METHOD OF PROVIDING A PIPE PASSAGEWAY THROUGH A CONCRETE SLAB

Abstract

A method of providing a drain pipe passageway through a concrete slab wherein a plastic pipe of predetermined diameter, which is greater than the underlying drain pipe, is positioned in an upright manner within a location of a concrete slab to be poured. Concrete is poured around the pipe to a desired level leaving a portion of the pipe exposed above this level, and the concrete is permitted to solidify. Thereafter the exposed portion of the pipe is cut off leaving an upper opening of the pipe flush with the upper surface of the concrete slab. The upper opening of the pipe is closed off with a plastic cap and a passageway of predetermined diameter, which is smaller than the pipe diameter, is drilled through the cap at a newly calculated position of alignment, and a plastic pipe having an outside diameter which will mate with this smaller diameter of the passageway is inserted through the cap passageway and cemented in position.

Claims

1. A method of providing a pipe passageway through a concrete slab, the method comprising: positioning a plastic pipe of predetermined diameter in an upright position with an open end thereof facing upward and within a location of a concrete slab to be poured; pouring concrete around said pipe to a desired level leaving a portion of said pipe exposed above said level and permitting the concrete to solidify to form the slab; cutting off said exposed portion of said pipe thereby leaving an upper opening thereof flush with an upper surface of said slab at said desired level; closing off said upper opening of said pipe with a plastic cap; drilling a passageway of a predetermined diameter which is smaller than said pipe diameter through said cap at a calculated position of alignment; and inserting a plastic pipe, having an outside diameter which will mate with said smaller diameter of said passageway, through said cap passageway and sealing and securing said pipe of smaller diameter in position in said passageway of said cap.

2. The method of claim 1, wherein said pipes of predetermined and smaller diameter and said cap are sealed and secured together with a cement.

3. The method of claim 2, wherein said pipe of smaller diameter is an integral part of a toilet flange.

4. The method of claim 2, wherein the step of drilling is performed by marking said calculated position of alignment on said cap, marking the orientation of said cap on said upper opening of said pipe of predetermined diameter, removing and drilling said cap, replacing said drilled cap to said upper end, and orienting and cementing said cap to its original position in said upper opening as indicated by said orientation marking,

5. The method of claim 2, wherein the step of closing off said upper opening is performed by cementing said cap in said upper opening, and the step of drilling is performed by marking said calculated position on said cap and drilling said passageway with said cemented cap in place.

6. The method of claim 2, wherein said pipe of a predetermined diameter has an inside diameter of 6 or 8 inches and said smaller diameter is 3 or 4 inches.

7. The method of claim 6, wherein said pipe of smaller diameter is an integral part of a toilet flange.

8. The method of claim 2, wherein said cap is a circular plastic disk sized to close off said upper opening and provided with a plurality of wafer thin annularly spaced ears protruding from the periphery of said disk to rest on an exposed end of said pipe of predetermined diameter.

9. The method of claim 8, including the step of removing said ears prior to or while cementing said cap into said upper opening of said pipe whereby an upper surface of said cap is flush with said upper opening when cemented to said upper opening.

10. The method of claim 9, wherein said cap is provided with fingernail grooving on a side annular edge of said disk to assist removal of said cap from said upper opening prior to cementing.

11. A method of providing a floor drain through a concrete slab, the method comprising: positioning a plastic pipe in a upright position with an open end thereof facing upward and within a location of concrete slab to be poured; pouring concrete around side pipe to a desired level leaving a portion of said pipe exposed above said level and permitting the concrete to solidify to form the slab; cutting off said exposed portion of said pipe thereby leaving an upper opening thereof flush with an upper surface of said slab at said desired level; and closing off said upper opening of said pipe with a plastic perforated drain cap.

12. The method of claim 11, wherein the step of closing off said upper opening is performed by cementing a plastic drain cap in said upper opening and thereafter drilling multiple drain perforations through said cap.

13. The method of claim 12, including drilling a pipe passageway through said cap and inserting a plastic drain pipe through said passageway and cementing the drain pipe in place in said passageway.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] Other objects and advantages appear hereinafter in the following description and claims. The accompanying drawings show, for the purpose of exemplification, without limiting the scope of the present invention or appended claims, certain practical examples of the present invention wherein:

[0018] FIG. 1 is a view in side elevation illustrating the first step of the method of the present invention wherein an enlarged pipe of predetermined diameter is positioned in an upright position within a location of a concrete slab to be poured;

[0019] FIG. 2 is an isometric exploded view in side elevation of the structure shown in FIG. 1 after the upright pipe of enlarged diameter has been cut down to the desired level flush with the slab of hardened concrete, and further illustrating the cap for closing off the upper opening of the pipe and the pipe of smaller diameter to be inserted within a passageway through the cap at a newly calculated position of proper alignment;

[0020] FIG. 3 is a top or plan view of a realigned toilet flange assembled in accordance with the method of the present invention;

[0021] FIG. 4 is a view in side elevation with upper portions thereof shown in mid cross section illustrating the assembly shown in FIG. 3;

[0022] FIG. 5 is a plan view of a floor drain constructed in accordance with the techniques of the present invention; and

[0023] FIG. 6 is a view in side elevation with upper sections shown in mid cross section illustrating additional details of the floor drain assembly shown in FIG. 5.

DETAILED DESCRIPTION OF THE PRESENT INVENTION

[0024] Referring to FIG. 1, this figure illustrates the initial rough-in plumbing for providing a pipe passageway through a concrete slab in accordance with the teachings of the method of the present invention. A plastic pipe 10 of a predetermined diameter D is held or retained in an upright position as illustrated with an open end 11 facing upward and within a location 12 of a concrete slab to be poured. In this instance, for example, we will designate the inside diameter of pipe 10 to be six inches and the pipe 10 to be manufactured of PVC or ABS.

[0025] Pipe 10 is supported and held in position by underlying rough-in plumbing consisting of the four inch pipeline 13 which is of the same or similar plastic, and a six inch to four inch reducer of expander 14. All of these plastic plumbing fixtures or elements are cemented together with a solvent cement. Pipe 13 is supported in the position illustrated by surrounding earth and/or gravel (not shown).

[0026] The important feature to recognize is that plastic pipe 10 of predetermined diameter is and must have an internal diameter which is larger than the underlying drain pipe 13.

[0027] Concrete is then poured around pipe 10 at location 12 on top of the underlying earth or gravel surface 15 to a desired level 16 leaving a portion 17 of pipe 10 exposed above level 16. The concrete is permitted to solidify in order to form concrete slab 18 such as illustrated in FIG. 4.

[0028] After the concrete 18 has solidified, pipe 10 of a larger predetermined diameter is cut off at level 16 thereby leaving an upper opening 20 of pipe 10 as indicated in FIG. 2 such that upper opening 20 is flush with an upper surface of the cement slab 18 at the desired level 16.

[0029] The upper portion of pipe 17 may be cut off at level 16 by any conventional cutting tool, such as a reciprocating saw with a long flexible blade, and oscillating saw or an angle grinder.

[0030] A cap 21 is then inserted into upper opening 20 of pipe 10 to close off upper opening 20. Cap 21 consists of a plastic circular disk with an annular edge 22 having a thickness or depth which is a sufficient depth to provide an adequate contact gluing area between the periphery of cap 21 and the interior of pipe 10 at upper opening 20. For example, the depth of edge 22 of cap 21 might typically be between one to two inches.

[0031] Thereafter, a passageway 23 in cap 21 of a predetermined diameter, which is smaller than the internal diameter of pipe 10, is drilled through cap 21 at a calculated position of alignment where the center of pipe 10 should have been originally positioned. Then a plastic pipe 24 (FIG. 2) having an outside diameter which will mate with the smaller diameter of passageway 23, is inserted through cap passageway 23 and is there sealed and secured in position in passageway 23 of cap 21, such as by a solvent cement.

[0032] This figure illustrates that the original position of the center line of pipe 13 is located at center line 25. However, after slab 18 was poured and hardened it became clear that center line 25 was not properly positioned as required and in order to provide the required repositioning to a calculated position of alignment indicated by center line 26, passageway 23 had to be drilled through cap 21 at a newly calculated position of alignment as indicated by center line 26.

[0033] With further reference to FIGS. 3 and 4, the pipe 24 of smaller diameter is in fact illustrated as an integral part of a plastic toilet flange 27. As previously explained, the center of toilet flange 11 by code must be spaced a specific distance from adjacent walls or other objects. The initial positioning of the center line 25 of pipe 10 was unfortunately misaligned and positioned in the wrong place. This could be due to movement of pipe 10 which is caused when the slab 18 was poured or when gravel under the slab was laid, or possibly the initial rough-in plumbing of drain pipe 13 was measured from a cement block wall, the outer surface of which was thickened or changed due to the later construction or addition of a 2 by 4 wall.

[0034] Drilling of passageway 23 through cap 21 may be performed with cap 21 removed from the upper opening 20 of pipe 10, or may be performed, such as by a hole saw, with the cap 21 cemented into place in the opening 20 of pipe 10 as indicated in FIG. 4.

[0035] If the passageway 23 is to be drilled with the cap 21 removed from upper opening 20, first a mark (not shown) is made on the upper surface of cap 21 at the newly calculated position of alignment as previously indicated by center line 26 of pipe 24. In addition, the orientation of cap 21 is also marked with orientation markings 28 so that when cap 21 is returned to upper opening 20, cap 21 may be properly reoriented to the proper position to make certain that the center line 26 of passageway 23 is properly aligned to its calculated position of alignment.

[0036] As an alternative, cap 21 may be glued in place as illustrated in FIG. 4, and the drilling of passageway 23 accomplished with cap 21 cemented in place. This may accomplished, for example with a hole saw which has a tendency to grasp and retain the drilled out center portion of the plastic being drilled for the passageway 23 so that it does not accidently fall into the drain.

[0037] The inside diameter of pipe 10 may be varied inside depending upon the particular application. For example, the inside diameter of pipe 10 could be anywhere from four to twelve inches, remembering that the important thing is that this diameter must be larger than the internal diameter of drain pipe 13 to thereby provide an adequately large area within which to relocate attachment of a drain pipe 24 to a newly recalculated position of alignment. The smaller internal diameter of the drain pipe 13 would typically be three or four inches. In a most typical installation, drain pipe 13 would have an internal diameter of four inches, and pipe 10 of larger diameter would have an internal diameter of six or eight inches.

[0038] Plastic cap 21, as previously explained, is sized to close off upper opening 20 of pipe 10 and the circular plastic disk that makes up cap 21 is provided with a plurality of wafer thin annularly spaced break-off ears 30 protruding from the periphery of the disk body forming cap 21. These ears 30 thus rest on an exposed end of pipe 10 in order to hold cap 21 in place so that it can be readily removed and drilled prior to cementing. When the plumber is ready to permanently cement cap 21 in place in opening 20, the cement is applied to the perimeter of edge 22 of cap 21, and also to the inside of pipe 10 at opening 20. When the disk of cap 21 is then glued into position within opening 20, ears 30 are broken away either manually by the plumber or by the force of inserting cap 22 down into opening 20.

[0039] Cap 21 is also be provided with fingernail grooving 38 on the side annular edge 22 of the disk forming cap 21 to assist in removal of the cap from the upper opening 20 prior to cementing.

[0040] Turning next to FIGS. 5 and 6, the method of the present invention is illustrated for the installation of a floor drain within a cement slab 18. In this embodiment, it is not necessary to preposition a floor drain fixture at a required position of elevation prior to pouring slab 18. Instead, as was previously explained, pipe 10 is retained at rough-in and in an upright position as illustrated with the open end thereof facing upward and within a location of a concrete slab 18 to be poured. The concrete slab 18 is poured to a desired level, and this will provide adequate draining slope to the drain pipe combination, with a portion 17 of pipe 10 exposed above the level 16. The concrete is permitted to solidify to form slabs 18 and thereafter pipe 10 is cut off so that the exposed portion 17 of the pipe is removed leaving an upward opening 20 thereof flush with the upper surface 16 of the slab 18. Thereafter, the upper opening 20 of pipe 10 is closed off with a plastic perforated drain cap 21′, thereby providing a completed floor drain.

[0041] The plastic drain cap 21′ may be preformed, or as an alternative, drain cap 21′ may be provided as a solid disk that is cemented in place in upper opening 20 of pipe 10. After being cemented in place, then the solid disk may be drilled to provide multiple drain perforations 33.

[0042] FIGS. 5 and 6 further illustrate an additional advantage of the method of the present invention wherein a small drain pipe 36 may be inserted through the drain cap 21 by drilling a passageway 36 through the drain cap 21′ and then inserting plastic pipe 35 through the passageway 36 and cementing drain pipe 35 in place in passageway 36. This provides a convenient and clean way of, for example, installing a condensate line to the sewer from an air conditioning unit.