Concrete hole former with embedded gasket

Information

  • Patent Grant
  • 6347781
  • Patent Number
    6,347,781
  • Date Filed
    Friday, April 7, 2000
    24 years ago
  • Date Issued
    Tuesday, February 19, 2002
    22 years ago
Abstract
A hole former assembly used to form a reusable hole former assembly used during the construction of a manhole base. The hole former assembly of the present invention aligns the center of the formed hole in the concrete manhole base sidewall with the center of an inlet or outlet opening of a canal bed liner embedded in the base of the manhole. The hole former assembly is suitable for use in either wet casting or dry casting the base of the manhole with the inlet and/or outlet of the invert embedded in a sidewall of the base of the manhole. Several of the component parts of the hole former assembly of the present invention may be molded as a single unit and thereafter separated, thereby reducing certain manufacturing costs of the component parts.
Description




1. FIELD OF THE INVENTION




This invention relates generally to a hole former assembly used to form a hole in a concrete sidewall, and more particularly relates to a reusable hole former assembly that aligns the center of the formed hole in the concrete sidewall with the center of an inlet or outlet opening of an invert embedded in the base of a manhole. The hole former assembly of the present invention is suitable for use in either wet casting or dry casting the base of the manhole with the inlet and/or outlet of the invert embedded in a sidewall of the base of the manhole. Several of the component parts of the hole former assembly of the present invention may be molded as a single unit and thereafter separated, thereby reducing certain manufacturing costs of the component parts.




BACKGROUND OF THE INVENTION




During the initial development of a community, a series of networked conduits are required to pipe sanitary sewage and storm sewage away from the community to, for example, a processing, treatment, or drainage site. Sanitary sewage and storm sewage systems are typically comprised of a plurality of networked pipelines that are buried in roadways deep enough to minimize the effects of heavy vehicles passing over the roadways and also deep enough (for example, below the frost line) to avoid the negative effects of freezing temperatures. In order to provide access to the pipeline for inspection and maintenance, manholes or catch basins are periodically interconnected within the networked pipelines. The manholes and/or catch basins are buried beneath the earth's surface, and typically below roadways, at depths of 10 feet or more.




When a manhole or catch basin is first constructed, it typically comprises a base, risers, cone, support frame and manhole cover or grate. The base includes a bottom with concentric sidewalls extending upward from the bottom. The lower portion of the base of the manhole is referred to as a canal-bed. The base of the manhole or catch basin structure may include one or more openings adapted to receive the pipeline, wherein the canal-bed includes a channel that directs fluid passing between the interconnected pipelines. This channel may be lined with a fluid impermeable invert or liner.




One or more hollow cylindrical risers rest atop the base sidewalls, thereby increasing the sidewall of the manhole to a desired height. The cone is hollow and is stacked atop the uppermost riser, wherein one end of the cone is sized to fit on top of the riser and the other end of the cone has a reduced diameter suitable for receiving and supporting the support frame on top of the cone.




The base, risers and cone of the manhole structures are typically comprised of mortared blocks or pre-cast with concrete and may weigh several tons. Of course, the overall size of the base, including the internal and external diameters of the base sidewalls affects both the cost to manufacture the base and the cost to construct the manhole. Thus, it is desirable to decrease the diameter of the base as much as practical. However, oftentimes communities will require that an unobstructed inner diameter of the base, risers, and access opening must be equal or exceed predefined minimums for rigidity, stability and access. Hence, the desire to reduce costs associated with the manhole may be limited by minimum size requirements.




Once the manhole or catch basin is constructed, fluids passing therethrough tend to deteriorate the structure. For example, sewage and putrid water are very acidic, and may comprise hydrogen sulfide and sulfuric acid. Over time, exposure to sewage or putrid water can damage the concrete of the canal-bed, base, and cone. In catch basins, road salt also has a similar affect on the canal-bed. This is due to the eventual breakdown of the concrete by the road salt, especially if the concrete is of poor quality. When repair or replacement of these manhole/catch basin structures is required, due to a deteriorated canal-bed, base or cone, the procedure is extremely expensive, time consuming, and difficult. A canal bed liner or invert reduces the amount of repairs and replacement of the underlying canal bed. The invert typically includes an inlet and/or outlet extending into the sidewall of the base. The connecting pipe extends through a hole formed in the sidewall and inserts into the opening of the inlet or outlet. When pre-casting the base, the weight of the wet or dry cast concrete tends to deform the opening of the inlet and/or outlet so that the connecting pipe does not insert and seal in the opening of the invert. Although iron casts or plugs have been used to form the hole in the sidewall during the casting process and reduce the deformation in the opening in the invert, the weight of the iron cast prohibits dry casting without deformation. Hence, there is a need for a hole forming assembling that reduces deformation during casting of the invert and the hole extending through the base sidewall.




A Casket may be utilized to seal the outer surface of the connecting pipe to the interior surface of the hole formed in the sidewall of the base, thereby preventing water from seeping into the base of the manhole through the hole formed in the sidewall. A portion of the gasket may be embedded into the concrete sidewall or an expansion ring may be utilized to press the gasket against the interior surface of the hole formed in the sidewall base. U.S. Pat. No. 4,565.347 issued to Ditcher, U.S. Pat. No. 4,916,799 issued to Skinner et al., and U.S. Pat. No. 5.624,123 issued to Meyers each describe a gasket, wherein a portion of the gasket is embedded into the interior surface of the hole formed in the sidewall base. For example, Ditcher describes a monolithic precast invert system, wherein a pin locks a gasket retainer assembly to the canal bed mold member. In order to remove the inner portion of the gasket retainer assembly described by Ditcher, the canal bed mold member must be removed. These references do not describe a hole former assembly suitable for embedding a gasket in the hole formed in the sidewall base in conjunction with lining the canal bed with a liner or invert. Hence, there is a need for a hole forming assembly that aligns with a liner of the canal bed and that may be removed from the formed hole after the base is cast. The present invention meets these and other needs that will become apparent from a review of the description of the present invention.




SUMMARY OF THE INVENTION




The present invention provides for a hole former assembly for forming a hole in a concrete sidewall during casting, wherein the hole is in alignment with the inlet or outlet opening of a canal bed liner. The hole former assembly of the present invention further holds a gasket in place during casting, wherein a portion of the gasket is embedded in the cured concrete inside the formed hole. In the preferred embodiment, the hole former assembly includes a first annular member, a second annular member, an invert alignment member, and a clamp assembly. The invert alignment member is adapted for engagement with the first annular member, wherein the invert alignment member engages either the inlet or outlet opening of the canal bed liner or invert prior to forming, the hole. The clamp assembly holds together the first annular member, second annular member and the invert alignment member. The gasket is held in place between the first and second annular members.




Without limitation, in the preferred embodiment the first and second annular members and the invert alignment member are molded as a single part and then subsequently separated. The material used to mold the part should resist bonding with concrete and not be degraded from contact with concrete. For example without limitation, a high molecular polyethylene or other polymeric material having the same or similar characteristics are particularly well suited materials.




The advantages of the present invention will become readily apparent to those skilled in the art from a review of the following, detailed description of the preferred embodiment especially when considered in conjunction with the claims and accompanying drawings in which like numerals in the several views refer to corresponding parts.











DESCRIPTION OF THE DRAWINGS





FIG. 1

is perspective view of the hole former assembly of the present invention;





FIG. 2

is a partial sectional side elevational view of the inner and outer annular members and alignment members shown partially separated;





FIG. 3

is a partial sectional side elevational view of first or inner annular member and alignment member shown partially separated:





FIG. 4

is a perspective view of the alignment member of the hole former assembly of the present invention;





FIG. 5

is a partial sectional side elevational view of the hole former assembly of the type shown in

FIG. 1

;





FIG. 6

is a top plan view of a segmented first annular member of the present invention.





FIG. 7

is a perspective view of hole former assemblies of the present invention shown aligned and inserted in the inlet and outlet openings of a canal bed liner: and





FIG. 8

is a perspective view of hole former assemblies of the present invention shown aligned in the inlet opening and inserted in the outlet opening of a canal bed liner.











DETAILED DESCRIPTION




The present invention represents broadly applicable improvements to the interconnection of an expansion line and main line of a sanitary sewage or storm sewage system. The embodiments detailed herein are intended to be taken as representative or exemplary of those in which the improvements of the invention may be incorporated and are not intended to be limiting. Referring first to

FIG. 1

the hole former assembly


10


of the present invention is generally shown. The assembly includes an inner or first annular member


12


, an outer or second annular member


14


, a gasket


16


of known suitable construction, a bar


18


which forms a part of the clamp that firmly holds the gasket


16


between the inner annular member


12


and outer annular member


14


, and an invert alignment member


20


. The invert alignment member


20


includes tabs


22


extending outwardly from the invert alignment member. The invert alignment member


20


and tabs


22


are adapted for engaging the opening or sidewall


24


that forms the inlet or outlet of an invert liner


26


(see FIGS.


7


and


8


).




Referring next to

FIGS. 2 and 3

the inner annular member


12


, outer annular member


14


and invert alignment member


20


are shown. In the preferred embodiment, the inner annular member


12


, outer annular member


14


and invert alignment member


20


are molded as a unitary piece. The gap


28


between the inner annular member


12


, outer annular member


14


is created by separating the members


12


and


14


by sawing, cutting, or other suitable means known in the art for dividing the members


12


and


14


. Likewise, the invert alignment member


20


is separated from the inner annular member


12


to create the gap


30


(see also

FIG. 4

which shows the invert alignment member


20


separated from the inner annular member


12


. When the hole former is assembled, the invert alignment member


20


rests on the rim


32


of the inner annular member


12


. The rim


32


extends outwardly from the first annular member


12


and may include a ledge


34


extending tangentially from the rim. The outer annular member


14


includes a convex outer edge


36


, wherein the diameter of the convex outer edge


36


approximates the outer diameter of the curved sidewall in which the hole is formed. As shown in

FIG. 6

, the inner annular member


12


may be segmented, with gap


38


, to ease removal of the inner annular member once the manhole base and hole therein are formed.




Referring, next to

FIG. 5

, the preferred clamp assembly of the hole former assembly of the present invention is shown in greater detail. A bolt


40


extends through an aperture


42


formed in the invert alignment member and through an aperture formed in the bar


18


The ends of the bar


18


rest on a flange


44


extending outwardly from the outer annular member


14


. A nut is tightened onto the threaded end of the bolt


40


, thereby forcing inwards the inner and outer annular members


12


and


14


respectively and squeezing the gasket


16


therebetween.




Having described the constructional features of the present invention, the mode of use will next be presented in conjunction with a description of

FIGS. 7 and 8

. The inner annular member


12


, outer annular member


14


, invert alignment member


20


, and gasket


16


are clamped together to comprise the hole former assembly


10


. The hole former assembly


10


is aligned with the sidewall opening


24


in the invert


26


. The hole former assembly


10


is engaged with the invert


26


, wherein the tabs


22


extend into the opening and positively align the hole former assembly


11


with the opening


24


. As shown in

FIG. 7

, the ledge


34


may lit into and engage the inner portion of the sidewall opening


24


. The invert


26


and hole former assembly


10


are then positioned within a form/mold for forming the manhole base. The manhole base may then be either wet or dry cast. Once the concrete of the manhole base is stable the forms are removed. The bolt


40


is removed and the outer annular ring includes a slight taper so that it pulls easily out of the formed hole. The alignment member


20


and inner annular ring


12


(having a slight taper for ease of removal) are pulled towards the center of the manhole base out the opening


24


in the manhole. As described above, the inner annular ring


12


may be segmented to thereby aid in the ease of removing the inner annular member


12


from between the embedded gasket


16


and the embedded invert


26


. The inner annular member


12


, outer annular member


14


and invert alignment member


20


may be reassembled for use in forming another manhole base having a gasket and invert at least partially embedded in the concrete manhole base. Alternatively, the alignment member


20


may be removed and the inner annular member


12


may be left in place to thereby limit tile flexibility of the gasket


16


when a pipe is engaged therewith.




This invention has been described herein in considerable detail in order to comply with the patent statutes and to provide those skilled in the art with the information needed to apply the novel principles and to construct and use such specialized components as are required. However, it is to be understood that the invention can be carried out by specifically different equipment and devices, and that various modifications, both as to the equipment and operating procedures, can be accomplished without departing from the scope of the invention itself.



Claims
  • 1. A hole former assembly for forming a hole in a concrete sidewall during casting, wherein a portion of a gasket is embedded in the cured concrete inside the formed hole, said hole former comprising:a first annular member; a second annular member; an invert alignment member adapted for engagement with said first annular member, wherein said invert alignment member is adapted to engage at least one of an inlet and outlet of an invert prior to forming said hole; and a clamp that holds together the first annular member, second annular member and the invert alignment member, wherein a gasket may be held in position between the first and second annular members.
  • 2. The hole former as recited in claim 1, further including a rim extending outwardly from the first annular member, wherein said invert alignment member rests on said rim.
  • 3. The hole former as recited in claim 2, further including a ledge extending tangentially from said rim.
  • 4. The hole former as recited in claim 1, wherein said invert alignment member includes tabs extending outwardly from said invert alignment member and adapted for engaging the sidewalls forming at least one of the inlet and outlet.
  • 5. The hole former as recited in claim 1, wherein an outer edge of said second annular member is convex having a diameter approximating a diameter of a curved sidewall in which the hole is to be formed.
  • 6. The hole former as recited in claim 1, wherein said first and second annular members are molded as a single part and then divided apart.
  • 7. The hole former as recited in claim 1, wherein said first and second annular members and said invert alignment member are molded as a single part and then subsequently separated.
  • 8. The hole former as recited in claim 1, wherein said first annular member is segmented.
  • 9. A hole former assembly for forming a hole in a concrete sidewall during casting, wherein a portion of a gasket is embedded in the cured concrete inside the formed hole, said hole former comprising:a first annular member; a second annular member; an invert alignment member adapted for engagement with said first annular member, wherein said invert alignment member is adapted to engage at least one of an inlet and outlet of an invert prior to forming said hole; and a clamp that holds together the first annular member, second annular member and the invert alignment member, wherein a gasket may be held in position between the first and second annular members, said first and second annular members being molded as a single part and then divided apart.
  • 10. The hole former as recited in claim 9, further including a rim extending outwardly from the first annular member, wherein said invert alignment member rests on said rim.
  • 11. The hole former as recited in claim 10, further including a ledge extending, tangentially from said rim.
  • 12. The hole former as recited in claim 9, wherein said invert alignment member includes tabs extending outwardly from said invert alignment member and adapted for engaging the sidewalls forming at least one of the inlet and outlet.
  • 13. The hole former as recited in claim 9, wherein an outer edge of said second annular member is convex having a diameter approximating a diameter of a curved sidewall in which the hole is to be formed.
  • 14. The hole former as recited in claim 9, wherein said first and second annular members and said invert alignment member are molded as a single part and then subsequently separated.
  • 15. The hole former as recited in claim 9, wherein said first annular member is segmented.
  • 16. A hole former assembly for forming a hole in a concrete sidewall during casting, wherein a portion of a gasket is embedded in the cured concrete inside the formed hole, said hole former comprising:a first annular member; a second annular member; an invert alignment member adapted for engagement with said first annular member, wherein said invert alignment member is adapted to engage at least one of an inlet and outlet of an invert prior to forming said hole; and a clamp that holds together the first annular member, second annular member and the invert alignment member, wherein a gasket may be held in position between the first and second annular members, said first and second annular members and said invert alignment member being molded as a single part and then subsequently separated.
  • 17. The hole former as recited in claim 16, further including a rim extending outwardly from the first annular member, wherein said invert alignment member rests on said rim.
  • 18. The hole former as recited in claim 17, further including a ledge extending tangentially from said rim.
  • 19. The hole former as recited in claim 16, wherein said invert alignment member includes tabs extending outwardly from said invert alignment member and adapted for engaging the sidewalls forming at least one of the inlet and outlet.
  • 20. The hole former as recited in claim 16, wherein an outer edge of said second annular member is convex having a diameter approximating a diameter of a curved sidewall in which the hole is to be formed.
  • 21. The hole former as recited in claim 16, wherein said first annular member is segmented.
US Referenced Citations (27)
Number Name Date Kind
3758066 Skinner et al. Sep 1973 A
3796406 Ditcher Mar 1974 A
3815214 Kyle, Sr. Jun 1974 A
3874063 Skinner et al. Apr 1975 A
4063582 Fischer Dec 1977 A
4159829 Ditcher Jul 1979 A
4278229 Burlett Jul 1981 A
4333662 Jones Jun 1982 A
4422994 Ditcher Dec 1983 A
4508355 Ditcher Apr 1985 A
4565347 Ditcher Jan 1986 A
4625976 Gilbert Dec 1986 A
4685650 Ditcher Aug 1987 A
4801417 Ditcher Jan 1989 A
4842785 Daigle et al. Jun 1989 A
4854543 Daigle et al. Aug 1989 A
4867411 Dorsey et al. Sep 1989 A
4916799 Skinner et al. Apr 1990 A
4941643 Ditcher Jul 1990 A
5303518 Strickland Apr 1994 A
5381995 Del Zotto Jan 1995 A
5413307 Tidwell May 1995 A
5540411 Strickland Jul 1996 A
5624123 Meyers Apr 1997 A
5806829 Banks Sep 1998 A
5951924 Malecha Sep 1999 A
6196517 Westhoff et al. Mar 2001 B1