This invention relates to the construction of concrete floors and slabs provided with voids extending therethrough. More particularly, this invention relates to pipe sleeves and canning sleeves used for forming voids in poured concrete floors and slabs.
Multiple-story, multiple-unit office and housing structures are constructed with concrete floors and slabs for structural stability and load-bearing capacity. Such concrete floors and slabs are typically provided with numerous various-sized superposed voids, cavities, holes and openings formed through multiple vertically aligned floors to enable the installation and supply of plumbing, electrical wiring, electronic cables, heating and cooling ductworks and other required and desired services and amenities to each floor. Concrete floors poured for multiple-story structures require precise positioning and superposed alignment of such voids, cavities, holes and openings to enable convenient and efficient positioning of water supply and waste removal pipelines, and wiring conduits from the bases of the structures to their top floors, and are formed by the precise positioning, aligning and securing of hole-forming devices to construction baseplates onto which concrete is poured, finished and set to form the floors and slabs. Hole-forming devices for these purposes are well-known and are commonly referred to as pipe sleeves or canning sleeves or cores.
Present day skyscraper and super-skyscraper building structures are provided with service rooms to house electrical, plumbing and heating/cooling substations on located on multiple floors interdispersed along the vertical height of the building structures. Concrete floors on which such service rooms are installed, must be provided with thicker depths in order to support the added weights of service equipment. The thicknesses of concrete floors bearing substation service rooms must confirm to local building codes and can vary between 12″ to 20″ depending on local regulatory requirements as compared to thickness of non-service concrete floor requirements of 8″ to 12″. Numerous types of stackable telescoping pipe and canning sleeves have been developed to provide hole-forming devices that can be used to form voids, cavities, holes or openings in concrete floors of different thickness thereby making it possible for a single type of a device to be used on a job site. The prior art telescoping pipe and canning sleeves are commonly manufactured with plastics material for economy and ease of portability and use. However, such plastic telescoping pipe or canning sleeves are commonly collapsed or deformed or displaced by biasing, compressive and torsioning forces caused by the dispensing, distribution and setting of wet concrete onto baseplates whereon the telescoping sleeves were installed. The resulting misaligned and mis-positioned voids must be repaired, i.e., repositioned by boring or drilling or jack-hammering into the set concrete floors. Consequently, the preferred hole-forming devices currently favoured in building construction are single-length units manufactured by sectioning PVC pipe into selected lengths. Although such PVC hole-forming devices are durable, multiple lengths are required in order to provide voids, cavities, holes and openings through floors of different thicknesses.
The exemplary embodiments of the present invention, at least in preferred forms, are directed to two-piece cylindrical telescopic canning sleeves for forming voids, cavities, holes and openings that continuously extend through poured concrete floors and slabs.
According to one preferred embodiment of the invention, there is provided a two-piece cylindrical telescopic canning sleeve comprising a lower inner member and an upper outer sleeve. The outer sleeve is provided with at least one set of a plurality of vertically-aligned spaced-apart inward-facing engaging devices. The inner lower member is provided with at least one set of a plurality of engagement devices that are complimentary to the engagement devices provided with the outer sleeve. The telescopic canning sleeve is assembled for use by aligning the engagement devices of the outer sleeve with the engagement devices of the inner member, and then slidingly engaging the outer sleeve over the inner member until the desired functional height of the canning sleeve is reached after which, the outer sleeve and/or the inner member is rotationally manipulated to frictionally engage the complimentary engagement devices. It is preferable that the telescopic canning sleeve of the present invention comprises a sturdy and durable plastics material.
According to a preferred aspect of the invention, the outer sleeve is provided with at least one set of a plurality of vertically-aligned spaced-apart inward-facing dimples. The inner lower member is provided with at least one set of a plurality of equidistantly spaced-apart horizontal channels communicating with a vertical channel. Spacing of the dimples is complimentary to the spacing of the horizontal channel. The telescopic canning sleeve is assembled for use by aligning the dimples of the outer sleeve with the vertical channel of the inner member, and then sliding the outer sleeve over the inner member until the desired functional height of the canning sleeve is reached after which, the outer sleeve is rotationally engaged with the inner member by twisting the outer sleeve so that the dimples provided therein slidingly communicate with the horizontal channels provided therein the inner member. It is preferred that at least one of the outer sleeve and inner member configured to provide frictional engagement when the outer sleeve and inner member are rotationally engaged.
According to another preferred aspect, the inner member is provided with a flange at its base. The telescopic canning sleeve is secured to a concrete-forming baseplate by nailing or screwing through the flange.
According to yet another preferred aspect, the lower inner member of the telescopic canning sleeve of the present invention is usable separately to provide voids, cavities, holes and openings that continuously extend through poured concrete floors and slabs.
According to a further preferred aspect, the outer sleeve is provided with a flange at its base, said flange securable to a concrete-forming baseplate by nailing or screwing. Such outer sleeves provided with flanged bases can be used exclusive of the inner sleeves to provide voids in concrete floors to the depth of the height of the flanged outer sleeve.
According to another preferred aspect, the upper outer sleeve of the telescopic canning sleeve of the present invention is used separately to provide voids, cavities, holes and openings that extend into and through poured concrete floors and slabs.
According to another preferred embodiment of the invention, there is provided a mould configured to form the two-piece telescopic canning sleeve of the present invention as a single unit whereby the flange provided at the base of the inner member is frangibly interconnected with the flange provided at the base of the outer sleeve.
According to a preferred aspect, the telescopic canning sleeve of the present invention the single unit comprising the two-piece telescopic canning sleeve of the present invention is moulded by an injection-moulding process.
According to another preferred aspect, the telescopic canning sleeve of the present invention the single unit comprising the two-piece telescopic canning sleeve of the present invention is moulded by a blow-moulding process.
The present invention will be described in conjunction with reference to the following drawings, in which:
An exemplary embodiment of the telescopic canning sleeve of the present invention is shown in the accompanying drawings, and is generally referred to by the numeral 5. As can best be seen in
The telescopic canning sleeve 5 of the present invention is adjustable to enable the forming of voids in poured concrete floors with different thicknesses by sliding the upper sleeve 20 over the inner member 10 with the dimples 23 aligned to slidingly communicate with channel 13. When the height of the telescopic canning sleeve 5 reaches the requisite height needed to form a void that passes completely through the specified thickness of concrete floor to be poured, then the upper sleeve 20 is twisted sideways so that the dimples 23 slidingly communicate with and engage horizontal channels 12 as shown in
The telescopic canning sleeve 5 is secured to a baseplate by nailing or screwing or stapling through flange 11 into the underlying baseplate (not shown). The accompanying drawings 1-3 illustrate a telescopic canning sleeve of the present invention that measures 50.8 cm (20 in) in height from the flange 11 of the lower member 10 to the top surface 21 of the upper sleeve 20. Accordingly the height of the upper sleeve 20 in this exemplary embodiment is 30.5 cm (12 in) while the height of the lower member 10 is 20.3 cm (8 in). The dimples 23 and horizontal channels 12 are spaced apart by 2.5 cm (1 in). Consequently, the telescopic canning sleeve described in this exemplary embodiment can be used for forming voids which pass completely through concrete floors poured with thicknesses of 33.0, 35.5, 38.0, 40.6, 43.2, 45.7, 48.3, and 50.8 cm (i.e., 13, 14, 15, 16, 17, 18, 19 and 20 in). An advantage of the present invention is that the inner lower member 10 and the upper sleeve 20 can be used separately and individually to form voids therethrough 20.3-cm thick (i.e., 8 in) concrete floors and 30.5-cm (i.e., 8 in) concrete floors. After the concrete floors have set, then the top regions 21 and 14 are simply knocked out to provide continuous voids, cavities, holes and openings therethrough the concrete floors.
It is preferred that the telescopic canning sleeve 5 of the present invention comprises a plastics material that is sufficiently sturdy to withstand the biasing, compressive and torsioning forces caused by the dispensing, distribution and setting of wet concrete. Examples of such plastics material include but are not limited to polyvinylchloride (PVC) plastics and high-density polyethylene (HDPE) plastics. The plastics materials may be injection moulded or blow moulded into a mould configured to provide a one-piece unit comprising the telescopic canning sleeve 5 wherein the flange 11 of the inner lower member 10 is frangibly interconnected with flange 22 of the upper outer sleeve 20 as shown in
It is preferred that the mould is configured to provide: (a) two opposing sets of interconnected horizontal and vertical channels in the inner lower member, designated as set 12 and 13 opposing set 12a and 13a in
While this invention has been described with respect to the preferred embodiments, it is to be understood that various alterations and modifications can be made to the various dimensions, configurations and materials of the telescopic canning sleeve within the scope of this invention.
Number | Date | Country | Kind |
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US 60/760958 | Jan 2006 | CA | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CA2007/000014 | 1/4/2007 | WO | 00 | 9/24/2009 |