The preparation and construction of a building foundation is an elaborate process that involves setting up footing forms to below frost line, and building a concrete wall on top of the footing to above ground level on which will rest the walls of the building. The frost line—also known as frost depth or freezing depth—is most commonly the depth to which the groundwater in soil is expected to freeze. The frost depth depends on the climatic conditions of an area, the heat transfer properties of the soil and adjacent materials, and on nearby heat sources. The line varies by latitude; it is deeper closer to the poles. It ranges in the United States from about zero to six feet.
A footing installed above the frost line may heave as ground below it freezes and thaws in cold weather wracking and twisting the structure that is built upon it. An unprotected footing in the US may need to be placed as much as 72″ below ground level to protect the footing from wracking due to the freezing and expansion of the earth that supports the footing. Usually the steps for building the footing and foundation take several days, large excavation machinery and extensive excavation to achieve the appropriate excavation width and footing depth below frost line even if it is for a footing for an outside building such as a garage, greenhouse or sunroom.
Footing excavations generally need to be 30″-36″ wide in order to accommodate construction of the typical 16″-24″ wide by 8-10″ high footing. The concrete foundation walls that will support the above ground structure are then formed and poured on top of the new footing after the footing has cured for typically a couple of days. These foundation walls are generally 6″ to 8″ thick and run around the entire perimeter of the structure.
According to a first aspect of the present invention, a form part is provided comprising insulating foam material shaped as an elongated sectional unit with an overhang part and an interior boot shaped cavity having a foot cavity part formed opposite the overhang part, the interior boot shaped cavity also having a throat opening part, wherein the sectional unit is formed with open ends.
In accordance with the first aspect of the present invention, the overhang part may have a foot shape that fits inside a foot cavity part of another form part comprising insulating foam material shaped as an elongated sectional unit. A toe of the foot shaped overhang part may be truncated so as to form a wall of the throat opening part of the boot shaped cavity.
According to a second aspect of the present invention, an article of manufacture is provided comprising a sectional form unit having a shape that is on an outside surface shaped as a u-shaped channel with a channel bottom leg joined to a long channel leg and to an opposite short channel leg that are each perpendicular to said bottom leg on said outside surface of said unit with said long channel leg having a uniform thickness and with said short channel leg having a non-uniform thickness that is thinnest where the short channel leg joins the bottom channel leg and thickest at a top end of said short channel leg so as to form an inner wall of an opening of said unit, said short channel leg formed with a flat top end that is wider than formed at a flat top end of said long channel leg so as to altogether form a cavity within said sectional form unit that has, in a cross section perpendicular to a longitudinal axis of said sectional form unit, a wider cavity part adjacent the channel bottom leg and a narrower cavity part extending from said wider cavity part to said opening of said unit.
In accordance with the second aspect of the present invention, said sectional form unit may be assembled for shipment to a construction site so as to nest with another sectional form unit by mating said short channel leg of each sectional form unit inside a wider shaped cavity of the other sectional form unit and disassembled at the construction site for assembly into a sectional part of a permanent concrete form part of a permanent frost protected shallow foundation footing for a building.
In further accordance with the second aspect of the present invention, the article of manufacture may have opposing ends formed for abutment with adjacent sectional form units in end to end alignment with each other to form a chain of sectional form units set partially below ground level and partially above ground level so as to form a permanent concrete form part of a permanent frost protected shallow foundation footing for a building.
In further accordance with the second aspect of the present invention, said flat top end of said long channel leg may have a length selected to match a top surface level of a concrete floor of a foundation for a building relative to a bottom surface level of said concrete floor. The opposing ends formed for abutment with adjacent sectional form units in end to end alignment with each other may be formed into a chain of sectional form units set partially below ground level and partially above ground level so as to form said permanent concrete form part of said permanent frost protected shallow foundation footing for said building.
In further accordance with the second aspect of the present invention, said flat top end of said longer channel leg may be formed to accept a channel cap slid over said top end of said longer channel leg and over a top end of at least one adjacent form unit to keep the form unit aligned with said at least one adjacent form unit before, during and after construction of said permanent frost protected shallow foundation footing and as a protective cap over said top end with one side extending from said top end on an outside surface of said longer channel leg toward said bottom channel leg to protect at least part of said outside surface of said longer leg and with another side extending from said top end on an inside surface of said longer channel leg a distance toward said bottom channel leg to form an inner side of said cap to hold said cap in place over said top end.
In further accordance with the second aspect of the present invention, said flat top end of said longer channel leg is formed to accept a channel cap slid over said top end of said longer channel leg and over a top end of at least one adjacent form unit to keep the form unit aligned with said at least one adjacent form unit before, during and after construction of said permanent frost protected shallow foundation footing and as a protective cap over said top end with one side extending from said top end on an outside surface of said longer channel leg toward said bottom channel leg to protect at least part of said outside surface of said longer leg and with another side extending from said top end on an inside surface of said longer channel leg a distance toward said bottom channel leg to form an inner side of said cap to hold said cap in place over said top end.
According to a third aspect of the present invention, a method is provided comprising constructing a foundation for a building at a building site, said foundation comprising a permanent frost protected shallow foundation footing for said building, said method comprising:
assembling a plurality of sectional form units each made from a solid lightweight insulating material that is transported to the building site, said plurality of sectional form units assembled to form sectional parts of a permanent concrete form part of said permanent frost protected frost protected shallow foundation footing for said building, said sectional form units assembled so as to fit in a chain of sectional form units set partially below ground level and partially above ground level alongside each other to form said chain of sectional form units as said concrete form part of said permanent frost protected shallow foundation footing for said building, each sectional form unit having an interior cavity with opposite end openings in exterior ends of said sectional form unit, said sectional form unit assembled with said plurality of sectional form units with said end openings in said opposite exterior ends aligned with end openings in adjacent sectional form units in end-to-end abutment with said two opposite exterior ends to form an elongate interior cavity within said chain of sectional form units, and
pouring concrete through a pour opening of each sectional form unit, said pour opening for receiving said concrete pour, said pour at least in part filling said interior cavity assembled with said plurality of sectional form units assembled into said chain of sectional form units into said elongate interior cavity within said chain of sectional form units, said concrete pour at least in part filling said interior cavity when assembled with said plurality of sectional form units to form a concrete link of a concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of sectional form units, said concrete pour overflowing from within said interior cavity through said pour opening to connect outside said plurality of sectional form units with a further/concurrent concrete pour of a floor for said building having a floor periphery bounded at least in part by said chain of sectional form units of said permanent concrete form part of said permanent frost protected shallow foundation footing, said floor poured at least in part after said pour of said concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of said sectional form units.
According to a fourth aspect of the present invention, a foundation for a building is provided, said foundation comprising a permanent shallow frost protected footing foundation for said building, comprising:
an assembly of sectional form units each made from a solid lightweight insulating material that is transported to the building site, said plurality of sectional form units assembled to form sectional parts of a permanent concrete form part of said permanent frost protected shallow foundation footing for said building, said sectional form units assembled so as to fit in a chain of sectional form units set partially below ground level and partially above ground level alongside each other to form said chain of sectional form units as said concrete form part of said permanent frost protected shallow foundation footing for said building, each sectional form unit having an interior cavity with opposite end openings in exterior ends of said sectional form unit, each sectional form unit assembled with said plurality of sectional form units with said end openings in said opposite exterior ends aligned with end openings in adjacent sectional form units assembled in end-to-end abutment with said two opposite exterior ends to form an elongate interior cavity within said chain of sectional form units; and
concrete that was poured through a pour opening of each sectional form unit into said elongate interior cavity in said assembly of plural sectional form units assembled into said chain of sectional form units so as to at least in part fill said elongate interior cavity within said chain of sectional form units to form a concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of sectional form units, said concrete pour overflowing from within said elongate interior cavity through said pour openings to connect outside said plurality of sectional form units with a further concrete pour of a floor for said building having a floor periphery bounded at least in part by said chain of sectional form units of said permanent concrete form part of said permanent frost protected shallow foundation footing, said floor poured at least in part after said pour of said concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of said sectional form units.
According to a fifth aspect of the present invention, an article of manufacture is provided comprising a sectional form unit made from a solid lightweight insulating material that is transportable to a construction site for assembly as a sectional part of a permanent concrete form part of a permanent frost protected shallow foundation footing for a building, said sectional form unit for said assembly with a plurality of sectional form units cut to fit in a chain of sectional form units set partially below ground level and partially above ground level alongside each other to form said chain of sectional form units as said form part of said permanent frost protected shallow foundation footing for said building, said sectional form unit having an interior cavity with opposite end openings in exterior ends of said sectional form unit, said sectional form unit for said assembly with said plurality of sectional form units with said end openings in said opposite exterior ends aligned with end openings in adjacent sectional form units assembled in end-to-end abutment with said two opposite exterior ends to form an elongate interior cavity within said chain of sectional form units, said interior cavity of said sectional form unit having said pour opening for receiving said concrete pour to at least in part fill said interior cavity when assembled with said plurality of sectional form units to form said concrete link of said concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of sectional form units, said concrete poured to at least in part fill said interior cavity of said sectional form unit and to overflow from within said interior cavity through said pour opening to connect outside said plurality of sectional form units with a concurrent pour of a concrete floor for said building having a floor periphery bounded at least in part by said chain of sectional form units, said floor poured at least in part after said pour of said permanent concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of said sectional form units.
In accordance with the fifth aspect of the present invention, said interior cavity may be formed as a boot-shape with a foot cavity part and a leg cavity part, said foot cavity part formed with interior cavity walls shaped as a foot top part interior wall and a foot bottom part interior wall joined at an acute angle as a toe shaped joining of said foot top part interior wall and said foot bottom part interior wall of said foot cavity part of said interior cavity, said foot bottom part interior wall formed opposite an exterior bottom side of said elongate sectional unit, said foot bottom part interior wall joined at a right angle at a heel shaped joining in said interior cavity to a back interior wall of said leg cavity part opposite to an exterior rear side of said elongate sectional unit, said back interior wall extending to said pour opening in an exterior top side of said elongate sectional unit comprising a leg cavity part opening, a front part of said interior wall of said leg part joined at an obtuse angle to said foot top part interior wall of said foot cavity part of said interior cavity, said foot top part interior wall of said interior cavity forming an interior cavity side wall of an overhang section of an exterior front side of said elongate sectional unit and said exterior top side of said elongate sectional unit that includes an exterior top side wall of said overhang section, said toe shaped joining of said foot top part interior wall and said foot bottom part pointing toward said exterior front side joining said exterior top side wall of said overhang section to said exterior bottom side, said exterior bottom side joined to said exterior rear side, said exterior rear side and said interior wall of said leg part extending beyond said front part of said interior wall of said leg cavity part to form a part of said sectional unit that juts out as a backstop to said concrete poured into said pour opening in said exterior top side.
According to a sixth aspect of the present invention, a foundation part is provided comprising a sectional unit formed from a lightweight insulating material with an interior cavity extending between opposite open ends of said sectional unit, said interior cavity having a boot-shape with a foot cavity part and a leg cavity part, said foot cavity part shaped with interior cavity walls forming a foot top part, a foot bottom part and a heel rear part, said leg cavity part having an interior wall extending from said heel rear part of said foot cavity part to a leg cavity part opening of said sectional unit, a front part of said interior wall of said leg part joined at an obtuse angle to an interior foot top wall of said foot cavity part of said interior cavity, said interior foot top wall of said interior cavity forming a cavity side wall of an overhang section of said sectional unit that includes an exterior top side wall of said overhang section, said foot top wall of said interior cavity joined at an acute angle to a foot bottom wall of said interior cavity to form a toe front part of said interior cavity extending toward an exterior wall of said sectional unit joining said exterior top side wall of said overhang section to an exterior bottom wall of said sectional unit opposite said foot bottom wall, said exterior bottom wall joined to an exterior wall of said sectional unit opposite said back part of said interior wall of said leg part extending beyond said front part of said interior wall of said leg cavity part to form a part of said sectional unit that juts out as a backstop to said opening across from said top side wall of said overhang section.
In accordance with the sixth aspect of the present invention, the foundation part may be a part of a concrete form part of a permanent frost protected shallow foundation footing for a building, said sectional unit for assembly with a plurality of sectional units in a chain of sectional units set partially below ground level and partially above ground level alongside each other requiting minimal site excavation to form said chain of sectional units as said concrete form part of said permanent frost protected shallow foundation footing for said building, said sectional unit having said interior cavity extending between opposite open ends of said elongate sectional unit with said opposite open ends comprising opposite end openings in exterior ends of said sectional unit, said sectional unit for said assembly with said plurality of sectional units with said end openings in said opposite exterior ends aligned with end openings in adjacent sectional units assembled in end-to-end abutment with said two opposite exterior ends to form an elongate interior cavity within said chain of sectional units, said leg cavity opening of said sectional unit comprising a pour opening for receiving a concrete pour to at least in part fill said interior cavity when assembled with said plurality of sectional units to form a concrete link of a concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of sectional units, said concrete poured to at least in part fill said interior cavity of said sectional unit and to overflow from within said interior cavity through said pour opening to connect outside said plurality of sectional units with a concurrent pour of concrete a floor for said building having a floor periphery bounded at least in part by said chain of sectional units, said floor poured at least in part after said pour of said concrete part of said permanent frost protected shallow foundation footing in said elongate interior cavity within said chain of said sectional units.
Frost protection as taught herein is an important aspect of the invention. Minimal excavation and site disturbance is an important benefit, smaller machines like a bobcat loader is sufficient for all prep work and grading. A sunroom addition would enjoy much less lawn and site disturbance with this system than with a standard footing and poured wall. Foundation and floor can be poured concurrently which is a very efficient method as compared to standard systems used today with tremendous savings in time and labor, weather risks etc. As also taught herein the lightweight construction material the forms are made from may be an insulating foam material.
These and other objects, features and advantages of the present invention will become more apparent in light of the detailed description of a best mode embodiment thereof, as illustrated in the accompanying drawing.
The sectional unit of
The dimensions of the sectional form unit of
As shown in
The article of manufacture of
As shown in
Once the sectional form units are assembled into the desired foundation footing perimeter and aligned properly for instance with the caps/liners described above, earth and/or crushed rock in the form of small stones or pebbles may be moved and compacted to build up the level of the earth to a desired level outside the perimeter and to fill the inside of the perimeter to a desired depth for instance to a level just below the level of the to end 29 of the short channel legs of the aligned forms. That would allow for placement of a covering layer of lightweight construction material such as synthetic resin foam to be laid over the surface of the earth inside the perimeter up to and in abutment with an outside wall 43 of the short channel leg 26. Or, earth fill can be made so as to be flush and level with the surface of top end 29. That way, the covering layer may extend over the top end 29 and end at the side wall 28a of the opening 30 so that the opening is not blocked.
It is to be noted that the adjoining sectional form units need not necessarily always be aligned along the perimeter in a straight line. Rather, as shown in
From what has been presented above, it will be appreciated that besides the manufactured sectional form unit itself, the present invention covers a new methodology for making a foundation for a building at a building site, the foundation being a permanent frost protected shallow foundation. The method proceeds by assembling a plurality of sectional form units, such as the unit 20 shown in
Concrete is then poured, as shown in
As described above, in referring to
In other words, a foundation part is provided as the sectional form unit 20a manufactured from a lightweight construction material such as synthetic resin foam with the interior cavity 23a extending between opposite open ends of the sectional unit. The aforementioned open ends are openings having the boot shape of
Although the invention has been shown and described with respect to a best mode embodiment thereof, it should be understood by those skilled in the art that the foregoing and various other changes, omissions and deletions in the form and detail thereof may be made therein without departing from the spirit and scope of this invention. Likewise, although the invention has been shown and described with respect to one or more particular preferred embodiments, it is clear that equivalent amendments or modifications will occur to the person skilled in the art when reading and interpreting the text and enclosed drawing(s) of this specification. In particular with regard to the various functions performed by the elements (components, assemblies, devices, compositions, etc.) described above, the terms used to describe such elements (including any presently or later claimed “means”) are intended, unless expressly indicated otherwise, to correspond to any element which performs the specified function of the element described, i.e. which is functionally equivalent to it, even if it is not structurally equivalent to the disclosed structure which performs the function in the example embodiment(s) illustrated here.
Moreover, while a particular feature of the invention may have been described above with respect to only one or some of the embodiments illustrated, such a feature may also be combined with one or more other features of the other embodiments, in any way such as may be desirable or advantageous for any given application of the invention. While there have been shown and described and pointed out fundamental novel features of the invention as applied to preferred embodiments thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices and methods described may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. Furthermore, any means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents, but also equivalent structures. Thus although a nail and a screw may not be structural equivalents in that a nail employs a cylindrical surface to secure wooden parts together, whereas a screw employs a helical surface, in the environment of fastening wooden parts, a nail and a screw may be equivalent structures.
Number | Name | Date | Kind |
---|---|---|---|
3421278 | Christ-Janer | Jan 1969 | A |
3977646 | Moon et al. | Aug 1976 | A |
5224321 | Fearn | Jul 1993 | A |
5367845 | Hartling | Nov 1994 | A |
5398351 | Watson | Mar 1995 | A |
5399050 | Jacobus | Mar 1995 | A |
5475950 | Palmer | Dec 1995 | A |
6332599 | Spartz | Dec 2001 | B1 |
6536737 | Davis | Mar 2003 | B1 |
7874112 | Kovatch | Jan 2011 | B2 |
8574471 | Prater | Nov 2013 | B2 |
20030019175 | Kremers | Jan 2003 | A1 |
20080104909 | Wallin | May 2008 | A1 |
20090255199 | Lonsdale | Oct 2009 | A1 |
20140015154 | Hogan | Jan 2014 | A1 |
Number | Date | Country | |
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20150267374 A1 | Sep 2015 | US |
Number | Date | Country | |
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Parent | 13796953 | Mar 2013 | US |
Child | 14732699 | US |