The invention relates to external cargo carriers for vehicles and, in particular, to a cargo carrier designed to receive a portable roadway warning device commonly referred to as a rumble strip.
Roadway warning devices, specifically the roadway warning devices commonly referred to as rumble strips, provide a perceptible noise and warning vibration when automotive vehicles, including both passenger vehicles and trucks, drive over the rumble strips. The noise and vibration are intended to warn the vehicle driver of an approaching condition that requires a lower speed or special attention, such as a work site, construction site, slow speed zone, checkpoint, toll booth, and so on, without alarming the driver and without adversely affecting the stability of the vehicle. Some types of rumble strips are intended to be permanently installed for long-term use, while others are intended to be portable for temporary use at work zones and other applications of relatively short duration. Portable rumble strips should be reusable, and also should have the ability to remain in place under heavy traffic, including heavy trucks at highway speeds.
To facilitate deploying and retrieving portable rumble strips, vehicle-mounted carriers and remotely-controlled arms have been developed.
Portable rumble strips often require multiple sections to span a lane of traffic, and each section may be relatively heavy, making it difficult for one person to lift each section without assistance. Because these portable rumble strips are temporary and often are deployed on working roadways, users must transport the rumble strips to and from the work site and quickly deploy and retrieve the rumble strips onto and from the roadway with minimal exposure of the workers to traffic on the roadway. Additionally, prior rumble strips often were made in multiple segments to facilitate storage, transportation, and deployment (and retrieval) of portable rumble strips that are long enough to span an entire width of a standard roadway lane. These segmented rumble strips may require assembly at the worksite, or may be folded and need to be unfolded before being deployed or after being retrieved. To minimize repetition, any reference herein to deployment of rumble strips is presumed to incorporate a corresponding retrieval of the rumble strips unless otherwise provided.
The present invention provides a system for transporting, deploying, and retrieving rumble strips that do not require on-site assembly and that are wide enough to span an entire width of a standard roadway lane. Standard roadway lanes are wider than the width of the vehicles traveling within the lane of the roadway, and thus the length of such rumble strips also is greater than the width of the vehicles traveling on the roadway. To prevent the rumble strip carrier from extending far beyond the width of the vehicle, while still providing means for transporting such long rumble strips, the rumble strip carrier provided by the present invention has multiple sections that are pivotable relative to each other to reduce the overall width of the carrier. Rumble strips have sufficient flexibility to bend with the pivoting sections. The pivoting sections may be substantially aligned during a deployment or retrieval operation to facilitate stacking or unstacking rumble strips to or from the carrier.
More particularly, the present invention provides a cargo carrier for portable rumble strips that is mountable to a vehicle. The cargo carrier includes a support surface that is configured to support multiple portable rumble strips and to move between a deployment position having a first width and a transit position having a second width that is less than the first width.
In one or more embodiments, the cargo carrier may include a frame that defines a volume for receiving the one or more portable rumble strips, the frame defining the planar support surface, and the planar support surface has a depth dimension and a width dimension greater than the depth dimension.
The planar support surface may be divided along the width dimension into at least two segments that are movable relative to one another to alter the overall width of the planar support surface.
The planar support surface may have a center portion and lateral portions extending from opposing sides of the center portion, the lateral portions being movable between extended positions aligned with the center portion in a horizontal orientation and inclined relative to the center portion in retracted positions.
The lateral portions may be hinged for pivoting movement relative to the center portion.
The cargo carrier may be provided in combination with a vehicle to which the cargo carrier is mounted. More particularly, the cargo carrier may be mounted to a front side of the vehicle.
The cargo carrier may be provided in combination with a vehicle to which the cargo carrier is mounted and a remotely-controlled device configured to deploy and retrieve portable rumble strips from a roadway that also is mounted to the vehicle.
The cargo carrier may include one or more upright elements extending in a common direction from the support surface to define an upwardly-opening volume for receipt of one or more portable rumble strips.
The present invention also provides a method for deploying and retrieving portable rumble strips from a roadway surface, comprising the steps of (i) mounting a support surface on a vehicle, the support surface being configured to support multiple portable rumble strips and to move between a deployment position having a first width and a transit position having a second width that is less than the first width; (ii) moving the vehicle from a first location to a second location removed from the first location while the support surface is in the transit position; (iii) moving the support surface from the transit position to the deployment position; and (iv) moving portable rumble strips from a roadway surface to the support surface or from the support surface to the roadway surface.
The method may further include the step of loading multiple portable rumble strips onto the support surface while the support surface is in the deployment position.
The step of moving the vehicle may occur while the support surface is in the transit position and after the step of loading multiple portable rumble strips onto the support surface.
The step of moving portable rumple strips from a roadway surface to the support surface or from the support surface to the roadway surface may include remotely controlling a device configured to deploy and retrieve rumble strips from a roadway.
The present invention further provides a cargo carrier for portable rumble strips that is mountable to a vehicle. The cargo carrier includes a support surface that is configured to support multiple portable rumble strips and to move between a deployment position having a first width and a transit position having a second width that is less than the first width, a frame defining the support surface and one or more upright elements extending in a common direction from the support surface to define an upwardly-opening volume for receipt of one or more portable rumble strips, and the support surface having a depth dimension and a width dimension greater than the depth dimension. The support surface may be divided along the width dimension into at least three planar segments that are movable relative to one another to alter the overall width of the support surface, including a center portion and lateral portions extending from opposing sides of the center portion, the lateral portions being pivotable between extended positions aligned with the center portion in a horizontal orientation and retracted positions inclined relative to the center portion.
Other features and advantages of the invention will be apparent from the following detailed description with reference to the accompanying drawings.
In the accompanying drawings and description, the same or similar reference characters are used to refer to the same or similar features shown in different figures.
Because of the required weight to hold portable rumble strips in place on a roadway, the rumble strips can be difficult for one person to lift without assistance. Consequently, portable rumble strips have been made in sections of a length and weight suitable for one person to handle. But to span an entire width of a standard roadway lane, multiple sections generally have to be connected together. Because these portable rumble strips are temporary and often are deployed on working roadways, users must transport the rumble strips to and from the work site, potentially perform some assembly in the field, and quickly deploy the rumble strips onto the roadway with minimal exposure of the workers to traffic on the roadway. Consequently, segmented portable rumble strips may not be the ideal solution in all situations.
Some rumble strips are formed in a single piece, and are transported in a flat orientation, stacked one on top of another. Due to their weight, these rumble strips generally require multiple people to deploy and retrieve. Vehicles have been provided with remote-controlled arms for deploying and retrieving such portable rumble strips to and from the roadway, making it easy for a single worker to deploy the rumble strips. But those portable rumble strips have a length that is approximately the width of the vehicle or less, and thus do not span the entire width of a standard roadway lane.
The present invention provides a system for transporting and deploying rumble strips that are long enough to span an entire width of a standard roadway lane without any assembly on site. The present invention also provides a system for transporting and deploying rumble strips without changing the orientation of the rumble strip between transport and deployment. Avoiding the need to rotate the rumble strip during the transition from transportation to deployment and vice versa, or to have to fold or unfold the rumble strip, facilitates faster deployment and retrieval and simplifies the equipment.
Standard roadway lanes are wider than the width of the vehicles traveling within the lane of the roadway, and thus the length of such rumble strips also is greater than the width of the vehicles traveling on the roadway. To prevent the rumble strip carrier from extending far beyond the width of the vehicle during travel, while still providing means for transporting such long rumble strips, the rumble strip carrier provided by the present invention has multiple sections that are pivotable relative to each other to reduce the overall width of the carrier during transport to the worksite. The sections may be substantially aligned during a deployment or retrieval operation to facilitate stacking or unstacking rumble strips to or from the carrier, and then retracted to reduce the overall width of the carrier for travel to and from the worksite. As noted above, to minimize repetition any reference herein to deployment of rumble strips is presumed to incorporate a corresponding retrieval of the rumble strips unless otherwise provided. This system also allows for much heavier rumble strips, which are more stable and reliable when deployed on the roadway surface.
Referring now to the drawings, in which like reference characters refer to like parts throughout the views, and initially to
Although the dimensions of available rumble strips may vary, each rumble strip is desirably of sufficient length to reach across a single highway lane, which in the U.S. is typically 11 feet (about 3.4 m) wide. Also, each rumble strip 1 has a width that is preferably between 8 inches and 16 inches (about 20 to 41 cm). Moreover, the rumble strips 1 are of sufficient thickness to create a noticeable audible and vibration warning to drivers of automotive vehicles, including trucks when driven over the rumble strips, but not so severe as to alarm the drivers, and without causing any adverse effect on the stability of the vehicles. To that end, the rumble strips preferably have a thickness of between ½ inch and 1 inch (about 1.3 to 2.5 cm).
Because each rumble strip by itself isn't heavy enough to remain in place under heavy traffic at highway speeds, a plurality of laterally spaced, transversely extending metal plates or bars 8, preferably made of steel or cast iron, are embedded within each rumble strip to provide the necessary ballast to keep each rumble strip in place preferably without having to use any adhesive or fasteners. This makes the rumble strips particularly easy to deploy and remove and reuse for work zones of relatively short duration. The metal plates or bars 8 run transversely across the width of the rumble strips 1 and provide stiffness in the transverse direction to help the side edges 4, 5 of the rumble strips resist curling in use.
The number and combined weight of the individual plates or bars embedded in the rumble strips should be sufficient to cause the rumble strips to stay in place under heavy traffic at highway speeds, but not make the rumble strips so heavy that they cannot easily be moved. For example, the overall weight of each rumble strip is desirably between 100 and 110 pounds (about 45 to 50 kg).
Suitable hand grip slots (not shown) may be provided in each rumble strip 1 adjacent to one or both ends 6 and 7 of the rumble strip 1. The hand grip slots make it easier to pick up each rumble strip so that it can be lifted or dragged as it is deployed or retrieved. Exemplary rumble strips are described in U.S. Pat. No. 7,736,087 and U.S. Patent Application Publication No. 2015/030390A1, both of which are hereby incorporated herein by reference.
Now referring to
The cargo carrier 20 has a support surface 34 that is configured to support multiple portable rumble strips 1 in a common orientation in one or more stacks. The support surface 34 also is configured to move between an elongated deployment position (
The cargo carrier 34 includes a frame 36 that defines the support surface 34 and one or more upright elements 40 extending in a common direction from the support surface 34 to define an upwardly-opening volume for receipt of one or more portable rumble strips 1. The support surface 34 thus also may be referred to as the bottom wall or bottom surface. The upright elements 40 may be provided as discrete posts or planar segments that form upright side walls relative to the support surface 34.
The support surface 34 has a depth dimension and a major dimension, which may be referred to as a width or length dimension, that is greater than the depth dimension, generally corresponding to the length and width dimensions, respectively, of the rumble strips 1 although typically with larger dimensions. Specifically, the frame 36 includes frame members 42 that define the support surface 34 on which the rumble strips 1 may be stacked. The frame members 42 may be linear frame members, such as bars or rods, (as shown), and may be solid or tubular, with any cross-section that provides sufficient strength. Alternatively, or in addition to linear frame members, the frame members 42 may include planar frame members in the form of sheets, although generally, and particularly if used to form the support surface 34, the planar sheet should be perforated, such as a perforated metal mesh, for example, which can provide a continuous support surface, while still allowing for the passage of dirt and water therethrough. The frame also includes frame members 42 that define the upright elements 40. The frame 36 thus defines a parallelpiped, such as a rectangular, volume, within which rumble strips 1 may be received and retained during transport. The upright elements 40 may be formed from planar sheets or upright rods or posts (as shown) arranged to retain the rumble strips 1 on the support surface 34.
In the illustrated embodiment, the support surface 34 is divided along the major dimension, the width or length dimension, into at least two segments that are movable relative to one another to alter the overall width occupied by the support surface 34. The illustrated support surface 34 is divided into three segments, including a center portion 50 and lateral portions 52 and 54 extending from opposing sides of the center portion 50. The lateral portions 52 and 54 are pivotably movable between extended positions aligned with the center portion 50 in a horizontal orientation (the deployment position shown in
Similar to the support surface 34, the illustrated remotely-controlled device 30 includes a center portion 60 and lateral portions 62 and 64 pivotally movable relative to the center portion 60 in concert with the movement of the respective portions 50, 52, and 54 of the support surface 34. Visual control rods 66 are mounted to distal ends of the lateral portions 62 and 64 of the remotely-controlled device 30 and extend upward therefrom to help the operator of the vehicle 22 visually locate the distal ends of the remotely-controlled device 30, particularly when in the deployment position shown in
The present invention also provides a method for deploying and retrieving portable rumble strips from a roadway surface. The method includes the steps of: (i) mounting a support surface on a vehicle, with the support surface being configured to support multiple portable rumble strips and to move between a deployment position having a first width and a transit position having a second width that is less than the first width; (ii) moving the vehicle from a first location to a second location removed from the first location while the support surface is in the transit position; (iii) moving the support surface from the transit position to the deployment position; and (iv) moving portable rumble strips from a roadway surface to the support surface or from the support surface to the roadway surface.
Additionally, the method may include the step of loading multiple portable rumble strips onto the support surface while the support surface is in the deployment position. The method may include the step of moving the vehicle while the support surface is in the transit position and after the step of loading multiple portable rumble strips onto the support surface. The method also may include the step of moving portable rumple strips from a roadway surface to the support surface or from the support surface to the roadway surface, by remotely controlling a device configured to deploy and retrieve rumble strips from a roadway.
In summary, the present invention provides a cargo carrier 20 for portable rumble strips 1 that is mountable to a vehicle 22. The cargo carrier 20 has a support surface 34 that is configured to support multiple portable rumble strips 1. The support surface 34 also is configured to move between a deployment position having a first width and a transit position having a second width that is less than the first width. The cargo carrier 20 includes a frame 36 that defines the support surface 34 and one or more upright elements 40 extending in a common direction from the support surface 34 to define an upwardly-opening volume for receipt of one or more portable rumble strips 1. The support surface 34 has a depth dimension and a major dimension, a width or length dimension, that is greater than the depth dimension. In the illustrated embodiment, the support surface 34 is divided along the major width dimension into at least three planar segments 50, 52, and 54 that are movable relative to one another to alter the overall width of the support surface 34, including a center portion 50 and lateral portions 52 and 54 extending from opposing sides of the center portion 50. The lateral portions 52 and 54 are pivotably movable between extended positions aligned with the center portion 50 in a horizontal orientation and retracted positions inclined relative to the center portion 50.
Although the invention has been shown and described with respect to certain embodiments, it is obvious that equivalent alterations and modifications will occur to others skilled in the art upon the reading and understanding of the specification. In particular, with regard to the various functions performed by the above-described components, the terms (including any reference to a “means”) used to describe such components are intended to correspond, unless otherwise indicated, to any component which performs the specified function of the described component (e.g., that is functionally equivalent), even though not structurally equivalent to the disclosed component which performs the function of the herein illustrated exemplary embodiments of the invention. In addition, while a particular feature of the invention may have been disclosed with respect to only one embodiment, such feature may be combined with one or more other features as may be desired or advantageous to any given or particular application.
Filing Document | Filing Date | Country | Kind |
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PCT/US2019/045397 | 8/7/2019 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2020/033470 | 2/13/2020 | WO | A |
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International Search Report and Written Opinion for corresponding International Patent Application No. PCT/US2019/045397 dated Nov. 5, 2019. |
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Number | Date | Country | |
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20200370255 A1 | Nov 2020 | US |
Number | Date | Country | |
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62715649 | Aug 2018 | US |