EP0300829A1 - Support de couvercle de regard à adhérence renforcée - Google Patents

Support de couvercle de regard à adhérence renforcée Download PDF

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Publication number
EP0300829A1
EP0300829A1 EP88306793A EP88306793A EP0300829A1 EP 0300829 A1 EP0300829 A1 EP 0300829A1 EP 88306793 A EP88306793 A EP 88306793A EP 88306793 A EP88306793 A EP 88306793A EP 0300829 A1 EP0300829 A1 EP 0300829A1
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EP
European Patent Office
Prior art keywords
cover support
manhole cover
base
retention component
receiving structure
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP88306793A
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German (de)
English (en)
Inventor
Harold Moses Bowman
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Individual
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Individual
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Filing date
Publication date
Priority claimed from US07/076,668 external-priority patent/US4834574A/en
Priority claimed from US07/201,573 external-priority patent/US4867600A/en
Priority claimed from US07/207,266 external-priority patent/US4867601A/en
Priority claimed from US07/207,185 external-priority patent/US4872780A/en
Application filed by Individual filed Critical Individual
Publication of EP0300829A1 publication Critical patent/EP0300829A1/fr
Withdrawn legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D29/00Independent underground or underwater structures; Retaining walls
    • E02D29/12Manhole shafts; Other inspection or access chambers; Accessories therefor
    • E02D29/124Shaft entirely made of synthetic material
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02DFOUNDATIONS; EXCAVATIONS; EMBANKMENTS; UNDERGROUND OR UNDERWATER STRUCTURES
    • E02D29/00Independent underground or underwater structures; Retaining walls
    • E02D29/12Manhole shafts; Other inspection or access chambers; Accessories therefor
    • E02D29/14Covers for manholes or the like; Frames for covers

Definitions

  • This invention relates to adjustable manhole cover supports for emplacing over and raising the effective grade of an existing manhole cover receiving structure.
  • manhole cover receiving structure and "manhole cover” herein are used to refer to the existing, i.e., fixed in-place frame or other existing seating receptacle for a removable cover or grating that covers an access hole (i.e., hand hole, tool hole, manhole, catch basin or the like), and to that cover or grating.
  • the resulting assembly of a receiving structure and a manhole cover ordinarily is intended to bear vehicular traffic.
  • manhole cover support or simply “cover support” here means a structure that fits over the existing manhole cover receiving structure, raises its grade, and thereby accommodates a cover or grating at the new grade.
  • the cover or grating is the same one that was used at the lower grade.
  • the access hole covered is a utility enclosure serving, e.g., an electric, gas, water, sewer or storm drainage system.
  • the instant cover support finds its use when a roadway such as a street or highway is resurfaced with an added layer of paving material, typically asphalt concrete or sheet asphalt, to establish a higher grade. It then is advantageous to mount the inventive cover support atop the existing manhole receiving structure.
  • paving material typically asphalt concrete or sheet asphalt
  • Prior art on manhole cover supports and manhole cover frames can be found in U.S. patents 4,281,944, 4,236,358, 3,968,600, 3,773,428, 4,097,171, 4,302,126, 3,891,337 and 1,987,502. The first four of these are for inventions of the applicant.
  • Axle loads up to 18,182 kg. must be resisted by many of these cover supports as well as serious impact loads from vehicles and snow plows, a variety of temperature effects, steam leaks, spillage, etc., without permitting a hazardous dislocation of the cover support or its cover.
  • Adjustability of the cover support in peripheral dimension and height also is important for accommodating the wide range of specifications to be met.
  • the supports often contain some reasonably thin (0.254 cm. or less) elements such as sheet steel elements. These can include upwardly projecting cover keeper wall portions, flanging, and bases. Such thin keeper portions can be fitted into an existing manhole cover frame and, normally, still leave a large enough opening at the new-grade to accommodate the same old cover or lid which was used on the existing frame.
  • the lighter weight elements also can be effective for economy and/or ease of manufacture, handling and installation.
  • a relatively low weight of the cover support as compared to the usually thick solid cast iron fixture on which it is to rest, makes it a candidate for displacement in service.
  • the instant support can be made especially highly resistant to displacement and dislodgement in service without being made ponderous in weight, even when it has no mechanical fastening to the receiving structure.
  • the present cover support can be made to incorporate conventional structural or mechanical holddown means that are integral with it or easily attached, the cover support also can do a good job of holding in (being retained in the existing receiving structure while in service) by friction alone.
  • a relatively light construction of the cover support in comparison to the ponderous cast iron frame that usually initially supports the manhole cover when the first paving is laid, can be very desirable, provided, however, that an inordinate amount of the ruggedness, stiffness, and resistance to displacement or dislodgement is not sacrificed.
  • a main place for weight reduction is in the lateral keeper for the cover.
  • Another place is in the base of the cover support.
  • a relatively thin wall keeper would normally be of steel, the wall rarely being more than about 0.254 cm. (12 ga.) thick, usually less.
  • the present adjustable support lends itself to being sealed off against water infiltration and to cushioning the cover. Furthermore, it can be made very stiff or especially durable even when employing relatively thin metal for some or all of the various body elements.
  • the instant manhole cover support is for emplacing over and raising the effective grade of an existing manhole cover receiving structure where that structure has an upwardly-extending shoulder surface extending from a sill that was made to accommodate a manhole cover.
  • the new cover support has excellent retain­ability characteristics in service without its neces­sarily being ponderous and extremely heavy.
  • a body and a flexible, compressible retention component therefor, the body having a seat and a lateral keeper for the manhole cover and a base with an outer wall that is adjustable in perimeter dimension, the base being formed to rest on the sill, the retention component being integral with at least a part of the outer wall of the base or being interposed between the outer wall of the base and the shoulder surface of the receiving structure, exhibiting a coefficient of static friction with respect to the surfaces which it contacts friction­ally that substantially exceeds the coefficient of static friction obtainable directly between steel and said surfaces, and being disposed to interact with the expansion of the base for enhancing substantially the frictional grip between the body and the existing receiving structure.
  • a further aspect of this invention is a process for the installation of the foregoing manhole cover support in an existing receiving structure having an upwardly-­extending shoulder surface.
  • This process is charac­terized by placing against the shoulder surface a flexible, compressible retention component surface of the cover support that is capable under pressure of enhancing substantially the frictional grip between the base of the cover support and the shoulder surface and expanding the base against the constraint of the receiving structure.
  • a still further aspect of this invention is an improvement in process for manufacturing the foregoing manhole cover support.
  • the improvement comprises depositing over at least a portion of the outer wall surface of the cover support base or forming at least a part of that outer wall surface from a composition that is curable to leave a compressible and flexible solid surface which is capable of enhancing substantially the frictional grip between the cover support and the shoulder surface of the existing receiving structure, and curing the composition until said compressible and flexible surface is formed.
  • Figures 1-4 illustrate an adjustable cover support with a practically vertically rising cover keeper wall.
  • Such keepers necessarily must be thin-walled to fit into an existing frame and still accommodate the original cover.
  • that cover must lie flat on the new seat that is bounded by the walls of such keeper.
  • the keeper walls can rise with a slight outward slant.
  • the cover support broadly is indicated by arrow 1.
  • Seat 2 for the cover is a polymeric seal and cushioning element on the top of the cast ductile iron (ASTM type 536, Grade 60-45-12) base of this cover support. Its inner vertical wall is 2.54 cm. in height, item 3.
  • Welded to and rising up from the outside top edge of the base is a lateral keeper 4 for the cover.
  • the keeper is of 13 ga. (0.24 cm.) steel.
  • the top 6 of the keeper is formed into a hollow (1.91 cm. x 1.91 cm. inside dimensions) wale having outside wall 7.
  • the base and keeper, including the wale, form an almost complete circular pattern which is interrupted only by a joint that is connected with a turnbuckle bolt 9 and is bridged with tapered steel shaft 8.
  • the right end of the shaft is of essentially square cross section, and it makes a snug fit into, and is welded into the hollow channel part of the wale.
  • the left end of the shaft 8 is somewhat tapered, and it makes a slidable fit into the other end of the hollow channel part of the wale.
  • the entire wale can be considered to be the box flanging around the upper periphery of the keeper and the shaft 8 across the joint.
  • the ends of the turnbuckle bolt 9 are threaded with opposite handedness to open up the gap of the joint when turned one way, and to close the gap when turned the other way with a wrench acting on wrench grip 11.
  • a nylon locking patch is applied to the bolt threads.
  • the bolt 9 is of A.1.S.1 type 302 stainless steel; each end of it runs into a horizontal tapped hole in the base.
  • the holes are tapped ap­propriately for bolt adjustment and extend to reach the notches 12a and 12b.
  • the notches accept the protruding ends of bolt 9 when the gap is shortened.
  • the cover support will be made of two or four (or more) segments, usually of equal size if the cover is circular.
  • the joints can be at corners or on the sides; the resulting connected segments, while usually making a generally symmetrical whole in plan, will not necessarily be of equal size.
  • the elements of the cross section shown in Figure 2 include those with the same numbers as used in Figure 1 plus these: 17, the cast ductile iron base; 10, the top of the base; 19, the hollow channel of the wale; 14, the bottom of the wale which can be tack-welded along the outside of keeper 4; cover seat 2, a 0.32 cm. thick slightly foamed elastomer bonded to the top of the base; bottom 18 of the base which is to rest on the existing manhole cover receiving element; and a frictional retention member 16 which is about 0.32 cm. thick of slightly foamed elastomer bonded to the base all around its outer perimeter.
  • Sheet steel keeper 4 is welded to base 17 and any lumps, spatter, etc. are removed, e.g., ground off the outer and inner seams that it makes with the base.
  • the retention component can be a separate strip or strips of flexible, compressible polymer interposed between the base and the existing manhole cover receiving structure instead of such polymer being bonded on.
  • the retention component can be in the form of one or more bands or O-rings surrounding and even elastically gripping the base, e.g., in grooves therein.
  • the seal element that makes the seat for the manhole cover can be in the form of a washer or gasket or one or more (concentric) rings, e.g., O-rings, and that element need not be bonded to the cover support.
  • the cover support embodiment shown in Figures 1, 2, 3 and 4 has a good frictional grip to an existing manhole cover frame. This is because the coefficient of static friction between the surface of many conventional flexible deformable polymers, including many foamed elastomers, and metal surfaces can be much greater than that between two metal surfaces.
  • the coefficient of static friction for the contact of a desirable polymer to a metal should be at least about 0.4, and generally it can be as high as 0.6-0.7 or even higher. In a steel-to-steel instance it is unlikely to be as high as 0.35.
  • Shore A Durometer hardness of the polymer composition for the frictional retention component preferably is at least about 20, and preferably it is about 50-70. Usually the thickness of a retention component will be between about 0.01 mm. and 10 mm. Oil resistance can be desirable for it and the other water-sealing elements in some installations.
  • the coefficient of static friction is the ratio of the maximum force parallel to the surface of contact which acts to prevent motion between two bodies at rest in contact with each other from sliding over each other, to the force normal to the surface of contact which presses the bodies together.
  • the turnbuckle or other conventional spreader means usually screwed types, at the joints supply a large measure of pressure, and the bonded elastomer heightens friction, thereby making a cover support that is unusually effective for resisting dislodgement or tilting in highway service.
  • Solid reaction post 28 projects inwardly from the base near the left side of the joint gap.
  • Post 27 has a hole with tapped threads, and it projects in a similar way at the right side of the gap. Both are of cast ductile iron molded integrally with the rest of the base ring.
  • the head 31 of the spreader bolt 29 rests against the reaction post 28; the bolt 29 screws into the threaded hole of the post 27. Lengthening of the bolt between the posts springs the base ends farther apart, i.e., the base end 23 makes a larger gap with its opposing end (that is not visible in this view).
  • Softer flexible polymer foam plug 36 fits into the gap with a very slight compression.
  • the plug can be cemented into place, e.g., with suitable rubber cement on side 34 of the plug to adhere to the unseen side of the base and the keeper at the gap.
  • Turnbuckle bolts (not shown but each like stainless steel bolt 9 of Figure 1) are disposed inboard of the flat side of the four equal-sized body frame segments such as the segment 41.
  • the bolts have nylon locking patches and are threaded on each end.
  • Each bolt screws into a pair of appropriately tapped steel lugs (not shown) that project inwardly from a segment near the opposing ends of a joint gap.
  • the lugs on a segment are formed integrally with that segment.
  • hold-down means such as screw clamps running from the base down and under the existing sill are to be used, they can be fastened to the steel segments.
  • the joints can be sealed in a manner set forth hereinafter.
  • the main seal elements and retention component part shown are the seat portion 42 and the outer wall portion 46 of the segment of the base of the cover support. These surfaces are integral with the rest of the segment except the steel frame segment 41.
  • These seal and retention component elements can be made softer or harder than the main depth of the rubbery part of the body, usually softer for sealing, e.g., by building up layers with the softest on the outside.
  • a separate sealing and/or special retention component material usually softer than the core, e.g., a foamed elas­tomer, can be used over them, either bonded to the rubbery body surfaces or simply interposed as separate elements where sealing and friction is particularly desired.
  • lifting bolts may be threaded into the bottoms of metal bases, or shims or gaskets can be put under the bottom of the base.
  • FIG. 7 shows a preferred four-segment cover support with an open-ended box wrench 62 fitted on the most distant wrench grip of a turnbuckle bolt, a grip that otherwise would be seen and numbered as 61c. Clockwise turns reduce the outside diameter of the assembled segments when one is preparing to slide the new cover support into an existing manhole frame.
  • the other such adjusting bolts shown are bolts 59a, b and d with their respective wrench grips 61a, c and d.
  • the bolts are of A.I.S.I. type 302 stainless steel.
  • each segment has deformable polymer seat portions, 56a, b, c and d, each about 6.4 mm. thick, bonded thereto to cushion the cover.
  • the seat portions also act as part of the water seal under the manhole cover.
  • the bottoms 57a, b, c and d of the base portions will rest on the sill of an existing manhole frame when the cover support is installed.
  • outside wall portions of the base portions, and the lower parts of keeper portions, terminating in slight outward flanges or lips 58a, b, c and d, are coated with about 3.2 mm. thick bonded-on polymer layers, 63a, b, c and d, like that making the cover seat, specifically a tough, heat-cured slightly foamed, elastomeric vinyl plastisol. These coatings act to grip the shoulder of the existing manhole frame as well as to form part of the water seal around the new cover support.
  • the bolts joining the segments, and all other threaded bolts and screws in the cover support have nylon locking patches on their threads for security in service.
  • Conventional hold-down means such as screwed-­on clamps running from the base down and under the sill of the existing manhole frame are not shown; they can be included when desired or needed.
  • new paving layer 82 of asphalt concrete surrounds the upper part of the installed manhole cover support, while the outside of the existing manhole frame 78 is surrounded by the original portland cement concrete paving 81.
  • Resilient polymer cushion-seal 73 lies under manhole cover 71 and is bonded to the top of cast iron cover support base 74. Welded onto and rising from the base is 13 ga. (U.S. Std.) steel keeper 76.
  • Resilient polymer gripper-seal 77 is bonded to the outside wall of the base and the lower part of the keeper.
  • the cover support rests on the sill 79 of cast iron manhole frame 78.
  • the bottom of the cast iron cover 71 is reenforced with integral bracing 72 that projects down into the manhole.
  • both parts of the cast iron base 85 have an inner wall 87, a bottom 88, a top 86, and two grooves running for their full lengths.
  • the welded-on strip steel keepers 92 have outward flanging 92 at their tops.
  • Residing in groove 91 is an O-ring 93 to seal and cushion a cover.
  • an O-ring 94 fitting into groove 89 that runs around the outside of the base. Joint sealing will be dealt with later.
  • the O-rings are not bonded to the metal.
  • the cast ductile iron, type 60-45-­12, segment has base 101 has bonded-on deformable polymeric retention component 103 and a pair of cavities, the presently empty lower one being denoted as 102.
  • Projecting up from seat 96 is keeper 97.
  • Projecting down from seat 96 is skirt 98 terminating in an enlarged lower rim 99.
  • the rim can fit slidably into each of the cavities of the base.
  • the cavities and rim have a trapezoidal cross section, and either cavity can support the upper seat portion of a segment for adjusting the seat elevation. More than two such cavities can be superimposed in the stack of them for greater adjustment, as is shown in Applicant's U.S. Patent 4,281,944.
  • cast ductile iron base 106 has top 107, bottom 108, and a 302 stainless steel elevating screw 109 tapped into the base.
  • the screw is one of thirty.
  • Projecting up from the base is welded-on strip steel keeper 111 terminating in flange 112.
  • Around the outer perimeter of the base are thick narrow bands of deformable polymer 114 and 116, fitting into peripheral grooves in the base, and a wider band of like material running around the outside of the keeper. The bottom of the wider band fits into the slight peripheral edge that the keeper makes with the base.
  • seal-cushion element 113 of a tough, flexible water-resistant ionomer. The ionomer is bonded to the base.
  • the other polymeric materials are not, although some or all of them can be so bonded, e.g., directly to the metal that has been cleaned and usually treated for bonding, or with the use of a permanent or even a temporary adhesive.
  • arrow 2 broadly indicates fragmentary view of one end of a preferred embodiment of a cover support made to accommodate a nominally 61 cm. x 122 cm. rectangular catch basin cover.
  • the manhole cover here normally is perforated, often in the form of a grill.
  • the body of the support is made of four straight-sided lateral segments (lateral members) joined at the corners with rods and spreader bolts.
  • the surfaces 134a, 134b, and 134c are flat tough foamed elastomeric surfaces on the ledge elements thereunder; they are about 0.32 cm. thick and act as seat portions for the cover.
  • the ledge elements form the top of the body's base portions.
  • the base portions made of cast ductile iron, ASTM type 536, grade 60-45-12.
  • Extending downwardly from the inside of the ledge elements are the inner wall portions of the bases. Extending upwardly from each ledge portion is a welded-on sheet mild steel collar element portion indicated as 131a, 131b, and 131c acting together as parts of a lateral keeper for the manhole cover. All sheet steel elements are 14 ga. (1.98 mm).
  • box member wales 129a, 129b and 129c are box member wales 129a, 129b and 129c. These impart ruggedness to the cover support. Welded inside the wales are rods 132a, 132b and 132c of rectangular cross section.
  • the adjustable corners are formed by pairs of opposing jaw surfaces 133a-133b and 133c-133d that are at the ends of the bases of each segment, each pair being joined by corner spreader bolts 127 and 127′, respectively. These bolts are threaded on each end with threads of opposite handedness and are driven by cranking their respective hexagonal-faced centers 126 and 126′.
  • Bolt 127 screws into and out of suitably tapped holes 124a and 124b; bolt 127′ screws into and out of like tapped holes 124c and 124d in the chamfered end ("jaw") surfaces 133a, 133b, 133c and 133d of the base portions of the lateral members.
  • the longitudinal axes of the bolts are substantially horizontal and enter normal to the chamfered ends, which are mitered to make a 45° angle with the longitudinal axes of the lateral members.
  • the perpendicular distance between the center of the hole tapped for spreader bolt and the contact periphery of the coating of the lateral member nearest it that presses outwardly against the existing frame or other receiving structure is 3.8 cm. This is the distance "X”, and it is significant, as will be shown hereinafter.
  • Fitting into the wales are the ends of bent steel rods 128 and 128′.
  • the rods have square cross section and make snug slidable fits with the sleeves.
  • the body also has a holddown clamp at each end.
  • Holddown clamp 121 is shown. It is spaced outwardly from the base portion by spacer 122, and bolted the base portions using pairs of nuts 123 and 123′. The nuts screw down on threaded lugs projecting from the inside of the base portions of these lateral segments.
  • Figure 13 looks at the right end elevation of the cover support of Figure 12.
  • Collar element portions 131a, 131b and 131c rise with a slight outward slant from the base portions of the cover support.
  • Squared-­off end parts of two longer base portions are indicated as 137a and 137b; these are the terminals of right end surfaces of the two longer lateral segments.
  • the collar element portions shown in end view are 131a and 131c.
  • the collar element portions are welded to the base portions of the lateral segments. They form seams with the base portions, the seams being slightly above the bottoms of the base portions.
  • Elastomeric seat portions 134a, b and c are evident in the view.
  • the thin collar element portions rise at a slight slope to form box flanging at their tops as represented by items 129a, 129b and 129c.
  • Bent steel corner rods represented by 128 and 128′ often slightly tapered at their ends, fit slidably into the flanging.
  • Straight steel rods are tack welded inside the flanging.
  • Both kinds of rods here are substantially square in cross section, although it can be of advantage in some cases to taper the corner ones appreciably.
  • Holddown clamp 121 projects downwardly from the inside of base portion facing the viewer and can be forced against an underpart of an existing manhole cover frame with the pair of bolts 138 and 138′ that are threaded through the bottom of the clamp 121.
  • Tough foamed elastomeric retention components and sealing elements are on the outside of all collar portions. These elastomeric elements are represented by 136a, 136b and 136c in Figure 13.
  • the straight welded-in rods like 132b are totally dispensed with.
  • Such box flanging rims, hollow or filled with resin, concrete, etc., are highly resistant to bending.
  • Figures 14 and 15 depict a way that the cover support of Figures 12 and 13 can be further modified to substantially prevent the infiltration of surface water under the cover edges and around the outer perimeter of the new support.
  • Figure 14 is the plan view of the right corner of Figure 12, and outboard of that, indicated by light broken lines, is a water-sealing fitment.
  • the arrow labeled "3" indicates the molded fitment of moderately soft, especially compressible foamed elastomer having Shore A Durometer hardness of about 50-65.
  • Its upper surface 141 at the top of side wall 143 is to fit under the bent rod 128.
  • Seat pad 142 is to fit between the mitered jaws 133a and 133b and the ends of seat portions 134a and 134b.
  • the tip of pad 142 is projectable to just short of the turning path of hexagonal wrench grip 126, and the upper flat portion of such tip is ap­proximately flush with those seat portions; usually it is slightly convexedly arcuate until the corner joint is spread, at which time the cover support makes a tight fit in the existing manhole cover receiving structure and the manhole cover is emplaced on the new seat.
  • Figure 15 is a vertical cross section of the fitment taken through plane Z-Z.
  • Upper surface 141 of slightly flaring sidewall 143 is unitary with seat pad 142.
  • one side of the fitment of Figure 14 can be attached to the end of the lateral segment it abuts, e.g., with a water-resisting adhesive or mechanical connection or both.
  • a water-resisting adhesive or mechanical connection or both are one or more short flange or peg elements projecting from the square and/or oblique ends of a pair of adjoining lateral segments into corresponding holes or slot in the vertical sides of fitment 3 or vice versa, going the other way, to help anchor the fitment in place.
  • Typical ones comprise polyurethane or a modified styrene-containing polymer.
  • Suitable polymers that can be formulated for use in the compressible retention component and water seals herein include natural and synthetic rubbers, water-­resistant ionomers, various vinyl polymers and copoly­mers such as polyvinyl acetate-polyethylene-acrylate copolymers and polyvinyl chloride homopolymers, plastisols such as a vinyl plastisol, polyurethanes, polyester resins, epoxy resins, styrene-containing copolymers such as ABS and butadiene-or isoprene-styrene copolymers, polyolefins and copolymers containing olefin units, and aminoplasts.
  • natural and synthetic rubbers water-­resistant ionomers
  • various vinyl polymers and copoly­mers such as polyvinyl acetate-polyethylene-acrylate copolymers and polyvinyl chloride homopolymers
  • plastisols such as a vinyl plastisol
  • the preferred retention components appear to be elastomeric, i.e., resilient. Many of them can be foamed and preferably are foamed only very slightly; this can soften them a bit without reducing their toughness too greatly and it can help to allow for some thermal expansion, and it makes them slightly less dense than without the foaming.
  • Latent foaming agents reactive upon warming and/or catalyzing, incorporated in a film of an uncured polymer-providing material coated on a cover support are preferred. Curing with heat, ultraviolet or electron beam radiation and/or catalysis can be practiced.
  • a preferred foamed plastisol formulation for the retention component is of Shore A Durometer hardness about 20-70, and preferably about 50-65, as are the water seals.
  • the plastisol is compounded principally from low molecular weight polyvinyl chloride resin plasticized heavily with a conventional phthalate ester plasticizer. It contains minute percentages of stabilizer, red pigment and ozodicarbonamide blowing agent.
  • Another preferred formulation of about the same Shore A Durometer hardness is a flexible polyol-­polyurethane foam, slightly elastomeric and rubbery. Some polymer recipes need heat to cure and foam, even with catalysis, and others cure and even foam at about room temperature (25°C.).
  • the degree of foaming in both these plastisol and urethane formulations is very small, and it could be called almost microscopic and slight - the bubbles are closed-cell and tiny. In some cases, especially where sealing is to be maximized and strength considerations are secondary, a large degree of foaming and a resulting softened and less dense foamy structure can be tolerated, e.g., Shore A Durometer hardness of 20-55.
  • a recipe for a slightly-foamed polyurethane rubber that has been found to be quite effective here is as follows: 100 weight parts of Adiprene #L167 polyurethane, a product of the Uniroyal component of the F.G. Goodrich Company, Naugatuck, Connecticut Compounded with these additives: 0.3 weight part of water; 0.3 weight part of Dabco-33LV , a product of Air Products, Inc., Allentown, PA; 1.4 weight parts of DC-193 , a product of Dow-Corning Inc., Midland, Michigan; and 16.0 weight parts of "BC” , a product of Palmer, Sieka Inc., Port Washington, N.Y..
  • This material can be applied to warmed, cleansed and bonding agent-treated cast iron and steel, then heated to 121° - 177° C. to develop the foam and full cure of the polymeric material.
  • Some preferred heat-curable plastisol retention component recipes for various Durometer hardness contain 100 parts of low molecular weight polyvinyl chloride resin plasticized with 60-70 parts of a conventional phthalate plasticizer such as dioctyl or dimethyl phthalate. With this 1-3 weight parts of a conventional stabilizer for polyvinyl chloride resin, e.g., a lead-­based stabilizer, is used along with 1-2 weight parts of a red colorant (other pigments and colors, or none, can be used, if desired) and 0.5-3 weight parts of a conventional ozodicarbonamide heat-and water-activated blowing agent.
  • a conventional stabilizer for polyvinyl chloride resin e.g., a lead-­based stabilizer
  • the preferred foamed plastisol usually is sprayed on the area to be coated. It is advantageous to spray it onto the hot metal cover support body (188-193°C.) and let it cure and foam a bit. If extra foaming and/or curing is desired, the coated part can be further warmed at 193-204°C. for up to a few minutes.
  • the deformable retention component should be at least about a 0.1 mm. thick for most effective gripping to contact surfaces (which normally have irregular­ities). Preferably it should not be more than about 10 mm. thick for economy and durability, although thicker retention components (or even portions of same) can be especially useful for sealing on some occasions. The same applies to cushioning components for cover seats, although these usually are at least about 1.2 mm. thick and easily can be as thick as 12 mm. or even more.
  • Metal surfaces should be cleaned to accept the polymeric material if it is to be bonded thereto. Then a customary bonding agent such as Chemlok #218 (Manufac­tured by Lord Corporation, Erie, Pa.) is applied, dried and warmed. Various other useful bonding agents are available such as a Pliobond type (made by the Goodyear Tire and Rubber Company).
  • a customary bonding agent such as Chemlok #218 (Manufac­tured by Lord Corporation, Erie, Pa.) is applied, dried and warmed.
  • Various other useful bonding agents are available such as a Pliobond type (made by the Goodyear Tire and Rubber Company).
  • the preferred materials of construction for most of the cover support are of a ferrous metal, e.g., steel and/or cast iron, particularly cast ductile iron.
  • a ferrous metal e.g., steel and/or cast iron, particularly cast ductile iron.
  • Other metals can be used where their special properties are desirable and their cost can be tolerated), e.g., stainless steel, high tensile strength steel, wrought iron, bronze, brass, etc.
  • suitable in some cases cover support parts can be, and even much of the main body structure can be fabricated from glass fiber-, aramid fiber-, or graphite fiber-reenforced resin, e.g., a thermosetting (curable) resin such as a polyester or epoxy resin.
  • elastomers or ABS plastic and the like
  • tough structural polymeric materials can be used in the invention.
  • an expansible metal shape e.g., a body frame such as an expansible steel hoop
  • the body is otherwise almost entirely a tough, flexible polymeric material, optional technically pigmented (filled) with, e.g., carbon black.
  • it may optionally be built up in plies with glass, nylon, cotton and/or steel cloth, wire and/or cords (like a truck tire carcass).
  • the outer part of the body can act as the retention component, although softer polymer-containing films often can be used with advantage as special retention components over or bonded onto a harder cover support body.
  • the cover support with an imperforate cover can be used to resist stray surface water such as storm drainage.
  • deformable polymer e.g., elastomeric compositions like those discussed herein in connection with retention components and seats, and especially foamed elastomer, so that complete water seals result under the manhole cover 81 and all around either the outer perimeter of the cover support base or its cover keeper rising there around, or both
  • Suitable sealing plug fitments to be used with the cover support as it is being installed can be made of polymer or with a core or armature, e.g., one of metal, coated with polymer.
  • the plug fitment can be formed after the cover support is installed by stuffing in or spraying into the gap a flexible sealant, preferably a foaming or foamable-in-place one.
  • Hollow box member flanging i.e., peripheral encircling wales as reenforcing rim portions and hollow base portions can be filled or partly filled with a hard or tough resin, optionally mixed with a mineral filler such as mica or chopped glass fiber strand, to supply desirable further resistance to crushing and other deformation.
  • Thermosetting resins such as polyester and epoxy resins can be useful in this connection.
  • thermoplastic ones such as ABS resin can be so used, or even a concrete such as a Gunnite type.
  • the cross section of the sleeves and wales and bases may be other than squarish or rectangular. They can be made with many other fairly rigid conformations, e.g., triangular or rounded, etc. The same applies to the cross section of solid or tubular wale-forming and base-forming members and joint-bridging rod or tube elements. While only solid bases have been illustrated, it should be clear that they can be made hollow, e.g., like the main part of the wale of Figure 1.
  • They also can be formed with at least part of the hollow wale portion from a single piece of steel, e.g., 12-16 A.I.S.I gauge, and optionally with the whole keeper portion, including the hollow wale portion, from a single steel piece that includes the hollow-channeled base.
  • cover support embodiments depicted are for circular holes and a rectangle, other shapes such as triangles, squares, ovals, etc. are usable in accordance with invention principles, provided the cover supports are rendered adjustable as to their perimeter, usually with screw means.
  • the turnbuckle bolts biased at the corners in impart components of force that are axial to and perpendicular to the straight lateral segments of the cover support that they connect.
  • the magnitude of each such component is 0.707 times the bolt force.
  • Positioning these bolts in the same plane as, but at virtually any other angle oblique to the corner it connects, i.e., biasing the bolt, is, of course, possible and practical in accordance with this invention.
  • the perpendicular component of force holds the lateral side (segment) directly against the existing manhole frame.
  • the axial component of force being located inboard from the outer edge of the cover support, provides a bending moment on the lateral segment that actually increases the holding force between the periphery of the cover support and the existing manhole frame.
  • an expansion element such as a turnbuckle or spreading bolt somewhere along the longitudinal axis of the lateral segment, usually in the middle, exerts essentially only an axial force. Also a deleterious bending moment can be imparted to such bolt and segment.
  • the bolt and its segment are apt to bow-up, down, or in towards the center of the manhole when especially heavily forced. Accordingly, it can be said that corner-spreading makes the bending moment on the bolt work for improved retention in the existing manhole cover frame (or other existing cover-receiving structure such as an existing cover support) instead of being useless or possibly even deleterious to the new cover support.
  • the holding force has been calculated to be 12,091 kg. on each side, or a total of 48,366 kg. for the whole support. This compares quite favorably with that estimated for the same size cover support of the conventional (spread at the centers of the side lateral segments) design where both cover supports used the same kind of 12.7 mm. turnbuckle bolts. In the latter conventional instance, the holding force was only 11,364 kg. on each side or 45,455 kg. for the whole support.
  • X the perpendicular distance in inches from the contact periphery of the cover support to the center of the hole that is tapped therein for accepting the turnbuckle bolt
  • manhole covers While many manhole covers have a reasonably flat top, they also can have a bottom that is reenforced by ribs, bracing, or like structure hanging down under; these cannot be interfered with, lest the cover won't seat in the newly-installed cover support. Accordingly, there can be a limit to the inboard placement of the spreader.
  • the perpendicular distance from the contact periphery of the cover support to center point where the spreader means starts to shorten or lengthen should be at least about 2.54 cm. and preferably it is more, e.g., 3.81 cm..
  • "X" in the above equations should be at least 2.54 cm.; or, as the force is being applied by the spreader to a zone near the end of a side segment, this zone can be treated as having a practical center point, and the perpendicular distance from that center point to the contact periphery of the straight-­sided segment should be at least about 2.54 cm.
  • the 45° angle biasing tends to develop about equal force in two directions, and this generally is desirable.

Landscapes

  • Engineering & Computer Science (AREA)
  • Environmental & Geological Engineering (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Life Sciences & Earth Sciences (AREA)
  • Mining & Mineral Resources (AREA)
  • Paleontology (AREA)
  • Civil Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Underground Structures, Protecting, Testing And Restoring Foundations (AREA)
EP88306793A 1987-07-23 1988-07-22 Support de couvercle de regard à adhérence renforcée Withdrawn EP0300829A1 (fr)

Applications Claiming Priority (12)

Application Number Priority Date Filing Date Title
US07/076,668 US4834574A (en) 1987-07-23 1987-07-23 Utility cover extension
US07/201,573 US4867600A (en) 1987-07-23 1988-06-01 Polygonal manhole cover support
US201573 1988-06-01
US20732588A 1988-06-15 1988-06-15
US20732688A 1988-06-15 1988-06-15
US207266 1988-06-15
US207185 1988-06-15
US07/207,266 US4867601A (en) 1987-07-23 1988-06-15 Sturdy adjustable manhole cover support
US207326 1988-06-15
US07/207,185 US4872780A (en) 1987-07-23 1988-06-15 Manhole cover support with box flanging
US207325 1988-06-15
US76668 1998-03-03

Publications (1)

Publication Number Publication Date
EP0300829A1 true EP0300829A1 (fr) 1989-01-25

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ID=27557149

Family Applications (1)

Application Number Title Priority Date Filing Date
EP88306793A Withdrawn EP0300829A1 (fr) 1987-07-23 1988-07-22 Support de couvercle de regard à adhérence renforcée

Country Status (1)

Country Link
EP (1) EP0300829A1 (fr)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0353440A2 (fr) * 1988-07-07 1990-02-07 Passavant-Werke Ag Dispositif d'évacuation d'eau
EP2128344A1 (fr) * 2008-05-30 2009-12-02 Bjarne Henning Poulsen Procédé de rénovation de surfaçage autour des bordures d'un puits, et dispositif compressible à utiliser avec le procédé
WO2012047739A1 (fr) * 2010-10-05 2012-04-12 The Subsea Company Raccord de tube
US8182171B2 (en) 2009-09-29 2012-05-22 Bjarne Henning Poulsen Method for renovation of surface dressings around well curbs, and a compressible device for use in the method
CN112601862A (zh) * 2018-08-23 2021-04-02 亚科赛福林阿尔曼有限公司 框架系统和井盖装置

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH446210A (de) * 1966-04-05 1967-10-31 Von Roll Ag Schachtabdeckung und Verfahren zu deren Herstellung
US3773428A (en) * 1971-03-12 1973-11-20 Nat Utility Prod Co Adjustable manhole cover support
US3911635A (en) * 1972-11-15 1975-10-14 Traupe Hans Martin Hollow body outlet for under-floor and under-plaster installations
US3969847A (en) * 1974-11-18 1976-07-20 Benjamin J. Campagna Combination manhole closure assembly and separate support ring
US4097171A (en) * 1977-09-16 1978-06-27 Fier Raymond L Manhole cover support ring
US4281944A (en) * 1979-09-10 1981-08-04 Bowman Harold M Manhole cover support
US4582449A (en) * 1982-12-17 1986-04-15 City Of Milwaukee Manhole sealing device

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH446210A (de) * 1966-04-05 1967-10-31 Von Roll Ag Schachtabdeckung und Verfahren zu deren Herstellung
US3773428A (en) * 1971-03-12 1973-11-20 Nat Utility Prod Co Adjustable manhole cover support
US3911635A (en) * 1972-11-15 1975-10-14 Traupe Hans Martin Hollow body outlet for under-floor and under-plaster installations
US3969847A (en) * 1974-11-18 1976-07-20 Benjamin J. Campagna Combination manhole closure assembly and separate support ring
US4097171A (en) * 1977-09-16 1978-06-27 Fier Raymond L Manhole cover support ring
US4281944A (en) * 1979-09-10 1981-08-04 Bowman Harold M Manhole cover support
US4582449A (en) * 1982-12-17 1986-04-15 City Of Milwaukee Manhole sealing device

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0353440A2 (fr) * 1988-07-07 1990-02-07 Passavant-Werke Ag Dispositif d'évacuation d'eau
EP0353440A3 (en) * 1988-07-07 1990-02-28 Passavant-Werke Ag Water evacuating device
EP2128344A1 (fr) * 2008-05-30 2009-12-02 Bjarne Henning Poulsen Procédé de rénovation de surfaçage autour des bordures d'un puits, et dispositif compressible à utiliser avec le procédé
US8182171B2 (en) 2009-09-29 2012-05-22 Bjarne Henning Poulsen Method for renovation of surface dressings around well curbs, and a compressible device for use in the method
WO2012047739A1 (fr) * 2010-10-05 2012-04-12 The Subsea Company Raccord de tube
US9366093B2 (en) 2010-10-05 2016-06-14 The Subsea Company Pipe connector
CN112601862A (zh) * 2018-08-23 2021-04-02 亚科赛福林阿尔曼有限公司 框架系统和井盖装置
US11873614B2 (en) 2018-08-23 2024-01-16 Aco Ahlmann Se & Co. Kg Frame system and manhole covering

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