Embodiments of the disclosure include paving block units that are able to be set adjacent to one another to create a paving block system for fluid storage and drainage that allows both vertical and horizontal flow of fluid.
In urbanized areas, significant portions of land are paved over for roads, buildings, or other structures. In areas with high population a large percentage of ground space is being paved which leads to problems with controlling storm water drainage and raises issues with flash flooding.
Various methods of controlling storm water have been employed in the past. Most commonly utilized in the past has been a sewer system with water being directed into the sewer by various mechanical means. Additionally, various mechanisms known to persons having ordinary skill in the art have been employed, including but not limited to: detention ponds, retention ponds, holding ponds, and the like.
Most recently construction regulations have established that a specific percentage of land must be maintained as “green space”, i.e. unpaved ground which can allow water to drain. Further, many localities may require water detention or retention capabilities of a specified volume. Some installations may maintain underground fluid.
More importantly, as such may cities and counties have recently employed “non-permeable” lot and/or parcel area calculation whereby a developer is not allowed to build over a certain percentage of land using a “permeable” surface such as foundation, concrete, walks, parking etc. In most cities and counties it is found that a “permeable” surface is accepted as such to greatly reduce its calculation in respect to normal “non-permeable” paving surfaces. In most instances this allows the builder to increase is buildable footprint size, and to virtually eliminate an expensive “retention pond” when normally necessary. This most cases this increases the developers profit, and allows the developer to increase its project size.
While some such systems exist in the art (such as U.S. Pat. Nos. 5,797,698; 6,939,077; 8,459,896; and 8,251,607), various disadvantages limit the efficacy of such systems. Such systems are difficult to clean and maintain, and are often dependent upon drainage characteristics of the aggregate foundation and soil beneath. Some soil characteristics allow little or virtually no drainage vertically into the soil. In the greater Houston area by way of example, the soil is almost all comprised of clay “gumbo” where very little fluid infiltrates and penetrates into the soil below. In these areas many cities and counties now require a secondary pump system to be employed to move the standing water. Without a secondary pump these systems would otherwise create stagnant pockets of fluid that can allow for undesirable bacteria and mosquitoes to collect and breed, thereby creating a health hazard.
It is desirable, therefore to provide a system and apparatus that can allow for fluid storage and drainage in any direction, whether a horizontal plane or a vertical plane, and eliminate standing stagnant water prevalent on standard paving block systems that restrict horizontal fluid flow.
In one embodiment, a paving block system comprises a plurality of paving block units (A) and a plurality of paving block units (B) each comprising at least two channels formed along a bottom face of the paving block units, wherein the channels of the paving block units (A) are in fluid communication with the channels of the paving block units (B) when the paving block units are interlocked together to form the paving block system, wherein each paving block unit further comprises a plurality of spacers located on one or more sides of the paving block units to create voids between adjacent paving block units when the paving block units are interlocked together to allow fluid to flow freely along a vertical plane down the voids into the channels and notches, and wherein the channels and notches are in fluid communication with each other to allow fluid to flow freely along a horizontal plane beneath the paving block units when interlocked together.
In one embodiment, a paving block system comprises a plurality of paving block units (A) and a plurality of paving block units (B) each comprising at least two channels formed along a bottom face of the paving block units and a notch that provides cross flow between the channels, wherein each paving block unit further comprises a plurality of spacers located on one or more sides of the paving block units to create voids between adjacent paving block units when the paving block units are interlocked together to allow fluid to flow freely along a vertical plane down the voids into the channels and notches, wherein the spacers on the paving block unit (A) are located on the same relative sides as the spacers on the paving block unit (B), and wherein the channels and notches are in fluid communication with each other to allow fluid to flow freely along a horizontal plane beneath the paving block units when interlocked together.
In one embodiment, a paving block system comprises a plurality of paving block units each comprising at least two channels formed along a bottom face of the paving block units and a notch that provides cross flow between the channels, wherein each paving block unit further comprises a plurality of spacers located on one or more sides of the paving block units to create voids between adjacent paving block units when the paving block units are interlocked together to allow fluid to flow into the channels and notches, and wherein the channels and notches are in fluid communication with each other to allow fluid to flow beneath the paving block units when interlocked together for storage and drainage of fluid.
So that the manner in which the above recited features of the present disclosure can be understood in detail, a more particular description of the disclosure, briefly summarized above, may be had by reference to embodiments, some of which are illustrated in the appended drawings. It is to be noted, however, that the appended drawings illustrate only exemplary embodiments and are therefore not to be considered limiting of scope, as the disclosure may admit to other equally effective embodiments.
To facilitate understanding, identical reference numerals have been used, where possible, to designate identical elements that are common to the figures. It is contemplated that elements and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.
The embodiments disclosed herein relate to paving block units and a paving block system for fluid storage and drainage that allows for both vertical and horizontal flow of fluid, such as water. The paving block units and the paving block system as disclosed herein provide at least three (3) primary advantages over current paving block systems. First, the paving block units and the paving block system as disclosed herein are truly interlocking, in that the paving block units securely interlock with each other to form the paving block system without the need of any additional securing mechanism, such as cables. Second, the paving block units and the paving block system as disclosed herein allow both vertical and horizontal fluid flow, in that fluid can flow vertically down between adjacent paving block units and then flow horizontally across the surface beneath the paving block units to prevent stagnate pockets of fluid from forming. The fluid may flow in a continuous, unobstructed motion from vertical flow to horizontal flow. Third, the paving block units and the paving block system as disclosed herein provide an increased fluid penetration rate comparted to that of current paving block systems, in that the paving block units have an increased circumference area than current paving block units and about a ¼ inch spacing (e.g. a void) between adjacent paving block units that can result in an increased amount of fluid that can penetrate through the paving block system to maximize its rate of infiltration.
In one embodiment, a paving block system comprises one or more paving block units (A) configured to be interlocked with one or more paving block units (B), which when interlocked allows for both vertical and horizontal fluid flow. The paving block system prevents stagnant pockets of fluid from forming beneath the paving block system by allowing horizontal fluid flow in any direction. A secondary drainage system can be used along one or more edges of the paving block system to further remove the fluid.
The left member 130, the middle member 131, and the right member 132 extend from the bottom face 126 orthogonally towards the top face 125. The left member 130, the middle member 131, and the right member 132 together form a plurality of support members that are arranged to allow the paving block unit (A) 100 to be placed upon the ground or upon a foundation such that the top face 125 of the paving block unit (A) 100 lies in a substantially horizontal plane.
One of the beveled edges 20 is positioned along the edge that intersects the left face 124 and rear face 123 of the left member 130. Another beveled edge 20 is positioned along the edge that intersects the rear face 123 of the left member 130 and the left face 124 of the middle member 131. Another beveled edge 20 is positioned along the edge that intersects the left face 124 and the front face 121 of the left member 130. Another beveled edge 20 is positioned along the edge that intersects the front face 121 of the left member 130 and the left face 124 of the middle member 131.
One of the beveled edges 20 is positioned along the edge that intersects the right face 122 and the rear face 123 of the right member 132. Another beveled edge 20 is positioned along the edge that intersects the rear face 123 of the right member 132 and the right face 122 of the middle member 131. Another beveled edge 20 is positioned along the edge that intersects the right face 122 and the front face 121 of the right member 132. Another beveled edge 20 is positioned along the edge that intersects the front face 121 of the right member 132 and the right face 122 of the middle member 131.
The upper edge along the perimeter 60 of the top face 125 of the paving block unit (A) 100 is rounded edge. In other embodiments the upper edge along the perimeter 60 of the top face 125 of the paving block unit (A) 100 can be beveled or squared. The upper edge along the perimeter 60 helps direct fluid to flow vertically down into the spaces formed between adjacent paving block units as further described below.
One horizontal channel 150 partially separates the left member 130 from the middle member 131. The other horizontal channel 150 partially separates the right member 132 from the middle member 132. The horizontal channels 150 on the paving block unit (A) 100 extend through the paving block unit (A) 100 from the front face 121 to the rear face 123. The horizontal channels 150 allow fluid to flow in a horizontal direction 310 beneath the paving block unit (A) 100. The horizontal direction 310 is better shown in
In other embodiments there can be more than one middle member 131, thus creating more horizontal channels 150 between the left member 130 and the right member 132. Furthermore, the plurality of support members of the paving block unit (A) 100 are arranged such that the support members do not block the flow of fluid through the paving block unit (A) 100, and allow fluid flow into adjacent paving block units when interlocked into a paving block system. The dimensions of the height 31, the bottom width 30, the top width 32, and the depth of the horizontal channels 150 can be varied based upon the intended application.
The front member 230, the middle member 231, and the rear member 232 extend from the bottom face 226 orthogonally towards the top face 225. The front member 230, the middle member 231, and the rear member 232 together form a plurality of support members that are arranged to allow the paving block unit (B) 200 to be placed upon the ground or a foundation such that the top face 225 of the paving block unit (B) 200 lies in a substantially horizontal plane.
One of the beveled edges 20 is positioned along the edge that intersects the left face 224 and the rear face 223 of the middle member 231. Another beveled edge 20 is positioned along the edge that intersects the rear face 123 of the middle member 231 and the left face 224 of the rear member 232. Another beveled edge 20 positioned along the edge that intersects the left face 224 and the front face 221 of the middle member 231. Another beveled edge 20 positioned along the edge that intersects the front face 221 of the middle member 231 and the left face 224 of the front member 230.
One of the beveled edges 20 is positioned along the edge that intersects the right face 222 and the rear face 223 of the middle member 231. Another beveled edge 20 is positioned along the edge that intersects the rear face 223 of the middle member 231 and the right face 222 of the rear member 232. Another beveled edge 20 is positioned along the edge that intersects the right face 222 and front face 221 of the middle member 231. Another beveled edge 20 is positioned along the edge that intersects the front face 121 of the middle member 231 and the right face 222 of the front member 230.
The upper edge along the perimeter 70 of the top face 225 of the paving block unit (B) 200 has a rounded edge. In other embodiments the upper edge along the perimeter 70 of the top face 225 of the paving block unit (B) 200 can be beveled or squared. The upper edge along the perimeter 70 helps direct fluid to flow vertically down into the spaces formed between adjacent paving block units as further described below.
One horizontal channel 250 partially separates the front member 230 from the middle member 231. The other horizontal channel 250 partially separates the rear member 232 from the middle member 232. The horizontal channels 250 on the paving block unit (B) 200 extend through the paving block unit (B) 200 from the left face 224 to the right face 222. The horizontal channels 250 allow fluid to flow in a horizontal direction 320 beneath the paving block unit (B) 200. The horizontal direction 320 is better shown in
In other embodiments there can be more than one middle member 231, thus creating more horizontal channels 250 between the front member 230 and the rear member 232. Furthermore, the plurality of support members of the paving block unit (B) 200 are arranged such that the support members do not block the flow of fluid through the paving block unit (B) 200, and allow fluid flow into adjacent paving block units when interlocked into a paving block system. The dimensions of the height 41, the bottom width 40, the top width 42, and the depth of the horizontal channels 250 can be varied based upon the intended application.
Multiple spacers 10 are located on the different side faces (e.g. rear, right, and left) of the paving block unit (A) 100 and the paving block unit (B) 200 as shown in
With respect to the paving block unit (A) 100 shown in
With respect to the paving block unit (B) 200 shown in
The paving block unit (A) 100 and the locations of the spacers 10 on the different sides of the paving block unit (A) 100 are identical to the paving block unit (B) 200 and the locations of the spacers 10 on the different sides of the paving block unit (B) 200, except that the horizontal channels 250 on the bottom face 226 of the paving block unit (B) 200 are oriented at a right angle (e.g. a 90 degree angle) relative to the horizontal channels 150 on the bottom face 126 of the paving block unit (A) 100. In other words, the horizontal channels 250 are perpendicular to the horizontal channels 150. Although shown as being oriented at a right angle relative to each other, the horizontal channels 250 may be oriented at any angle that is different than the angle at which the horizontal channels 150 are oriented when the paving block units (A) 100 and (B) 100 are interlocked together. The front face 121 of the middle member 131 of the paving block unit (A) 100 does not have any spacers 10. The front face 221 of the front member 230 of the paving block unit (B) 200 does not have any spacers 10.
In other embodiments the shape of the paving block units 100, 200, 400 can be square, rectangles, or another type of design that can be interlocked with one or more other paving block units with the same or different design, to produce a paving block system which allows both vertical and horizontal fluid flow.
It is to be understood that the disclosure is not limited to particular embodiments as discussed herein and that it can be practiced, constructed, and/or carried out in various ways. While embodiments of the disclosure have been shown and described, modifications thereof can be made by one skilled in the art without departing from the spirit and teachings of the disclosure. The embodiment described herein are exemplary only, and are not intended to be limiting, but merely as a basis of the claims and as a representative basis for teaching persons having ordinary skill in the art to variously employ the embodiments. Many variations and modifications of embodiments disclosed herein are possible and are within the scope of the disclosure.
Where numerical ranges or limitations are expressly stated, such express ranges or limitations should be understood to include iterative ranges or limitations of like magnitude falling within the expressly stated ranges or limitations. The use of the term “optionally” with respect to any element of a claim is intended to mean that the subject element is required, or alternatively, is not required. Both alternatives are intended to be within the scope of the claim. Use of broader terms such as comprises, includes, having, etc. should be understood to provide support for narrower terms such as consisting of, consisting essentially of, comprised substantially of, and the like.
The inclusion of discussion of a reference is not an admission that it is prior art to the present disclosure, especially any reference that may have a publication date after the priority date of this application. The disclosures of all patents, patent applications, and publications cited herein are hereby incorporated by reference, to the extent they provide background knowledge; or exemplary, procedural or other details supplementary to those set forth herein.
Accordingly, the scope of protection is not limited by the description herein, but is only limited by the claims which follow, that scope including all equivalents of the subject matter of the claims. Each and every claim is incorporated into the specification as an embodiment of the present disclosure. Thus, the claims are a further description and are an addition to the embodiments of the present disclosure.
Number | Date | Country | |
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62639403 | Mar 2018 | US |