves the load around 300 mm towards the rear of the trailer. Once a set of planks has moved towards the rear of the trailer each plank returns separately to its original position nearer the front of the trailer leaving the load towards the rear of the trailer. This system is not satisfactory because it is again costly to set up and maintain, and is only suitable for use with loads which can be placed inside the trailer gently because the system is rendered inoperable if any of the planks are damaged or become misaligned. A further system employs a belt drive system fitted to the base of the trailer. Many different versions of this system have been tested. One version uses a bulkhead fixed to the belt which is operated to move the bulkhead towards the rear of the trailer to push the load out of the rear of the trailer. This system suffers from problems relating to sealing the moving belt to the sides of the trailer and has been adopted primarily for agricultural applications.
An object of the present invention is to obviate or mitigate the aforementioned problems and to provide a system which permits the safe and effective unloading of load carrying vehicles.
According to a first aspect of the present invention there is provided a vehicle or trailer for transporting a load of fluent bulk material, comprising a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector that permits reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein said at least one comiector permits reciprocal substantially vertical movement in combination with said translational movement of the container relative to the chassis.
An aspect of the present invention related to the above vehicle or trailer provides a method of discharging a load from a vehicle or trailer comprised of a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector, the method comprised of causing reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein said container undegoes reciprocal substantially vertical movement in combination with said translational movement relative to the chassis.
In the above aspects of the present invention it is preferred that the at least one connector is arranged to permit translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position.
Provision of such an arrangement in which the load is discharged by reciprocal translational movement of the container relative to the chassis obviates or at least reduces the need to tip the container to discharge the load. Thus the risk of the container rolling over whilst the load is discharged is greatly reduced.
Another aspect of the present invention provides a vehicle or trailer for transporting a load of fluent bulk material, comprising a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector that permits reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein the at least one connector is arranged to permit translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position.
A related aspect of the present invention provides a method of discharging a load from a vehicle or trailer comprised of a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector, the method comprised of causing reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein translational movement of the container from the first position to the second position occurs more slowly than translational movement of the container from the second position to the first position.
In a preferred embodiment of the above aspects of the present invention where the at least one connector permits translational movement of the container between the first and second positions at differing speeds, said at least one connector permits reciprocal substantially vertical movement in combination with said translational movement of the container relative to the chassis.
A further aspect of the present invention provides a vehicle or trailer for transporting a load of fluent bulk material, comprising a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector that permits reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein the at least one connector permits said reciprocal translational movement of the container along an axis which is transverse to a longitudinal axis of the chassis.
An aspect of the present invention related to the above defined aspect provides a method of discharging a load from a vehicle or trailer comprised of a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector, the method comprised of causing reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein said container undergoes reciprocal translational movement along an axis which is transverse to a longitudinal axis of the chassis.
In the above aspects of the present invention where the at least one connector permits said reciprocal translational movement of the container along an axis which is transverse to a longitudinal axis of the chassis, it is preferred that the at least one connector is arranged to permit translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position. Moreover, said at least one connector may permit reciprocal substantially vertical movement in combination with said translational movement of the container relative to the chassis.
Furthermore, in the above aspects of the present invention which relate to discharging a load of fluent bulk material from the container via the discharge opening it is preferred that translational movement of the container from the first position to the second position displaces the container towards the part of the vehicle or trailer from which the load is to be discharged via the discharge opening. For example, if the discharge opening is provided at the rear of the vehicle, it is preferred that translational movement of the container from the first position to the second position displaces the container towards the rear of the vehicle, i.e. the container undergoes a rearwards movement. In this case, movement of the container from the second position back to the first position would be a forward movement displacing the container towards the front of the vehicle. Preferably the first position is distal to the part of the vehicle or trailer from which the load is to be discharged via the discharge opening and the second position is proximal to the part of the vehicle or trailer from which the load is to be discharged via the discharge opening.
A still further aspect of the present invention provides a vehicle or trailer for transporting a load, comprising a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and an entrance to said volume, the container being mounted to the chassis by at least one connector that permits reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to move away from the entrance.
A still further related aspect of the present invention provides a method of positioning a load on a vehicle or trailer comprised of a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and an entrance to said volume, the container being mounted to the chassis by at least one connector, the method comprised of causing reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to move away from the entrance.
In the above two aspects of the present invention where reciprocal movement of the container causes the load to move away from the entrance to the container volume, it is preferred that the at least one connector is arranged to permit translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position. Moreover, said at least one connector may permit reciprocal substantially vertical movement in combination with said translational movement of the container relative to the chassis.
In the aspects of the present invention where the load is caused to move away from the entrance, it is preferred that translational movement of the container from the first position to the second position displaces the container away from the part of the vehicle or trailer from which the load is placed in to the container via the container entrance. For example, if the entrance is provided at the rear of the container such that the load would be place in to the container from the rear of the vehicle, it is preferred that translational movement of the container from the first position to the second position displaces the container away from the rear of the vehicle, i.e. the container undergoes a forward movement. In this case, movement of the container from the second position back to the first position would be a rearward movement displacing the container towards the rear of the vehicle.
Preferably said load retaining walls comprise side and end walls and one of said side or end walls is hingedly mounted so as to be openable to provide said discharge opening or container entrance. It is preferred that said discharge opening or entrance is defined by one of said side or end walls. The discharge opening is typically defined by one of the side or end walls of the container when the load-carrying vehicle is a tanker. Such a tanker may incorporate pneumatic means for assisting the flow of the load from the container via the discharge opening.
In certain aspects of the present invention set out above the at least one connector permits translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position, in the other aspects of the present invention the connector may be arranged to permit translational movement of the container between the first and second positions at the same speed or at different speeds. In a preferred embodiment of these aspects of the present invention the connector is arranged to permit translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position.
Said at least one connector preferably comprises a mounting connected to displacement means to provide said translational movement.
Preferably said vehicle or trailer further comprises tipping means to tip said container about a pivot connected to said mounting. It is preferred that said pivot defines a pivot axis transverse to the longitudinal axis of the container.
in a preferred embodiment of the present invention said mounting is attached to said container and said displacement means is attached to said chassis. The displacement means may comprise one or more hydraulic ram or air spnng. Preferably an end of the displacement means is connected to the chassis and an opposite end of the displacement means is connected to the mounting. It is preferred that an end of the displacement means is connected to the chassis and an opposite end of (he displacement means is connected to a rotatable arm which is connected to the mounting.
Preferably the displacement means is connected to a projection which is received in a channel defined by the chassis. Said channel may extend in a direction which is substantially parallel to the direction of translational movement of the container. The channel is preferably inclined with respect to the plane of the chassis of the vehicle or trailer. The angle of inclination is preferably such that a distal end of the channel relative to the discharge opening is lower than the opposite proximal end. It is therefore preferred that the channel is upwardly inclined towards the discharge opening. The channel may be upwardly inclined in the direction of movement of the container from first position to the second position such that, upon movement of the container from the first position to the second position the container is raised and upon movement of the container from the second position back to the first position the container is lowered. Said projection preferably comprises a stub shaft supporting
a rotatable wheel.
The displacement means may comprise first displacement means to move said container from the first position to the second position and second displacement means to displace said container from the second position to the first position. In a preferred embodiment at least one of the first and second displacement means comprises one or more hydraulic ram or air spring. Preferably the first displacement means comprises a pair of hydraulic rams and the second displacement means comprises a pair of air springs. Said pair of air springs may be located inboard of said pair of hydraulic rams.
Where the at least one connector permits reciprocal substantially vertical movement in combination with said translational movement of the container relative to the chassis it is preferred that said combination of substantially vertical movement with said translational movement causes said container to follow a generally arcuate path.
In an alternative preferred embodiment said at least one connector permits only rectilinear translational movement of the container relative to the chassis. Preferably the at least one connector permits said reciprocal translational movement of the container along an axis which is substantially parallel to a longitudinal axis of the chassis. Alternatively, the at least one connector permits said reciprocal translational movement of the container along an axis which is transverse, preferably substantially perpendicular, to a longitudinal axis of the chassis.
Said chassis is preferably supported on wheels mounted on at least one axle connected to said chassis. Moreover, said at least one axle may be connected to the chassis by a suspension system which is connected to suspension levelling means to monitor the angular offset of the at least one axle from the horizontal and control said suspension system so as to minimise the angular offset of the container from the horizontal. Additionally, weight monitoring means may be provided comprising an electronic sensor to detect the force required to initiate translational movement of the container initially from the first position to the second position and processing means to calculate the weight of the load held in the container from the magnitude of said force.
An embodiment of the present invention will now be described, by way of example only, with reference to the accompanying drawings in which: Figure 1 is a schematic side view of an articulated lorry incorporating a conventional tipping trailer in a configuration suitable for on-road use; Figure 2 is a schematic end view of the lorry of Figure 1; Figure 3 is a schematic side view of the lorry of Figure 1 in a tipping configuration suitable to discharge a load from the rear of the lorry; Figure 4 is a schematic end view of the lorry of Figure 3; Figure 5 is a schematic end view of the lorry of Figure 3 undergoing sideways tilting of the trailer; Figure 6 is a schematic side view of an articulated lorry incorporating a trailer according to an aspect of the present invention shown with the container in a forward position with respect to the chassis; Figure 7 is a schematic end view of the lorry of Figure 6; Figure 8 is a schematic side view of the articulated lorry of Figure 6 shown with the container in a rearward position with respect to the chassis; Figure 9 is a schematic end view of the lorry of Figure 8; Figure 10 is a schematic end view of the lorry of Figure 9 undergoing sideways tilting of the trailer; Figure Il is a schematic plan view of the trailer of the lorry of Figure 6 with the container removed; Figure 12 is a schematic cross sectional plan view of a front portion of the trailer of the lorry of Figure 6; Figure 13 is a schematic view along A-A of Figure 12; Figure 14 is a schematic view along B-B of Figure 12; Figure 15 is a schematic view along C-C of Figure 12; Figure 16 is a schematic view along D-D of Figure 12; Figure 17 is a schematic plan view of a rear portion of the trailer of the lorry of Figure 6 with the trailer container removed; Figure 18 is a schematic view along E-E of Figure 17; Figure 19 is a schematic view along H-H of Figure 17; Figure 20 is a schematic view along F-F of Figure 17; Figure 21 is a schematic view along G-G of Figure 17; Figure 22 is a schematic side view of an alternative articulated lorry incorporating a trailer according to an aspect of the present invention shown with the container in a position suitable for on-road use; Figure 23 is a schematic end view of the lorry of Figure 22; Figure 24 is a schematic side view of the lorry of Figure 22 with the container in a forward tipping position; Figure 25 is a schematic side view of the lorry of Figure 22 with the container in a rearward tipping position; Figure 26 is a schematic end view of the lorry of Figure 25; Figure 27 is a schematic end view of the lorry of Figure 25 undergoing sideways tilting of the trailer on a level surface; Figure 28 is a schematic end view of the lorry of Figure 25 on an inclined surface which produces an axle slope of 5 0; Figure 29 is a schematic cross sectional plan view of a front portion of a trailer forming part of an articulated lorry according to an alternative embodiment of present invention; Figure 30 is a schematic view along D-D of Figure 29; Figure 31 is a schematic plan view of a rear portion of the trailer of the lorry of Figure 29 with the trailer container removed; Figure 32 is a schematic view along E-E of Figure 31; and Figure 33 is a schematic representation of a hydraulic circuit for use in the lorry of Figure 29.
Figures 6 to 9 illustrate an articulated lorry 23 which consists of a conventional cab 24 mounted on a conventional cab chassis 25 which is coupled to a trailer 26 comprising a load carrying container 27 mounted to a trailer chassis 28. The container 27 has a base 29, first and second opposite side walls 30, 31, a fixed front end wall 32 and a hinged rear end wall 33. The walls 30, 31, 32, 33 and base 29 define a volume which is designed to house a load, e.g. a load of fluent bulk material (not shown), such as sand, dunng transportation. The container 27 is mounted to the chassis 28 by front and rear mountings 34, 35 (visible in Figures 8 and 9) located adjacent the front and rear ends 36, 37 of the container 27. The chassis 28 is inclined to provide an angle of approximately 2 to 4 between front and rear ends 38, 39 of the chassis 28 and thus provide a similar angle between the front and rear ends 36, 37 of the container 27.
In Figures 6 and 7 the container 27 is in a forward position in which the front and rear ends 36, 37 of the container 27 are generally in line with the front and rear ends 38, 39 of the chassis 28. In Figures 8 and 9 the container 27 is in a rearward position in which the front and rear ends 36, 37 of the container 27 are rearwardly offset with respect to the front and rear ends 38, 39 of the chassis 28. The front and rear mountings 34, 35 are visible in Figures 8 and 9 but not Figures 6 and 7 because as the container 27 is moved from the forward position (Figure 6) to the rearward position (Figure 8) it is also displaced upwards relative to the chassis 28 which enables the mountings 34, 35 to be seen. The means by which this is achieved is described in greater detail in relation to Figures 11 to 21.
To discharge a load (not shown) from the container 27 an operator actuates displacement means (described in more detail below) which causes the container 27 to be reciprocally displaced between forward and rearward positions. Although the length and speed of displacement between the forward and rearward positions can be controlled to suit a particular application, in this specific embodiment the displacement means is configured such that rearwards translation of the container 27 is significantly slower than forwards translation of the container 27. Thus the container 27 moves rearwards relatively slowly along the longitudinalaxis of the chassis 28 and then forwards more quickly along the longitudinal axis of the chassis 28 in a reciprocating manner. This movement agitates the load of a fluent bulk material (not shown) and causes it to be urged towards the rear end 37 of the container 27 where it is discharged through a discharge opening formed by opening of the hinged rear end wall 33 of the container 27 as in conventional trailers of this type. In this specific embodiment the container 27 undergoes reciprocal displacement along the longitudinal axis of the chassis 28, which is a preferred embodiment of the present invention. However, it is envisaged that the container may be connected to the chassis in such a way that the container is reciprocally displaced along an axis which is transverse (e.g. perpendicular) to the longitudinal axis of the chassis.
A significant advantage provided by the present invention is that the front end 36 of the container 27 does not have to be raised relative to the rear end 37 of the container 27 to tip the container 27 to discharge the load. By obviating the need to tip the container 27 problems relating to roll over are significantly reduced. This is exemplified in Figure 10 which depicts the inventive lorry 23 with the container 27 in the rearward position as shown in Figures 8 and 9 when undergoing a sideways tilt angle 40 of 28 to the ground, which is the maximum calculated tilt angle which the inventive lorry 23 can withstand prior to rolling over. The inventive lorry 23 can therefore be subjected to twice the sideways tilt angle compared to a conventional 44 tonne maximum gross weight articulated lorry before roll over will occur.
The means by which displacement of the container 27 relative to the chassis 28 is controlled will now be described in more detail. Figure 11 illustrates in schematic form the chassis 28 and the front and rear mountings 34, 35 to which the container 27 (not shown in Figure II) is connected. One mounting 34 is located towards the front end 38 of the chassis 28 and a pair of mountings 35 are located towards the rear end 39 of the chassis 28. It will be appreciated that this relates to one embodiment of the present invention and that an alternative embodiment may employ any number and arrangement of front and rear mountings, e.g. a pair of mountings may be located towards the front end of the chassis and a single mounting may be located towards the rear of the chassis.
Figures 12 to 16 show in more detail a portion of the chassis 28 adjacent the front mounting 34. The front mounting 34 is connected to displacement means which comprises a pair of inclined air springs 41 provided inboard ofa pair of hydraulic rams (not shown) located in inclined tubes 42. The air springs 41 are connected at their rear ends 43 to a plate 44 attached to the chassis 28 and at their front ends 45 to a support member 46 (comprising connected front and rear plates 47, 48) which is pivotally connected via front mounting 34 to a plate 49 depending from the base 29 of the container 27 (not shown on Figure 12). Support member 46 is also connected to pairs of spaced stud shafts 50, ends of which carry wheels 51 (shown in Figure 14) which are received in inclined channels 52 defined in the chassis 28. With reference to Figures 14 and 15, the exterior surfaces of the tubes 42 which house the hydraulic rams are connected to support member 46 and to the shafts 50. One end 53 of each hydraulic ram is connected to the chassis 28 and the opposite end 54 of each hydraulic ram is connected to the tube 42 within which the ram is housed. The exterior surface of each tube 42 is connected to the support member 46 which is pivotally connected to the container 27 via front mounting 34 and plate 47.
When it is desired to displace the container 27 rearwardly the hydraulic rams extend slowly and carry the tubes 42 rearwardly. Since the tubes 42 are connected to the container 27 via support member 46, plate 47 and front mounting 34, rearward displacement of the tubes 42 along an upwardly inclined path causes similar displacement of the container 27. Displacement of the tubes 42 along the inclined path is supported by virtue of the exterior surface of each tube 42 being connected, via shafts 50, to the wheels 51 which are constrained to move along the inclined channels 52. To displace the container 27 forwardly the air springs 41 are actuated to force rapidly the support member 46, plate 47, front mounting 34 and thereby container 27 forwardly along a downwardly inclined path. Controlled forward displacement of the container along a downwardly inclined path is again supported by support member 46 being connected, via shafts 50, to the wheels 51 which move along inclined channels 52. To enable the trailer to function in accordance with the present invention the hydraulic rams and air springs are operated via suitable operating means (not shown) to cause reciprocal forward and rearward displacement of the container 27 with respect to the chassis 28.
Figures 17 to 21 shows in more detail a portion of the chassis 28 adjacent the rear mountings 35. The rear mountings 35 are connected to similar displacement means to those connected to the front mounting 34. Thus, a pair of inclined air springs 55 are provided inboard of a pair of hydraulic rams 56 (shown in Figures 20 and 21) located in inclined tubes 57 are used to displace the container 27 forwardly and rearwardly with respect to the chassis 28 respectively. The air springs 55 are connected at their rear ends 58 to a plate 59 (shown most clearly in Figure 21) attached to the chassis 28 and at their front ends 60 to a support member 61 (comprising connected front and rear plates 62, 63) which is pivotally connected to the container 27 via the rear mountings 35 which are located at either end of the support member 61 at either side of the lorry 23 Support member 61 is also connected to pairs of spaced stud shafts 64, ends of which carry wheels 65 (shown in Figure 19) which are received in inclined channels 66 defined in the chassis 28. With reference to Figures 19 and 20, the exterior surfaces of the tubes 57 which house the hydraulic rams 56 are connected to the support member 61 and to the shafts 64. One end 67 of each hydraulic ram 56 is connected to the chassis 28 and the opposite end 68 of each hydraulic ram 56 is connected to the tube 57 within which the ram 56 is housed. The exterior surface of each tube 57 is connected to the support member 61 which is pivotally connected to the container 27 via rear mounting 35.
Operation of the air springs 55 and hydraulic rams 56 to displace the container 27 via the rear mountings 35 is synchronised with operation of the air springs 41 and hydraulic rams (not shown) used to displace the container 27 via the front mounting 34 to ensure that the front and rear ends 36, 37 of the container 27 move in unison.
Thus, slow extension of the hydraulic rams 56 within inclined tubes 57 causes support member 61 to be displaced rearwardly along an upwardly inclined path carrying with it the rear end 37 of the container 27 via rear mountings 35. The air springs 55 are then actuated to quickly force support member 61 forwardly and downwardly along the same inclined path. The range and direction of motion of the wheels 65 within the inclined channels 66 positioned adjacent the rear mountings 35 is the same as that of wheels 51 within channels 52 positioned adjacent the front mounting 34 to ensure that the front and rear mountings 34, 35 are displaced in the same direction and over the same distance during use. However, it will be evident to the skilled person that any desirable range and/or direction of motion of the wheels (or any other component controlling movement of the container relative to the chassis) may be selected to suit a particular application.
A second embodiment of the present invention is presented in Figures 22 to 28.
Figures 22 and 23 show a lorry 69 configured for road use which consists of a conventional cab 70 mounted on a conventional cab chassis 71 which is coupled to a trailer 72. The trailer 72 comprises a chassis 73 to which is connected a container 74.
This embodiment has been devised for situations where discharging of a load (not shown) by reciprocal motion of the container 74 can be aided by tipping the container 74 to an angle of around 20 to the ground in an analogous fashion to a conventional tipping trailer, i.e. by raising a front end 75 of the container 74 above the chassis 73.
An important difference between this embodiment of the present invention and a conventional tipping trailer is that the angle to which the container 74 must be raised to discharge any given load is significantly less than that of a conventional trailer.
This is because the container 74 is reciprocally displaced forwardly and rearwardly in a similar manner to that described in relation to the first embodiment of the invention while the front end 75 of the container 74 is in a raised position.
Figure 24 shows the container 74 tipped and placed in a forward position, and Figures and 26 show the container 74 tipped and displaced to a rearward position. In this embodiment, a hydraulic ram 76 is used in combination with an articulated arm or tipping hinge 77 to raise the front end 75 of the container 74, and reciprocal displacement means (not shown), e.g. an inclined or horizontal air spring/hydraulic ram arrangement as described above with reference to Figures 17 to 21, is connected solely to the rear mountings (not shown) of the trailer 72. In this embodiment the forward and rearward displacement of the container 74 may be at substantially similar speeds or at different speeds as described in relation to Figures 17 to 21.
Figure 27 depicts the lorry 69 of Figures 25 and 26 when subjected to an event which has caused a sideways tilt of 23 O to the ground, which is the calculated maximum angle to which the container 74 can tilted before roll over occurs. It will be appreciated that this maximum sideways tilt angle is again significantly greater than that of a conventional 44 tonne maximum gross weight articulated lorry. By reducing the angle to which the lorry container needs to be tipped to discharge the load a wider range of container types can be employed to suit a particular application than with conventj'onal trailers A further enhancement to the trailer of the present invention over a conventional lorry is included in the lorry 69 depicted in Figure 28. The lorry 69 is located on an inclined surface which produces an axle slope of 5 to the horizontal. In such circumstances a conventional lorry would be extremely unstable and likely to roll over. However, the lorry 69 incorporates an electronic and pneumatic levelling system (not shown) to adjust the height of the air suspension at either end of each axle to control the relative displacement of the chassis 73 and container 74 from the tyres at either end of each axle. The aim of the system is to ensure that the chassis 73 and thereby the container 74 remains as near to horizontal as possible when the lorry 69 is placed on uneven or sloping ground.
Overloading of load carrying vehicles has become an increasing problem in recent years. Many systems are currently available for weighing the load present in the trailer. For example, load sensing pads may be placed under the tipping hinge and/or under the hydraulic tipping ram. Whilst these systems work satisfactorily, the trailer of the present invention facilitates the use of a more simple, robust and reliable system. Thus, a further feature which could be incorporated in to a lorry in accordance with an embodiment of the present invention is weight monitoring means comprising an electronic sensor to detect the force (e.g. the hydraulic pressure) required to initiate rearward translational movement of the container initially and processing means to calculate the weight of the load held in the container from the magnitude of the force required.
A third embodiment of a trailer in accordance with the present invention is shown in Figures 29 to 33. The general arrangement of components in this embodiment is similar to the arrangement shown in Figures 6 to 21 save for the use of a different form of displacement means. The front and rear pairs of inclined air springs 41, 55 shown in Figures 12 and 20 are replaced with means for utilising the hydraulic rams located in front and rear inclined tubes 42, 57 to displace the container 27 backwards and forwards. Accordingly, parts corresponding to those of figures 6 to 21 are indicated by the same reference numerals increased by 100.
Figures 29 and 30 show a portion of a chassis 128 adjacent a front mounting 134 which is connected to an alternative design of displacement means to that shown in Figure 12. The displacement means comprises a pair of hydraulic rams (not shown) located in inclined tubes 142. In this embodiment the hydraulic rams are used to move the container (not shown) forwards and rearwards with respect to the chassis 128. Support member 146 (comprising connected front and rear plates 147, 148) is pivotally connected via front mounting 134 to a plate 149 depending from the base 129 of the container 127 (not shown on Figures 29 and 30). Support member 146 is connected to pairs of spaced stud shafts 150, ends of which carry wheels (not shown in Figures 29 and 30) which are received in inclined channels 152 defined in the chassis 128. The exterior surfaces of the tubes 142 which house the hydraulic rams are connected to support member 146 and to the stud shafts 150. One end 153 of each hydraulic ram is connected to the chassis 128 and the opposite end 154 of each hydraulic ram is connected to the tube 142.
Figures 31 to 32 show a portion of the chassis 128 adjacent rear mountings 135. The rear mountings 135 are connected to similar displacement means to those connected to the front mounting 134. A pair of hydraulic rams 156 located in inclined tubes 157 are used to displace the container (not shown) forwards and backwards with respect to the chassis 128. Support member 161 is pivotally connected to the container 127 (not shown) via the rear mountings 135 which are located at either end of the support member 161. Support member 161 is also connected to pairs of spaced stud shafts 164, ends of which carry wheels 65 (not shown) which are received in inclined channels 166 defined in the chassis 128.
Figure 33 is a schematic representation of a hydraulic circuit used to control the displacement means shown in Figures 29 to 32. To move the container 127 (not shown) rearwards with respect to the vehicle chassis 128 (not shown) oil 178 is fed from a reservoir 179 by a hydraulic pump 180 via control valve 181 to the hydraulic cylinders 142, 157. Hydraulic rams 182, 156 then extend out of cylinders 142, 157 and push the wheels, 151, 165 along the inclined channels 152, 166 so as to displace the container 127 upwardly and towards the rear of the chassis 128. The hydraulic cylinders 142, 157 are double acting and on the opposite side of the rams 182, 156 to the oil feed from the pump 180 is connected an air-oil accumulator 183. The air-oil accumulator 183 is a vertical cylinder partially filled with oil 184 and partially filled with inert gas 185 under pressure. As oil 178 is pumped into the hydraulic cylinders 142, 157 to move the container 127 rearwards oil from the opposite side of each ram 182, 156 is forced into the air-oil accumulator 183 compressing the inert gas 185 and increasing its pressure. As the hydraulic rams 182, 156 and the container 127 attached to the rams 182, 156 reach the end of their travel the control valve 181 directs the oil flow from the pump 180 and the hydraulic rams 182, 156 to the oil reservoir 179. The pressure that has now built up in the air-oil accumulator 183 forces the oil on the opposite side of the piston, in the hydraulic cylinder, back into the oil reservoir 179. The hydraulic cylinders 142, 157 now contract pulling the wheels, 151, 165 and thereby the container 127 forwards and down the inclined channels 152, 166 at a greater velocity than they ascended the inclined channels thus producing the desired quicker return action and leaving the load behind. As shown in Figure 33, a further air-oil accumulator 186 can be placed in the hydraulic circuit between the control valve 181 and the hydraulic cylinders 142, 157 to cushion the effects of sudden changes in pressure which may occur during operation.
While the above embodiments of the present invention utilise reciprocal translational movement combined with reciprocal vertical movement such that the container follows an inclined path, it is envisaged that the container could be subject to reciprocal translational movement alone (i. e. rectilinear movement) and/or substantially horizontal translational movement. Such movement can be provided by appropriately reorientating the direction of travel of the air springs, hydraulic rams and wheels within the channels.
Furthermore, in some applications it may be desirable to emp'oy reciprocal movement along a path which is arcuate when viewed from the side of the container.
For example, the container may follow an upwardly arcuate path as the container is displaced rearwardly and a corresponding downwardly arcuate path as the container is displaced forwardly. Arcuate displacement could be provided by employing rotatable arms, such as radius arms, connected at one end to the front or rear mountings and at the other end to the chassis. The rotatable arms could be driven by any suitable means, e.g. air springs or hydraulic rams.
It will be understood that numerous modifications can be made to the embodiments of the invention described above without departing from the underlying inventive concept and that these modifications are intended to be included within the scope of the invention. For example, the air springs and hydraulic rams could be replaced with any suitable displacement means which can function to provide the appropriate reciprocal movement of the container, such as air bags, metal springs, leavers, cranks, connecting rods, cam and the like. While the above described embodiments each employ similar displacement means at the front and rear of the vehicle it will be appreciated that different types of displacement means may be used at each end of the vehicle. For example, the displacement means used in the first embodiment of the present invention employing hydraulic rams and air springs could be provided at the front of the vehicle and the displacement means used in the third embodiment employing double acting hydraulic cylinders linked to an airoil accumulator could be provided at the rear of the vehicle, or vice versa. Furthermore, the present invention may be incorporated in to a wide range of different load carrying vehicles, such as articulated and non-articulated (i.e. rigid or fixed) lorries and tankers. The inventive trailer is considered eminently suitable for use in articulated lorries, for example 44 tonne maximum gross weight lorries or heavier. Furthermore, the inventive vehicle could be a lighter maximum gross weight vehicle, such as a six or eight wheel rigid tipper or tanker with a maximum gross weight in excess of 20 tonnes. Moreover, the present invention could also be applied to agricultural trailers, earth moving vehicles, mineral extractions vehicles and the like.

Claims (34)

  1. CLAiMS A vehicle or trailer for transporting a load of fluent bulk
    material, comprising a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector that permits reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein said at least one connector permits reciprocal substantially vertical movement in combination with said translational movement of the container relative to the chassis.
  2. 2 A vehicle or trailer according to claim 1, wherein said combination of substantially vertical movement with said translational movement causes said container to follow a generally arcuate path.
  3. 3 A vehicle or trailer according to claim 1, wherein said at least one connector permits only rectilinear translational movement of the container relative to the chassis.
  4. 4 A vehicle or trailer according to claim 1, 2 or 3, wherein the at least one connector is arranged to permit translational movement of the container from the first position to the second position more slowly than translational movement of the container from the second position to the first position.
  5. A vehicle or trailer according to any preceding claim, wherein said load retaining walls comprise side and end walls and one of said side or end walls is hingedly mounted so as to be openable to provide said discharge opening.
  6. 6 A vehicle or trailer according to any one of claims I to 4, wherein said load retaining walls comprise side and end walls and said discharge opening is defined by one of said side or end walls.
  7. 7 A vehicle or trailer according to any preceding claim, wherein said at least one connector comprises a mounting connected to displacement means to provide said translational movement.
  8. 8 A vehicle or trailer according to claim 7, wherein said vehicle or trailer further comprises tipping means to tip said container about a pivot connected to said mounting.
  9. 9 A vehicle or trailer according to claim 8, wherein said pivot defines a pivot axis transverse to the longitudinal axis of the container.
  10. A vehicle or trailer according to claim 7, 8 or 9, wherein said mounting is attached to said container and said displacement means is attached to said chassis.
  11. 11 A vehicle or trailer according to any one of claims 7 to 10, wherein the displacement means comprises one or more hydraulic ram or air spring.
  12. 12 A vehicle or trailer according to any one of claims 7 to 11, wherein an end of the displacement means is connected to the chassis and an opposite end of the displacement means is connected to the mounting.
  13. 13 A vehicle or trailer according to any one of claims 7 to 11, wherein an end of the displacement means is connected to the chassis and an opposite end of the displacement means is connected to a rotatable arm which is connected to the mounting.
  14. 14 A vehicle or trailer according to any one of claims 7 to 13, wherein the displacement means is connected to a projection which is received in a channel defined by the chassis.
  15. A vehicle or trailer according to claim 14, wherein said channel extends in a direction which is substantially parallel to the direction of translational movement of the container.
  16. 16 A vehicle or trailer according to claim 14 or 15, wherein said projection comprises a stub shaft supporting a rotatable wheel.
  17. 17 A vehicle or trailer according to any one of claims 7 to 16, wherein the displacement means comprises first displacement means to move said container from the first position to the second position and second displacement means to displace said container from the second position to the first position.
  18. 18 A vehicle or trailer according to claim 17, wherein the first displacement means comprises a pair of hydraulic rams and the second displacement means comprises a pair of air springs.
  19. 19 A vehicle or trailer according to claim 18, wherein said pair of air springs is located inboard of said pair of hydraulic rams.
  20. A vehicle or trailer according to any preceding claim, wherein said chassis is supported on wheels mounted on at least one axle connected to said chassis.
  21. 21 A vehicle or trailer according to claim 20, wherein said at least one axle is connected to the chassis by a suspension system which is connected to suspension levelling means to monitor the angular offset of the at least one axle from the horizontal and control said suspension system so as to minimise the angular offset of the container from the horizontal.
  22. 22 A vehicle or trailer according to any preceding claim, wherein weight monitoring means is provided comprising an electronic sensor to detect the force required to initiate translational movement of the container initially from the first position to the second position and processing means to calculate the weight of the load held in the container from the magnitude of said force.
  23. 23 A vehicle or trailer according to any preceding claim, wherein the at least one connector permits said reciprocal translational movement of the container along an axis which is substantially parallel to a longitudinal axis of the chassis.
  24. 24 A vehicle or trailer according to any one of claims I to 22, wherein the at least one connector permits said reciprocal translational movement of the container along an axis which is transverse to a longitudinal axis of the chassis.
  25. A vehicle or trailer according to claim 24, wherein the at least one connector permits said reciprocal translational movement of the container along an axis which is substantially perpendicular to said longitudinal axis of the chassis.
  26. 26 A vehicle or trailer substantially as hereinbefore described with reference to figures 6 to 21, figures 22 to 28 or figures 29 to 33 of the accompanying drawings.
  27. 27 A method of discharging a load from a vehicle or trailer comprised of a chassis and a container mounted on said chassis, said container comprising a base, a plurality of load retaining walls defining a volume for receipt of said load and a discharge opening, the container being mounted to the chassis by at least one connector, the method comprised of causing reciprocal translational movement of the container relative to the chassis whilst mounted thereon between first and second positions so as to agitate the load and encourage it to flow out of the discharge opening, wherein said container undergoes reciprocal substantially vertical movement in combination with said translational movement relative to the chassis.
  28. 28 A method according to claim 27, wherein said combination of substantially vertical movement with said translational movement causes said container to follow a generally arcuate path.
  29. 29 A method according to claim 27, wherein said container undergoes only rectilinear translational movement relative to the chassis.
  30. A method according to claim 27, 28 or 29, wherein translational movement of the container from the first position to the second position occurs more slowly than translational movement of the container from the second position to the first position.
  31. 31 A method according to any one of claims 27 to 30, wherein said container undergoes reciprocal translational movement along an axis which is substantially parallel to a longitudinal axis of the chassis.
  32. 32 A method according to any one of claims 27 to 30, wherein said container undergoes reciprocal translational movement along an axis which is transverse to a longitudinal axis of the chassis.
  33. 33 A method according to claim 32, wherein said container undergoes reciprocal translational movement along an axis which is substantially perpendicular to said longitudinal axis of the chassis.
  34. 34 A method of discharging a load from a vehicle or trailer substantially as hereinbefore described with reference to figures 6 to 21, figures 22 to 28 or figures 29 to 33 of the accompanying drawings.
GB0617711A 2004-09-04 2005-09-02 Vehicle or trailer Expired - Fee Related GB2428660B (en)

Applications Claiming Priority (2)

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GBGB0419763.8A GB0419763D0 (en) 2004-09-04 2004-09-04 Vehicle or trailer
GB0517864A GB2417719B (en) 2004-09-04 2005-09-02 Vehicle or trailer

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GB0617711D0 GB0617711D0 (en) 2006-10-18
GB2428660A true GB2428660A (en) 2007-02-07
GB2428660B GB2428660B (en) 2007-06-13

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2652759C2 (en) * 2016-05-20 2018-04-28 Юрий Николаевич Барышников Dump truck vehicle

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1934711A1 (en) * 1969-07-09 1971-02-18 Kishaseizo Kabushiki Kaisha Unloading or loading device for trucks

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1934711A1 (en) * 1969-07-09 1971-02-18 Kishaseizo Kabushiki Kaisha Unloading or loading device for trucks

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
RU2652759C2 (en) * 2016-05-20 2018-04-28 Юрий Николаевич Барышников Dump truck vehicle

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GB2428660B (en) 2007-06-13

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