The invention relates in general to manhole covers, and in particular to composite manhole covers.
Manhole covers made of cast iron make-up the bulk of access covers in urban streets around the world. These covers have a proven record of durability, strength, and functionality. The high density of iron results in a cover of substantial weight preventing cover displacement during flooding conditions and minimizing the occurrence of theft.
Numerous attempts have been made to employ non-metallic covers. For example, U.S. Pat. No. 5,123,776 issued to Lang et al. discloses a manhole cover having an outer surface fabricated from a plastic material while an interior chamber is filled with cement. U.S. Patent Application Publication No. 2008/0050175 by Brady et al. discloses a lightweight reinforced composite manhole assembly that includes a manhole cover and base, which may be formed by injection molding.
Another attempt by Consolidated Edison Company includes a removable rectangular steel cover with an epoxy cover. The cover comprised a ¼-inch elongated solid steel plate, the ends of which were disposed 3/16-inch below the upper end of L-shaped brackets. A plurality of ¼-inch thick spaced-apart longitudinally-extending ribs were welded to the bottom of the steel plate. A 3/16-inch layer of epoxy was disposed on the outer surface of the cover between the upper portions of the L-shaped brackets and even with the upper portions of the L-shaped brackets.
An earlier approach by the applicant of the present invention involved employing a cast iron manhole cover having a recessed pocket on the top. In particular, the cast iron manhole cover had a raised peripherally-extending border disposed around the pocket. When the cast iron manhole is positioned and supported on the lip of a manhole, the top surface of the border is disposed at the same lever as the top surface of the rim of the manhole, e.g., the ground or road surface. The recessed pocket was filled with a resin and glass fiber composite. The resin was also coated over the top surface of the peripherally-extending border.
There is a need for further manhole covers, and in particular, thermally and electrically insulating manhole covers.
In a first aspect, a manhole cover for use in covering a manhole ring having a rim and a lip. The manhole cover includes a support having an upper surface, and an outer thermally and electrically insulating member disposed over the entire upper surface of the support. The support comprises a first material, and the outer insulating member comprises a second material different from the first material. A peripherally-extending portion of the support is positionable over the lip of the manhole ring and spaced adjacent to an inner surface of the rim of the manhole ring, and the outer insulating member is positionable between the upper surface of the support and the upper surface of the rim of the manhole ring when the manhole cover is received in the manhole ring.
In a second aspect, the present invention provides the support comprises a plurality of spaced-apart cross-members defining a grate having a plurality of passageways through the support, and ends of some of the plurality of spaced-apart cross-members defining the peripherally-extending portion of the support comprising a plurality of spaced-apart peripherally-extending portions positionable over the lip of the manhole.
In a third aspect, the present invention provides the support comprises metal, and the outer insulating member comprising a composite of resin, reinforcement fiber, and stone aggregate.
In a fourth aspect, the present invention provides a plurality of screen inserts disposed in a plurality of passageways in the outer insulating member.
In a fifth aspect, the present invention provides the support comprising a solid plate.
In a sixth aspect, the present invention provides a combination manhole and manhole cover. The combination includes a manhole having a lip defining an opening, and the above-noted manhole covers disposed in the opening.
The subject matter which is regarded as the invention is particularly pointed out and distinctly claimed in the concluding portion of the specification. The invention, however, may best be understood by reference to the following detailed description of various embodiments and the accompanying drawings in which:
The invention is directed to manhole covers, and in particular to thermally and electrically insulated manhole covers with reinforcement which overcome the problems typically associated with traditional all metal cast iron covers and prior art composite manhole covers. For example, the present invention reduces the likelihood of risks of burning and electrocution associated with conventional manhole covers as described in greater detail below.
Generally, in one embodiment, a manhole cover in accordance with the present invention includes a support, e.g., formed from metal, and an outer non-metallic thermally and electrically insulating material or member, e.g., a composite. The cover, including the support and the outer non-metallic member may be provided with openings to allow a release of pressure, e.g., from below ground, without dislodging. The insulating qualities of the composite on the top exposed surface inhibit contact with the internal support such as a steel or cast iron support which therefore reduces the likelihood of burning or electrocution which could otherwise occur due to contact with conventional metal manhole covers.
Where pressure is not a concern, in another embodiment of a manhole cover in accordance with the present invention, the manhole cover need not include openings and may have a solid configuration.
As described in greater detail below, the manhole covers in accordance with the present invention may advantageously retain the strength and weight properties of the conventional metal manhole covers, provide thermal and electrical properties that reduce surface temperature of the manhole covers thereby minimizing the potential for thermal burns to people and animals, provide electrical isolation thereby reducing the likelihood of electrocution or electrical burns to people and animals, minimize the potential for unintentional dislodging, and minimize the occurrence of vandalism and theft.
As best shown in
Outer insulating member 50 is disposed over generally an entire upper surface of support 30 and adjacent to an inner surface 26 of rim 22 of manhole ring 20. The outer insulating member 50 is positionable between upper surface 34 of support 30 and upper surface 28 of the peripherally-extending rim 22 of manhole ring 20 (e.g., even with the ground) when the cover is received in the manhole ring. The outer insulating member is also positionable between an outer surface 36 of peripherally-extending portion 32 of support 30 and an inner surface 26 of peripherally-extending rim 22 of manhole ring 20 when the cover is received in the manhole ring. As described below, the support may comprise a first material, and the outer insulating member may comprise a second material different from the first material. The outer insulating member may include a thickness of about ⅜ inch around the outer surfaces of the support.
For example, the inner support 30, as best shown in
The outer cross-members 42 may be about 27 inches long and the inner cross-members 40 may be about 31 inches long. When arranged in the grid pattern, the ends of the cross-members, projections of about 1 inch long, are positioned along a circle with portions that extend over the lip (shown in dashed lines in
With reference to
The outer insulating member may be formed from a composite such as a resin or binder, reinforcement fibers, and stone aggregate. The stone aggregate may be, for example, aggregate that is use in asphalt top coats and may be about ¼-inch to about 5/16-inch in size. The resin or binder may be, for example, a vinyl ester resin, and the reinforcement fibers may be glass fibers or chopped glass fibers. It will be appreciated by those skilled in the art that other materials may be suitably employed to form the outer insulating member. The combination of the steel weldment and the aggregate may provide the cover with sufficient weight comparable to the weight of a steel or a cast iron manhole cover.
The outer insulating member may be formed around the inner support in a mold. For example, the inner structural member may be placed in a mold that has cylindrical plugs for forming the circular passageways, and square-shaped plugs releasably attachable to the top surface of the plugs for forming the recesses for the inserts. The chopped glass fibers and aggregate may be inserted into the mold and the resin may be poured or pumped into the mold to flow around the chopped glass fibers, aggregate, and the inner support. Once the resin has cured, the square-shaped plugs may be removed and the assembly of the support and cured outer insulating member may be removed from the mold.
With reference again to
With reference to
In another aspect of this embodiment, the top surface of the manhole cover, e.g., the upper surface of the outer insulating member and the upper surface of the inserts may be covered or coated with a composite insulating layer 80, as shown in
For example, manhole cover 100 maybe configured and formed essentially the same as manhole cover 10 described above, with the exception that when molding the outer insulating material, the cylindrical plugs and square shaped plugs are not employed, resulting in a solid cover which may be coated with a non-skid surface.
The vents in the cover may be formed using a water jet cutter or end mill. The upper surface of the insulating material may be coated with a non-skid surface as described above. Pick holes 212 may be provided in the manhole cover for use in removing the manhole cover from the manhole ring. A plurality of keys 215 may be provided to position and maintain the cover in place wherein a plurality of covers 200 may be disposed in side-by-side relation to each other to cover the opening of manhole ring. The insulating cover may be extend across the entire upper surface of the support and be attached to the top surface thereon by binding with a suitable adhesive. The openings in the insulating member allow a release of pressure (e.g., from below ground) without dislodging. The insulating qualities of the insulating member on the top exposed surface inhibit contact with the steel portion which therefore inhibits the likelihood of burning or electrocution which may otherwise occur due to contact with such steel portion.
In the various embodiments, the structural member or support and the outer insulating member together provide sufficient weight to inhibit the likelihood of theft and movement of the cover by flooding or other such events. The outer insulating member inhibits the likelihood of electrocution or burning which might occur by direct contact of an individual with a steel manhole cover in the event of such a manhole cover being exposed to hot gas or electric current. The inner support (e.g., steel or iron) may reduce the likelihood of a catastrophic failure of the cover even under extreme and prolonged high temperature conditions, such as may occur with an underground fire or steam leak.
It will be appreciated that the insulating member may comprise polyester or epoxy resins as matrix, glass fibers as reinforcement, however other suitable resins and fibers may be employed such as aramid, carbon, or boron fibers. In further embodiments, the inner structural member or support may have any suitable configuration, and be integral with the outer insulating member of the cover.
The present invention may overcome the various problems associated with metal covers and non-metal covers. For example, metal covers typically have two problems as they relate to pedestrian traffic. First, because the covers may be exposed to steam or other heat sources from below, the surface temperature of the cover can rise to a sufficiently high temperature to cause burns. Second, the covers may become electrified by an undetected electrical fault below the street exposing animals and humans to electrocution. The present invention provides covers having suitable insulating properties reducing the likelihood of risks of burning and electrocution associated with conventional metal manhole covers.
With regard to low-density, non-metallic cover, these covers tend to float out of position during a flooding event, leaving a potentially dangerous uncovered hole. The cover could also be dislodged by a relatively modest pressure rise below ground, caused, for instance, by a steam leak. Second, vandalism and theft are invited by the relative ease of moving a cover that is less than fifth the weight of the traditional cast iron cover. Even with special locking mechanisms proposed by some manufacturers of nonmetallic covers, such locking mechanisms require special unlocking tools. The locking mechanisms also inevitably fail from the effects of water, salt, sand, steam, extremes of temperature and intermittent load. Thirdly, composites become severely weakened at high temperatures that may be caused by a steam leak or underground fire. The present invention provides covers having suitable weight and overcomes the problem of light weight covers fabricated from non-metallic materials.
Although the invention has been particularly shown and described with reference to certain preferred embodiments, it will be readily appreciated by those of ordinary skill in the art that various changes and modifications may be made therein, without departing from the spirit and scope of the invention.
This application claims the benefit of U.S. Provisional Application No. 61/053,442, filed May 15, 2008, entitled “Manhole Cover,” the entire subject matter of which is hereby incorporated herein by reference.
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