1. Technical Field of the Invention
The present invention relates generally to erosion control logs and, more specifically to the packing and handling thereof and, more particularly, but not by way of limitation, to a system and method for selectively stacking, configuring, compressing, securing and subsequently handling a plurality of erosion control logs adapted for delivery to field site, for the reduction of soil erosion.
2. History of Related Art
For many years, erosion control blankets and logs have achieved widespread commercial acceptance. Their use is worldwide. Erosion control blankets in general are discussed in co-pending U.S. patent application Ser. No. 09/648,906, assigned to the assignee of the present invention. As referenced therein, the blankets resemble a form of fibrous matting in which outer layers of netting or other material are commonly used to form an envelope or covering about a fibrous interior filler layer of the type commonly used to reduce soil erosion and runoff from erosion-prone areas such as highway embankments or water drainage ditches. They may be manufactured from a variety of materials.
Another erosion control device is the “erosion control log”. Erosion control logs utilize fibers packaged within an elongate bag-type of structure for reducing hydraulic energy and filtering sediment-laden runoff. One such erosion control log is sold under the trademark Curlex® sediment log sold by the assignee of the present invention. The sediment log is manufactured from excelsior, also known as wood wool. The log is thus very porous, allowing water to pass through the wood wool, or excelsior matrix, progressively slowing velocity and filtering sediment as it passes through the log diameter. Sediment logs of this type are extremely flexible and contour to the terrain to maintain intimate contact with the subgrade. Additionally, they come with other benefits such as being lightweight, requiring no trenching, substantially eliminating disposal hassles, and being reusable while holding their shape. Such sediment logs are commonly used in place of straw and hay bail checks, which have been shown to be less than capable of prolonged use in heavy rains wherein the hay bail structurally degrades resulting in the hay fibers being washed downstream, possibly to clog various water flow outlets. This situation can exacerbate flooding issues. Similarly, silt fences, also commonly used, are prone to being knocked down when rain or strong winds are present, or when run over by vehicles. The time required to pick up lose hay fibers from hay bails and/or to remove worn out, or dysfunctional silt fences, which must be taken typically to land fills, imposes increased expense to contractors trying to meet the ever-growing number of federal, state and municipal regulations. These regulations are increasingly requiring erosion control around construction sites. Additionally, new regulations are placing limitations on dumping waste material in land fills and restricting the burning of waste materials.
Examples of other prior art structures include those shown in U.S. Pat. Nos. 5,595,458 and 6,109,835, both assigned to Grabhorn, Inc. These patents describe water permeable erosion control bags having flexible mesh walls and wood fiber fragments contained therein. U.S. Pat. No. 5,419,659 to Mercer describes a mesh structure having openings and can be used as a sack or a bag. The structure of U.S. Pat. No. 5,419,659 may be formed into a tubular biaxially stretched mesh structure closed at the top and bottom ends.
Other teachings are present in the above-referenced and following patents, and comments made herein are in no way intended to imply any limitations in the teachings thereof but only to specifically address certain aspects for purposes of describing the related art. The entirety of each of the references cited herein should be reviewed for a full understanding of the related art relative to the present invention.
Additional references to erosion control structures include that shown in U.S. Pat. No. 5,160,215 to Jensen which generally describes a ground surface erosion control device. U.S. Pat. Nos. 5,007,766, 5,584,600, 5,605,416 and 4,610,568 also describe erosion control barriers of various types and shapes. Some of the above-referenced patents describe sediment barriers for reducing the erosive energy of water flow-through on a water course such as a channel for increasing the deposition of sediments therein. The sediment barrier typically includes a plurality of individual strands interwoven and preferably crimped or otherwise distorted in an external configuration so as to provide, in certain instances, fiber-to-fiber cohesion which helps maintain the overall rate of the barrier. As referenced in U.S. Pat. No. 5,007,766, the sediment barrier of this particular design may be anchored in place on a surface or within a gully, so as to maintain the strands in upright relation to the water course.
Typical applications for such erosion control devices, particularly the sediment log sold by the assignee of the present invention, are for energy dissipation and sediment control in ditch bottoms, swales, and in waterways. The sediment log may also be used over bare soils and/or temporary and turf reinforcement blankets. A 360° protection around catch basins and drop inlet structures are also specifically referenced for the Curlex® sediment log as are uses in curb and drainage outlets. Finally, the Curlex® sediment log may be used on project ingress and egress termination points or used in place of bails, silt fences, reinforced silt fences and rock checks, or as wattles on steep slopes. Further information on the Curlex® sediment log may be found at www.curlex.com.
The innovative approach to utilizing excelsior wood fibers in a sediment log comprising an elongated tubular member has been found to be both economically viable and environmentally effective for erosion control considerations. Due to the governmental regulations requiring protective measures in the area of erosion control as referenced above, the shipment and ease of delivery of such erosion control units has become important. Due to the size and length of the sediment control logs, such as the above-referenced Curlex® sediment log, shipping and handling is of major concern for both the manufacturer and the ultimate user. When the logs are improperly packaged they can become distorted and the efficiency in use for sediment control reduced. When the logs are shipped in a elongated stack configuration, the amount of space necessary for shipment has been shown to be less than cost effective. It would be an advantage therefore to provide a system for efficient, space-saving packaging and handling sediment logs in a manner facilitating reduced distortion and ease in handling and use.
The present invention relates to the packaging and handling of sediment logs of elongate sediment control members. More particularly, one aspect of the invention comprises the system of folding and stacking elongate sediment logs in an open compression hopper with each of the logs curled into a generally U shape, J shape, or other pre-selected shape/configuration known to minimize the distortion and/or damage to the log while allowing the configured logs to be stacked one atop the other in a nesting relationship. In this manner, a minimal amount of space is therein required for containing the uncompressed logs. The assemblage is then prepared in the hopper for compression and, once compressed, the assemblage is wrapped with straps, tethers or other members adapted to bind the compressed logs. In this manner, a plurality of elongate sediment control logs are assembled and packaged for shipment in a configuration imparting minimal permanent deformation, for maximum efficiency in use and in a substantially reduced space for maximizing shipping and handling effectiveness.
One aspect the present invention utilizes a commercial bailing hopper for compressing and wrapping the sediment logs prior to shipment. Another aspect, the present invention relates to sediment logs forms of excelsior or wood wool construction disposed in an elongate net structure creating a tubular member of compressible wood wool therein.
In another aspect, the present invention relates to a method of packaging and handling elongate sediment control members of the type forming an elongate body of randomly dispersed, loose-fill fibers having a select loft for retaining sedimentation fluid passing there through when disposed for erosion control, the loose fill fibers being packaged in open mesh material. The method comprises the steps of assembling the sediment control members for packaging, providing a compression hopper adapted for receipt of the assembled sediment control members therein, situating individual sediment control members within the hopper and shaping them into a serpentine assembly for subsequent compression, actuating compression of the hopper and compressing the shaped assembly of sediment control members, binding the compressed sediment control members, removing the bound sediment control members from the hopper, permitting the bound sediment control members to be delivered in the bound condition to a site for decompression and erosion control, and removing the binding from the compressed sediment control members at the sites for erosion control for the positioning and decompression thereof and placement for erosion control.
In another aspect, the above described method includes the steps of providing the loose fill fibers in the form of wood wool and providing the wood wool in the form of excelsior loose fill that is bent, crimped and twisted. The method further includes the step of providing the mesh material in the form of a generally cylindrical net sleeve, which sleeve is formed from synthetic fibers such as polyethylene, polypropylene, and other polyolefins.
In a further aspect, the above described method includes the step of shaping individual sediment control members by bending the sediment control members into a U or J shape within the hopper. A further step includes compressing the shaped elongate sediment control members in the hopper on the order of 60% of the original diameter thereof.
Yet a further aspect of the invention includes a system of packaging elongate sediment control members of the type forming an elongate body of randomly dispersed, loose fill fibers having a select loft for retaining sedimentation in fluid passing there-through when disposed for erosion control, the loose fill fibers being packaged in open mesh material. The system comprises a compression hopper adapted for receipt of the sediment control members therein and the compression thereof and means for situating individual sediment control members within the hopper and shaping them into a serpentine assembly for subsequent compression within the hopper. Also provided are means for binding the compressed sediment control members within the hopper for subsequent handling in the compressed state. The loose fill fibers may comprise wood wool in the form of excelsior loose fill that is bent, crimped and twisted. The compression hopper may be adapted to compress the sediment control members to approximately 60% of the original diameter thereof.
The preferred embodiment of the invention will now be described, by way of example only, with reference to the accompanying drawings in which:
The present invention will now be described more fully hereinafter with reference to the accompanying drawings in which several preferred embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, the embodiments are provided so that this disclosure is thorough and complete, and fully conveys the scope of the invention to those skilled in the art.
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The filler material 130 of the erosion control log 100 described above comprises, in one embodiment of the system of the present invention, excelsior, also known as wood wool. The excelsior is typically found in a complex arrangement of bent, twisted and crimped fibers creating a three-dimensional matrix having a desired amount of loft and resiliency. Although the excelsior fibers 150 may be arranged in various ways, due to their twisted and bent configuration, a randomly dispersed loose excelsior fiber will generally produce a log with sufficient loft. It is this loft that comprises one aspect of the present invention, as a method of and system for sedimentation retaining barrier packing is provided. As shown herein, the logs 100 are handled in a way so as to minimize the distortion and/or damage to the log while allowing the logs to be stacked one on top of the other in a nesting relationship for shipment.
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It is thus believed that the operation and construction of the present invention will be apparent from the foregoing description of the preferred embodiments. While the erosion control log, configurations and designs as shown are described as being preferred, it will be obvious a person of ordinary skill in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention, as defined in the following claims. Therefore, the spirit and the scope of the appended claims should not be limited to the description of the preferred embodiments contained herein.
This application claims priority to and incorporates by reference the entirety of U.S. Provisional Patent Application No. 60/619,662 filed Oct. 18, 2004.
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Number | Date | Country | |
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20060093441 A1 | May 2006 | US |
Number | Date | Country | |
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60619662 | Oct 2004 | US |