Recreational activities frequently include essential surfaces that are susceptible to damage from exposure to one or more surface damaging phenomena. For example, typical surface damaging mechanisms include physical contact resulting from participant interaction, exposure to inclement environmental conditions, and others. In this regard, maintenance and protection is required to safeguard a participant from injury and increase the lifetime of the surfaces.
Aspects of the disclosure may be more completely understood in consideration of the following detailed description of various embodiments of the disclosure in connection with the accompanying drawings, wherein:
The example embodiments described in the following disclosure are provided by way of illustration only and should not be construed as limiting. Various modifications and changes may be made to the example embodiments described below without departing from the true spirit and scope of the disclosure.
The present disclosure relates generally to a device for the protection of one or more surfaces used, for example, in a recreational activity, such as a pastime or a game. More specifically, the present disclosure relates to a portable, retractable surface protection device to protect one or more surfaces of a baseball field, such as a home plate and a pitching mound.
Although the following embodiments are directed towards the game of baseball, the device and methods of the present disclosure are applicable to any situation where it is desirable to provide protection of one or more surfaces from a wide variety of surface degrading phenomena.
Referring now to
In one aspect, first surfaces 110 are rectangular in shape and have a surface area defined by a length L and a width W. Further, as depicted, second surfaces 115 are circular in shape and have a surface area defined by a radius R. In general, one or more of a plurality of surfaces having various shapes, geometries, and associated surface areas can be defined within the boundary 105 with respect to an orthogonal x-y-z coordinate axis.
Referring now to
Enclosed within a perimeter defined by the boundary 202 is a pitching mound 205 including a pitching rubber 210, a first base 215, a second base 220, a third base 225, and a home plate area 230. A base path 235 is additionally shown. In general, pitching mound 205 and respective areas 215, 220, 225, and 230 are susceptible to damage from one or more surface degrading phenomena such as; intentional physical contact, unintentional physical contact, or environmental conditions, among others.
In the example embodiment, the physical integrity of the pitching mound 205 and respective areas 215, 220, 225, 230 is critical to the quality of the game, well-being of the game players, respective surface longevity, and other factors as well. In this regard, protection of one or more of the described areas 205, 215, 220, 225, and 230 from a plurality of conditions is desirable.
For example, in one aspect it may be desirable to protect the pitching mound 205 or any other respective surfaces 215, 220, 225, 230 from rain or other inclement weather with a surface protection device 300 such that damage (e.g., erosion, water saturation, etc.) does not occur. In a second example, it may be desirable to protect home plate 230, plus an additional supplemental area (e.g., a batter's box), with a similar surface protection device 300 between innings of a baseball to protect home plate and the supplemental area from unwanted abuse. Other uses are possible.
In certain embodiments, the surface protection device 300 can be stored and retrieved for deployment from a designated area of the baseball field 200. For example, one surface protection device 300 can be stored at a first area 250 along a first boundary 255 of the baseball field 200. Similarly, another surface protection device 300 can be stored at a second area 260 along a second boundary 265 of the baseball field 200. In this manner, the first and second surface protection devices 300 can easily be retrieved from respective areas 250, 260 when required. Other configurations are possible.
Referring now to
In one embodiment, the surface protection device 300 includes a support bar 305 having a first end 325 and a second end 330, a first support base 310, a second support base 315, and a grip handle 350. In one embodiment, support bar 305 is a cylindrical bar. In general, elements 305, 310, 315 and 350 are dually provided to enable actuation of a surface covering 320 to cover a surface, and to facilitate the movement of the surface protection device 300 to a desired location, such as for example, within activity area 100 as shown in
In general, first support base 310 is a U-shaped bracket member and is positioned to the first end 325 of support bar 305. First support base 310 includes a main support member 335 and a plurality of secondary support members 340 integrally formed with and extending from the main support member 335 to form the U-shape. In one embodiment, each of the plurality of secondary support members 340 are terminated with a stabilizer footing 345 such that, for example, the surface protection device 300 rests stably on a ground surface 394.
In one embodiment, grip handle 350 is “step-shaped” and includes a connector portion 355, a lever portion 360, and a handle portion 365. The connector portion 355 of the grip handle 350 is positioned through a first receiving aperture 370 formed on the main support member 335 and is connected to the first end 325 of the support bar 305. In one embodiment, connector portion 355 is aligned with a longitudinal axis, A. Axis A is additionally coincident with a primary longitudinal axis (not shown) of the support bar 305.
The second support base 315 is generally positioned to the second end 330 of the support bar 305. In one embodiment, second support base 315 includes an axle 375, a second receiving aperture 380. A plurality of support members 385 are positioned between the axle 375 and the second receiving aperture 380. Second end 330 of support bar 305 is positioned through second receiving aperture 380.
The second support base 315 additionally includes a plurality of wheels 390 positioned on the axle 375. In general, wheels 390 enable the surface protection device 300 to be easily transported to a desired location such as within boundary 202 as shown in
In the example embodiment, surface covering 320 has a length L and a width, W and includes a fixed end 400 connected to the support bar 305 and a free end 405 opposite of the fixed end 400. In this manner, surface covering 320 is wrapped onto the support bar 305. In certain embodiments, the length L is much greater than the width W, and the surface covering 320 can be positioned from the retracted position to a partially or a fully deployed position. The length L and width W can be modified based on intended uses. For example, the length L and/or width W can be increased or decreased to cover more or less surface area depending on the size of the area to be covered.
Surface covering 320 includes a hand grip 415 positioned on the free end 405. In certain embodiments, hand grip 415 can be utilized to unroll the surface covering 320 as desired from the retracted position to a deployed position by pulling the hand grip 415 in a direction B. Further, hand grip 415 enables a user to manipulate and position the surface covering 320 on a ground surface 394 when in the fully or partially deployed position.
In other example embodiments, surface covering 320 can be extended from the retracted position to a partially or a fully deployed position, or unwrapped, via handle portion 365 rotation in either a counterclockwise or a clockwise direction, depending on a direction the surface covering 320 is wrapped on the support bar 305. To remove the surface covering 320, the handle portion 365 can be rotated in the opposite direction to wrap the surface covering 320 back onto the support bar 305.
In some embodiments, rotation of the support bar 305 can be limited before or after deployment of the surface covering 320. For example, once the surface covering 320 is completely rolled onto the support bar 305, a locking mechanism (not shown) can be actuated to stop the support bar 305 from rotating in the opposite direction to minimize the possibility of accidental deployment of the surface covering 320 during transport. In addition, the free end 405 of the surface cover 320 can be coupled to another locking mechanism (not shown) to stop the free end 405 from dragging or catching on other items during transport. Other configurations are possible.
In certain embodiments, a plurality of removable weights 420 is incorporated into surface covering 320. In one embodiment, weights 420 are incorporated into an outer edge of the surface covering 320. It will be appreciated that the respective weights 420 provide a stabilizing mechanism for surface covering 320 in the deployed or partially deployed positions by at least partially restricting movement of surface covering 320. For example, the weights 420 can stabilize the covering 320 so that the covering 320 is not displaced by environmental conditions such as wind.
In general, surface covering 320 is formed from a durable, water resistant material. In one example embodiment, surface covering 320 is formed from a tarpaulin material such as latex or a polyvinyl chloride. Other types of materials, such as polymeric or fabric materials that limit the passage of water and other debris therethrough, can also be used.
Referring now to
Initially, at operation 1005, surface protection device is orientated to an angled, mobile position from a horizontal position. In the horizontal position, both the respective wheels and the stabilizer footings are in contact with the ground surface. Once orientated to the mobile position only the respective wheels are in contact with the ground surface.
Next, at operation 1010, surface protection device is wheeled to a desired location within a recreational area. Surface protection device is for example moved to the vicinity of a pitching mound or a home plate.
Next, at operation 1015, support surface covering is unwrapped from a retracted position to a fully or a partially deployed position such that at least an entire area of a desired surface is covered. In certain embodiments, support surface covering can be deployed and situated accordingly via manipulation with the handle grip positioned on the free end. Alternatively, grip handle can be utilized to unwrap a desired portion of the support surface covering.
Next, at operation 1020, support surface covering is retracted from the deployed position to a retracted position by rotating the grip handle in a first direction to wrap the support surface covering onto the support bar and is secured.
Flow proceeds back to operation 1005 wherein the surface protection device is moved from the horizontal position to the mobile position and wheeled to a desired location such as a storage area.
The preceding embodiments are intended to illustrate without limitation the utility and scope of the present disclosure. Those skilled in the art will readily recognize various modifications and changes that may be made to the embodiments described above without departing from the true spirit and scope of the disclosure.
This application claims the benefit of U.S. patent application Ser. No. 61/103,664 filed on Oct. 8, 2008, the entirety of which is hereby incorporated by reference.
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Number | Date | Country | |
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20100084100 A1 | Apr 2010 | US |
Number | Date | Country | |
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61103664 | Oct 2008 | US |