• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    An extendable conveyor has an extendable conveyor section supported in a cantilevered manner including at least one extendable conveyor unit that is extendable between an extended position and a retracted position nested within the extendable conveyor section. The conveyor further includes a user interface section supported in a cantilevered manner from the extendable conveyor unit.
    公开号:US20010009217A1
    申请号:US09/805,202
    申请日:2001-03-12
    公开日:2001-07-26
    发明作者:Phillip Gilmore;John McCort;Richard Micheletti;Ernie Romeo;Ricardo Schiesser;Jesse Cornwell
    申请人:Rapistan Systems Advertising Corp;
    IPC主号:B65G21-14
    专利说明:
    [0001] This application claims the benefits of United States Provisional application Ser. No. 60/016,141, filed Apr. 24, 1996. [0001] BACKGROUND OF THE INVENTION
    [0002] This invention relates generally to conveyors and, more particularly, to extendable conveyors for loading products into, or unloading products from a truck trailer, or the like. [0002]
    [0003] The loading and unloading of packages from truck trailers or the like is typically a physically challenging task. Given the often heavy weight of the packages loaded or unloaded, the cramped working area, and the repetitive lifting of these packages, the task may lead to injuries. With the high costs of labor and worker's compensation insurance, it is highly desirable to provide a machine which reduces both the potential of injuries to workers and the physical labor required to be exerted by the workers. [0003]
    [0004] Extendable conveyors generally provide various benefits to the task of loading or unloading a truck trailer or the like. Of great benefit is the lengthwise extendable nature of the conveyor. By adjustably extending the conveying surface lengthwise, the amount of walking which workers have to perform between the conveyor end and the place where the articles or packages are stacked is reduced. The reduction in walking enables the trailer to be loaded or unloaded in less time and with greater efficiency. Furthermore, because the workers do not have to carry the articles being loaded or unloaded as great a distance, the potential for injuries while carrying possibly heavy articles is reduced. [0004]
    [0005] Prior extendable conveyors, however, have not been without certain disadvantages. Longitudinal extendability places the operator interface closer to the work zone but does not take into account the lateral width of the trailer. Some prior extendable conveyors have designs which allow the extendable conveyor to be moved from side-to-side. This occurs about a pivot axis located outside the trailer truck. However, this requires that the entire length of the conveyor be moved laterally, which is complicated and may require a motor and costly sensing systems. Other examples, include load-out conveyors having an independently pivotable discharge conveyor that is supported on a wheeled vehicle. The wheeled vehicle, however, adds undesirable bulk to the working area and necessitates that the floor of the truck trailer be substantially flush with the floor of the loading dock. [0005]
    [0006] Other difficulties with prior art extendable conveyors having pivotably mounted user interface sections is the inability of the user interface section to be fully retractable into the base unit. This lack of full retractability requires additional space at the loading dock which interferes with efficient operation. [0006]
    [0007] From these examples, it can be seen that it would be highly desirable to provide an extendable conveyor which overcomes the disadvantages discussed above and others, and which has an improved ergonomic design that reduces the potential for worker injuries, and increases efficiency and productivity. [0007] SUMMARY OF THE INVENTION
    [0008] The present invention is intended to provide an extendable conveyor with improved ergonomic design that reduces the potential for injuries, lowers costs, and increases efficiency. An extendable conveyor for conveying articles between a particular location and a selectable variable location according to the present invention includes a mechanically extendable section supported in a cantilever fashion by a support structure. The mechanically extendable section is extendable along a longitudinal axis between a fully extended position extending forwardly from the support structure and a fully retracted position extending in an opposite direction. A horizontally adjustable user interface section is supported on said mechanically extendable section in a cantilever fashion. The user interface section is horizontally adjustable about the mechanically extendable section with respect to the longitudinal axis. The cantilever support of the boom and mechanically extendable section, along with the horizontal adjustability of the boom provide a greater ease of use of the extendable conveyor. [0008]
    [0009] According to another aspect of the invention, an extendable conveyor for conveying articles between a particular location and a selectable variable location includes a base unit and one or more extendable conveyor units selectively nested within the base unit. The extendable conveyor units are each adjustably positionable incrementally between a fully nested position within the base unit and a fully extended position telescoped forwardly from the base unit. A user interface section is adjustably positionable between a fully nested position within the base unit and a fully extended position extending forwardly from the furthermost extendable one of the extendable conveyor units. The adjustable positionability of the user interface section allow the extendable conveyor to be retracted into a more compact space, thus freeing up space at the loading dock. [0009]
    [0010] According to another aspect of the invention, an extendable conveyor for conveying articles between a particular location and a selectable variable location includes at least one extendable conveyor unit, a First conveying surface, and a user interface section having a carriage assembly and a boom. The carriage assembly is movably supported on a pair of extendable unit roller bars mounted to the forward end of the furthermost extendable of the extendable conveyor units. The boom has a second conveying surface and is pivotally mounted to the carriage assembly so as to be able to pivot horizontally with respect to the carriage assembly. The horizontal pivocability of the boom and the movability of the carriage assembly on the roller bars allow for a more efficient use of the extendable conveyor. [0010]
    [0011] According to yet another aspect of the invention, an extendable conveyor for conveying articles between a particular location and a selectable variable location is provided which is supported at one end in a cantilever fashion by a support structure. The extendable conveyor further includes at least one extendable conveyor unit having a first conveying surface. The extendable conveyor units are selectively adjustable between a fully extended position extending forwardly from the support structure and a fully retracted position extending in an opposite direction. A carriage assembly is supported on one of the extendable conveyor units which is the furthermost extendable from the support structure. A boom having a second conveying surface is pivotally mounted to the carriage assembly so as to be both vertically and horizontally pivotable with respect to the longitudinal axis of the extendable conveyor units. A height adjustment mechanism adjusts the vertical height of the forward end of the boom and includes a plate mounted on either the boom or the carriage assembly. A shoe is mounted on the other of the boom or the carriage assembly. An actuator is provided for elevating the boom with respect to the plate or the shoe. This unique combination provides both horizontal and vertical adjustability of the boom, which allows the boom to be positioned closer to the work area thereby improving the efficiency of the extendable conveyor. [0011]
    [0012] According to yet another aspect of the invention, an extendable conveyor includes a support structure and one or more extendable conveyor units adjustably positionable with respect to the support structure. The extendable conveyor units are positionable between a fully extended position and a filly retracted position. A user interface section is longitudinally movable with respect to the support structure and along the extendable conveyor unit which is the furthermost extendable from the support structure. An interlock system permits the extendable conveyor units to extend only when the user interface section is positioned on the furthermost extendable of the extendable conveyor units. The interlock system also prevents the user interface section from moving off of the furthermost extendable conveyor unit unless the furthermost extendable conveyor unit is in a fully retracted position. The user interface section can thus be moved to a user-desired location for efficient loading or unloading and can be retracted to a fully rested position within a base unit. [0012]
    [0013] These and other objects, advantages and features of this invention will become apparent upon review of the following specification when read in conjunction with the accompanying drawings. [0013] BRIEF DESCRIPTION OF THE DRAWINGS
    [0014] FIG. 1 is a plan view of an extendable conveyor according to the invention fully extended into a truck trailer; [0014]
    [0015] FIGS. 2[0015] a-b are side elevational views of the extendable conveyor in FIG. 1;
    [0016] FIG. 3 is a plan view of a user interface section of the extendable conveyor; [0016]
    [0017] FIG. 4 is a side elevational view of the user interface section of the extendable conveyor; [0017]
    [0018] FIG. 5 is an enlarged view of the area designated V in FIG. 4; [0018]
    [0019] FIG. 6 is the same view as FIG. 5 from the opposite side of the conveyor; [0019]
    [0020] FIG. 7 is a plan view of a carriage assembly with a pivot bar attached; [0020]
    [0021] FIG. 8 is an enlarged plan view of a tapered roller bearing member; [0021]
    [0022] FIG. 9 is an elevational view of the tapered roller bearing member in FIG. 8; [0022]
    [0023] FIG. 10 is a front elevational view of a vertical pivot and pivot bar; [0023]
    [0024] FIG. 11 is a sectional view taken along the line XI-XI in FIG. 10; [0024]
    [0025] FIG. 12 is a side elevational view of the carriage assembly with the pivot-bar and an inclined bridge attached; [0025]
    [0026] FIG. 13 is a side elevational view of the extendable conveyor illustrating the user interface section fully retracted in the base unit; [0026]
    [0027] FIG. 14 is the same view as FIG. 13 illustrating the user interface section at a forward end of the base unit; [0027]
    [0028] FIG. 15[0028] a is a fragmentary, plan view of an automatic stop mechanism in a stopped position;
    [0029] FIG. 15[0029] b is a fragmentary, elevational view of the automatic stop mechanism in a stopped position;
    [0030] FIG. 15[0030] c is a plan view of the automatic stop mechanism in a non-stopping position.
    [0031] FIG. 15[0031] d is a fragmentary, elevational view of the automatic stop mechanism in a non-stopping position;
    [0032] FIG. 16 is an elevational view of extendable conveyor unit [0032] 24 d;
    [0033] FIGS. 17[0033] a-b are fragmentary, plan views of extendable conveyor unit 24 d illustrating a cable retracting unit;
    [0034] FIG. 18 is a sectional view taken along the line XVIII-XVIII in FIG. 17[0034] a;
    [0035] FIGS. 19[0035] a-c are elevational views of the user interface section illustrating the vertical pivoting of the boom; and
    [0036] FIGS. 20[0036] a-c are plan views of the user interface section illustrating the horizontal pivoting of the boom. DESCRIPTION OF THE PREFERRED EMBODIMENT
    [0037] Referring now specifically to the drawings, and illustrative embodiments depicted therein, a multiple-stage extendable conveyor [0037] 20 extends from a feed or take-away conveyor (not shown) toward a selectable variable location, such as in a truck trailer 22, or the like (FIGS. 1-2). Extendable conveyor 20 includes a mechanical extendable section 23 and a user interface section 21 located at an end of mechanical extendable section 23 adjacent the selectable variable location. Extendable section 23 is supported in a cantilever fashion by a base unit 26, or other type of support structure, which may include a vertical actuator 27 capable of vertically pivoting extendable section 23 about a support pivot 29. Vertical actuator 27 may be pneumatic, hydraulic, or othewise mechanically powered as would be understood by one skilled in the art. Extendable section 23 may include one or more extendable conveyor units 24 a-d. Extendable conveyor units 24 a-d are movable with respect to each other in a telescoping fashion between a fully extended position (depicted in FIGS. 1-2) and a fully retracted position within base unit 26 (depicted in FIG. 13). The width of extendable conveyor unit 24 b is slightly narrower than the width of extendable conveyor unit 24 a, as is the width of extendable conveyor unit 24 c with respect to extendable conveyor unit 24 b, and likewise extendable conveyor unit 24 d with respect to extendable conveyor unit 24 c (FIG. 1). The progressively narrower widths of extendable conveyor units 24 a-d allow extendable conveyor units 24 a-d to be fully retracted essentially within and on top of each other. The details of extendable conveyor units 24 a-d are disclosed in U.S. Pat. No. 5,351,809, the disclosure of which is hereby incorporated herein by reference and will not be repeated herein. Suffice it to say that the telescoping movement of extendable conveyor units 24 a-d is motorized and under the control of a human operator. When the operator directs extendable section 23 to expand or retract, extendable conveyor units 24 a-d will simultaneously expand or retract at controlled relative rates. Alternatively, the multiple-stage extendable conveyor may be of the type which is supported by a support structure other than a base unit, as is disclosed in U.S. Pat. No. 5,487,462, the disclosure of which is hereby incorporated herein by reference.
    [0038] A conveying surface, such as a single endless belt [0038] 28 runs longitudinally along the length of extendable conveyor units 24 a-d and is powered by a motor (not shown). Belt 28 is reeved through base unit 26 and extendable conveyor units 24 a-d in such a way so that excess slack is taken up as mechanically extendable section 23 retracts rearwardly and additional belt length is provided as mechanically extendable section 23 extends forwardly as is well known in the art. For purposes of description, the term “rearwardly” will be used to designate the direction pointing toward the support structure or base unit, and the term “forwardly” will be used to describe the opposite direction pointing toward the selectable variable location. However, the use of such terms is not intended to be limiting unless so specified. The reeving of belt 28, and the manner in which it expands or retracts in accordance with the varying length of extendable conveyor 20 is also disclosed in the above referenced U.S. Pat. No. 5,351,809. Other conveying surfaces, such as, for example, powered or gravity rollers may be used. Such powered conveying surfaces may be powered rearwardly for an unloading extendable conveyor or forwardly for a loading extendable conveyor.
    [0039] User interface section [0039] 21 includes an adjustable boom 32 which is pivotally mounted to, and supported by, a carriage assembly 30. Carriage assembly 30 is supported in a cantilever fashion on the furthermost extendable conveyor unit 24 d. A roller assembly 31 extends rearwardly from carriage assembly 30 in order to provide a surface interface between boom 32 and extendable conveyor unit 24 d (FIGS. 3-4). Roller assembly 31 includes a rear set of rollers 33 and an adjacent forward set of rollers 35 which slopingly ascend toward boom 32. Rear set of rollers 33 are slidable underneath forward set of rollers 35 when carriage assembly 30 is retracted fully rearward on base unit 26. A support roller 43 rides directly on conveyor belt 28 and rearwardly supports roller assembly 31 (FIG. 3). It will be appreciated by those skilled in the art that a variety of differently configured roller assemblies which bridge boom 32 with conveyor belt 28 may alternatively be used.
    [0040] Boom [0040] 32 includes an endless belt 34 reeved around a set of rollers defining a conveying surface 41 (FIGS. 3-5). Roller 36 a is motorized and powers the movement of belt 34 in either direction depending upon whether extendable conveyor 20 is being used for loading or unloading. Roller 36 a defines a horizontal pivot axis 38 about which boom 32 pivots vertically, as will be described below. Boom belt 32 is reeved around roller 36 a, rides on top of roller 36 b, c, d, and is reeved around forward roller 36 e. Boom 32 includes two control panels 47 a, 47 b mounted on either side of boom 32 which enable a user to operate extendable conveyor 20 from user interface section 21. An endpiece 37 of boom 32 has an angled, bottom edge 39 which is adapted to rest substantially flush against the floor when boom 32 is lowered downward. Endpiece 39 also prevents belt 32 from rubbing against the floor when boom 32 is lowered to the floor. In the preferred embodiment endpiece 39 is made of steel in order to withstand the stresses of repeated bumping against the floor.
    [0041] Boom [0041] 32 is vertically adjustable about a horizontal pivot axis 38 between an upper and lower limit by way of a height adjustment mechanism 45. Height adjustment mechanism 45 includes a pair of shoes 58 a, 58 b, attached in the illustrated embodiment to boom 32 and each slidably resting on a winged platform, or plate, 62. Plates 62 are in the illustrated embodiment to carriage assembly 30. Height adjustment mechanism 45 further includes an actuator for extending the boom with respect to the shoe/platform interface. The actuator is made up of a linear motor 40, longitudinally extendable in a piston-like fashion between a fully extended position and a fully retracted position. Electric actuator 40 powers the vertical movement of boom 32 between the upper and lower limits. Electric actuator 40 is rotatably secured at its forward end to two triple-pronged lever members 42 a-b by a pin 51, or the like, inserted through a circular aperture in one of the prongs of the triple-pronged lever members 42 a-b. Triple-pronged lever members 42 a-b additionally include apertures 54 a-b and 56 a-b adjacent the ends of each of the remaining two prongs. Apertures 56 a-b are used in conjunction with a pin, or the like, to rotatably secure the prongs to a shoe 58 a. Shoe 58 a slidably rests on a winged platform, or plate, 62 a extending forwardly from carriage assembly 30. Apertures 54 a and 54 b are used to rigidly secure triple-pronged lever members 42 a-b to a torque bar 63 secured underneath boom 32 by attachment bearings 64 a-b attached at opposite sides of boom 32 (FIG. 3). Torque bar 63 is secured at an end opposite triple-pronged lever members 42 a-b to two double-pronged lever members 66 a-b. Double-pronged lever members 66 a-b are rotatably connected at the other prong to a shoe 58 b. Winged platform 62 b is substantially symmetrical to winged platform, or plate, 62 a. To facilitate the sliding of shoes 58 a-b on winged platforms 62 a-b, it is preferred that the top surface of winged platforms 62 a-b be defined with a low-friction surface, such as one defined by a plastic material, and that the bottom surfaces of shoes 58 a-b be covered with a different plastic material. In the illustrated embodiment, the bottom surface of shoes 53 a-b is a mixture of nylon and teflon, and the plastic top surface of winged platforms 62 a-b is ultra-high molecular weight (UHMW) polypropylene or polyethylene. It will be appreciated by one skilled in the art that height adjustment mechanism 45 may be alternately constructed with platforms 62 a-b positioned on boom 32 and shoes 58 a-b gliding along the underside of plates 62 a-b. Other low-friction surfaces such as wheels or balls may also be used.
    [0042] When a user directs boom [0042] 32 to pivot to a lower position via control panel 47, electric actuator 40 is activated and increases in length in a piston-like fashion thereby exerting a torque on triple-pronged lever members 42 a-b in a clockwise direction (as seen in FIG. 5). The clockwise rotation of triple-pronged lever members 42 a-b moves triple-pronged apertures 54 a-b to a lower elevation, altering the vertical distance between platforms 62 a-b and boom 32 and thereby moving boom 32 to a lower elevation (See FIG. 19c). The torque exerted on triple-pronged lever members 42 a-b by electric activator 40 will be transferred via torque bar 63 to double-pronged lever members 66 a-b. Double-pronged lever members 66 a-b will therefore likewise rotate on the opposite side of boom 32 and boom 32 will consequently be lowered and supported evenly on both of its sides. Boom 32 will pivot about horizontal axis 38. When a user directs boom 32 to pivot to a higher position via control panel 47, electric actuator 40 is activated and decreases in length in a piston-like fashion, thereby rotating tripled pronged lever members 42 a-b counterclockwise. Double-pronged lever members 66 a-b will also be rotated via torque bar 63, and together they will raise boom 32 by pushing against winged platforms 62 a-b (See FIGS. 19a-b). The vertical pivoting of boom 32 with respect to carriage assembly 30 is limited to a lower and upper limit. When an operator directs boom 32 via control panel 47 to pivot to a vertical height greater than the upper limit of boom 32 the control circuity for extendable conveyor 20 will activate vertical actuator 27 so that the entire conveyor will pivot upward about support pivot 29 as seen in FIG. 2a. Likewise, when an operator directs boom 32 to pivot to a lower position after boom 32 has reached its lower limit, the control circuitry for extendable conveyor 20 will activate vertical actuator 27 so that the entire conveyor will pivot downward about support pivot 29 as seen in FIG. 2b.
    [0043] Boom [0043] 32 is also manually, horizontally pivotable from side to side with respect to carriage assembly 30, as can be seen by comparing FIGS. 20a-c. Carriage assembly 30 includes a forward crossbar 68 and a rear crossbar 70 extending substantially parallel to each other and laterally between carriage assembly sides 72 and 74 (FIG. 7). Two “U” shaped supports 76 a-b are secured midway to crossbars 68 and 70. Supports 76 a-b are welded, or otherwise securely fastened, at their ends to crossbars 63 and 70. A tapered roller bearing member 80 is secured between “U” shaped supports 76 a-b by four screws 78 a-d, or the like, which are inserted in pairs through apertures in supports 26 a-b into tapered roller bearing member 80. Tapered roller bearing member 80 includes-a central, circular, vertical bore which defines a vertical bearing 82 (FIGS. 8 and 9). A vertical shaft 88, which defines the pivot axis of boom 32 is inserted through vertical bearing 82 (FIGS. 10-12). When boom 32 is pivoted horizontally, vertical shaft 88 rotates in tapered roller bearing member 80. Shoes 58 a-b slide along winged platforms, or plates 62 a-b, thereby enabling lever members 42 a-b and 66 a-b to support boom 32 on platforms 62 a-b at a desired location while boom 32 is pivoted horizontally.
    [0044] Vertical shaft [0044] 88 includes a cylindrical body portion 90 and a “U” shaped rectangular head portion 92. “U” shaped rectangular head portion 92 is made up of two arms 94 between which a pivot bar 96 is welded, or otherwise securely fastened. At a lower end of vertical shaft 88 are external threads 98 which are adapted to receive and secure a nut (not shown) to vertical shaft 88 after insertion through vertical bearing 82. Vertical shaft 88 and pivot bar 96 are free to rotate within vertical bearing 82 of tapered roller bearing member 80 while the nut secured on external threads 98 secures vertical shaft 88 in tapered roller bearing member 80. Two downwardly extending posts 102 a-b attached at opposite ends of pivot bar 96 limit the angular movement of pivot bar 96 by contacting crossbars 68 and 70 at the angular extremes (FIG. 10). Two inclined bridge supports 100 a-b are securely fastened to pivot bar 96, by welding or otherwise. Inclined bridge supports 100 a-b support an inclined bridge 101 which serves to further bridge the gap in the conveying surface between boom belt 34 and roller assembly 31 (FIG. 12). Securely fastened to each end of pivot bar 96 is a mounting 104 which is secured to pivot bar 96 by two screws 106 or the like. A circular aperture 108 is defined in each mounting plate 104 a-b in order to support axis 38 of roller 36 a. Axis 38 of roller 36 a also forms the horizontal pivot axis for vertical pivoting of boom 32, as described above.
    [0045] Carriage assembly [0045] 30 is supported for longitudinal movement along extendabie conveyor unit 24 d by a pair of rearward support rollers 110 a-b and a pair of forward support rollers 112 a-b secured to carriage assembly sides 72 and 74 (FIG. 3). Support rollers 110 a-b and 112 a-b manually roll along a pair of longitudinally oriented, substantially parallel, extendable conveyor unit roller bars, or support rails, 114 a-b which are attached to extendable conveyor unit 24 d. Extendable conveyor unit roller bars 114 a-b extend along only a forward portion of extendable conveyor unit 24 d. In the illustrated embodiment, extendable conveyor unit roller bars 144 a-b are each secured to extendable conveyor unit 24 d by way of a connection bar 84 welded, or otherwise securely fastened, to the forward end of roller bars 144 a-b and extendable conveyor unit 24 d. Another pair of longitudinally oriented, substantially parallel, base roller bars, or support rails, 116 a-b are attached to base unit 26 (FIGS. 13 and 14). When extendable conveyor unit 24 d has been retracted into base unit 26, extendable conveyor unit roller bars 114 a-b will contact base roller bars 116 a-b and form an essentially continuous pair of collinear rolling surfaces for support rollers 110 a-b and 112 a-b. When extendable conveyor unit 24 d is not retracted onto base unit 26, but is extended forwardly therefrom, extendable conveyor unit roller bars 114 a-b will be disconnected from base roller bars 116 a-b (See FIGS. 1-2). Carriage assembly 30 is prevented from rolling forwardly off of roller bars 114 a-b by fixed stops 117 a-b secured by screws or the like to the forward ends of roller bars 114 a-b. A strip of neoprene rubber 119 is attached on the rearward side of each static forward interlock 117 to cushion impacts of forward support rollers 112 a-b with forward interlocks 117. In the illustrated embodiment, support rollers 110 a-112 b are defined by cam-followers.
    [0046] The range of movement of carriage assembly [0046] 30, and thus user interface section 21, on extendable conveyor unit roller bars 114 a-b and base roller bars 116 a-b is controlled by a system of interlocks. The interlock system includes a forward set of electrical interlocks 162 a-b on a forward end of extendable conveyor unit 24 d adjacent forward stops 117 a-b (FIG. 3). The interlock system also includes a rearward set of mechanical interlocks 118 a-b located at the rearward end of extendable conveyor unit roller bars 114 a-b. Forward interlocks 162 a-b permit extendable conveyor units 24 a-d to extend only when user interface section 30 is positioned on extendable conveyor unit roller bars 114 a-b. Rearward interlocks 118 a-b prevent user interface section 21 from moving rearwardly off of extendable conveyor unit roller bars 114 a-b unless extendable conveyor unit 24 d is in a fully retracted position. Thus, when extendable conveyor 20 is in a fully retracted position, user interface section 21 is movable along both extendable conveyor unit roller bars 114 a-b and base roller bars 116 a-b. The details of forward and rearward interlocks 162 and 118 are described below.
    [0047] Each rear mechanical interlock [0047] 118 a-b includes a contact pin 120 slidably inserted into a longitudinally extending bore 122 in roller bar 114 (FIGS. 15a-d). Longitudinal bore 122 includes an innermost section 124 of reduced diameter and an outermost section 126 of enlarged diameter. A rim 128 on contact pin 120 has a circumference slightly smaller than the enlarged circumference of outermost section 126 and is adapted to slide longitudinally within outermost section 126. Rim 128 engages and retains a spring 130 within outermost section 126 of longitudinal bore 122. A retainer screw 132 is inserted into roller bar 114 perpendicularly to longitudinal bore 122 and protrudes partially into longitudinal bore 122 adjacent its opening. Retainer screw 132 prevents contact pin 120 and spring 130 from being removed from longitudinal bore 122 by obstructing and preventing rim 128 from moving past. A stop lever 136 is housed in a recessed area 134 partially surrounding a portion of innermost section 124 of longitudinal bore 122. Stop lever 136 is pivotally secured to roller bar 114 at an end located above longitudinal bore 122. Stop lever 136 rotates on an axis pin 135. When extendable conveyor unit roller bar 114 abuts against base roller bar 116, contact pin 120 is pushed into longitudinal bore 122 and rotates stop lever 136 upwardly (FIGS. 15c-d). When stop lever 136 is rotated upwardly by contact pin 120, roller 110 is free to roll along bottom surface 138 of roller bar 114 and may freely roll onto bottom surface 140 of abutting base roller bar 116. When base roller bar 116 does not abut roller bar 114, spring 130 partially pushes contact pin 120 out of longitudinal bore 122 until rim 128 contacts retainer screw 132 (FIGS. 15a-b). When contact pin 120 is pushed out of longitudinal bore 122 in this fashion, stop lever 136 is rotated downwardly by the force of gravity and stops rear support roller 110 from moving past it along bottom surface 138. In this fashion, rear interlocks 118 automatically allow carriage assembly 30 to roll from base roller bars 116 to extendable conveyor unit roller bars 114 only when base roller bars 116 are in abutting contact with extendable conveyor unit roller bars 114.
    [0048] Electrical forward interlocks [0048] 162 a-b are proximity sensors which detect the presence of carriage assembly 30 when it has been rolled all the way forward on roller bars 114 a-b of extendable conveyor unit 24 d and permit activation of the electric motor which extends the extendable units. In the preferred embodiment, proximity sensors 162 a-b are sensors sold by the Allen Bradley Company and having the part number 872C-A10N18-R3. The detection of the presence of carriage assembly 30 by proximity sensors 162 a-b results in an electrical signal being sent to the control circuitry (not shown) of extendable conveyor 20. The control circuitry will only allow the extension of extendable conveyor units 24 a-d after the presence of carriage assembly 30 has been detected and a user has directed extendable conveyor 20 to extend out further. By the combination of the automatic extension of extendable conveyor units 24 a-d and the manual sliding of carriage assembly 30 on base unit 26 and extendable conveyor unit 24 d, the longitudinal position of boom 32 can be selectively adjusted to any location between a fully retracted position and a fully extended position. Carriage assembly 30 is selectively prevented from rolling along roller bars 144 a-b and base roller bars 116 a-b when carriage assembly 30 is in a desired location by a brake mechanism 109 (FIG. 3). Brake mechanism 109 is attached to side 74 of carriage assembly 30 between rollers 110 b and 112 b. Brake mechanism 109 is defined by a caliper-type brake pad assembly, or the like, which selectively and securely grips roller bar 144 b or base roller bar 116 b, depending upon the current position of carriage assembly 30. The brake pads grip roller bars 144 b or 116 b securely enough to prevent carriage assembly 30 from rolling. Brake mechanism 109 is activated and deactivated by a user by way of a brake handle 111 positioned forwardly of carriage assembly 30 on boom 32. Turning brake handle 111 activates or deactivates brake mechanism 109 via a brake cable 113 extending between the two. In particular, turning brake handle 111 either increases or decreases the tension on brake cable 113 which turns a brake lever 115. Brake lever 115 in turn activates the brake pads of brake mechanism 109 when turned in one direction and deactivates the brake pads of brake mechanism 109 when turned in the opposite direction. Preferably, a biasing mechanism biases the brake lever in a position which engages the brakes. As will be appreciated by those skilled in the art, a variety of different types of brakes may be used with the present invention.
    [0049] Electrical power is supplied to control panels [0049] 47 a, 47 b, and other electrical components of user interface section 21 by means of a cable 142 extending from extendable conveyor unit 24 d to user interface section 21. A cable retracting unit 151 releases cable 142 when carriage assembly 30 is extended forwardly and retrieves excessive cable length when carriage assembly 30 is extended rearwardly (FIGS. 16, 17a-b). Cable 142 is threaded through a hole 144 in a side of extendable conveyor unit 24 d adjacent the forward end of extendable conveyor unit 24 d. Cable 142 wraps partially around a longitudinally slidable sheave 146, extends forwardly to attachment point 148 on a side of extendable conveyor unit 24 d, and thereafter extends rearwardly along the side of the extendable conveyor unit 24 d to electrical box 150. Sheave 146 is longitudinally slidable along a portion of the side of extendable conveyor unit 24 d extending from a rear position adjacent electrical box 150 to forward position adjacent attachment point 148. Attached concentrically on top of sheave 146 is a smaller tension sheave 152 (FIG. 18). A tension wire 154 extends forwardly from a tension reel 156, which may be a spring motor or the like, passes along guidance sheave 158, continues forwardly and wraps approximately semi-circularly around tension sheave 152, and then continues rearwardly back to a wire attachment point 160 adjacent electrical box 150. Tension reel 156 continuously exerts a tension force on tension wire 154 which in turn exerts a rearward force on slidable sheaves 152 and 146. The force of the tension on slidable sheaves 146 and 152 is such that the slidable sheaves are pulled rearwardly when excess cable 142 is generated by the rearward sliding of carriage assembly 30 on extendable conveyor unit 24 d (FIG. 17b). The tension created by tension reel 156, however, is small enough so that sheaves 146 and 152 are pulled forwardly when carriage assembly 30 is moved forwardly with respect to extendable conveyor unit 24 d and extra cable length is required (FIG. 17a). Cable retracting unit 151 thus simply and effectively eliminates slack in cable 142, regardless of where carriage assembly 30 is positioned on extendable conveyor unit 24 d.
    [0050] While the invention has been depicted in the attached drawings in the embodiment of an extendable unloading conveyor, it will be understood by those skilled in the art that the present invention finds equal applicability to extendable loading conveyors. Other modifications may also be made within the scope of the present invention including, for example, the substitution of rollers for either or both the conveyor belt [0050] 28 and the boom belt 34.
    [0051] Additional changes and modifications in the specifically described embodiments can be carried out without departing from the principles of the invention, which is intended to be limited only by the scope of the appended claims, as interpreted according to the principles of patent law including the Doctrine of Equivalents. [0051]
    权利要求:
    Claims (55)
    [1" id="US-20010009217-A1-CLM-00001] 1. An extendable conveyor for conveying articles between a particular location and a selectable variable location, comprising:
    a support structure;
    a mechanically extendable section which is extendable along a longitudinal axis between a fully retracted position and a fully extended position, said mechanically extendable section supported in a cantilever fashion by said support structure, said mechanically section having a conveying surface; and,
    a user interface section which is horizontally adjustable with respect to said longitudinal axis of said extendable section, wherein said user interface section is supported in a cantilever fashion by said mechanically extendable section.
    [2" id="US-20010009217-A1-CLM-00002] 2. The extendable conveyor of
    claim 1 wherein said user interface section is also vertically adjustable with respect to said mechanically extendable section.
    [3" id="US-20010009217-A1-CLM-00003] 3. The extendable conveyor of
    claim 2 wherein said user interface section is vertically adjustable between an upper and a lower limit and said mechanically extendable section is vertically upwardly adjustable after said user interface section has been adjusted to said upper limit and is vertically adjustable downwardly after said user interface section has been extended to said lower limit.
    [4" id="US-20010009217-A1-CLM-00004] 4. The extendable conveyor of
    claim 3 wherein said user interface section and said mechanically extendable section are vertically adjustable by mechanical power.
    [5" id="US-20010009217-A1-CLM-00005] 5. The extendable conveyor of
    claim 3 wherein said user interface section and said mechanically adjustable section can vertically adjust said user interface section to be in contact with a floor defined in said selectable variable location.
    [6" id="US-20010009217-A1-CLM-00006] 6. The extendable conveyor of
    claim 1 wherein said user interface section is longitudinally movable along said mechanically extendable section when said mechanically extendable section is filly retracted.
    [7" id="US-20010009217-A1-CLM-00007] 7. The extendable conveyor of
    claim 6 wherein said user interface section is manually movable along said mechanically extendable section when said mechanically extendable section is fully retracted.
    [8" id="US-20010009217-A1-CLM-00008] 8. The extendable conveyor of
    claim 1 wherein said user interface section is longitudinally movable only along a portion of said mechanically extendable section when said mechanically extendable section is extended.
    [9" id="US-20010009217-A1-CLM-00009] 9. The extendable conveyor of
    claim 6 wherein said mechanically extendable section is extendable between a fully extended position and a fully retracted position only when said boom has been moved adjacent a forward end of said mechanically extendable section.
    [10" id="US-20010009217-A1-CLM-00010] 10. The extendable conveyor of
    claim 1 wherein the horizontal adjustability of said user interface section is manually powered.
    [11" id="US-20010009217-A1-CLM-00011] 11. The extendable conveyor of
    claim 1 wherein said support structure is a base unit and said user interface section can be retracted into said base unit.
    [12" id="US-20010009217-A1-CLM-00012] 12. The extendable conveyor of
    claim 1 wherein said user interface section includes a conveying surface.
    [13" id="US-20010009217-A1-CLM-00013] 13. An extendable conveyor for conveying articles between a particular location and a selectable variable location, comprising:
    a base unit;
    at least one extendable conveyor unit selectively nested within said base unit, said at least one extendable conveyor unit adjustably positionable incrementally between a fully nested position within said base unit and a fully extended position telescoped forwardly from said base unit, said at least one extendable conveyor unit having a conveying surface; and,
    a user interface section adjustably positionable between a fully nested position within said base unit and a fully extended position extending forwardly from one of said at least one extendable conveyor units which is the furthermost extendable from said base unit.
    [14" id="US-20010009217-A1-CLM-00014] 14. The extendable conveyor of
    claim 13 wherein said user interface section includes a boom horizontally pivotable with respect to a longitudinal axis of said at least one extendable conveyor unit.
    [15" id="US-20010009217-A1-CLM-00015] 15. The extendable conveyor of
    claim 13 wherein said user interface section includes a boom vertically pivotable about a horizontal axis.
    [16" id="US-20010009217-A1-CLM-00016] 16. The extendable conveyor of
    claim 15 wherein said boom is vertically pivotable between an upper and a lower limit and said at least one extendable conveyor unit is vertically pivotable about a support pivot after said boom has been pivoted to said upper or lower limit.
    [17" id="US-20010009217-A1-CLM-00017] 17. The extendable conveyor of
    claim 15 wherein the vertical pivoting of said boom about said horizontal axis is mechanically powered.
    [18" id="US-20010009217-A1-CLM-00018] 18. The extendable conveyor of
    claim 16 wherein said boom is vertically pivotable down to a lower position in contact with a floor defined in said selectable variable location.
    [19" id="US-20010009217-A1-CLM-00019] 19. The extendable conveyor of
    claim 13 wherein said boom is longitudinally movable along substantially the entire length of said at least one extendable conveyor unit only when said at least one extendable conveyor unit is in a fully retracted position.
    [20" id="US-20010009217-A1-CLM-00020] 20. The extendable conveyor of
    claim 19 wherein said boom is longitudinally movable along the furthermost extendable of said at least one extendable conveyor units by manual power.
    [21" id="US-20010009217-A1-CLM-00021] 21. The extendable conveyor of
    claim 19 wherein said boom is longitudinally movable only along a portion of said at least one extendable conveyor unit when said at least one extendable conveyor unit is fully extended.
    [22" id="US-20010009217-A1-CLM-00022] 22. The extendable conveyor of
    claim 21 wherein said portion of the length of the furthermost extendable of said at least one extendable conveyor units is defined between a rearward set of interlocks and a forward stop.
    [23" id="US-20010009217-A1-CLM-00023] 23. The extendable conveyor of
    claim 19 wherein said at least one extendable conveyor unit is extendable from a fully retracted position only when said user interface section is positioned adjacent a forward portion of said at least one extendable conveyor unit.
    [24" id="US-20010009217-A1-CLM-00024] 24. The extendable conveyor of
    claim 23 including a proximity sensor which detects the presence of said user interface section when said user interface section has been extended to said forward position of said at least one extendable conveyor unit, and said extendable conveyor unit is extendable only when said proximity sensor has detected the presence of said user interface section.
    [25" id="US-20010009217-A1-CLM-00025] 25. The extendable conveyor of
    claim 15 wherein the horizontal pivoting of said horizontally pivotable boom is manually powered.
    [26" id="US-20010009217-A1-CLM-00026] 26. An extendable conveyor for conveying articles between a particular location and a selectable variable location, comprising:
    a base unit;
    at least one extendable conveyor unit, said at least one extendable conveyor unit having a first conveying surface extendable along a longitudinal axis, said at least one extendable conveyor unit adjustably positionable incrementally between a fully nested position within said base unit and a fully extended position telescoped forwardly from said base unit; and,
    a user interface section which includes a carriage assembly movably supported by a set of extendable unit roller bars mounted to the furthermost extendable of said at least one extendable conveyor units, and a boom having a second conveying surface, said boom pivotally mounted to said carriage assembly to thereby permit horizontal pivoting of said boom with respect to said carriage assembly.
    [27" id="US-20010009217-A1-CLM-00027] 27. The extendable conveyor of
    claim 26 wherein said second conveying surface is an endless belt reaved on a set of belt rollers.
    [28" id="US-20010009217-A1-CLM-00028] 28. The extendable conveyor of ctaim 27 further including a motorized belt roller for powering said endless belt.
    [29" id="US-20010009217-A1-CLM-00029] 29. The extendable conveyor of
    claim 28 wherein said boom further includes a horizontal pivot axis positioned at a turning axis of said motorized roller whereby said boom is vertically pivotable about said horizontal pivot axis.
    [30" id="US-20010009217-A1-CLM-00030] 30. The extendable conveyor of claims 25 wherein said extendable conveyor includes a base unit which houses said at least one extendable conveyor unit when said extendable conveyor is retracted to a fully retracted position, said base unit including a set of base roller bars, wherein said carriage assembly is movable longitudinally between said extendable unit roller bars on said at least one extendable conveyor unit and said base roller bars on said base unit when said at least one extendable conveyor unit is fully retracted within said base unit.
    [31" id="US-20010009217-A1-CLM-00031] 31. The extendable conveyor of
    claim 30 further including:
    a pair of rearward support rollers, each of said pair of rearward support rollers mounted to a rearward end of said sides of said carriage assembly, each of said rearward support rollers positioned to engage a bottom surface of said base roller bars and said extendable unit roller bars; and,
    a pair of forward support rollers, each of said pair of forward support rollers mounted to sides of said carriage assembly forwardly of said rearward support rollers, each of said forward support rollers positioned to engage a top surface of said base roller bars and said extendable unit roller bars.
    [32" id="US-20010009217-A1-CLM-00032] 32. The extendable conveyor of
    claim 30 further including forward stops mounted to a forward end of said extendable unit roller bars, said forward stops preventing said carriage assembly from rolling forwardly off of said extendable unit roller bars.
    [33" id="US-20010009217-A1-CLM-00033] 33. The extendable conveyor of
    claim 30 further including a pair of rearward interlocks located at a rear end of said extendable unit roller bars on said at least one extendable conveyor units, said rearward interlocks automatically preventing said carriage assembly from moving from said extendable unit roller bars to said base roller bars unless said extendable unit roller bars and said base roller bars are in abutting contact.
    [34" id="US-20010009217-A1-CLM-00034] 34. The extendable conveyor of
    claim 33 wherein each of said rearward interlocks includes:
    a stop lever rotatable between position blocking said extendable unit roller bars and a position unblocking said extendable unit roller bars, said stop lever biased to said position blocking said extendable unit roller bars; and,
    a contact pin slidable in a longitudinally oriented bore in each of the extendable unit roller bars, said contact pin rotating said stop lever to said position blocking said extendable unit roller bars when said contact pin is slid in said longitudinally oriented bore by abutting against said base roller bars.
    [35" id="US-20010009217-A1-CLM-00035] 35. The extendable conveyor of
    claim 30 further including a forward set of interlocks preventing said at least one extendable conveyor unit from extending unless said carriage assembly is on said extendable unit roller bars.
    [36" id="US-20010009217-A1-CLM-00036] 36. The extendable conveyor of
    claim 26 further including a brake attached to a side of said carriage assembly, substantially preventing movement of said carriage assembly on said extendable unit or base roller bars.
    [37" id="US-20010009217-A1-CLM-00037] 37. The extendable conveyor of
    claim 26 further including an electrical cable extending from said base unit to said carriage assembly and a cable retracting mechanism attached to said furthermost extendable of said at least one extendable conveyor units, said cable retracting mechanism releasing cable when said carriage assembly is extended forwardly and retrieving cable when said carriage assembly is extended rearwardly.
    [38" id="US-20010009217-A1-CLM-00038] 38. The extendable conveyor of
    claim 37 wherein said cable retracting mechanism includes:
    a tension reel;
    a sheave about which said cable is wound partially around, said sheave longitudinally slidable; and,
    a tension wire connected at one end to said tension reel and connected at another end to a stationary point, said tension wire partially wrapped around said sheave in order to exert a rearward force on said sheave.
    [39" id="US-20010009217-A1-CLM-00039] 39. An extendable conveyor for conveying articles between a particular location and a selectable variable location, comprising:
    a support structure;
    at least one extendable conveyor unit having a first conveying surface along a longitudinal axis, said support structure supporting said at least one extendable conveyor unit in a cantilever fashion, said at least one extendable conveyor unit selectively extendable between a fully extended position extending forwardly from said support structure in the direction of said selectable variable location and a fully retracted position extending in a direction opposite said direction of said selectable variable location;
    a carriage assembly supportable by said at least one extendable conveyor units;
    a boom defining a second conveying surface, said boom pivotally mounted to said carriage assembly in a manner that said boom is horizontally pivotable and vertically pivotable with respect to said longitudinal axis of said at least one extendable conveyor unit; and,
    a height adjustment mechanism for vertically adjusting a forward end of said boom with respect to said at least one extendable conveyor unit, said height adjustment mechanism including at least one plate on one of said carriage assembly and said boom, a shoe on the other of said boom and said carriage assembly positioned to glide along said plate, and an actuator for extending one of said boom and said carriage assembly with respect to said plate and said shoe.
    [40" id="US-20010009217-A1-CLM-00040] 40. The extendable conveyor of
    claim 39 wherein said actuator includes a rotatable lever member, said rotatable lever member altering the vertical distance between said at least one plate and one of said boom and said carriage assembly and a linear motor for rotating said rotatable lever member in order to raise or lower said forward end of said boom with respect to said carriage assembly.
    [41" id="US-20010009217-A1-CLM-00041] 41. The extendable conveyor of
    claim 39 wherein said rotatable lever member includes:
    a first lever member having a first, a second, and a third prong, said first prong attached to one of said boom and said carriage assembly, said second prong attached to said shoe, and said third prong rotatably attached to said linear motor, whereby said linear motor rotates said at first lever member and thereby pivotally raises or lowers said boom.
    [42" id="US-20010009217-A1-CLM-00042] 42. The extendable conveyor of
    claim 41 further including:
    a torque bar attached at one end to said first lever member;
    a second lever member having a first and a second prong, said first prong of said second lever member slidingly engaging said at least one plate, said second prong of said second lever member attached to said torque bar at an end opposite said first lever member, said torque bar transferring torque to said second lever member as said first lever member is rotated.
    [43" id="US-20010009217-A1-CLM-00043] 43. The extendable conveyor of
    claim 39 further including:
    a support pivot located at a rearward end of said support structure; and
    a vertical actuator attached to said extendable conveyor, said vertical actuator capable of pivotally raising and lowering said at least one extendable unit about said support pivot.
    [44" id="US-20010009217-A1-CLM-00044] 44. The extendable conveyor of
    claim 43 wherein said boom is pivotable about said horizontal pivot between an upper limit and a lower limit and wherein said vertical actuator is activated only when said boom has reached its upper or lower limit and an operator directs said extendable conveyor to move still higher or lower.
    [45" id="US-20010009217-A1-CLM-00045] 45. The extendable conveyor of
    claim 39 wherein said first and second conveying surfaces are endless belts.
    [46" id="US-20010009217-A1-CLM-00046] 46. The extendable conveyor of
    claim 39 further including an endpiece mounted on a forward end of said boom, said endpiece enshrouding an end of said boom wherein said boom can rest against a floor without said second conveying surface contacting said floor.
    [47" id="US-20010009217-A1-CLM-00047] 47. The extendable conveyor of
    claim 39 wherein said carriage assembly is movable along said at least one extendable conveyor units.
    [48" id="US-20010009217-A1-CLM-00048] 48. The extendable conveyor of
    claim 47 further including a brake which prevents said carriage assembly from moving along said furthermost extendable of said at least one extendable conveyor unit when said brake is activated.
    [49" id="US-20010009217-A1-CLM-00049] 49. The extendable conveyor of
    claim 47 further including an electrical cable extending from said support structure to said carriage assembly and a cable retracting mechanism which automatically releases cable when said carriage assembly is moved forwardly and which automatically retrieves cable when said carriage assembly is moved rearwardly.
    [50" id="US-20010009217-A1-CLM-00050] 50. An extendable conveyor comprising:
    a support structure;
    at least one extendable conveyor unit extendable along a longitudinal axis, said support structure supporting said at least one extendable conveyor unit in a cantilever fashion, said at least one extendable conveyor unit selectively adjustable between a fully extended position extending forwardly from said support structure and a fully retracted position nested in said support structure;
    a user interface section longitudinally movable with respect to said support structure and said at least one extendable conveyor units from said fully retracted position; and,
    an interlock system to permit said at least one extendable unit to extend only when said user interface section is positioned on said at least one extendable conveyor unit and to prevent said user interface section from moving off of said at least one extendable conveyor unit unless said at least one extendable conveyor unit is in said fully retracted position.
    [51" id="US-20010009217-A1-CLM-00051] 51. The extendable conveyor of claims 50 wherein said interlock system includes an electrical forward set of interlocks and a mechanical rearward set of interlocks.
    [52" id="US-20010009217-A1-CLM-00052] 52. The extendable conveyor of
    claim 51 wherein said electrical forward set of interlocks includes at least one proximity sensor which detects the presence of said user interface section when said user interface section has been positioned on said furthermost extendable conveyor unit.
    [53" id="US-20010009217-A1-CLM-00053] 53. The extendable conveyor of
    claim 52 further including:
    a pair of extendable unit roller bars mounted at a forward end of said furthermost extendable conveyor unit, said pair of parallel roller bars each defining a top and a bottom rolling surface;
    a pair of rearward support rollers, mounted to a rearward end of said user interface section, each of said rearward support rollers positioned to engage said bottom rolling surfaces of said pair of roller bars; and,
    a pair of forward support rollers, mounted to said user interface section forwardly of said rearward support rollers, each of said forward support rollers positioned to engage said top rolling surfaces of said pair of roller bars.
    [54" id="US-20010009217-A1-CLM-00054] 54. The extendable conveyor of
    claim 53 wherein said set of rearward interlocks are located at a rear end of each of said extendable unit roller bars, said rearward interlocks preventing said user interface section from rolling rearwardly off of said pair of extendable unit roller bars when said pair of extendable unit roller bars do not abut against a pair of substantially collinear base roller bars located on said support structure, and said set of rearward interlocks allowing said user interface section to roll onto said pair of substantially collinear base roller bars located on said support structure when said pair of extendable unit roller bars abut said base roller bars.
    [55" id="US-20010009217-A1-CLM-00055] 55. The extendable conveyor of
    claim 54 wherein each of said rearward interlocks includes:
    a stop lever rotatable between a lower position and an upper position, said stop lever movable to said lower position by the force of gravity; and,
    a contact pin slidably and partially extending into a longitudinally oriented bore in each of said roller bars, said contact pin rotating said stop lever to an upper position when said contact pin is forced further into said longitudinally oriented bore by abutting against said base roller bars.
    类似技术:
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    同族专利:
    公开号 | 公开日
    BR9708826A|1999-08-03|
    DK0904244T3|2001-09-03|
    WO1997039969A1|1997-10-30|
    DE69705402D1|2001-08-02|
    US6823985B2|2004-11-30|
    JP2000508611A|2000-07-11|
    DE69705402T2|2001-10-11|
    AU715164B2|2000-01-20|
    AT202535T|2001-07-15|
    AU2386397A|1997-11-12|
    EP0904244A1|1999-03-31|
    US6006893A|1999-12-28|
    ES2158552T3|2001-09-01|
    EP0904244B1|2001-06-27|
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    法律状态:
    2002-09-23| AS| Assignment|Owner name: RAPISTAN SYSTEMS ADVERTISING CORP., MICHIGAN Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:MANNESMANN DEMATIC RAPISTAN CORP.;REEL/FRAME:013312/0112 Effective date: 19991221 |
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    优先权:
    申请号 | 申请日 | 专利标题
    US1614196P| true| 1996-04-24|1996-04-24||
    US08/800,136|US6006893A|1996-04-24|1997-02-13|Extendable trailer loader/unloader with user interface section|
    US38619699A| true| 1999-08-30|1999-08-30||
    US09/805,202|US6823985B2|1996-04-24|2001-03-12|Extendable trailer loader/unloader with user interface section|US09/805,202| US6823985B2|1996-04-24|2001-03-12|Extendable trailer loader/unloader with user interface section|
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