CA2991229C - Insulated slab-on-grade foundation system - Google Patents

Abstract

A foundation system (1) and method of installing the foundation system. The system including plurality of modular slabs (3, 3A, 3B) mountable onto a gravel layer (2); and at least one horizontal isolating slab (5A, 5B, 5C) and a vertical edge portion (4) positioned with respect to the modular slabs (3A, 3A, 3B) for creating a receptacle wherein concrete is poured thereon.

Description

TITLE OF THE INVENTION
INSULATED SLAB-ON-GRADE FOUNDATION SYSTEM
FIELD OF THE INVENTION
[001] The present invention relates to a system of insulated slab-on-grade foundation system to protect building shallow foundations and is more particularly concerned with method of installing such system.
BACKGROUND OF THE INVENTION

[002] It is well known in the art to use insulated slab-on-grade foundation system to protect shallow foundations. More particularly, the invention pertains to an insulated slab-on-grade foundation system and it method for shallow foundation. The typical isolation system for foundation does not adjust and is fixed or does not adapt to the different dimension of shallow foundations.

[003] Accordingly, there is a need for an improved insulated slab-on-grade foundation system with a simple configuration.
SUMMARY OF THE INVENTION

[004] It is therefore a general object of the present invention to provide an improved insulated slab-on-grade foundation system.

[005] An advantage of embodiments of the present invention is that the insulated slab-on-grade foundation system may have the capacity to adapt to any size projects such as building, housing, garage and other construction project.

[006] Another advantage of embodiments of the present invention is that the insulated slab-on-grade foundation system may be more efficient than known systems.

[007] A further advantage of embodiments of the present invention is that it may be made mostly of EPS (expanded polystyrene material), it may be pre-shape, it may not be molded and therefore may be less expensive.

[008] Still another advantage of embodiments of the present invention is that the isolated frost protection made of said EPS may be pre-shaped in one part or more likely in two different parts so as to allow an easy installation process.

[009] Another advantage of embodiments of the present invention is that the installation process may become easier because of the dovetail pre-form can fit together.

[010] Still a further advantage of embodiments the present invention is that the isolated frost protection may be made of EPS in two smaller parts as compared to one large piece and so easier to operate.

[011] According to a first aspect of the present invention, there is provided that the isolated frost protection stays in place after the pouring of the concrete because of the locking mechanism provided by the dovetail.

[012] In a second aspect of the present invention, there is provided an isolated frost protection system for saving time, energy, and relatively less costly and adaptable to any type of construction.

[013] Other objects and advantages of the present invention will become apparent from a careful reading of the detailed description provided herein, with appropriate reference to the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS

[014] Further aspects and advantages of the present invention will become better understood with reference to the description in association with the following Figures, in which similar references used in different Figures denote similar components, wherein:

[015] Figure 1 is a side section view of an insulated slab-on-grade foundation system, in accordance with an illustrative embodiment of the present invention;

[016] Figure 2 is a, in accordance with a second illustrative embodiment of the present invention;

[017] Figure 3 is, in accordance with a third illustrative embodiment of the present invention; and

[018] Figure 4 is a, in accordance with a fourth illustrative embodiment of the present invention.
DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

[019] With reference to the annexed drawings the preferred embodiments of the present invention will be herein described for indicative purpose and by no means as of limitation.

[020] Referring to Figure 1, there is schematically shown an embodiment of an insulated slab-on-grade foundation system, in accordance with a preferred embodiment of the present invention. The system is preferably installed on a natural soil layer 1 without humus. The soil layer 1 is excavated or arranged so that one portion thereof has an horizonal soil surface and another portion thereof has slanted soil surface. On top of the soil layer 1, there is disposed a layer of net gravel 2 for draining purposes. The gravel layer 2 is arranged so as to follow the profile of the soil layer 1 with one portion thereof having an horizonal gravel surface and another portion thereof having slanted gravel surface. On top of the gravel layer 2, there is disposed a modular slab 3. The modular slab 3 includes a peripheral vertical edge portion 4 made of metal for surrounding and holding different modules around the perimeter of the modular slab 3. The modular slab includes a first isolating portion 5A made of rigid EPS (expanded polystyrene material) disposed along the internal surface of the modular slab 3. A vapor barrier 6 may be installed on top of the second isolating portion 5A. The modular slab 3 includes a second isolating portion 5B made of rigid EPS (expanded polystyrene material) disposed on top of the first isolating portion 5A along the internal surface of the modular slab 3. The second isolation portion 5B
includes a slanted transitional portion 7A. The modular slab 3 may also include an external skirt portion 8 that extends outwardly and is disposed on top of the slanted gravel surface. Concrete 10 is poured into the modular slab 3 and rebars or reinforced bars 9 are installed in the concrete 10. At the bottom of the slanted gravel portion there is a drain 12 surrounded by gravel 11. On top of the skirt portion 8 there is a layer of filling and soil 13 for finishing the outer surroundings of the modular slab 3.

[021] Referring to Figure 2, there is schematically shown another embodiment of an insulated slab-on-grade foundation system, in accordance with second preferred embodiment of the present invention. It is similar to the one shown in Figure 1 and the same reference numbers refer to the same elements. In this second embodiment, the modular slab 3 includes a third isolating portion 50 made of rigid EPS (expanded polystyrene material) disposed on top of the second isolating portion 56 along the internal surface of the modular slab 3.
The third isolation portion 50 includes a second slanted transitional portion 78.

[022] Referring to Figure 3, there is schematically shown another embodiment of an insulated slab-on-grade foundation system, in accordance with third preferred embodiment of the present invention. It is similar to the one shown in Figures 1-2 and the same reference numbers refer to the same elements. A
modular slab 3A of different shape as the one of Figure 1 is used.

[023] Referring to Figure 4, there is schematically shown another embodiment of an insulated slab-on-grade foundation system, in accordance with fourth preferred embodiment of the present invention. It is similar to the one shown in Figures 1-3 and the same reference numbers refer to the same elements. A
modular slab 3B of different shape as the one of Figures 1-2 is used

[024] Preferably, the components of the modular slab 3, 3A or 3B are prepared in the workshop according to the size and the customer's plan.

[025] Then, one has to prepare the ground before installing the modular slab 3, 3A or 3B. In a first step, one has to remove the top soil or vegetal part of the ground where the modular slabs 3, 3A or 3B are to be installed. One has then to arrange a gravel layer of thickness of preferably about 4 inches to 6 inches so has to provide a suitable drainage. Between the soil layer 1 and gravel layer there may be a geotexile fabric so as to not lose the gravel.

[026] Then, one determines the four corners where the modular slab 3, 3A or 3B

are to be installed. A preferred length size of a modular slab 3 made of EPS
is about 4 feet. One then completes with the other modules made of EPS all around the periphery.

[027] The internal corners are made by crossing cross of two modules 3 (and/or 3a shown in Figure 3) right with 8 inches extending beyond of one of the two segments on the perimeter. A flat panel fills this internal junction to achieve a 90 degrees internal corner.

[028] One then installs a mechanical link, such as a U-shaped metal plate 4 (1 5/8 inches wide) that connects all modules 3 throughout the perimeter thereof 3b.
Each U-shape metal plate 4 of may be superimposed and secured by self-taping screws.

[029] The inner surface of the perimeter modules 3 (an/or 3a) are filled with EPS
that is to say the first row insulating panels 5 are installed.

[030] The assembly of the second part of the top modular part 3b (module a (3b) made of EPS - length of 8 feet) is joined by a junction in a key way -Two modules (3b) cut 45 degrees in pairs make the outer corners. The perimeter segments must be completed with right modules (modular part A (3b) in EPS -length of 8 feet).

[031] One then installs a mechanical link, such as a U-shaped edge portion 4b that is made of metal (2 1/2 " wide) that will make the joint on all modules throughout the perimeter of modules A 3b. Each U-shaped portion 4b of metal is joined by overlay and secured by self-tapping metal screws.

[032] The junction of the modules A 3a and B 3b is done by the key path which allows an adjustment of the final level of the perimeter of the reference modules for the pouring of the concrete.

[033] This adjustment of the keyway between the module A and B may be fixed by insulated spray in a can.

[034] A vapor barrier 6, which is preferably of a minimum 10 mm, is installed within the entire project area. All attached to the U-shaped metal portion 4 so as to perform jointing of A modules

[035] The next step involves installation of a transition module (1/2 " - 3"x 12 "
length of 8 ') inside MODULE A (at a distance of 24"from the internal top of module A) this module is parallel (24 "internal distance) from module A of the project.

[036] The new inner surface of the transition module is filled with EPS-second row insulation board.

[037] Some installations require a second transition module after the second row EPS insulation, if it is the case then a third row of insulation made of EPS
may be required.

[038] An EPS insulation board fits into the outer bottom of module B at the outer perimeter to make a frost protection skirt over the entire outer perimeter.
(The dimensions of this EPS panel are based on the ground freeze calculation for the project region).

[039] Although the present invention has been described hereinabove by way of specific embodiments thereof, it can be modified, without departing from the spirit and nature of the subject invention defined in the appended claims.

Claims (26)

What Is Claimed Is:

1. An insulated slab-on-grade foundation system for supporting a foundation, the insulated slab-on-grade foundation system being supported by a gravel layer defining a substantially horizontal profile and a substantially slanted profile adjacent the substantially horizontal profile, the slab-on-grade foundation system comprising:
a plurality of adjacent modular slabs supported by the gravel layer in the substantially horizontal profile and adjacent the substantially slanted profile, the plurality of adjacent modular slabs together forming a modular slab perimeter, each one of the plurality of adjacent modular slabs defining an outer surface and an inner surface and comprising:
a base portion supported by the gravel layer in the substantially horizontal profile, the base portion defining an outer end and an inner end;
a wall portion upwardly and substantially perpendicularly extending from the base portion at the outer end, the wall portion defining a lower end and an upper end; and a longitudinal groove formed within the outer end of the base portion and at the outer surface of the modular slab;
an isolating slab layer supported by and covering the substantially horizontal profile found inside the modular slab perimeter;
an edge portion mounted along the upper ends of the wall portions connecting at least two adjacent modular slabs of the plurality of modular slabs together; and a peripheral skirt portion supported by the gravel layer in the substantially slanted profile, the peripheral skirt portion defining a connection end inserted within the longitudinal groove;
the plurality of adjacent modular slabs and the isolating slab layer together forming a receptacle for receiving poured concrete therein.

2. The insulated slab-on-grade foundation system of claim 1, wherein the plurality of adjacent modular slabs, the isolating slab layer and the peripheral skirt portion are made of an expanded polystyrene material.

3. The insulated slab-on-grade foundation system of claim 1, further comprising a plurality of reinforced bars supported over the isolating slab layer and within the receptacle allowing poured concrete to flow around the plurality of reinforced bars.

4. The insulated slab-on-grade foundation system of claim 1, further comprising a vapor barrier covering the isolating slab layer and the edge portions found at the upper end of the wall portion.

5. The insulated slab-on-grade foundation system of claim 1, wherein the peripheral skirt portion comprises a plurality of adjacent peripheral skirt portions extending away from the receptacle.

6. The insulated slab-on-grade foundation system of claim 1, wherein each one of the plurality of adjacent modular slabs is integrally formed.

7. The insulated slab-on-grade foundation system of claim 1, wherein the wall portion is releasably mounted on the base portion.

8. The insulated slab-on-grade foundation system of claim 7, wherein the wall portion comprises a connexion at its lower end and further wherein the base portion comprises a corresponding connexion about its outer end releasably connected with the connexion.

9. The insulated slab-on-grade foundation system of claim 1, wherein the isolating slab layer comprises: a first isolating layer supported by and covering the substantially horizontal profile found inside the modular slab perimeter; and a second isolating layer supported by and covering partially the first isolating layer.

10. The insulated slab-on-grade foundation system of claim 9, further comprising a first slanted transitional portion supported by the first isolating layer and adjacent the second isolating layer.

11. The insulated slab-on-grade foundation system of claim 10, further comprising a third isolating layer supported by and covering partially the second isolating layer.

12. The insulated slab-on-grade foundation system of claim 11, further comprising a second slanted transitional portion supported by the second isolating layer and adjacent the third isolating layer.

13. The insulated slab-on-grade foundation system of claim 12, wherein: the first isolating layer comprises a plurality of adjacent first isolating portions; the second isolating layer comprises a plurality of adjacent second isolating portions; the third isolating layer comprises a plurality of adjacent third isolating portions; the first slanted transitional portion comprises a plurality of adjacent first slanted transitional portions; and the first slanted transitional portion comprises a plurality of adjacent first slanted transitional portions.

14. A method of installing an insulated slab-on-grade foundation system for supporting a foundation, the method comprising:
a) locating a gravel layer on top of a soil layer to define a substantially horizontal profile and a substantially slanted profile, the substantially slanted profile being located adjacent the substantially horizontal profile;
b) forming a modular slab perimeter by locating a plurality of adjacent modular slabs which are supported by the gravel layer in the substantially horizontal profile and adjacent the substantially slanted profile, each one of the plurality of adjacent modular slabs defining an outer surface and an inner surface, the modular slabs having a base portion is supported by the gravel layer in the substantially horizontal profile, the base portion defining an outer end and an inner end; a wall portion upwardly and substantially perpendicularly extends from the base portion at the outer end, the wall portion defining a lower end and an upper end; a longitudinal groove is formed within the outer end of the base portion and at the outer surface of the modular slab; an edge portion is mounted along the upper ends of the wall portions connecting at least two adjacent modular slabs of the plurality of modular slabs together, and a peripheral skirt portion is supported by the gravel layer in the substantially slanted profile, the peripheral skirt portion defining a connection end inserted within the longitudinal groove; and c) locating at least one isolating slab layer to be supported by and cover the substantially horizontal profile found inside the modular slab perimeter, the plurality of adjacent modular slabs and the isolating slab layer together forming a receptacle for receiving poured concrete therein, the insulated slab-on-grade foundation system being supported by the gravel layer.

15. The method, according to claim 14, wherein the plurality of adjacent modular slabs, the isolating slab layer and the peripheral skirt portion are made of an expanded polystyrene material.

16. The method, according to claim 14, further comprising installing a plurality of reinforced bars supported over the isolating slab layer and within the receptacle allowing poured concrete to flow around the plurality of reinforced bars.

17. The method, according to claim 14, further comprising installing a vapor barrier to cover the isolating slab layer and the edge portions found at the upper end of the wall portion.

18. The method, according to claim 14, in which the peripheral skirt portion comprises a plurality of adjacent peripheral skirt portions extending away from the receptacle.

19. The method, according to claim 14, in which each one of the plurality of adjacent modular slabs is integrally formed.

20. The method, according to claim 14, wherein the wall portion is releasably mounted on the base portion.

21. The method, according to claim 14, in which the wall portion comprises a connexion at its lower end and further wherein the base portion comprises a corresponding connection about its outer end releasably connected with the connexion.

22. The method, according to claim 14, in which the isolating slab layer comprises: a first isolating layer supported by and covering the substantially horizontal profile found inside the modular slab perimeter; and a second isolating layer supported by and covering partially the first isolating layer.

23. The method, according to claim 22, further comprising a first slanted transitional portion supported by the first isolating layer and adjacent the second isolating layer.

24 The method, according to claim 22, further comprising a third isolating layer supported by and covering partially the second isolating layer.

25. The method, according to claim 24, further comprising a second slanted transitional portion supported by the second isolating layer and adjacent the third isolating layer.

26. The method, according to claim 25, in which: the first isolating layer comprises a plurality of adjacent first isolating portions; the second isolating layer comprises a plurality of adjacent second isolating portions; the third isolating layer comprises a plurality of adjacent third isolating portions; the first slanted transitional portion comprises a plurality of adjacent first slanted transitional portions; and the first slanted transitional portion comprises a plurality of adjacent first slanted transitional portions.