CA2457435A1 - Method and material for preventing erosion and maintaining playability of golf course sand bunkers - Google Patents
Method and material for preventing erosion and maintaining playability of golf course sand bunkers Download PDFInfo
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- CA2457435A1 CA2457435A1 CA 2457435 CA2457435A CA2457435A1 CA 2457435 A1 CA2457435 A1 CA 2457435A1 CA 2457435 CA2457435 CA 2457435 CA 2457435 A CA2457435 A CA 2457435A CA 2457435 A1 CA2457435 A1 CA 2457435A1
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- Prior art keywords
- liner
- layer
- sand
- bunker
- staples
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E01—CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
- E01C—CONSTRUCTION OF, OR SURFACES FOR, ROADS, SPORTS GROUNDS, OR THE LIKE; MACHINES OR AUXILIARY TOOLS FOR CONSTRUCTION OR REPAIR
- E01C13/00—Pavings or foundations specially adapted for playgrounds or sports grounds; Drainage, irrigation or heating of sports grounds
- E01C13/02—Foundations, e.g. with drainage or heating arrangements
-
- C—CHEMISTRY; METALLURGY
- C09—DYES; PAINTS; POLISHES; NATURAL RESINS; ADHESIVES; COMPOSITIONS NOT OTHERWISE PROVIDED FOR; APPLICATIONS OF MATERIALS NOT OTHERWISE PROVIDED FOR
- C09K—MATERIALS FOR MISCELLANEOUS APPLICATIONS, NOT PROVIDED FOR ELSEWHERE
- C09K17/00—Soil-conditioning materials or soil-stabilising materials
- C09K17/52—Mulches
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T442/00—Fabric [woven, knitted, or nonwoven textile or cloth, etc.]
- Y10T442/60—Nonwoven fabric [i.e., nonwoven strand or fiber material]
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T442/00—Fabric [woven, knitted, or nonwoven textile or cloth, etc.]
- Y10T442/60—Nonwoven fabric [i.e., nonwoven strand or fiber material]
- Y10T442/643—Including parallel strand or fiber material within the nonwoven fabric
Abstract
A method and material for preventing erosion and maintaining playability of golf course sand bunkers. A geotextile liner is formed of two. water-permeable layers. A first non-woven layer of randomly-aligned, synthetic fibers is configured and adapted to maintain sand in place within a sand bunker. A second backing layer formed of spunbond synthetic fiber is impervious to sand and configured and adapted to prevent downward migration of sand through the liner, while also preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker.
The backing layer also permits seams between adjacent sections of the liner to be joined by staples that penetrate the second layer but do not penetrate the native soil. Sections of the liner are laid within an unfilled sand bunker, and cut to fit the contours of the bunker as necessary.
The liner is anchored to the bunker base using a plurality of sod staples, and seams between adjacent sections of the liner are joined using staples that are not sod staples and are configured and adapted to penetrate the backing layer of the liner but not penetrate soil. The staples used to join the seams between adjacent sections of the liner may be installed using a hand-held, pneumatic stapler.
The backing layer also permits seams between adjacent sections of the liner to be joined by staples that penetrate the second layer but do not penetrate the native soil. Sections of the liner are laid within an unfilled sand bunker, and cut to fit the contours of the bunker as necessary.
The liner is anchored to the bunker base using a plurality of sod staples, and seams between adjacent sections of the liner are joined using staples that are not sod staples and are configured and adapted to penetrate the backing layer of the liner but not penetrate soil. The staples used to join the seams between adjacent sections of the liner may be installed using a hand-held, pneumatic stapler.
Description
t:
METHOD AND MATERIAL FOR PREVENTING EROSION AND MAINTAINING
PLAYABILITY OF GOLF COURSE SAND BUNKERS
FIELD OF THE INVENTION
[001] The present invention relates generally to golf course construction and maintenance and, more specifically, to a geotextiie liner. for preventing erosion and maintaining playability of sand bunkers, or traps, on golf courses and a method for installing same.
10. BACKGROUND OF THE INVENTION
METHOD AND MATERIAL FOR PREVENTING EROSION AND MAINTAINING
PLAYABILITY OF GOLF COURSE SAND BUNKERS
FIELD OF THE INVENTION
[001] The present invention relates generally to golf course construction and maintenance and, more specifically, to a geotextiie liner. for preventing erosion and maintaining playability of sand bunkers, or traps, on golf courses and a method for installing same.
10. BACKGROUND OF THE INVENTION
[002] Sand bunkers, or sand traps, are an integral part of almost every golf course. Course designers often use many bunkers of various shapes and sizes to both enhance the aesthetic beauty and increase the. level of difficulty of a given course. But sand bunkers. also present several challenges to golf course. maintenance crews. First, sand often washes down the sides of steep-faced bunkers, sometimes washing completely out of the bunker during heavy rains and leaving the bunker in an unplayable state. New sand must then be added to the. bunker. and hand raked onto. the bunker faces -a time-consuming process for the maintenance. crew.
[0031 Second, the fine-textured, lightly colored sand preferred by course designers and players may become discolored by darker-colored underlying soil or contaminated by pebbles and rocks. that migrate upward to .the. playing surface over time.
Such contaminants.are not only unsightly, but create inconsistent playing conditions and cause damage. to. golf equipment.
[004 Third, bunker sand can often migrate downward and clog the drainage tiles 25. within the base of the bunker. This will prevent the bunker from draining properly and will often result in standing water within the bunker, forcing the:
maintenance crew to completely empty. the bunker, unclog and renovate the drainage system, and refill the bunker with sand.
[OOS] Fiaally, unsightly weeds originating in the native soil can often sprout up 30. through the sand layer in a bunker. to compromise both the aesthetics and playability of the hazard. Given these various pxoblems, it is no wonder that the cost of bunker maintenance is typically the largest item in a course maintenance budget.
[006] Prior art bunker maintenance methods and materials include liquid, spray-on products, e.g., United States. Patent No. 6,467,991 to Joyce et al., and erosion control mats formed of natural and synthetic fibers. But these prior art methods fail to address all of the bunker maintenance issues discussed above. For exannple, prior art erosion control mats, which are used to line unfilled bunkers and then covered by the playing sand, do not prevent the downward migration of sand toward drainage axles and the upward migration of pebbles and soil to the playing surface. In addition, these mats require a great deal of 10. hand labor to install since they are laid in sections and must be anchored to the native soil with many hand-driven sod staples, especially along the seams between adjacent sections of the mat.
[007] Thus, there exists. a need for a labor-saving method and material for preventing erosion and maintaining playability of golf course sand bunkers that will (1) prevent sand from washing out of bunkers during heavy rains, especially on steep slopes;
(2) prevent contamination of the playing sand with pebbles and other contaminants from the adjacent and/or underlying native soil, (2) prevent sand from clogging drainage tiles within the bunker, and (4). act as a weed blocker.
SUMMARY OF THE IN''VENTION
[008] In a preferred embodiment, the present invention relates to a geotextile liner. for. preventing erosion and maintaining playability of golf course sand bunkers. The liner is formed of twa water-permeable layers: (1) a first coaxse, non-woven layer. formed of randomly aligned, synthetic fibers, the first layer. configured and adapted to. maintain sand in place within a sand bunker? and (2) a second backing layer formed of spunbond synthetic fiber. secured to. the first layer, the second layer configured and adapted to prevent downward. . migration of sand through the liner, while als~ preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker. The second layer is preferably configured and adapted to permit seams between adjacent sections. of the liner. to be joined by staples that penetrate. the second layer but do not penetrate the native soih The second layer may be attached to the first layer by needlepunching the second layer to the first layer, and then spraying the composite liner with a bonding resin,. oven-drying and curing. On one embodiment, both the first and second layers are. formed of polyester.fibers, rn alternate embodiments, the second layer may be secured to the first layer by an adhesive, or, may be formed of thermally bondable fibers, needlepunched iota a spunbond scrim. backing layer, which act like a hot melt adhesive when heat activated to bond adjacent fibers together.
[009] In another preferred embodiment, the present invention relates to a method of installing a Iiner for preventing erosion and maintaining playability of a golf course sand bunker. Sections of a water-permeable liner, which has a backing layer that is impervious to sand, are Laid within an unfilled sand bunker, and cut to fit the contours of the bunker as necessary: The liner is anchored to the bunker base using a plurality of sod staples, and seams between adjacent sections of the liner are joined using staples that are not sod staples and are configured and adapted to penetrate the. backing layer. of the liner but not penetrate soil. The legs of the sod staples are longer than the legs of the staples. used to join the seams between adjacent sections of the liner. . The staples. used to . join the seams between adjacent sections of the liner may be installed using a hand-held, 1 S pneumatic stapler, and the legs. of the staples used to join the seams between adj scent sections of the liner fold toward one. another sifter penetrating the backing layer of adjacent sections of the liner. The liner may further comprise a non-woven layer formed of randomly-aligned, synthetic fibers, the non-woven layer configured and adapted for maintaining sand in place within the sand bunker, and the backing layer may be. formed of a spunbond synthetic fiber secured to the first Layer. In one application, the backing layer.
is separated and removed from the. non-woven layer at a perirrieter edge of the bunker to permit sod to adhere to the liner.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] The present invention will be understood and appreciated more fully from the following detailed description, taken in conjunction with the drawings. in which:
[0011] FIG.1 is a top view. of an unfilled sand bunker illustrating a prior art method for installing an erosion control fabric;
[0012] FIG. 2A is an isometric view of a roll of a sand bunker liner of the present invention; .
[0413] FIG. 2B is cross-sectional view of the sand bunker liner shown. in FIG.
2A;
[0014] FIG. 2C is a partial isometric view of the sand bunker liner shown in FIG.
2A;
[0015] FIG. 2D is a partial isometric view of the sand bunker liner shown in FIG.
2A with the backing layer facing upward;
[0016] FIG. 3 is a top view 'of an unfilled sand bunker illustrating a method for installing a sand bunker liner according to the present invention;
[0031 Second, the fine-textured, lightly colored sand preferred by course designers and players may become discolored by darker-colored underlying soil or contaminated by pebbles and rocks. that migrate upward to .the. playing surface over time.
Such contaminants.are not only unsightly, but create inconsistent playing conditions and cause damage. to. golf equipment.
[004 Third, bunker sand can often migrate downward and clog the drainage tiles 25. within the base of the bunker. This will prevent the bunker from draining properly and will often result in standing water within the bunker, forcing the:
maintenance crew to completely empty. the bunker, unclog and renovate the drainage system, and refill the bunker with sand.
[OOS] Fiaally, unsightly weeds originating in the native soil can often sprout up 30. through the sand layer in a bunker. to compromise both the aesthetics and playability of the hazard. Given these various pxoblems, it is no wonder that the cost of bunker maintenance is typically the largest item in a course maintenance budget.
[006] Prior art bunker maintenance methods and materials include liquid, spray-on products, e.g., United States. Patent No. 6,467,991 to Joyce et al., and erosion control mats formed of natural and synthetic fibers. But these prior art methods fail to address all of the bunker maintenance issues discussed above. For exannple, prior art erosion control mats, which are used to line unfilled bunkers and then covered by the playing sand, do not prevent the downward migration of sand toward drainage axles and the upward migration of pebbles and soil to the playing surface. In addition, these mats require a great deal of 10. hand labor to install since they are laid in sections and must be anchored to the native soil with many hand-driven sod staples, especially along the seams between adjacent sections of the mat.
[007] Thus, there exists. a need for a labor-saving method and material for preventing erosion and maintaining playability of golf course sand bunkers that will (1) prevent sand from washing out of bunkers during heavy rains, especially on steep slopes;
(2) prevent contamination of the playing sand with pebbles and other contaminants from the adjacent and/or underlying native soil, (2) prevent sand from clogging drainage tiles within the bunker, and (4). act as a weed blocker.
SUMMARY OF THE IN''VENTION
[008] In a preferred embodiment, the present invention relates to a geotextile liner. for. preventing erosion and maintaining playability of golf course sand bunkers. The liner is formed of twa water-permeable layers: (1) a first coaxse, non-woven layer. formed of randomly aligned, synthetic fibers, the first layer. configured and adapted to. maintain sand in place within a sand bunker? and (2) a second backing layer formed of spunbond synthetic fiber. secured to. the first layer, the second layer configured and adapted to prevent downward. . migration of sand through the liner, while als~ preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker. The second layer is preferably configured and adapted to permit seams between adjacent sections. of the liner. to be joined by staples that penetrate. the second layer but do not penetrate the native soih The second layer may be attached to the first layer by needlepunching the second layer to the first layer, and then spraying the composite liner with a bonding resin,. oven-drying and curing. On one embodiment, both the first and second layers are. formed of polyester.fibers, rn alternate embodiments, the second layer may be secured to the first layer by an adhesive, or, may be formed of thermally bondable fibers, needlepunched iota a spunbond scrim. backing layer, which act like a hot melt adhesive when heat activated to bond adjacent fibers together.
[009] In another preferred embodiment, the present invention relates to a method of installing a Iiner for preventing erosion and maintaining playability of a golf course sand bunker. Sections of a water-permeable liner, which has a backing layer that is impervious to sand, are Laid within an unfilled sand bunker, and cut to fit the contours of the bunker as necessary: The liner is anchored to the bunker base using a plurality of sod staples, and seams between adjacent sections of the liner are joined using staples that are not sod staples and are configured and adapted to penetrate the. backing layer. of the liner but not penetrate soil. The legs of the sod staples are longer than the legs of the staples. used to join the seams between adjacent sections of the liner. . The staples. used to . join the seams between adjacent sections of the liner may be installed using a hand-held, 1 S pneumatic stapler, and the legs. of the staples used to join the seams between adj scent sections of the liner fold toward one. another sifter penetrating the backing layer of adjacent sections of the liner. The liner may further comprise a non-woven layer formed of randomly-aligned, synthetic fibers, the non-woven layer configured and adapted for maintaining sand in place within the sand bunker, and the backing layer may be. formed of a spunbond synthetic fiber secured to the first Layer. In one application, the backing layer.
is separated and removed from the. non-woven layer at a perirrieter edge of the bunker to permit sod to adhere to the liner.
BRIEF DESCRIPTION OF THE DRAWINGS
[0010] The present invention will be understood and appreciated more fully from the following detailed description, taken in conjunction with the drawings. in which:
[0011] FIG.1 is a top view. of an unfilled sand bunker illustrating a prior art method for installing an erosion control fabric;
[0012] FIG. 2A is an isometric view of a roll of a sand bunker liner of the present invention; .
[0413] FIG. 2B is cross-sectional view of the sand bunker liner shown. in FIG.
2A;
[0014] FIG. 2C is a partial isometric view of the sand bunker liner shown in FIG.
2A;
[0015] FIG. 2D is a partial isometric view of the sand bunker liner shown in FIG.
2A with the backing layer facing upward;
[0016] FIG. 3 is a top view 'of an unfilled sand bunker illustrating a method for installing a sand bunker liner according to the present invention;
i [0017] FIG. 4 is a side view of a typical sod staple;
[0018] FIG. 5 is a side view of a typical staple used to join seams of adjacent sections of the sand bunker liner of the present invention;
[0019] FIG. SA is a side view of the staple shown in FIG. 5 penetrating the backing layer of overlapped sections of the sand bunker liner of the present invention; and [0020] FIG. 6 is a side view of a device for installing staples to join seams of adjacent sections of the sand bunker liner according to. the present invention.
[0021] Reference is now made to FIG.1, which is an illustration of a prior art method for installing an emsion control mat in a golf course sand bunker. A
plurality of 15. sheets of erosion control fabric.10 are laid within an unfilled sand bunker 20. . Sheets 14 are anchored to the underlying soil using sod staples 30, which as known in the art, are hand-driven, "u-shaped" objects typically on the order of six to twelve inches in length and formed of heavy gauge wire, e.g., I 1 gauge. The length of sod staple used in a given application will depend on the soil conditions at the bunker site, e.g., type of substrate, hardness, etc. FIG. 4 shows a typical sod staple 30. having a length L, which may range from six to twelve. inches. As shown in FIG..1, prior art installation guides recommend securing sheets 10. to the underlying soil with sod staples spaced a distance Sl. within a given sheet 10. Sl. is typically on the order of twelve inches. The seams 12.
between adjacent sheets 10 axe joined with sod staples 30 spaced a distance S2, where S2. is less than S1, and is typically on the order of three to. six inches. Thus, in the prior art, a user.
must install at least twice. the number of hand-driven sod staples 30 along the seams between sheets 10. than within a given sheet 10... Since. erosion control mats are typically sold in rolls three to six feet wide, there are many seams to be joined within even an average size bunker of 20. feet in width. Since. hammering a typical eight-inch sod staple through sheet 10 and into the earth is a time consuming process, any reduction in the number of sod staples needed for a given installation results in a significant savings in both time and money.
[0022] Reference is now made to FIGS. 2A through 2D which are different views of a sand bunker liner of the present invention. As shown in FIG. 2A, liner 40 is typically sold on a roll 42 having a width W, which may be on the order of three to six feet, and a length on the order of 50 feet. As shown best ira FIGS. ZC-2D, liner 40 is formed of two layers. - upper layer 44 and backing layer 46. Upper layer 44 is a coarse web of non-woven synthetic fibers having a thickness TI which may range from 0.25 to 0.75 inches, and is preferably on the order of 0.50 inches. Upper layer 44 is water permeable and sufficiently coarse and porous so that it absorbs sand and holds it firmly in place within a bunker even along steep slopes of up to 60°. Coarse fiber web 44 is preferably an air-laid fabric, but may also be foamed by other methods Ia~own in the art, e.g., carded, garnetted, wet-laid, or melt-blown. Thinner backing layer 46, which may range from 0.005 to 0.020 inches in thickness, and is preferably on the order of 0.007 inches, is also water permeable and is. preferably formed of a synthetic spunbond fabric, e.g., LUTRADUR~. polyester spunbond fabric. Backing layer 46 is configured to prevent downward migration of sand through liner 40 where it may clog the bunker drain (not shown). Weight of spunbond backing layer 46 may range 0.4 ozJsq. yd. to 6.0 ozlsq.
yd., and is preferably on the order of 1.0 oz./sq: yd. Advantageously, backing layer. 46 also prevents the upward migration of pebbles, rocks, dirt and other contaminants to the playing surface and keeps weeds from growing up. from the. underlying soil into the.
bunker:
[0023] In a preferred embodiment,. backing layer. 46. is j oined to upper layer 44 by needlepunching the coarse fiber web. 44. into spunbond backing layer 46: The combined liner 40 is then sprayed with a bonding resin, oven dried and cured. In alternate embodiments, upper layer 44 and backing layer.46 may be joined by an adhesive or other bonding agent. In still another embodiment, the liner may be formed of thermally 25. bondable fibers. which are needlepunched into. a spunbond scrim backing layer and then thermally activated so that the outer layer. of fibers acts like a hot melt adhesive to bond adjacent fibers. together. It should be. noted that FIG. 2D, which shows backing layer 46 above fiber web. layer 44, is for illustration purposes only and that liner 40. should not be installed with backing layer 46 facing up. Liner 40 should only be installed with fiber 30. web. layer 44 facing up toward the sand while backing layer 46.rests against the native:
soil.
[0024] Reference is now made to FIG. 3, which is a top view of an unfilled sand bunker illustrating a preferred method for installing a sand bunker liner according to_ the present invention. Secfiions or sheets ~0 of liner 40 are Iaid within unfilled bunker 60 and 35 are cut as necessary to fit the contours of bunker 60. Preferably, sheets ~0 are laid within bunker so that seams 52 are parallel to both the. flow of water within the bunker and the direction of shots from players. Edges at the seams. 52 between adjacent sheets 50 are abutted and joined together using "seam staples" 54, which are not sod staples 30. In S
alternate embodiments, edges of adjacent sheets may be overlapped slightly before being joined with staples 54.
[0025] As.shown in FIG. 5, staples 54 may be a heavy-duty, steel staple having a pair of downwardly extending legs 56 that penetrate backing layers 46 of adjacent, abutted sheets 50.. Staples 54 may range in width from about 1.0 to 1.50 inches and in leg length from about 0.5 to 0.75 inches. In a preferred application,.
staples. 54 are about 1:375 inches wide by. 0.625 inches in leg length, and are formed of galvanized or copper treated steel.
[0026] As shown in FIG. 5A, legs 56 of staples. 54. penetrate abutted backing layers 46 and then fold inwardly toward one another, grabbing backing layers.
46. of adjacent sheets 50 and binding there together. (It should be noted that for purposes of clarity, fiber web layer 44 has been purposely omitted from FIGS. 5 & 5A; and the thickness of backing layer 46 has been exaggerated.) Unlike hand-driven sod staples 30, seam staples 54. do not penetrate the native soil and are much faster and easier to install.
Staples 54 are preferably installed using a pneumatic. stapler 70. (see FIG..
6), e.g., 20. Stanley-Bostitch~ Stapler Model D 16-2AD or Kilburg Madel D19AD but may also. be installed using other types of mechanical staple drivers. Staples 54 are typically spaced at a distance Dl. to create a tight seam between adjacent sheets 50, where. Dl.
may range from three to eight inches, and is preferably on the order. of six inches.
Sheets..50. of liner 44 are then anchored to the native soil using a plurality of sod staples 30, which may be spaced a distance D2 both within a given sheet 50 and along the seams 52.
between sheets 50, where D2. is, greater than DI, and is typically on the order of twelve.inches.. In addition, since "relief' cuts 58. through the liner are often necessary to properly fit the liner to the. contours of a bunker, staples 54 can be used to join adjacent edges. of a relief cut 58 once the liner is properly fit to the bunker.
[0027]. A comparison of the prior art method shown in FTG.1'to the method of the present invention shown in FIG. 3 demonstrates that the number of_hand-driven sod staples required for a given installation, and, therefore, the amount of hand labor by golf course maintenance. crews, is significantly reduced.
[0028] In contrast to. the prior art erosion control mats, the backing layer 46. of liner 40 of the present invention is sufficiently dense to allows staples 54 to firmly grip backing layer 46. to create tight seams 52 between sheets 50. Preferably, backing ~Iayer 46 is separated and removed from fiber web layer 44 at the edges of bunker 60, so that sod adjacent to the bunker may better adhere to the fiber web layer 44 and further secure. liner 40 to the native soil.
[0029] While the present invention has been described with reference to the preferred embodiments, those skilled in the art will recognize that numerous variations and modifications may be made without departing from the scope of the present invention. Accordingly, it should be clearly understood that the embodiments of the invention described above are not intended as limitations on the scope of the invention, which is defined only by the following claims.
[0018] FIG. 5 is a side view of a typical staple used to join seams of adjacent sections of the sand bunker liner of the present invention;
[0019] FIG. SA is a side view of the staple shown in FIG. 5 penetrating the backing layer of overlapped sections of the sand bunker liner of the present invention; and [0020] FIG. 6 is a side view of a device for installing staples to join seams of adjacent sections of the sand bunker liner according to. the present invention.
[0021] Reference is now made to FIG.1, which is an illustration of a prior art method for installing an emsion control mat in a golf course sand bunker. A
plurality of 15. sheets of erosion control fabric.10 are laid within an unfilled sand bunker 20. . Sheets 14 are anchored to the underlying soil using sod staples 30, which as known in the art, are hand-driven, "u-shaped" objects typically on the order of six to twelve inches in length and formed of heavy gauge wire, e.g., I 1 gauge. The length of sod staple used in a given application will depend on the soil conditions at the bunker site, e.g., type of substrate, hardness, etc. FIG. 4 shows a typical sod staple 30. having a length L, which may range from six to twelve. inches. As shown in FIG..1, prior art installation guides recommend securing sheets 10. to the underlying soil with sod staples spaced a distance Sl. within a given sheet 10. Sl. is typically on the order of twelve inches. The seams 12.
between adjacent sheets 10 axe joined with sod staples 30 spaced a distance S2, where S2. is less than S1, and is typically on the order of three to. six inches. Thus, in the prior art, a user.
must install at least twice. the number of hand-driven sod staples 30 along the seams between sheets 10. than within a given sheet 10... Since. erosion control mats are typically sold in rolls three to six feet wide, there are many seams to be joined within even an average size bunker of 20. feet in width. Since. hammering a typical eight-inch sod staple through sheet 10 and into the earth is a time consuming process, any reduction in the number of sod staples needed for a given installation results in a significant savings in both time and money.
[0022] Reference is now made to FIGS. 2A through 2D which are different views of a sand bunker liner of the present invention. As shown in FIG. 2A, liner 40 is typically sold on a roll 42 having a width W, which may be on the order of three to six feet, and a length on the order of 50 feet. As shown best ira FIGS. ZC-2D, liner 40 is formed of two layers. - upper layer 44 and backing layer 46. Upper layer 44 is a coarse web of non-woven synthetic fibers having a thickness TI which may range from 0.25 to 0.75 inches, and is preferably on the order of 0.50 inches. Upper layer 44 is water permeable and sufficiently coarse and porous so that it absorbs sand and holds it firmly in place within a bunker even along steep slopes of up to 60°. Coarse fiber web 44 is preferably an air-laid fabric, but may also be foamed by other methods Ia~own in the art, e.g., carded, garnetted, wet-laid, or melt-blown. Thinner backing layer 46, which may range from 0.005 to 0.020 inches in thickness, and is preferably on the order of 0.007 inches, is also water permeable and is. preferably formed of a synthetic spunbond fabric, e.g., LUTRADUR~. polyester spunbond fabric. Backing layer 46 is configured to prevent downward migration of sand through liner 40 where it may clog the bunker drain (not shown). Weight of spunbond backing layer 46 may range 0.4 ozJsq. yd. to 6.0 ozlsq.
yd., and is preferably on the order of 1.0 oz./sq: yd. Advantageously, backing layer. 46 also prevents the upward migration of pebbles, rocks, dirt and other contaminants to the playing surface and keeps weeds from growing up. from the. underlying soil into the.
bunker:
[0023] In a preferred embodiment,. backing layer. 46. is j oined to upper layer 44 by needlepunching the coarse fiber web. 44. into spunbond backing layer 46: The combined liner 40 is then sprayed with a bonding resin, oven dried and cured. In alternate embodiments, upper layer 44 and backing layer.46 may be joined by an adhesive or other bonding agent. In still another embodiment, the liner may be formed of thermally 25. bondable fibers. which are needlepunched into. a spunbond scrim backing layer and then thermally activated so that the outer layer. of fibers acts like a hot melt adhesive to bond adjacent fibers. together. It should be. noted that FIG. 2D, which shows backing layer 46 above fiber web. layer 44, is for illustration purposes only and that liner 40. should not be installed with backing layer 46 facing up. Liner 40 should only be installed with fiber 30. web. layer 44 facing up toward the sand while backing layer 46.rests against the native:
soil.
[0024] Reference is now made to FIG. 3, which is a top view of an unfilled sand bunker illustrating a preferred method for installing a sand bunker liner according to_ the present invention. Secfiions or sheets ~0 of liner 40 are Iaid within unfilled bunker 60 and 35 are cut as necessary to fit the contours of bunker 60. Preferably, sheets ~0 are laid within bunker so that seams 52 are parallel to both the. flow of water within the bunker and the direction of shots from players. Edges at the seams. 52 between adjacent sheets 50 are abutted and joined together using "seam staples" 54, which are not sod staples 30. In S
alternate embodiments, edges of adjacent sheets may be overlapped slightly before being joined with staples 54.
[0025] As.shown in FIG. 5, staples 54 may be a heavy-duty, steel staple having a pair of downwardly extending legs 56 that penetrate backing layers 46 of adjacent, abutted sheets 50.. Staples 54 may range in width from about 1.0 to 1.50 inches and in leg length from about 0.5 to 0.75 inches. In a preferred application,.
staples. 54 are about 1:375 inches wide by. 0.625 inches in leg length, and are formed of galvanized or copper treated steel.
[0026] As shown in FIG. 5A, legs 56 of staples. 54. penetrate abutted backing layers 46 and then fold inwardly toward one another, grabbing backing layers.
46. of adjacent sheets 50 and binding there together. (It should be noted that for purposes of clarity, fiber web layer 44 has been purposely omitted from FIGS. 5 & 5A; and the thickness of backing layer 46 has been exaggerated.) Unlike hand-driven sod staples 30, seam staples 54. do not penetrate the native soil and are much faster and easier to install.
Staples 54 are preferably installed using a pneumatic. stapler 70. (see FIG..
6), e.g., 20. Stanley-Bostitch~ Stapler Model D 16-2AD or Kilburg Madel D19AD but may also. be installed using other types of mechanical staple drivers. Staples 54 are typically spaced at a distance Dl. to create a tight seam between adjacent sheets 50, where. Dl.
may range from three to eight inches, and is preferably on the order. of six inches.
Sheets..50. of liner 44 are then anchored to the native soil using a plurality of sod staples 30, which may be spaced a distance D2 both within a given sheet 50 and along the seams 52.
between sheets 50, where D2. is, greater than DI, and is typically on the order of twelve.inches.. In addition, since "relief' cuts 58. through the liner are often necessary to properly fit the liner to the. contours of a bunker, staples 54 can be used to join adjacent edges. of a relief cut 58 once the liner is properly fit to the bunker.
[0027]. A comparison of the prior art method shown in FTG.1'to the method of the present invention shown in FIG. 3 demonstrates that the number of_hand-driven sod staples required for a given installation, and, therefore, the amount of hand labor by golf course maintenance. crews, is significantly reduced.
[0028] In contrast to. the prior art erosion control mats, the backing layer 46. of liner 40 of the present invention is sufficiently dense to allows staples 54 to firmly grip backing layer 46. to create tight seams 52 between sheets 50. Preferably, backing ~Iayer 46 is separated and removed from fiber web layer 44 at the edges of bunker 60, so that sod adjacent to the bunker may better adhere to the fiber web layer 44 and further secure. liner 40 to the native soil.
[0029] While the present invention has been described with reference to the preferred embodiments, those skilled in the art will recognize that numerous variations and modifications may be made without departing from the scope of the present invention. Accordingly, it should be clearly understood that the embodiments of the invention described above are not intended as limitations on the scope of the invention, which is defined only by the following claims.
Claims (19)
1. A liner for preventing erosion and maintaining playability of golf course sand bunkers comprising:
a first non-woven layer formed of randomly aligned, synthetic fibers, the first layer configured and adapted to maintain sand in place within a sand bunker; and a second backing layer formed of spunbond synthetic fiber secured to the first layer, the second layer configured and adapted to prevent downward migration of sand through the liner, while also preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker wherein the first and second layers are water permeable.
a first non-woven layer formed of randomly aligned, synthetic fibers, the first layer configured and adapted to maintain sand in place within a sand bunker; and a second backing layer formed of spunbond synthetic fiber secured to the first layer, the second layer configured and adapted to prevent downward migration of sand through the liner, while also preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker wherein the first and second layers are water permeable.
2. The liner of claim 1, wherein the second layer is configured and adapted to permit seams between adjacent sections of the liner to be joined by staples that penetrate the second layer but do not penetrate soil.
3. The liner of claim 2, wherein the second layer is secured to the first layer by needlepunching the second layer to the first layer.
4. The liner of claim 3, wherein the first layer and second layer are sprayed with a bonding resin, dried and cured.
5. The liner of claim 1, wherein the second layer is secured to the first layer. by an adhesive.
6. The liner of claim 1, wherein the first layer is formed of polyester.
7. The liner of claim 6, wherein the second layer is formed of polyester.
8. The liner of claim 1, wherein the first layer includes thermobondable fibers that bond with adjacent fibers when heat activated to form a durable web.
9. A method of installing a liner for preventing erosion and maintaining playability of a golf course sand bunker comprising:
fitting sections of a water-permeable liner within an unfilled sand bunker, the liner having a backing layer that is impervious to sand;
cutting the liner to fit contours. of the unfilled sand bunker as necessary;
anchoring the liner to the bunker base using a plurality of sod staples; and joining seams between adjacent sections of the liner using staples that are not sod staples and are configured and adapted to penetrate the backing layer of the liner but not penetrate soil.
fitting sections of a water-permeable liner within an unfilled sand bunker, the liner having a backing layer that is impervious to sand;
cutting the liner to fit contours. of the unfilled sand bunker as necessary;
anchoring the liner to the bunker base using a plurality of sod staples; and joining seams between adjacent sections of the liner using staples that are not sod staples and are configured and adapted to penetrate the backing layer of the liner but not penetrate soil.
10. The method of claim 9, wherein both the sod staples and the staples used to join the seams between adjacent sections of the liner have legs, and the legs of the sod staples are longer than the legs of the staples used to join the seams between adjacent sections of the liner.
11. The method of claim 10, wherein the staples used to join the seams between adjacent sections of the liner are installed using a hand-held, pneumatic stapler.
12. The method of claim 11, wherein the legs of the staples used to join the seams between adjacent sections of the liner fold toward one another after penetrating the backing layer of adjacent sections of the liner.
13. The method of claim 12, wherein the staples used to join the seams between adjacent section of the liner are spaced at about four to six inches on center.
14. The method of claim 13, further comprising the steps of:
making relief cuts in the liner to better fit sections of the liner to contours of the unfilled bunker; and joining adjacent edges of the relief cuts using the staples that are configured and adapted to penetrate the backing layer of the liner but not penetrate soil.
making relief cuts in the liner to better fit sections of the liner to contours of the unfilled bunker; and joining adjacent edges of the relief cuts using the staples that are configured and adapted to penetrate the backing layer of the liner but not penetrate soil.
15. The method of claim 14, wherein the liner further comprises a non-woven layer formed of randomly-aligned, synthetic fibers, the non-woven layer configured and adapted for maintaining sand in place within the sand bunker.
16. The method of claim 15, wherein the backing layer is formed of spunbond synthetic fiber secured to the first layer.
17. The method of claim 16, further comprising the step of:
separating and removing the backing layer from the non-woven layer at a perimeter edge of the bunker to permit sod to adhere to the liner.
separating and removing the backing layer from the non-woven layer at a perimeter edge of the bunker to permit sod to adhere to the liner.
18. A system for preventing erosion and maintaining playability of golf course sand bunkers comprising:
a plurality of sections of a water permeable liner, the liner comprising a first non woven layer formed of randomly-aligned, synthetic fibers, the first layer configured and adapted for maintaining sand in place within a sand bunker, and a second backing layer. formed of spunbond synthetic fiber secured to the first layer, the second layer configured and adapted to prevent downward migration of sand through the liner, while also preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker;
a plurality of sod staples for securing the liner to the bunker. base. after it has been cut and fit to the bunker;
a plurality of seam staples for joining seams. between adjacent sections of the liner after it has been cut and fit to the bunker, the seam staples configured and adapted to penetrate the backing layer of the liner but not,penetrate soil;
and a coupling device for installing the plurality of seam staples.
a plurality of sections of a water permeable liner, the liner comprising a first non woven layer formed of randomly-aligned, synthetic fibers, the first layer configured and adapted for maintaining sand in place within a sand bunker, and a second backing layer. formed of spunbond synthetic fiber secured to the first layer, the second layer configured and adapted to prevent downward migration of sand through the liner, while also preventing the upward migration of weeds, rocks and other contaminants that hinder the playability of the sand bunker;
a plurality of sod staples for securing the liner to the bunker. base. after it has been cut and fit to the bunker;
a plurality of seam staples for joining seams. between adjacent sections of the liner after it has been cut and fit to the bunker, the seam staples configured and adapted to penetrate the backing layer of the liner but not,penetrate soil;
and a coupling device for installing the plurality of seam staples.
19. The system of claim 18, wherein the coupling device is a hand-held, pneumatic stapler.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US10/365,005 US6863477B2 (en) | 2003-02-12 | 2003-02-12 | Method and material for preventing erosion and maintaining playability of golf course sand bunkers |
US10/365,005 | 2003-02-12 |
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CA2457435A1 true CA2457435A1 (en) | 2004-08-12 |
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CA 2457435 Abandoned CA2457435A1 (en) | 2003-02-12 | 2004-02-12 | Method and material for preventing erosion and maintaining playability of golf course sand bunkers |
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CA (1) | CA2457435A1 (en) |
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US20100080661A1 (en) * | 2007-06-21 | 2010-04-01 | Lipscomb Chad M | Construction of chemically treated erosion control blanket to enhance erosion control performance and improve soil stability |
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DE102008020261A1 (en) * | 2008-04-22 | 2009-10-29 | Kanand, Anton, Dipl.-Ing. | Flood water and coastal protection device, has fastening unit fixing set of elastic plates in position to be protected, where plates with thickness of specified range consist of rubber and inserts that are made up of textile fabrics |
US8062143B1 (en) * | 2009-09-17 | 2011-11-22 | Daniel Meersman | Golf course sand bunker construction and its associated method of production |
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US20040156679A1 (en) | 2004-08-12 |
US6863477B2 (en) | 2005-03-08 |
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