Perforated polymeric sheet with underlying spacers

Abstract

A new protective polymeric sheet is described wherein said polymeric sheet includes perforations and attached spacers that allow air and water circulation when the sheet is in use. The sheet protects underlying structures from damage while ensuring moisture migration between the protective polymeric sheet and the underlying structure. The protective polymeric sheet comprises a plurality of perforations extending through the sheet and a plurality of spacers, each spacer extending from a lower surface of the sheet adjacent to one side of each perforation. The spacers are created during perforation of the polymeric sheet. The protective polymeric sheet is useful in a number of applications, including without limitation: to protect pipelines; to replace geotextiles in heap leach processes; to line sandboxes and paving stones; to cover greenhouse floors; to make industrial or residential gutter caps; and as a filter.

Claims

1. A protective polymeric sheet comprising: a) a layer consisting of a polymeric material having an upper surface and a lower surface; and b) a plurality of perforations with nobs on only one side of the perforations that remain attached to the lower surface of the polymeric layer, each of said nobs comprising the polymeric material punched from said layer to create said perforations whereby each of said nobs remains attached to only one side of its associated perforation, and each of said nobs are beneath said layer lower surface and clear of its associated perforation.

2. The protective polymeric sheet of claim 1, wherein the polymeric sheet has a thickness between about 0.5 to 3.5 mm.

3. The protective polymeric sheet of claim 2, wherein the polymeric material is Linear Low-Density Polyethylene (LLDPE), High Density Polyethylene (HDPE) or Polyethylene for Raised Temperature (PERT).

4. The protective polymeric sheet of claim 3 having the following properties: a) Sheet density of 0.920-0.960 g/cm.sup.3; b) Carbon black content of 0.5%-5%; c) Tensile strength at break of 10-50, kN/m; d) Elongation at break of 100%-1000%; e) Puncture Resistance of 250-1000 N; f) Volume Resistivity of 1-100 Ω.Math.m; and g) Impact Strength of 200-500 in/lbs.

5. The protective polymeric sheet of claim 4 having the following properties: a) Sheet density of ≤0.939 g/cm.sup.3; b) Carbon black content of 2%-3%; c) Tensile strength at break of ≥31 kN/m; d) Elongation at break of ≥400%; e) Puncture Resistance of ≥500 N; f) Volume Resistivity of ≤10 Ω.Math.m; and g) Impact Strength of ≥204 in/lbs.

6. A protective polymeric sheet according to claim 1 comprising 3 to 9 layers.

7. The protective polymeric sheet of claim 6 wherein the polymeric material is co-extruded Linear Low-Density Polyethylene (LLDPE), High Density Polyethylene (HDPE) or Polyethylene for Raised Temperature (PERT).

8. The protective polymeric sheet of claim 7, wherein the protective polymer sheet consists of 3 layers of coextruded Linear Low-Density Polyethylene (LLDPE) and wherein the bottom layer has a maximum volume resistivity of 100 Ω.Math.m.

9. The protective polymeric sheet of claim 1, wherein the perforations have a diameter between about 3 and 5 mm.

10. The protective polymeric sheet of claim 9, wherein the perforations are spaced apart by about 10 mm to about 127 mm.

11. The protective polymeric sheet of claim 10, wherein the perforations are evenly spaced.

12. The protective polymeric sheet of claim 11, wherein the nobs are 1-3.5 mm thick and about 1-5 mm in diameter.

13. A protective polymeric sheet as defined in claim 1 further comprising means to attach said polymeric sheet to a structure when in use.

14. A protective polymeric sheet as defined in claim 13 for use with pipelines.

15. A polymeric sheet for protecting an exposed surface, comprising: a polymeric layer having an upper surface and a lower surface; an array of perforations through and spaced around said polymeric layer; and nobs attached to the lower surface of the polymeric layer; wherein each perforation has a bottom opening with one of said nobs on only one side of its bottom opening and beneath said layer lower surface.

16. The polymeric sheet of claim 15, wherein said nobs comprise polymeric material punched from said polymeric sheet when forming said perforations.

17. A surface protected by the polymeric sheet of claim 15, wherein said polymeric sheet lower surface is adjacent said exposed surface with said nobs spacing said polymeric sheet lower surface from said exposed surface whereby said perforations are open to said space between said exposed surface and said polymeric sheet lower surface.

18. The protective polymeric sheet of claim 1, wherein said perforations are truncated with an opening through said sheet upper surface larger than its opening through said sheet lower surface.

19. The polymeric sheet of claim 15, wherein said perforations are truncated with an opening through said sheet upper surface larger than its opening through said sheet lower surface.

20. A protected object, comprising: an object; and a protective polymer sheet according to claim 1, wherein each polymeric material punched from said layer is (i) between said layer and said object and (ii) clear of said its associated perforation, the perforations define a path from an upper opening in said perforation upper surface to a lower opening in said perforation lower surface, and said each of said nobs supports said sheet so that said lower opening is spaced from said object.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The above and other aspects, features and advantages of the invention will become more readily apparent from the following description, reference being made to the accompanying drawings in which:

(2) FIG. 1 illustrates a perforated sheet according to a preferred embodiment of the invention wrapping a pipeline;

(3) FIG. 2 is cross-sectional view of the wrapped pipeline illustrated on FIG. 1;

(4) FIG. 3 is partial close view of a hole of the membrane having a truncated shape with adjacent spacer, in accordance with a preferred embodiment of the invention;

(5) FIG. 4 illustrates the use of the perforated sheet in a heap leach application for gold and mining industries in accordance with a preferred embodiment of the invention;

(6) FIG. 5 illustrates the use of the perforated sheet in a sand box in accordance with a preferred embodiment of the invention;

(7) FIG. 6 illustrates the use of the perforated sheet for covering the ground of a greenhouse in accordance with a preferred embodiment of the invention;

(8) FIG. 7 illustrates the use of the perforated sheet in agriculture in accordance with a preferred embodiment of the invention;

(9) FIG. 8 illustrates the use of the perforated sheet for covering a gutter, in accordance with a preferred embodiment of the invention; and

(10) FIG. 9 is a cross sectional view of a punch with bevelled edge in accordance with a preferred embodiment of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

(11) A novel polymeric perforated sheet will be described hereinafter. Although the invention is described in terms of specific illustrative embodiments, it is to be understood that the embodiments described herein are by way of example only and that the scope of the invention is not intended to be limited thereby.

(12) FIGS. 1 and 3 illustrate a perforated sheet 100 according to a preferred embodiment of the invention wrapping a pipeline 300. The sheet comprises a plurality of holes or perforations 120 preferably evenly spaced apart on the surface of the sheet. Fixing systems 110 can be used, such as at the ends of the pipes 200, to maintain the sheet around the pipe 300.

(13) As illustrated in FIG. 2, the spacers 400 adjacent to the holes 120 allow maintaining a gap 500 between the pipe 300 and the sheet 100 providing air and moisture circulation between the pipe and the ground 600 in which the pipe can be buried.

(14) As illustrated in FIG. 3, each hole 120 of the sheet 100 may have a truncated shape with the diameter of the hole 122 on the upper surface 102 of the sheet larger that the diameter of the hole 124 at the lower surface 104 of the sheet, so as to ensure better air and moisture circulation through the polymeric sheet. The spacer 400, adjacent to the hole 120 and extending from the lower surface 104 of the sheet 100 results from the creation of the holes in the sheet. The spacer 400 on one side only of the hole 120 combined with the thickness and resistance of the sheet 100 provide the gap 500 between the pipe 300 and the sheet 100.

(15) In an illustrative example, the protective sheet is made preferably of a 1 mm-3 mm, more preferably about 2 mm thick sheet of Linear Low-Density Polyethylene (LLDPE with the following properties: Sheet density of 0.920-0.960, more preferably ≤0.939 g/cm.sup.3 as per ASTM D-792; Carbon black content of 0.5%-5%; more preferably of 2%-3% as per ASTM D-4218; Tensile strength at break of 10-50, more preferably of ≥31 kN/m as per ASTM D-6693; Elongation at break of 100%-1000%, more preferably of ≥400% as per ASTM D-6693; Puncture Resistance of 250-1000 N, more preferably of ≥500 N as per ASTM D-500; Volume Resistivity of 1-100 Ω.Math.m, more preferably of ≤10 Ω.Math.m as per ASTM D-4496; and Impact Strength of 200-500 in/lbs, more preferably of ≥204 in/lbs as per ASTM G14.

(16) According to a preferred embodiment, the protective sheet will be made of 1 to 9, more preferably of 3 layers of coextruded LLDPE with the bottom layer having a volume resistivity no greater than the above-mentioned specification.

(17) According to a preferred embodiment, the protective sheet is perforated by holes spaced apart by about 2.5 cm (about 1 inch) in both axes (machine direction and cross direction). The holes may have a truncated cone shape, with the above diameter being approximately 5 mm (120) and the bottom diameter being about 3 mm (124) as to ensure water circulation through the geomembrane. Other distribution patterns for the perforated holes are possible and will generally be determined in accordance with the intended use or application of the protective polymeric sheet.

(18) According to another illustrative embodiment, a nob of about 1-3.5 mm thick (depending on the polymer sheet thickness) acts as a spacer remaining attached to the protective sheet to ensure proper spacing and water circulation between the protective sheet and the element to be protected. Each nob will be at least about 1-5 mm in diameter.

(19) According to a preferred embodiment, the holes can be punched with the proper equipment that will allow for proper dimensions to be obtained, normal pressure to perforate the above material and with a grinded edge to ensure that the attached spacers remain attached to the protective sheet. As illustrated on FIG. 9, an example of the equipment that could be used to perforate the protective sheet would be a machined punch 700 with a 30° bevelled edge 710 to ensure that the nob stays attached to the sheet. The punch may be activated by air pressure pistons pushing the punch through the protective sheet at an angle of about 90°. Other ways for activating a punch can be used.

(20) The perforated protective sheet may be used for the protection of pipelines, but also for any applications where a breathable resistant membrane is needed, such as, but not limited to: heap leach for gold and mining industries; landscaping (sandbox; underline for paving stone; soil retains); greenhouse floor coverings; industrial and residential gutter cap (such as for avoiding leaf to block the gutter); filters, etc.

(21) Heap Leach Applications in the Mining Industry (FIG. 4):

(22) The perforated polymeric sheet of the present invention may be used to extract metals (including gold, silver, nickel, copper and uranium) through heap leaching. The perforated sheet may replace geotextiles that are currently in use and offer a more durable solution.

(23) A Sandbox (FIG. 5):

(24) The perforated sheet according to the present invention can contain the sand but let the water go.

(25) Underlining Paving Stones:

(26) The perforated sheet according to the present invention can contain the backfield under the stones, preventing weeds from growing through the stones while allowing water flow.

(27) Greenhouse Floor Covering (FIG. 6) and in Agriculture (FIG. 7):

(28) In most countries, water is costly. In agriculture, water is often a key expense. In greenhouses, it is customary recover water following the watering of plants. However, occasionally the floor in a greenhouse is uneven and water tends to gather in pools. The perforated sheet according to the present invention can serve as a water collecting system, as it is suitable for use as a water drainage system. Additionally, the outer layer of the protective polymeric sheet may be painted in accordance with methods known to those of skill in the art. For example, in a greenhouse, the protective polymeric sheet may be colored green to blend in with the floor.

(29) Industrial and Residential Gutter Cap (FIG. 8):

(30) to avoid leaf blocking the gutters): to create a sort of deflector to block debris from entering the gutters but lets the water go trough.

(31) The protective polymeric sheet of the present invention may further include attachment means allowing the sheet to be readily installed and more easily secured in certain applications. These attachment means may be added at the end of the manufacturing process of the polymeric sheet. For example, in one embodiment, fasteners are inserted in the polymeric sheet at regular intervals in the manufacturing of a final polymeric sheet product. Having the fasteners integral to the polymeric sheet makes the installation of the polymeric sheet around pipeline easier when on site.

(32) While illustrative and presently preferred embodiments of the invention have been described in detail hereinabove, it is to be understood that the inventive concepts may be otherwise variously embodied and employed and that the appended claims are intended to be construed to include such variations except insofar as limited by the prior art.