WO2004067849A2 - Flexible sleeve - Google Patents

Flexible sleeve Download PDF

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Publication number
WO2004067849A2
WO2004067849A2 PCT/US2004/001163 US2004001163W WO2004067849A2 WO 2004067849 A2 WO2004067849 A2 WO 2004067849A2 US 2004001163 W US2004001163 W US 2004001163W WO 2004067849 A2 WO2004067849 A2 WO 2004067849A2
Authority
WO
WIPO (PCT)
Prior art keywords
retroreflective
sleeve
band
support
flexible substrate
Prior art date
Application number
PCT/US2004/001163
Other languages
French (fr)
Other versions
WO2004067849A3 (en
Inventor
William C. Boyd
Original Assignee
3M Innovative Properties Company
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 3M Innovative Properties Company filed Critical 3M Innovative Properties Company
Priority to EP04703304A priority Critical patent/EP1587989A2/en
Publication of WO2004067849A2 publication Critical patent/WO2004067849A2/en
Publication of WO2004067849A3 publication Critical patent/WO2004067849A3/en

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Classifications

    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01FADDITIONAL WORK, SUCH AS EQUIPPING ROADS OR THE CONSTRUCTION OF PLATFORMS, HELICOPTER LANDING STAGES, SIGNS, SNOW FENCES, OR THE LIKE
    • E01F9/00Arrangement of road signs or traffic signals; Arrangements for enforcing caution
    • E01F9/60Upright bodies, e.g. marker posts or bollards; Supports for road signs
    • E01F9/604Upright bodies, e.g. marker posts or bollards; Supports for road signs specially adapted for particular signalling purposes, e.g. for indicating curves, road works or pedestrian crossings
    • E01F9/619Upright bodies, e.g. marker posts or bollards; Supports for road signs specially adapted for particular signalling purposes, e.g. for indicating curves, road works or pedestrian crossings with reflectors; with means for keeping reflectors clean
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T428/00Stock material or miscellaneous articles
    • Y10T428/13Hollow or container type article [e.g., tube, vase, etc.]
    • Y10T428/1352Polymer or resin containing [i.e., natural or synthetic]
    • Y10T428/139Open-ended, self-supporting conduit, cylinder, or tube-type article
    • Y10T428/1393Multilayer [continuous layer]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T428/00Stock material or miscellaneous articles
    • Y10T428/24Structurally defined web or sheet [e.g., overall dimension, etc.]
    • Y10T428/24355Continuous and nonuniform or irregular surface on layer or component [e.g., roofing, etc.]
    • Y10T428/24372Particulate matter

Definitions

  • the invention relates to a flexible sleeve for application to a support such as a cone and a method of making a flexible sleeve.
  • Traffic devices are used to channel traffic, divide opposing traffic lanes, divide traffic lanes when two or more lanes are kept open in the same direction, and delineate the boundaries of temporary maintenance and utility work zones.
  • the term "traffic device” includes, but is not limited to, bodies such as cones that are integrally formed from a flexible material that can be struck by a moving vehicle without significantly damaging the vehicle on impact, and having a base portion for supporting an upright member,
  • traffic devices include cones, drums, tubes, stakes, posts, and roll-up signs.
  • a common method of enhancing the visibility of such a traffic device, such as a . traffic cone is to adhesively apply reflectorized sheeting material to the exterior of the upright member in order to enhance the visibility of the traffic cone at night or other times of poor visibility.
  • traffic cones for use on freeways include one or more reflective bands, which typically are formed from reflective sheeting, preferably retroreflective sheeting, adhered to the cone.
  • WO 99/24671 describes a multicolor sleeve formed as a piece of retroreflective sheeting having an upper and lower band of one color.
  • a central area of a second color either a transparent ink, a transparent film, or a retroreflective film, is applied to the surface of the retroreflective sheeting to form precisely spaced bands of color.
  • the retroreflective sheeting can be formed into a sleeve and the sleeve then applied and bonded in a single step onto a conical-shaped or cylindrical shaped traffic device.
  • WO 02/34855 (Boyd) describes adhesive article and method of applying and activating adhesive article to bond substrates using a fluid application aid.
  • the substrates are traffic devices such as traffic cones and the adhesive article are retroreflective cone collars or sleeves.
  • U.S. Patent No. 5,236,751 (Martin) describes a relatively flexible retroreflective band for adhesive bonding about a support structure comprises a length of retroreflective sheeting formed into a continuous band with the outer portion of the band including retroreflective formations adapted to retroreflect light rays impinging thereon.
  • An adhesive coating is disposed on the inner surface of the band to bond the band to a support structure, and a water-soluble release coating is superposed on the adhesive coating to prevent substantially contact of the adhesive coating with other surfaces.
  • retractable traffic cone has been marketed by Worldwide Safety Incorporated, Sacramento, CA under the trade designation "Flexible Marker Device”.
  • Such retractable traffic cone has a coil having a conical-shape upon extension and a conical-shaped fluorescent orange mesh sleeve covering the coil.
  • Such retractable traffic cones are advantageous over conventional cones comprised of molded polyvinyl chloride due to being more forgiving upon impact and take less space to store.
  • retroreflective cone collars to these retractable traffic cones, it was found that the cone collars were too rigid, impairing the ability of the cone to properly retract.
  • the present invention discloses a retroreflective sleeve for application to a support comprising a flexible substrate having a viewing surface and a non- viewing surface and at least one retroreflective band bonded to a flexible substrate wherein a portion of the flexible substrate is exposed on the viewing surface.
  • the present invention discloses an article comprising a support having a substantially continuous viewing surface and a non-retroreflective conspicuous colored sleeve substantially covering the viewing surface of the support.
  • the present invention discloses an article suitable for use for display and advertising comprising a support and a non-retroreflective sleeve wherein the sleeve comprises a viewing surface including indicia, symbols, graphics, and combinations thereof.
  • the retroreflective band is preferably at least as flexible as the flexible substrate.
  • the band typically has an elongation at break of at least 100% according to ASTM D 882 (e.g. at least 200%, at least 300%).
  • the retroreflective band may be substantially free of backing such as wherein the band consists essentially of microspheres at least partially embedded in a binder layer and specular or diffuse reflecting material.
  • the retroreflective band may further comprise a fabric backing.
  • the retroreflective band may be a transfer film and thus comprise an adhesive that is heat activated.
  • the retroreflective sleeve is triangular shaped having a base arcuate edge and optional top arcuate edge and a pair of side edges. Upon joining the side edges a conical shape is formed.
  • the retroreflective sleeve is rectangular having two pairs of parallel edges.
  • the rectangular retroreflective sleeve may be attached to a roll-up sign support or to a traffic sign for use as a sign mask.
  • a pair of opposing edges are joined such that a cylindrical shape is formed.
  • the sleeves are combined with a support such as cones, drums, tubes, stakes, posts, coils, sign supports, and traffic signs.
  • a support such as cones, drums, tubes, stakes, posts, coils, sign supports, and traffic signs.
  • the retroreflective sleeve covers only a portion of the viewing surface of the support. In other embodiments, the sleeve covers substantially the entire viewing surface of the support (e.g. cone).
  • the substrate may be transparent or colored, such as being the same color as the support.
  • the substrate is a conspicuous color such as a fluorescent color.
  • the invention discloses a method of making a retroreflective sleeve comprising providing a flexible substrate, providing at least one reflective band, and bonding the band to the flexible substrate.
  • the flexible substrate is preferably a triangular or cylindrical shape prior to or after bonding of the reflective bands.
  • Figure 1 is a perspective view of an exemplary embodiment of the present invention depicting a triangular shaped sleeve.
  • Figure 2 is a perspective view showing the sleeve of Figure 1 placed onto a conical-shaped support.
  • Figure 3 is a perspective view of an exemplary rectangular sleeve of the present invention.
  • Figure 4 is a perspective view showing the sleeve of Figure 3 placed on a cylindrical-shaped traffic device.
  • Figure 5 is a perspective view of an exemplary cone collar of the present invention prior to application to a support.
  • the present invention relates to flexible sleeves and methods of making flexible sleeves.
  • the sleeves are preferably applied to, placed upon, or attached to a support.
  • the articles comprise a retroreflective band and are suitable for traffic control devices.
  • the sleeve refers to an outer covering for a support. Prior to joining two of the edges of the sleeve, the sleeve is a laminate having for example a triangular of rectangular shape. The laminate is typically continuous in both the length and width. The laminate may be employed in conjunction with a two-dimensional support such as for example a roll-up sign support. For embodiments wherein the sleeve is employed in conjunction with three-dimensional support, two opposing edges of the sleeve are joined such that the sleeve has one to two openings. Conventional cone collars, traffic markers, and traffic barrel sleeves typically comprise two openings such that the support is exposed on either side of each opening with the sleeve positioned in the middle area of the support.
  • the sleeves of the present invention comprise a flexible substrate (e.g. fabric) and at least one flexible reflective or retroreflective band.
  • the reflective bands are about equal in flexibility or more flexible than the flexible substrate.
  • the flexibility of the band can be evaluated according to ASTM D 882, Method A wherein the samples are conditioned at 73.4°F (23 °C) and 20% relative humidity and tested in machine direction with a crosshead speed of 20 inches/min and 2 inch initial grip separation.
  • “flexible” with respect to the band refers to having an elongation at break of at least 100%. The elongation at break may be at least 200%, at least 300%, at least 400%, and even about
  • the preferred elongation is chosen based on the flexibility of the substrate to which the band is bonded.
  • the present invention is a triangular-shaped sleeve 100 comprising a flexible substrate (e.g. fabric mesh) 20 and at least one, and preferably two reflective bands 22 bonded to the viewing surface of the fabric.
  • the substrate comprises a base arcuate edge 12 and optional top arcuate edge parallel to the base arcuate edge and a pair of side edges.
  • the edges (e.g. 10) of the reflective bands are also arcuate.
  • the reflective sleeve preferably comprises at least two bands 22 aligned substantially parallel with the base arcuate edge.
  • a conical shape is formed.
  • Side edges 14 and 16 form an included angle ⁇ , which for cones is generally at least about 30 degrees and often much larger depending on the pitch of the cone.
  • the cone-shaped sleeve is provided on the outer viewing surface of a cone-shaped support such as shown in FIG. 2.
  • the edges i.e. 14 and 16
  • conventional traffic devices e.g.
  • the suitably shaped flexible fabric comprising the reflective band(s) may be applied to the support concurrent with the joining of edges 14 and 16.
  • the present invention is a rectangular-shaped sleeve 200 comprising a flexible substrate 20 and at least one, and preferably two reflective bands 22 bonded to the viewing surface of the fabric.
  • the sleeve generally comprises a pair of peripheral parallel edges (e.g. first pair having edges 24 and 26 and second pair having edges 30 and 32, each pair typically being straight and equal in length.
  • a cylindrical shaped sleeve is formed suitable as an outer cover for a cylindrical-shaped support as depicted in FIG. 4.
  • FIG. 5 depicts an exemplary cone collar in accordance with the present invention.
  • a single cone collar can be used with cones having slightly different conical pitch (e.g. within about 5 degrees) without the collar buckling.
  • traffic cones as well as other traffic control articles are a conspicuous color (e.g. fluorescent orange) and a cone collar or sleeve is employed to provide the reflective bands.
  • the sleeve substrate may be transparent or the same color as the support.
  • a sleeve comprising a non-reflective flexible substrate may be provided on the viewing surface of a support.
  • the sleeve substrate is typically a conspicuous color such as orange, coral, yellow, yellow-green, and red, and especially fluorescent colors. In doing so, the sleeve, rather than the support (e.g. molded polyvinyl chloride cone) can provide conspicuity.
  • This aspect is surmised particularly advantageous for refurbishing traffic devices (e.g. cones, signs) that no longer meet color and/or reflectivity standards.
  • traffic devices e.g. cones, signs
  • reflective bands are preferred and often required for (i.e. nighttime) traffic control uses, the presence of such bands are not needed for other uses such as daytime utility and construction work.
  • Non-reflective sleeves may also be provided on a support for other uses such as advertising and display.
  • the viewing surface of the sleeves typically includes symbols, printed indicia, graphics, and combinations thereof.
  • the bands may be positioned in any arrangement. Further, the bands may be of the same or different including a variety of colors. Some preferred designs are described in International Application No. WO99/24671 (published May 20, 1999). Preferably, however, two bands are positioned in the approximate mid-section of the sleeve as depicted in FIGS. 1-2 and 4.
  • the cone collar of FIG. 5 includes an upper band and a lower band, each band comprising a common peripheral edge with the flexible substrate and a central area of the exposed flexible substrate that divides the upper band and the lower band.
  • the sleeve may also include additional bands above the upper band or below the lower band. In forming the sleeve (e.g.
  • the opposing side edges may be overlapped, spliced so that the edges meet to form a butt joint, or placed so that the edges do not contact each other, but are in close proximity.
  • the distance in separation is typically less than 1 cm. Such separation is not considered an "opening".
  • fastening means may be used to hold the sleeve edges in juxtaposition.
  • Both mechanical and/or chemical fastening means may be used to hold the sleeve edges in a wrapped condition prior to placement onto the cone.
  • Chemical means include for example double stick tape, pressure-sensitive adhesives, and thermal adhesives.
  • Mechanical means include as examples stitching, staples, rivets, brackets, hooks, and hook and loop fasteners.
  • fastening means include welding techniques.
  • a heat activated adhesive e.g. polyurethane based
  • mechanical fastening means are less desired than chemical means due to the tendency of such fastening devices to reduce the flexibility of the sleeve such that collapsing upon itself is impaired.
  • mechanical fastening means such as staple and rivets may have a tendency to pierce holes in the flexible substrate of the sleeve.
  • the thickness of the flexible substrate typically ranges from about 0.025 mils to about 0.10 mils.
  • the flexible substrate may be reflective, retroreflective or non-reflective, yet is typically different in appearance than the bands either in color and/or reflective properties.
  • Preferably the flexible substrate is stretchable.
  • the flexible substrate preferably comprises a fabric.
  • the fabric may be woven, knit, or non- woven such as an open weave mesh. Non-woven fabrics are suitable for uses wherein extended durability of the sleeve is not needed.
  • the fabric is typically woven or knit and comprised of a durable polymeric material. Polyester, nylon, polyvinyl chloride as well as natural fibers such as cotton may be employed including blends of such fibers.
  • the fabric may comprise elastomeric fibers as well.
  • the fabric typically comprises a mesh or mesh-like material.
  • the multitude of openings increases the flexibility of the sleeve as well as allows wind to blow through the sleeve.
  • the flexible substrate may be a flexible film such as polyvinyl chloride, polyurethane, and neoprene rubber.
  • the thickness of the reflective bands generally ranges from about 0.0025 mils to about 0.050 mils. Preferably the thickness is less than 0.005 mils.
  • the bands may be in the form of letters or symbols.
  • the reflective bands may be provided in the form of retroreflective sheeting.
  • microsphere sheeting sometimes referred to as “beaded sheeting”
  • specular or diffuse reflecting materials such as metallic vapor or sputter coatings, metal flakes, or pigment particles.
  • slurry coated and lens-based sheetings in which the beads are in spaced relationship to the reflector but in full contact with resin.
  • exposed lens retroreflective sheetings in which the reflector is in direct contact with the bead but the opposite side of the bead is in a gas interface.
  • Cube corner sheeting sometimes referred to as prismatic, microprismatic, or triple mirror reflector sheetings, typically includes a multitude of cube corner elements to retroreflect incident light.
  • Cube corner retroreflectors typically include a sheet having a generally planar front surface and an array of cube corner elements protruding from the back surface.
  • Cube corner reflecting elements include generally trihedral structures which have three approximately mutually perpendicular lateral faces meeting in a single corner — a cube corner.
  • the retroreflector is arranged with the front surface disposed generally toward the anticipated location of intended observers and the light source. Light incident on the front surface enters the sheet and passes through the body of the sheet to be totally internally reflected by the faces of the elements, so as to exit the front surface-in a direction substantially toward the light source.
  • the light rays are typically reflected at the lateral faces due to total internal reflection, or by reflective coatings, as previously described, on the back side of the lateral faces.
  • the cube corner-based retroreflective sheeting for use in the invention is "flexible,” “conformable,” or “embossable". Illustrative examples of such sheeting are disclosed in U.S. Pat. Nos. 5,138,488 (Szczech); 5,387,458 (Pavelka); 5,450,235 (Smith); 5,605,761 (Burns); 5,614,286 (Bacon); 5,066,098 (Kult et al.); and 4,896,943 (Tolliver et al).
  • the coefficient of retroreflection of the retroreflective sleeve varies depending on the desired properties of the finished article.
  • the retroreflective sleeve typically has a coefficient of retroreflection ranging from about 5 to about 1500 candelas per lux per square meter at 0.2 degree observation angle and -4 degree entrance angle, as measured according to ASTM E-810 test method for coefficient of retroreflection of retroreflective sheeting.
  • the coefficient of retroreflection is preferably at least 10, more preferably at least 15, and even more preferably at least 20 candelas per lux per square meter.
  • traffic devices have a coefficient of retroreflection of at least 100 candelas per lux per square meter and preferably at least 200 candelas per lux per square meter.
  • the retroreflective sleeve has a retroreflectivity under wet or rainy conditions of not less than 70% of its retroreflectivity under dry conditions. Further description of retroreflection and retroreflective sheeting is found in "Standard Specification for Retroreflective Sheeting for Traffic Control" ASTM D 4956-94 (November 1994).
  • the retroreflective sheeting is preferably substantially free of a backing and substantially free of a top film, particularly those backings and top films that reduce the flexibility of the sheeting.
  • the retroreflective layer preferably consists essentially and more preferably solely of a multitude of microspheres typically at least partially embedded in a binder layer and an associated specular or diffuse reflecting material. Such reflective band materials are described in U.S. Patent Nos.
  • Suitable reflective band materials are commercially available from 3M Company ("3M"), St. Paul, MN under the trade designation "Scotchlite Reflective Material Transfer Film” in a variety of colors (e.g. silver, white, fluorescent orange, fluorescent yellow).
  • "Scotchlite Reflective Material Transfer Film 8710" ("8710") conveniently includes a heat-activated polyurethane adhesive. This material has a silver color when viewed during daylight and a white reflected color.
  • the coefficient of retroreflection (R A ) averages 500 candelas per lux per square meter with a minimum of 330 when measured according to ASTM E810 at an entrance angle of -4.0° and observation angle 0.2°. Further, the coefficient of retroreflection (R A ) averages 300 with a minimum of 250 candelas per lux per square meter when measured according to ASTM
  • E810 at an entrance angle of 5.0° and observation angle 0.33°.
  • Other physical properties of this material include that it may be flexed 7500 cycles employing ISO 7854, Method A, that is it washable 25 cycles at 60°C with ISO 6330 Method 2A, and that it passes a cold fold evaluation according to ISO 4675.
  • the retroreflective layer may further comprise a fabric backing.
  • fabric backing is not exposed on the viewing surface of the sleeve.
  • Suitable retroreflective materials that include a fabric backing are commercially available from 3M under the trade designation "Scotchlite Material Fabric 8910" and "Scotchlite Material Fabric 8965”.
  • the reflective sheets e.g. "8710”
  • the flexible substrate fabric
  • Volume cutting can be accomplished by methods such as band sawing, roll cutting, or guillotining.
  • Such methods can be used for forming the retroreflective sheeting into pieces having the desired shape for forming sleeves.
  • the reflective bands are then bonded to the flexible substrate. Bonding the reflective sheeting may involve passing an adhesively .coated (e.g. pressure sensitive adhesive, water-based adhesive; solvent -based adhesive) reflective band through a nip of a pair of rolls together with the flexible -substrate to apply sufficient pressure to form an adequate bond.
  • an adhesively .coated (e.g. pressure sensitive adhesive, water-based adhesive; solvent -based adhesive) reflective band through a nip of a pair of rolls together with the flexible -substrate to apply sufficient pressure to form an adequate bond.
  • the reflective bands cannot be removed by hand at ambient temperature from the flexible substrate without tearing the reflective band.
  • adhesion is maintained at temperatures ranging from 0°F to 120°F.
  • a heat-activated adhesive is employed.
  • the reflective band may be subjected to preheating prior to passage through the rolls, or the rolls may be heated to achieve the necessary activation.
  • both the flexible substrate and the reflective bands are comprised of fabric or polymeric coated fabric.
  • the band and/or the flexible substrate may comprise pre-applied pressure sensitive or heat activated adhesive. Pre-applied pressure sensitive adhesive often is covered with a release liner that is removed prior to bonding.
  • an adhesive e.g. water based, solvent based, hot melt
  • Flexible bands can also be created by applying (e.g. spraying) a reflective liquid onto the
  • the supports In the case of traffic devices the supports generally have a conical shape or cylindrical shape such as cones, drums, stakes, tubes, and posts. In the case of roll-up signs, the support is typically a sign support such as described in U.S. Patent Nos. 3,894,707; 4,066,233; 4,094,487; 4,125,240 and 4,211,381. In the case of sign masks that are used to temporary cover a traffic sign, the support is a sign.
  • the support may comprise a polymeric material that is described as being flexible, yet is substantially more rigid than the sleeve, as in the case of conventional cones comprises of polyvinyl chloride for example.
  • the reflective sheeting may be applied manually.
  • One such approach is to place a non-adhesive coated cone collar sleeve over the cone after an adhesive has been applied to the cone, generally by brushing on a liquid adhesive.
  • a second approach is to apply a flat cone sleeve having adhesive coated on it to the cone, i.e. without first bonding the edges (e.g. 14 and 16 of
  • FIG. 1 1).
  • a support means may be provided that is suitable for use in combination with the sleeve forming a retractable traffic device.
  • a suitable support means includes a coiled spring that has a conical or cylindrical shape when extended.
  • a retractable traffic cone in the absence of having a reflective band with a coil having a conical-shape upon extension and a conical-shaped fluorescent orange mesh sleeve covering the coil is commercially available from orldwide Safety Incorporated, Sacramento, CA under the trade designation "Flexible Marker Device".
  • Illustrative of the present invention is the following example.
  • Retroreflective sheeting commercially available from 3M, St. Paul, MN under the trade designation "Scotchlite Reflective Material Transfer Film 8710” was hand cut into two radius bands that measured approximately 4" x 23.5" for the bottom band and 6" x 17.5" for the top band.
  • the "Scotchlite Reflective Material Transfer Film 8710” comprises a microsphere-based adhesive in combination with a polyurethane heat activated adhesive.
  • the bands were applied to a fluorescent vinyl 10 ounce knit mesh fabric product commercially available from Twitchell Company, Dothan, Alabama under the trade designation "K80-636-009” that had been cut into a triangular shape having a height of 31 "tall, a base of 35" width that tapered to a width of 5".
  • Example 2 The two bands were laminated to the vinyl knit mesh as described below.
  • Example 1 the bands were laminated to the mesh using a 4' x 6' heat lamp vacuum applicator table set at 220°F for two minutes with 26 mercury inches of vacuum pressure in combination with a heat press at 250°F for 15 seconds.
  • Example 2 the bands were laminated to the mesh using a standard conveyor oven (10 feet long and set at 265°F) with a nip roller at the end of the oven (12 seconds dwell time and 5 lbs of pressure).
  • the bonded pieces could be fabricated into a conical shape by sewing or fastening the longitudinal ends together, thus creating a cone mesh jacket that is retroreflective.
  • the completed cone jacket can be used on a retractable cone or on a standard polyvinyl cone, polyethylene cone or rubber cone.
  • the flexibility of the band material was evaluated using ASTM D 882 with a crosshead speed of 20 inches/min and 2 inch initial grip separation.
  • the "Scotchlite Reflective Material Transfer Film 8710" (“8710”) was compared to cone collar sheeting commercially available from 3M under the trade designation "Scotchlite Brand High Intensity 3840 Cone Sleeve” ("3840").
  • the 3840 material was found to be too rigid for use on retractable cones having a coil and a mesh outer sleeve. The results are as follows:

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Illuminated Signs And Luminous Advertising (AREA)
  • Road Signs Or Road Markings (AREA)
  • Optical Elements Other Than Lenses (AREA)
  • Lining Or Joining Of Plastics Or The Like (AREA)

Abstract

The invention relates to a flexible sleeve (100, 200) for application to a support such as a cone and a method of making a flexible sleeve. The sleeve comprises a flexible substrate (20) and at least a retroreflective band (22) bonded to the substrate.

Description

FLEXIBLE SLEEVE
Field of the Invention
The invention relates to a flexible sleeve for application to a support such as a cone and a method of making a flexible sleeve.
Background of the Invention
Traffic devices are used to channel traffic, divide opposing traffic lanes, divide traffic lanes when two or more lanes are kept open in the same direction, and delineate the boundaries of temporary maintenance and utility work zones. The term "traffic device" includes, but is not limited to, bodies such as cones that are integrally formed from a flexible material that can be struck by a moving vehicle without significantly damaging the vehicle on impact, and having a base portion for supporting an upright member,
, preferably a conical or cylindrical member. Examples of traffic devices include cones, drums, tubes, stakes, posts, and roll-up signs.
A common method of enhancing the visibility of such a traffic device, such as a . traffic cone, is to adhesively apply reflectorized sheeting material to the exterior of the upright member in order to enhance the visibility of the traffic cone at night or other times of poor visibility. Typically, traffic cones for use on freeways include one or more reflective bands, which typically are formed from reflective sheeting, preferably retroreflective sheeting, adhered to the cone.
Some exemplary patents pertaining to such traffic devices include as follows: WO 99/24671 (Boyd) describes a multicolor sleeve formed as a piece of retroreflective sheeting having an upper and lower band of one color. A central area of a second color, either a transparent ink, a transparent film, or a retroreflective film, is applied to the surface of the retroreflective sheeting to form precisely spaced bands of color. The retroreflective sheeting can be formed into a sleeve and the sleeve then applied and bonded in a single step onto a conical-shaped or cylindrical shaped traffic device.
WO 02/34855 (Boyd) describes adhesive article and method of applying and activating adhesive article to bond substrates using a fluid application aid. Preferably, the substrates are traffic devices such as traffic cones and the adhesive article are retroreflective cone collars or sleeves.
U.S. Patent No. 5,236,751 (Martin) describes a relatively flexible retroreflective band for adhesive bonding about a support structure comprises a length of retroreflective sheeting formed into a continuous band with the outer portion of the band including retroreflective formations adapted to retroreflect light rays impinging thereon. An adhesive coating is disposed on the inner surface of the band to bond the band to a support structure, and a water-soluble release coating is superposed on the adhesive coating to prevent substantially contact of the adhesive coating with other surfaces. When it is desired to assemble the band onto a support structure, water is applied to dissolve the release coating and, while the adhesive coating is still wet with water, the band is slid over the support structure to the desired position.
Recently, a retractable traffic cone has been marketed by Worldwide Safety Incorporated, Sacramento, CA under the trade designation "Flexible Marker Device". Such retractable traffic cone has a coil having a conical-shape upon extension and a conical-shaped fluorescent orange mesh sleeve covering the coil. Such retractable traffic cones are advantageous over conventional cones comprised of molded polyvinyl chloride due to being more forgiving upon impact and take less space to store. However, when attempting to bond retroreflective cone collars to these retractable traffic cones, it was found that the cone collars were too rigid, impairing the ability of the cone to properly retract.
Summary of the Invention
In one embodiment, the present invention discloses a retroreflective sleeve for application to a support comprising a flexible substrate having a viewing surface and a non- viewing surface and at least one retroreflective band bonded to a flexible substrate wherein a portion of the flexible substrate is exposed on the viewing surface.
In another embodiment, the present invention discloses an article comprising a support having a substantially continuous viewing surface and a non-retroreflective conspicuous colored sleeve substantially covering the viewing surface of the support.
In another embodiment, the present invention discloses an article suitable for use for display and advertising comprising a support and a non-retroreflective sleeve wherein the sleeve comprises a viewing surface including indicia, symbols, graphics, and combinations thereof.
The retroreflective band is preferably at least as flexible as the flexible substrate. The band typically has an elongation at break of at least 100% according to ASTM D 882 (e.g. at least 200%, at least 300%). The retroreflective band may be substantially free of backing such as wherein the band consists essentially of microspheres at least partially embedded in a binder layer and specular or diffuse reflecting material. The retroreflective band may further comprise a fabric backing. The retroreflective band may be a transfer film and thus comprise an adhesive that is heat activated. In one aspect, the retroreflective sleeve is triangular shaped having a base arcuate edge and optional top arcuate edge and a pair of side edges. Upon joining the side edges a conical shape is formed.
In another aspect, the retroreflective sleeve is rectangular having two pairs of parallel edges. The rectangular retroreflective sleeve may be attached to a roll-up sign support or to a traffic sign for use as a sign mask. For other uses a pair of opposing edges are joined such that a cylindrical shape is formed.
During use the sleeves are combined with a support such as cones, drums, tubes, stakes, posts, coils, sign supports, and traffic signs.
In some embodiments, the retroreflective sleeve covers only a portion of the viewing surface of the support. In other embodiments, the sleeve covers substantially the entire viewing surface of the support (e.g. cone).
For each of the embodiments, the substrate may be transparent or colored, such as being the same color as the support. In some embodiments, the substrate is a conspicuous color such as a fluorescent color. In another embodiment, the invention discloses a method of making a retroreflective sleeve comprising providing a flexible substrate, providing at least one reflective band, and bonding the band to the flexible substrate. The flexible substrate is preferably a triangular or cylindrical shape prior to or after bonding of the reflective bands. Brief Description of the Drawings
The invention will be further explained with reference to the drawings, wherein:
Figure 1 is a perspective view of an exemplary embodiment of the present invention depicting a triangular shaped sleeve.
Figure 2 is a perspective view showing the sleeve of Figure 1 placed onto a conical-shaped support.
Figure 3 is a perspective view of an exemplary rectangular sleeve of the present invention.
Figure 4 is a perspective view showing the sleeve of Figure 3 placed on a cylindrical-shaped traffic device. Figure 5 is a perspective view of an exemplary cone collar of the present invention prior to application to a support. These figures, which are idealized, are not to scale and are intended to be merely illustrative and non-limiting.
Detailed Description of the Invention The present invention relates to flexible sleeves and methods of making flexible sleeves. During end use, the sleeves are preferably applied to, placed upon, or attached to a support. In preferred embodiments, the articles comprise a retroreflective band and are suitable for traffic control devices.
As used herein "sleeve" refers to an outer covering for a support. Prior to joining two of the edges of the sleeve, the sleeve is a laminate having for example a triangular of rectangular shape. The laminate is typically continuous in both the length and width. The laminate may be employed in conjunction with a two-dimensional support such as for example a roll-up sign support. For embodiments wherein the sleeve is employed in conjunction with three-dimensional support, two opposing edges of the sleeve are joined such that the sleeve has one to two openings. Conventional cone collars, traffic markers, and traffic barrel sleeves typically comprise two openings such that the support is exposed on either side of each opening with the sleeve positioned in the middle area of the support. Other sleeves, for example sleeves for retractable traffic devices (e.g. cones) typically have a single opening for receipt of the support. The sleeves of the present invention comprise a flexible substrate (e.g. fabric) and at least one flexible reflective or retroreflective band. The reflective bands are about equal in flexibility or more flexible than the flexible substrate. The flexibility of the band can be evaluated according to ASTM D 882, Method A wherein the samples are conditioned at 73.4°F (23 °C) and 20% relative humidity and tested in machine direction with a crosshead speed of 20 inches/min and 2 inch initial grip separation. As used herein "flexible" with respect to the band refers to having an elongation at break of at least 100%. The elongation at break may be at least 200%, at least 300%, at least 400%, and even about
500%. The preferred elongation is chosen based on the flexibility of the substrate to which the band is bonded.
The sleeves will be described herein with reference to exemplary preferred embodiments wherein the sleeves are suitable for retroreflective traffic device articles. With reference to FIG. 1, in one exemplary embodiment the present invention is a triangular-shaped sleeve 100 comprising a flexible substrate (e.g. fabric mesh) 20 and at least one, and preferably two reflective bands 22 bonded to the viewing surface of the fabric. The substrate comprises a base arcuate edge 12 and optional top arcuate edge parallel to the base arcuate edge and a pair of side edges. The edges (e.g. 10) of the reflective bands are also arcuate. The reflective sleeve preferably comprises at least two bands 22 aligned substantially parallel with the base arcuate edge. Upon joining the side edges 14 and 16 to each other a conical shape is formed. Side edges 14 and 16 form an included angle ø, which for cones is generally at least about 30 degrees and often much larger depending on the pitch of the cone. The cone-shaped sleeve is provided on the outer viewing surface of a cone-shaped support such as shown in FIG. 2. The edges (i.e. 14 and 16) may be joined (e.g. sewn seam) before application to the support. This is preferred for embodiments wherein the support is for example a retractable coil. For conventional traffic devices (e.g. conventional cones and barrels molded from polyvinyl chloride) the suitably shaped flexible fabric comprising the reflective band(s) may be applied to the support concurrent with the joining of edges 14 and 16.With reference to FIG. 3, in another exemplary embodiment the present invention is a rectangular-shaped sleeve 200 comprising a flexible substrate 20 and at least one, and preferably two reflective bands 22 bonded to the viewing surface of the fabric. The sleeve generally comprises a pair of peripheral parallel edges (e.g. first pair having edges 24 and 26 and second pair having edges 30 and 32, each pair typically being straight and equal in length. Upon joining side edges 24 and 26 a cylindrical shaped sleeve is formed suitable as an outer cover for a cylindrical-shaped support as depicted in FIG. 4.
FIG. 5 depicts an exemplary cone collar in accordance with the present invention. Advantageously, due to the flexibility of the collar a single cone collar can be used with cones having slightly different conical pitch (e.g. within about 5 degrees) without the collar buckling.
Typically traffic cones as well as other traffic control articles are a conspicuous color (e.g. fluorescent orange) and a cone collar or sleeve is employed to provide the reflective bands. In such embodiments, the sleeve substrate may be transparent or the same color as the support. Alternatively, however, a sleeve comprising a non-reflective flexible substrate may be provided on the viewing surface of a support. For traffic uses, the sleeve substrate is typically a conspicuous color such as orange, coral, yellow, yellow-green, and red, and especially fluorescent colors. In doing so, the sleeve, rather than the support (e.g. molded polyvinyl chloride cone) can provide conspicuity. This aspect is surmised particularly advantageous for refurbishing traffic devices (e.g. cones, signs) that no longer meet color and/or reflectivity standards. Although reflective bands are preferred and often required for (i.e. nighttime) traffic control uses, the presence of such bands are not needed for other uses such as daytime utility and construction work. Non-reflective sleeves may also be provided on a support for other uses such as advertising and display. The viewing surface of the sleeves typically includes symbols, printed indicia, graphics, and combinations thereof.
For embodiments that include retroreflective bands, the bands may be positioned in any arrangement. Further, the bands may be of the same or different including a variety of colors. Some preferred designs are described in International Application No. WO99/24671 (published May 20, 1999). Preferably, however, two bands are positioned in the approximate mid-section of the sleeve as depicted in FIGS. 1-2 and 4. The cone collar of FIG. 5 includes an upper band and a lower band, each band comprising a common peripheral edge with the flexible substrate and a central area of the exposed flexible substrate that divides the upper band and the lower band. The sleeve may also include additional bands above the upper band or below the lower band. In forming the sleeve (e.g. cone collar), the opposing side edges may be overlapped, spliced so that the edges meet to form a butt joint, or placed so that the edges do not contact each other, but are in close proximity. For instance wherein the edges are in close proximity, the distance in separation is typically less than 1 cm. Such separation is not considered an "opening". Alternately, fastening means may be used to hold the sleeve edges in juxtaposition. Both mechanical and/or chemical fastening means may be used to hold the sleeve edges in a wrapped condition prior to placement onto the cone. Chemical means include for example double stick tape, pressure-sensitive adhesives, and thermal adhesives. Mechanical means include as examples stitching, staples, rivets, brackets, hooks, and hook and loop fasteners. Other fastening means include welding techniques. For instances wherein the flexible substrate is a mesh-like fabric having a plurality of small openings, a heat activated adhesive (e.g. polyurethane based) is preferred. Further, with the exception of sewing, mechanical fastening means are less desired than chemical means due to the tendency of such fastening devices to reduce the flexibility of the sleeve such that collapsing upon itself is impaired. Further, mechanical fastening means such as staple and rivets may have a tendency to pierce holes in the flexible substrate of the sleeve.
The thickness of the flexible substrate typically ranges from about 0.025 mils to about 0.10 mils. The flexible substrate may be reflective, retroreflective or non-reflective, yet is typically different in appearance than the bands either in color and/or reflective properties. Preferably the flexible substrate is stretchable. The flexible substrate preferably comprises a fabric. The fabric may be woven, knit, or non- woven such as an open weave mesh. Non-woven fabrics are suitable for uses wherein extended durability of the sleeve is not needed. For traffic devices the fabric is typically woven or knit and comprised of a durable polymeric material. Polyester, nylon, polyvinyl chloride as well as natural fibers such as cotton may be employed including blends of such fibers. For improved stretchability, the fabric may comprise elastomeric fibers as well. In the case of retractable traffic devices (e.g. cones), the fabric typically comprises a mesh or mesh-like material. The multitude of openings increases the flexibility of the sleeve as well as allows wind to blow through the sleeve. Alternatively, the flexible substrate may be a flexible film such as polyvinyl chloride, polyurethane, and neoprene rubber. The thickness of the reflective bands generally ranges from about 0.0025 mils to about 0.050 mils. Preferably the thickness is less than 0.005 mils. Further, the bands may be in the form of letters or symbols. The reflective bands may be provided in the form of retroreflective sheeting. The two most common types of retroreflective sheeting suitable for use are microsphere-based sheeting and cube corner-based sheeting. Microsphere sheeting, sometimes referred to as "beaded sheeting," is well known to the art and includes a multitude of microspheres typically at least partially embedded in a binder layer, and associated specular or diffuse reflecting materials (such as metallic vapor or sputter coatings, metal flakes, or pigment particles). There are also "slurry coated" and lens-based sheetings in which the beads are in spaced relationship to the reflector but in full contact with resin. There are also "exposed lens" retroreflective sheetings in which the reflector is in direct contact with the bead but the opposite side of the bead is in a gas interface. Illustrative examples of microsphere-based sheeting are disclosed in U.S. Pat. Nos. 4,025,159 (McGrath); 4,983,436 (Bailey); 5,064,272 (Bailey); 5,066,098 (Kult); 5,069,964 (Tolliver); and 5,262,225 (Wilson). Cube corner sheeting, sometimes referred to as prismatic, microprismatic, or triple mirror reflector sheetings, typically includes a multitude of cube corner elements to retroreflect incident light. Cube corner retroreflectors typically include a sheet having a generally planar front surface and an array of cube corner elements protruding from the back surface. Cube corner reflecting elements include generally trihedral structures which have three approximately mutually perpendicular lateral faces meeting in a single corner — a cube corner. In use, the retroreflector is arranged with the front surface disposed generally toward the anticipated location of intended observers and the light source. Light incident on the front surface enters the sheet and passes through the body of the sheet to be totally internally reflected by the faces of the elements, so as to exit the front surface-in a direction substantially toward the light source. The light rays are typically reflected at the lateral faces due to total internal reflection, or by reflective coatings, as previously described, on the back side of the lateral faces. The cube corner-based retroreflective sheeting for use in the invention is "flexible," "conformable," or "embossable". Illustrative examples of such sheeting are disclosed in U.S. Pat. Nos. 5,138,488 (Szczech); 5,387,458 (Pavelka); 5,450,235 (Smith); 5,605,761 (Burns); 5,614,286 (Bacon); 5,066,098 (Kult et al.); and 4,896,943 (Tolliver et al). The coefficient of retroreflection of the retroreflective sleeve varies depending on the desired properties of the finished article. In general, however, the retroreflective sleeve typically has a coefficient of retroreflection ranging from about 5 to about 1500 candelas per lux per square meter at 0.2 degree observation angle and -4 degree entrance angle, as measured according to ASTM E-810 test method for coefficient of retroreflection of retroreflective sheeting. The coefficient of retroreflection is preferably at least 10, more preferably at least 15, and even more preferably at least 20 candelas per lux per square meter. Typically traffic devices, have a coefficient of retroreflection of at least 100 candelas per lux per square meter and preferably at least 200 candelas per lux per square meter. Preferably, the retroreflective sleeve has a retroreflectivity under wet or rainy conditions of not less than 70% of its retroreflectivity under dry conditions. Further description of retroreflection and retroreflective sheeting is found in "Standard Specification for Retroreflective Sheeting for Traffic Control" ASTM D 4956-94 (November 1994).
Unlike the retroreflective sheeting formerly employed for making cone collars, in the present invention the retroreflective sheeting is preferably substantially free of a backing and substantially free of a top film, particularly those backings and top films that reduce the flexibility of the sheeting. In such embodiments the retroreflective layer preferably consists essentially and more preferably solely of a multitude of microspheres typically at least partially embedded in a binder layer and an associated specular or diffuse reflecting material. Such reflective band materials are described in U.S. Patent Nos.
4,955,690 and 5,344,705. Suitable reflective band materials are commercially available from 3M Company ("3M"), St. Paul, MN under the trade designation "Scotchlite Reflective Material Transfer Film" in a variety of colors (e.g. silver, white, fluorescent orange, fluorescent yellow). "Scotchlite Reflective Material Transfer Film 8710" ("8710") conveniently includes a heat-activated polyurethane adhesive. This material has a silver color when viewed during daylight and a white reflected color. The coefficient of retroreflection (RA) averages 500 candelas per lux per square meter with a minimum of 330 when measured according to ASTM E810 at an entrance angle of -4.0° and observation angle 0.2°. Further, the coefficient of retroreflection (RA) averages 300 with a minimum of 250 candelas per lux per square meter when measured according to ASTM
E810 at an entrance angle of 5.0° and observation angle 0.33°. Other physical properties of this material include that it may be flexed 7500 cycles employing ISO 7854, Method A, that is it washable 25 cycles at 60°C with ISO 6330 Method 2A, and that it passes a cold fold evaluation according to ISO 4675.
Alternatively, the retroreflective layer may further comprise a fabric backing. However, such fabric backing is not exposed on the viewing surface of the sleeve. Suitable retroreflective materials that include a fabric backing are commercially available from 3M under the trade designation "Scotchlite Material Fabric 8910" and "Scotchlite Material Fabric 8965".
The reflective sheets (e.g. "8710") as well as the flexible substrate (fabric) can be hand cut, die cut, or cut electronically using a computer controlled machine. Volume cutting can be accomplished by methods such as band sawing, roll cutting, or guillotining.
Such methods can be used for forming the retroreflective sheeting into pieces having the desired shape for forming sleeves.
The reflective bands are then bonded to the flexible substrate. Bonding the reflective sheeting may involve passing an adhesively .coated (e.g. pressure sensitive adhesive, water-based adhesive; solvent -based adhesive) reflective band through a nip of a pair of rolls together with the flexible -substrate to apply sufficient pressure to form an adequate bond. Typically the reflective bands cannot be removed by hand at ambient temperature from the flexible substrate without tearing the reflective band. For traffic devices, such adhesion is maintained at temperatures ranging from 0°F to 120°F. Preferably, particularly in the case of mesh-like fabrics a heat-activated adhesive is employed. In such embodiment, the reflective band may be subjected to preheating prior to passage through the rolls, or the rolls may be heated to achieve the necessary activation. Ultrasonic welding, sewing and other bonding techniques are also suitable particularly for embodiments wherein both the flexible substrate and the reflective bands are comprised of fabric or polymeric coated fabric. In the case of adhesive bonding, the band and/or the flexible substrate may comprise pre-applied pressure sensitive or heat activated adhesive. Pre-applied pressure sensitive adhesive often is covered with a release liner that is removed prior to bonding. Alternatively, an adhesive (e.g. water based, solvent based, hot melt) may be applied to the band and/or flexible substrate immediately prior to bonding. Flexible bands can also be created by applying (e.g. spraying) a reflective liquid onto the
(e.g. mesh) sleeve. The sleeve having one to two openings is applied to a support. In the case of traffic devices the supports generally have a conical shape or cylindrical shape such as cones, drums, stakes, tubes, and posts. In the case of roll-up signs, the support is typically a sign support such as described in U.S. Patent Nos. 3,894,707; 4,066,233; 4,094,487; 4,125,240 and 4,211,381. In the case of sign masks that are used to temporary cover a traffic sign, the support is a sign. The support may comprise a polymeric material that is described as being flexible, yet is substantially more rigid than the sleeve, as in the case of conventional cones comprises of polyvinyl chloride for example. The reflective sheeting may be applied manually. One such approach is to place a non-adhesive coated cone collar sleeve over the cone after an adhesive has been applied to the cone, generally by brushing on a liquid adhesive. A second approach is to apply a flat cone sleeve having adhesive coated on it to the cone, i.e. without first bonding the edges (e.g. 14 and 16 of
FIG. 1).
Alternatively, a support means may be provided that is suitable for use in combination with the sleeve forming a retractable traffic device. A suitable support means includes a coiled spring that has a conical or cylindrical shape when extended. A retractable traffic cone in the absence of having a reflective band with a coil having a conical-shape upon extension and a conical-shaped fluorescent orange mesh sleeve covering the coil is commercially available from orldwide Safety Incorporated, Sacramento, CA under the trade designation "Flexible Marker Device". Illustrative of the present invention is the following example.
Example 1-2 Preparation of the Sleeves
Retroreflective sheeting commercially available from 3M, St. Paul, MN under the trade designation "Scotchlite Reflective Material Transfer Film 8710" was hand cut into two radius bands that measured approximately 4" x 23.5" for the bottom band and 6" x 17.5" for the top band. The "Scotchlite Reflective Material Transfer Film 8710" comprises a microsphere-based adhesive in combination with a polyurethane heat activated adhesive. The bands were applied to a fluorescent vinyl 10 ounce knit mesh fabric product commercially available from Twitchell Company, Dothan, Alabama under the trade designation "K80-636-009" that had been cut into a triangular shape having a height of 31 "tall, a base of 35" width that tapered to a width of 5". The two bands were laminated to the vinyl knit mesh as described below. In Example 1 the bands were laminated to the mesh using a 4' x 6' heat lamp vacuum applicator table set at 220°F for two minutes with 26 mercury inches of vacuum pressure in combination with a heat press at 250°F for 15 seconds.
In Example 2 the bands were laminated to the mesh using a standard conveyor oven (10 feet long and set at 265°F) with a nip roller at the end of the oven (12 seconds dwell time and 5 lbs of pressure).
The bonded pieces could be fabricated into a conical shape by sewing or fastening the longitudinal ends together, thus creating a cone mesh jacket that is retroreflective. The completed cone jacket can be used on a retractable cone or on a standard polyvinyl cone, polyethylene cone or rubber cone. The flexibility of the band material was evaluated using ASTM D 882 with a crosshead speed of 20 inches/min and 2 inch initial grip separation. The "Scotchlite Reflective Material Transfer Film 8710" ("8710") was compared to cone collar sheeting commercially available from 3M under the trade designation "Scotchlite Brand High Intensity 3840 Cone Sleeve" ("3840"). The 3840 material was found to be too rigid for use on retractable cones having a coil and a mesh outer sleeve. The results are as follows:
8710 3840
% Elongation at Break 550% 50%
The results demonstrate that 8710 is significantly more flexible than 3840.

Claims

What is claimed is:
1. A retroreflective sleeve for application to a support comprising a flexible substrate having a viewing surface and a non- viewing surface and at least one retroreflective band bonded to a flexible substrate wherein a portion of the flexible substrate is exposed on the viewing surface.
2. The method of claim 1 wherein the flexible substrate is non-retroreflective.
3. The retroreflective sleeve of claim 1 wherein the retroreflective band is at least as flexible as the flexible substrate.
4. The retroreflective sleeve of claim 1 wherein the band has an elongation at break of at least 100% according to ASTM D 882.
5. The retroreflective sleeve of claim 1 wherein the band has an elongation at break of at least 200% according to ASTM D 882.
6. The retroreflective sleeve of claim 1 wherein the band has an elongation at break of at least 300% according to ASTM D 882.
7. The retroreflective sleeve of claim 1 wherein the retroreflective band is substantially free of backing.
8. The retroreflective sleeve of claim 7 wherein the retroreflective band consists essentially of microspheres at least partially embedded in a binder layer and specular or diffuse reflecting material.
9. The retroreflective sleeve of claim 7 wherein the retroreflective band comprises a fabric backing.
10. The retroreflective sleeve of claim 7 wherein the retroreflective band comprises an adhesive.
11. The retroreflective sleeve of claim 10 wherein the adhesive is heat activated.
12. The retroreflective sleeve of claim 1 wherein the substrate comprises a base arcuate edge and a top arcuate edge parallel to the base arcuate edge and a pair of side edges.
13. The retroreflective sleeve of claim 12 wherein the retroreflective sleeve comprises at least two bands aligned substantially parallel with the base and top arcuate edges.
14. The retroreflective sleeve of claim 12 wherein upon joining the side edges a conical shape is formed.
15. The retroreflective sleeve of claim 14 wherein the conical shape comprises a single opening about the base arcuate edge.
16. The retroreflective sleeve of claim 14 wherein the conical shape comprises a pair of openings about each arcuate edge forming a cone collar.
17. The retroreflective sleeve of claim 16 wherein a first band shares a common edge with the base arcuate edge and a second band shares a common edge with the top arcuate edge and the fabric is exposed between the first and second bands.
18. The retroreflective sleeve of claim 1 wherein the substrate is rectangular having two pairs of parallel edges.
19. The retroreflective sleeve of claim 18 wherein upon joining one pair of edges a cylindrical shape is formed.
20. The retroreflective sleeve of claim 1 wherein the flexible substrate is selected from fabric, mesh and film.
21. The retroreflective sleeve of claim 1 further comprising a support selected from cones, drums, tubes, stakes, posts, coils, sign support, and traffic sign.
22. The retroreflective sleeve of claim 21 wherein the support has a viewing surface and the sleeve covers a portion of the viewing surface of the support.
23. The retroreflective sleeve of claim 21 wherein the support has a viewing surface and the sleeve covers substantially the entire viewing surface of the support.
24. The retroreflective sleeve of claim 1 wherein the support is a color and the flexible substrate is the same color as the support.
25. The retroreflective sleeve of claim 1 wherem the flexible substrate is a conspicuous color.
26. The retroreflective sleeve of claim 25 wherein the substrate is a fluorescent color.
27. An article comprising a support having a substantially continuous viewing surface and a non-retroreflective conspicuously colored sleeve substantially covering the viewing surface of the support.
28. The retroreflective article of claim 27 wherein the retroreflective sleeve further comprises a retroreflective band.
29. An article comprising a support and a non-retroreflective sleeve having a viewing surface comprising at least one of indicia, symbols, graphics, and combinations thereof.
30. A roll-up sign comprising the sleeve of claim 1.
31. A method of making a retroreflective sleeve comprising providing a flexible substrate that is triangular or rectangular in shape; providing at least one retroreflective band; and bonding the band to the flexible substrate.
32. The method of claim 31 wherein the retroreflective band is a transfer film.
33. The method of claim 31 wherein bonding is achieved by laminating the transfer film at a temperature ranging from about 150°C to 200°C.
34. The method of claim 31 wherein the retroreflective transfer film consists essentially of a multitude of microspheres at least partially embedded in a binder layer and associated specular or diffuse reflecting material.
35. The method of claim 31 wherein the retroreflective band is substantially free of backing.
36. A method of making a retroreflective sleeve comprising providing a flexible substrate; providing at least one retroreflective band; bonding the band to the flexible substrate forming a laminate; and forming the laminate into a triangular or rectangular shape.
PCT/US2004/001163 2003-01-24 2004-01-19 Flexible sleeve WO2004067849A2 (en)

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CN1742141A (en) 2006-03-01
US20040146693A1 (en) 2004-07-29
WO2004067849A3 (en) 2004-09-16
US20040146677A1 (en) 2004-07-29

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