The disclosure generally relates to items that protect marking devices configured to be secured to a floor and, more particularly, to a perimeter protective device the limits damage of floor signs. More specifically, the disclosure relates to a multi-section ring-shaped protective device having both its inner and outer surfaces tapered down from an upper surface that is disposed higher than the upper surface of a floor sign.
Different types of floor signs are located on floor surfaces in a wide variety of facilities. The floor signs typically are adhered to the floor. The floor signs are typically paper-based or polymer. Such signs are sized to be seen and read by people driving fork lifts and other vehicles. These signs can have a width of one to two feet in width or diameter. Floor signs are designed to be walked and driven over which leads to wear and tear on the edges and uppers surfaces of the signs. In some facilities, the dragging or sliding of crates, plastic tubs, totes, metal racking with and without casters, pallet jacks, corrugated bins, toolboxes, and pallet drags damage the signs to a degree where they have to be replaced.
When small adhesive labels are applied to a floor (for example in front of shelving or storage bins), single-piece frames have been placed over and around the labels with and without covering the label with a clear cover. These metal frames provide protection to the labels. Such labels are also protected by covering the entire label with a clear piece of adhesive-backed material that laminates the label to the floor.
The disclosure provides a protective device that is installed about the outer edge or outer edges of a floor sign. The main body portion of the protective device is taller than the thickness of the sign such that a device will ride on the top of the protective device as it passes over the floor sign. The protective device includes a ramped or tapered outer edge that helps a device to slide up onto the top surface of the protective device and decrease the impact force of the device when it initially encounter the protective device. In the exemplary configuration, the inner edge of the protective device is also ramped or tapered down to at least the height of the floor sign. The protective device is made from a hard material that is impact resistant and provides a smooth lower friction upper surface. A semi-rigid or rigid PVC can be used. A polycarbonate can be used.
The protective device is installed around the outer perimeter of a vinyl or paper floor sign or label. The device allows pallets to travel up and over the sign/label. The sign/label is usually made from a less durable, easier to tear substrate material typically having with a straight 90 degree edge. The sign/label is usually more narrow than a pallet which allows the pallet to ride over the sign/label on the protective device instead of impacting the edge of the sign/label and then scraping the upper surface of the sign/label.
The disclosure provides a protective device that is applied about the perimeter of the floor sign in multiple sections. The ends of the sections are ramped or tapered in the same manner as the inner and outer edges such that the abutment of two sections of the protective device has a low height which is less than the thickness of the floor sign. This low abutment prevents the protective device from retaining liquid on top of the sign.
The disclosure provides a protective device that is adhered to the floor about the perimeter of the floor sign. In the exemplary configuration, no portion of the protective device overlaps the edge of the floor sign.
The individual features may be combined in different combinations than specifically described below to form different configurations of the device of the disclosure. The preceding non-limiting aspects of the disclosure, as well as others, are more particularly described below. A more complete understanding of the devices, assemblies, and methods can be obtained by reference to the accompanying drawings, which are not intended to indicate relative size and dimensions of the assemblies. In those drawings and the description below, like numeric designations refer to components of like function. Specific terms used in that description are intended to refer only to the particular structure of the embodiments selected for illustration in the drawings, and are not intended to define or limit the scope of the disclosure.
An exemplary configuration of a two-section protective device is indicated generally by the reference numeral 2 in the accompanying drawings. Protective device 2 is installed directly on a floor 100 around the outer perimeter of a floor sign 102 to protect floor sign 102 from wear and tear. In the exemplary configuration, no portion of protective device 2 overlaps floor sign 102 and no portion of protective device 2 is connected to floor sign 102. Protective device 2 is taller than floor sign 102 and thus causes items to ride on protective device 2 instead of sliding across floor sign 102. Protective device 2 thus absorbs a majority of the impact forces of an item sliding across floor 100 over sign 102 and can prevent some items from contacting sign 102.
Protective device 2 is made up of either a continuous single section with no ends, a single section with two abutting ends, or a plurality of sections 4 disposed about the outer perimeter of floor sign 102. When arranged with their ends aligned, sections 4 enclose an area which is where the sign is located. The inner edges of sections 4 can contact the outer edge of floor sign 102. In the exemplary configuration, each section 4 is a portion of a circle. Two semi-circular sections 4 for a circular sign 102 are depicted in the drawings but other numbers of sections can be used to make up the entire circle and each section can make up a different percentage of the circle. Other numbers of sections can be used such as four, six, or eight to match square, hexagonal, and octagonal sign shapes. When installed, the ends 10 of sections 4 are aligned to define an enclosed area that matches the shape of the sign 102 that is being protected by device 2. When installed, ends 10 are either closely spaced (spaced apart a distance less than the width of the tapered edge as shown in
Each section 4 has a body that has an upper surface 26 and a lower surface in contact with an adhesive 27 that connects section 4 to floor 100. The lower surface of section 4 can be generally flat and uninterrupted or can define a recess which receives adhesive 27. Upper surface 26 can be: flat between edges 20 and 22 (as shown in
When configured for a circular floor sign 102, protective device 2 has an inner diameter of 17.5 inches (with an outer diameter of 19.5 inches) as depicted in
Sections 4 can be made from a hard, impact-resistant polymer. The polymer may be substantially transparent or colored to match floor sign 102. Both the transparent and matching color options minimize the visibility of device 2. Sections 4 can be made from PVC or polycarbonate. The PVC can be a semi-rigid PVC with a Shore D hardness of 83 to 95 (ASTM D224). An example material is Vintec I®. The material is impact resistant. The polycarbonate can have a Rockwell hardness of 125 on the R scale and 70 on the M scale (ASTM D-785). An example polycarbonate is sold by Palram Americas Ltd. under the PALSUN® trademark.
An adhesive is used to connect the body to the floor surface. An example adhesive is a permanent pressure sensitive acrylic adhesive. An example is part number FLX012731-FLEXmount®—sold by FLEXcon Company, Inc. with is a 4 mil adhesive supported on a release liner. The release liner is removed from the adhesive before device 2 is installed. Another exemplary adhesive is AP9104 by Applied Products which is a 4 mil acrylic adhesive.
Each section 4 has a tapered outer edge 20, a tapered inner edge 22, and first and second tapered edges 24 at ends 10. Edges 20, 22, and 24 are tapered down from the upper surface 26 of section 4. The term ‘tapered’ means that the structures become thinner in one direction. The edges can become thinner at a constant rate or at a varying rate. The upper surface of a tapered edge can be straight as shown in the exemplary configurations or it can be curved. It can join with upper surface 26 at a distinct edge as shown in the drawings or be smoothly joined such as a curve that joins upper surface 26 tangentially and is thus a continuation of the surface. The upwardly-facing surface of each edge 20, 22, and 24 thus can be flat or curved. Each edge 20, 22, and 24 can be configured with the same geometry. In one example, the upper surface of the tapered portion forms an internal acute angle 28 which can be fifteen to thirty degrees with a flat floor surface. The exemplary configuration has angle 28 at nineteen degrees. In another exemplary configuration, angle 28 is twenty to twenty-four degrees and can be twenty-two degrees. Edge 20 is tapered to a low point or junction 30 close to the floor. Junction 30 is where the upper surface 32 of the tapered edge 20 meets the lower surface 34 of the tapered edge 20. Although it is desired to have junction 30 as pointed, thin, and close to the floor surface as possible, manufacturing and material limitations give junction 30 a cross sectional shape such as a rounded or squared-off shape. Junction 30 thus has a height where upper surface 32 departs junction 30. Edge 22 is also tapered to a point or junction 40 close to the floor. Junction 40 is where the upper surface 42 of the tapered edge 22 meets the lower surface 44 of the tapered edge 22. Although it is desired to have junction 40 as pointed, thin, and close to the floor as possible, manufacturing and material limitations give junction 40 a cross sectional shape such as a rounded or squared-off shape. Junction 40 thus has a height where upper surface 42 departs junction 40. The height of junction 40 only needs to be less than the thickness of the outer edge of sign 102 and can thus be larger than the height of junction 30.
Ends 10 have tapered edges 24 that taper to a point close to the floor or to a junction height below the thickness of floor sign 102. The end shapes complement each other so that the shape of a first end of one section matches the shape of a second end of a second section. In the exemplary configuration, the end shapes are straight and are defined along a radius. Having ends 10 spaced apart or abutting but lower than the height of floor sign 102 defines liquid run-off channels that allow liquid disposed on floor sign to drain from the floor sign through the protective device 2.
In the foregoing description, certain terms have been used for brevity, clearness, and understanding. No unnecessary limitations are to be implied therefrom beyond the requirement of the prior art because such terms are used for descriptive purposes and are intended to be broadly construed. Moreover, the above description and attached illustrations are an example and the invention is not limited to the exact details shown or described. Throughout the description and claims of this specification the words “comprise” and “include” as well as variations of those words, such as “comprises,” “includes,” “comprising,” and “including” are not intended to exclude additives, components, integers, or steps.
This application claims the benefit of U.S. Provisional Patent Application No. 62/984,726 filed Mar. 3, 2020; the disclosures of which are incorporated herein by reference.
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U.S. Appl. No. 13/769,092, filed Feb. 15, 2013, Clifford A. Lowe, inventor. |
Admitted prior art, metal floor frames for labels, three examples. |
ASG Services, LLC, Aluminum Floor Label Frame, printed Mar. 3, 2020 from https://www.asgonlinestore.com/1-16-7-x-5-aluminum-floor-label-frame.html. |
Megadepot, Accumform DTF817, printed Mar. 3, 2020 from https://megadepot.com/catalog/safety/sign-posts-accessories/$1176.5-3000. |
DASKO Label, Metal Floor Frames, printed Mar. 3, 2020 from https://www.daskolabel.com/floor-labels/duracode-frames/. |
Camcode, Screw-Down Warehouse Floor Labels, printed Mar. 3, 2020 from https://www.camcode.com/screw-down-floor-labels.html. |
Insite Solutions, LLC, Floor Signs, printed Feb. 25, 2021 from https://stop-painting.com/products/floor-signs/. |
Insite Solutions, LLC, Pre-Cut Kits, printed Mar. 25, 2021 from https://stop-painting.com/floor-marking-tapes/pre-cut-kits/. |
Insite Solutions, LLC, Beveled Guard—Floor Sign Protector, printed Mar. 25, 2021 from https://stop-painting.com/beveled-guard-floor-sign-protector/. |
Stop-Painting.com, Youtube, Beveled Guards—The 3-Step Protection Plan, dated Mar. 17, 2021, printed Mar. 25, 2021 from https://www.youtube.com/watch?v=06WMvsUFTpY. |
Stop-Painting.com, Youtube, Beveled Ring Guards: How They Work to Protect your Floor Signs, dated Dec. 4, 2020 printed Mar. 25, 2021 from https://www.youtube.com/watch?v=xK_QaPu9fNQ. |
Number | Date | Country | |
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62984726 | Mar 2020 | US |