1. Field of the Invention
This invention relates to storm sewers and, more particularly, to a curb-mounted box for funnelling water from streets into a storm sewer.
2. Background Art
In many cities, curb-mounted boxes are installed to define inlets to storm sewers at the sides of streets and highways. The inlet boxes are built into the curbs and have vertical and horizontal walls with surfaces nominally matched respectively to vertical and horizontal surfaces on the curb. The vertical face of the box has a rectangular entry opening that communicates to a chamber bounded by the box and in turn to the sewer conduit. The bottom of the entry opening is flush with or below the street grade so that water can flow freely thereinto. Typically, the street surface will be crowned so that water on the street surface flows laterally oppositely towards the curbs. The lateral street edges and curb vertical surface cooperatively funnel water, with this region being sloped towards the box location.
With this well-known construction, the front wall of the box frames the entry opening, with the top, horizontally extending frame portion having vertical and horizontal surfaces that cooperatively produce a corner that is nominally matched to the top corner region of the adjacent curb. Thus, this top frame element, which bridges adjacent curb edges, functions generally in the same manner as the curb.
Street curbs are made from concrete that is designed to withstand forces and impacts as from normal vehicular traffic as well as blades on snow removal equipment. Storm sewer boxes have been cast from concrete to have the same durability. However, by reason of the fact that the entry opening on the box is formed through the front wall thereof, particularly the upper horizontal frame element is susceptible to being damaged upon being impacted, particularly by the edges of blades on snow removal equipment. Even if the concrete forming the front box wall is reinforced so that it is not prone to being broken off, progressive chipping inevitably results that over time produces a jagged edge that may reconfigure the entry opening undesirably and also creates an unsightly external appearance.
It is known to place an angle iron component on the top corner of the box to address the above condition. However, this angle iron piece is prone to being torn off by becoming snagged by snow removal blades. Once removed, the underlying concrete edge is exposed and prone to being compromised, as described above. Further, the protective angle iron piece, once removed, becomes deposited upon the street or adjacent area whereupon it may be dangerously situated in the path of vehicular or pedestrian traffic.
Alternatively, upon being snagged, as by a blade on snow removal equipment, part of the protective angle iron piece may be bent outwardly to project dangerously in the path of a vehicle or pedestrian on foot.
Yet another problem may be encountered upon the protective angle iron piece being broken away from the remainder of the box. With the snow removal vehicles traveling at relatively high rates of speed, the angle iron piece could be propelled dangerously towards adjacent vehicles or individuals on foot.
Once the concrete boxes are compromised, there are number of repair options. One option is to replace the entire box. The replacement box may be of the same construction or alternatively a molded non-concrete structure may be substituted. The assignee herein currently offers the latter type of boxes, as shown on its website www.accu-rise.com. This design commonly is used to replace cast iron boxes.
However, many municipalities wish to use only concrete boxes. In the event that damage is inflicted upon the boxes, the primary options remain to either replace the entire box with a like box or effect repairs of the damaged box, which typically involves reshaping with concrete at least the upper frame component region on the front wall. This reconstruction generally involves replacing the broken away regions of the box with new concrete. This process addresses primarily cosmetic concerns, as the added concrete may not be adhered adequately to the remainder of the concrete to withstand any significant impact.
Regardless of the manner in which compromised boxes are brought up to desired standards, whether by replacement or repair, the exercise is time consuming and expensive. This is particularly a problem since it can be anticipated that repair of concrete boxes will be a large volume, routine activity following each winter season.
In one form, the invention is directed to a storm sewer box for directing water into a storm sewer conduit at a curb location. The storm sewer box has a housing with a front, a top and spaced sides. The housing has a chamber and a front entry opening that communicates to the housing chamber. The housing has a first surface that at least nominally matches an adjacent curb surface at the front of the housing with the storm sewer box operatively mounted at a curb location. The housing includes: a) at least one component that defines the first surface; and b) a base to which the at least one component is connected. The at least one component is separable from the base to be replaced by at least one other component upon the base.
In one form, the housing has a top opening covered by a separable cover.
In one form, the housing defines a frame around the front entry opening and the frame has contoured surfaces that funnel incoming water into the chamber.
In one form, the at least one component defines a horizontal surface to match an adjacent curb surface.
In one form, the at least one component defines a vertical surface to match an adjacent curb surface.
In one form, the frame fully surrounds the front entry opening.
In one form, the storm sewer box is operatively incorporated into a storm sewer conduit on a roadway with a curb and between spaced edges on the curb.
In one form, the roadway has an upper surface over a road base and the housing has an upwardly facing locking edge that resides below the upper roadway surface.
In one form, the locking edge is defined by a step that is embedded in the road base.
In one form, the at least one component is secured by at least one separable fastener.
In one form, the fastener has joinable parts with one of the joinable parts fixed to the base.
In one form, the housing is formed through a molding process.
In one form, the at least one component is a plurality of components that extend along the top and front of the housing.
The invention is also directed to a method of repairing a storm sewer box that is used to direct water into a storm sewer conduit at a curb location and consists of a housing with a front, top and spaced sides. The housing has a base made from a first material, with the housing defining a chamber and a front entry opening that communicates to the housing chamber. The housing further includes a first surface that at least nominally matches an adjacent curb surface at the front of the housing with the storm sewer box operatively mounted at the curb location. The method includes the steps of: removing a first portion of the housing with a first shape and defining at least a part of the first surface that has been damaged with the storm sewer box operatively mounted at the curb location; and replacing the first portion of the housing with at least one repair component having a second shape that functions in substantially the same manner as the first portion of the housing.
In one form, the first portion of the housing is defined by at least one component having the first shape that is joined to the base.
In one form, the at least one component is made from a second material that is different than the first material.
In one form, the at least one component is made from an elastomeric material.
In one form, the first portion of the housing is integrally formed with the base and removed by being cut from the base.
In one form, the first portion of the housing comprises at least one separate component that is releasably attached to the base.
In one form, the at least one separate component is releasably attached through at least one threaded fastener.
In
The housing 12 has a base 22 with a downwardly recessed seat 24 around an opening 25 in its top 16 to support a separable manhole cover 26. The top 16 of the housing 12 has a width W (
The storm sewer box 10 is operatively mounted at a curb location. More specifically, a curb 32, as shown schematically in
Typically, the storm sewer box 10 will be integrated into and will reside partially above and partially below the street surface 41, as seen in
The housing 12 has an upwardly facing locking edge 48 defined by a step 50 at the front 14 of the housing 12. With the housing 12 set at its desired operative location, an anchoring element 52 with a projecting anchoring component 54, is embedded in the adjacent road base 56 so that a downwardly facing surface 58 on the anchoring element 52 abuts to the locking edge 48 on the housing 12 to block upward movement of the housing 12 once the same is operatively mounted.
With the sewer box 10 operatively mounted, water from the street surface 41 can flow in the direction of the arrow 60 to and through the front entry opening 30 into the chamber 28 from where the water is directed into a storm sewer conduit 62.
As seen in
The side frame components 66, 68 respectively have contoured/curved front surfaces 72, 74 tending to funnel the incoming water into the chamber 28. The upper frame component 70 has a similarly curved surface 76.
As noted in the Background portion herein, particularly blades on snow removal equipment guided along the curb 32 and storm sewer box 10, may tend to damage the region at the corner/nose 46 on the frame component 70, particularly when the storm sewer box 10 is constructed from concrete. This damage may be progressive or may occur upon a single impact. In any event the result is generally an unsightly appearance at the front of the storm sewer box 10. In a worst case, the depth of the damage may be such that a subsequent pass of a blade may cause the same to shift laterally inwardly to thereby have a greater tendency to further damage the storm sewer box 10 and/or impact and damage the adjacent curb edge 42, 44.
Once the damage occurs, the primary options for repair are to either replace the entire storm sewer box 10 or add material to any part broken away to attempt to re-form the original shape at the corner/nose 46.
According to the invention, a first portion 78 of the housing 12, as bounded by the dotted lines in
As shown in
It is preferred, but not required, that the repair components 80a-80c be made from a different material than that making up the base 22 to which the repair components 80a-80c are joined. This allows the properties of different materials to be exploited in each component. For example, the base 22 may be made from any material, such as metal, a molded material, such as an elastomeric material, or a composite. As one example, the base 22 might be made from reinforced, or non-reinforced, concrete.
In one preferred form, the repair components 80a-80c are made from an elastomeric material. This is not critical, as the components 80a-80c might likewise be made from the same types of non-elastomeric materials contemplated for the base 22. The thickness T1 of the material of the first portion 78 is selected so that the first portion 78 functions as a resilient bumper. It has been found that if the thickness T is less than three inches, a blade may compress and slice through the material. However, if the thickness T is greater than three inches, and preferably on the order of six inches, the material will give adequately so that it is not sliced fully through. Commonly, the blade will produce cuts with a shallow enough depth that the flaps/pieces formed by cutting will spring back so that the material restores to its original shape once the blade passes.
The damaged portion of the housing 12 may be cut out, at the installation site, as by a conventional saw, in the aforementioned shape to accommodate the repair components 80a-80c.
Alternatively, the housing 12 can initially be made with one or more replaceable components, corresponding in shape and function to the repair components 80a-80c. These components could be formed in place or could be accommodated by a pre-formed seat 82 of a shape corresponding to the component(s), as shown in
With this latter arrangement, at time of manufacture, the components 80a-80c can be assembled after formation of the base 22 or otherwise co-formed with the base. In the event that one or more of the components 80a-80c is damaged, it can be removed on site by loosening the nuts 90 associated with the particular component 80a-80c. A similar or identical component 80a-80c can then be used to replace the damaged component(s) 80a-80c.
As noted above, while the components 80a-80c are shown as three in number, one, two, or more than three, components might be incorporated consistent with the inventive concepts.
In the event that the anchors 84 are not molded into the base 22, the repair components 80a-80c in the field might be anchored on site using conventional anchors that may be set by drilling into the concrete, or other material, making up the base 22.
It should also be understood that while an elastomer material is described as preferred for the components 80a-80c, other materials could be utilized for repair that may be potentially temporary or more permanent in nature. For example, it is conceivable that the repair components 80a-80c might be made from wood, or other non-concrete material, with the expectation of replacement with a more permanent structure at a later date. While not preferred, concrete could be used to make the components 80a-80c.
The foregoing disclosure of specific embodiments is intended to be illustrative of the broad concepts comprehended by the invention.
This application is a non-provisional of U.S. Ser. No. 61/333,537, filed May 11, 2010.
Number | Date | Country | |
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61333537 | May 2010 | US |