US2012277020A1PendingUtilityA1
Practice golf ball
Est. expiryApr 27, 2031(~4.8 yrs left)· nominal 20-yr term from priority
A63B 37/00215A63B 37/0068A63B 37/0063C08K 5/09A63B 37/0065A63B 69/3655A63B 37/0031C08L 9/06A63B 37/0003A63B 37/0051A63B 37/0087A63B 37/0064C08L 9/00A63B 37/0017A63B 37/0012A63B 37/0084A63B 37/0066A63B 37/0033A63B 37/0035A63B 37/0074
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Claims
Abstract
A practice golf ball has a core and a cover. The core is made of a rubber composition which includes a base rubber, a co-crosslinking agent, a crosslinking initiator and a metal oxide. The base rubber is a mixture of polybutadiene with styrene-butadiene rubber and/or isoprene rubber, and the co-crosslinking agent is methacrylic acid. The core has a specific deflection under a specific load, and the ball has a specific initial velocity. The dimples on the surface of the ball have a volume ratio VR of from 0.95 to 1.7.
Claims
exact text as granted — not AI-modified1 . A practice golf ball comprising:
a core made of a rubber composition comprising a base rubber and, as compounding ingredients: a co-crosslinking agent, a crosslinking initiator and a metal oxide; and a cover which encases the core and comprises a resin component,
wherein the base rubber is a mixture of polybutadiene with styrene-butadiene rubber or isoprene rubber or both; the co-crosslinking agent is methacrylic acid; the core, when compressed under a final load of 1,275 N (130 kgf) from an initial load of 98 N (10 kgf), has a deflection CH of from 2.5 mm to 7.0 mm; the ball has an initial velocity of not more than 70 m/s; and the ball has formed on a surface thereof a plurality of dimples, each dimple having a spatial volume below a flat plane circumscribed by an edge of the dimple, and the sum of the dimple spatial volumes, expressed as a percentage (VR) of the volume of a hypothetical sphere representing the ball were the ball to have no dimples on the surface thereof, being from 0.95% to 1.7%.
2 . The practice golf ball of claim 1 , wherein the core has a hardness profile in which, letting A be the JIS-C hardness at a surface of the core, B be the JIS-C hardness at a position 2 mm inside the core surface, C be the JIS-C hardness at a position 5 mm inside the core surface, D be the JIS-C hardness at a position 10 mm inside the core surface, E be the JIS-C hardness at a position 15 mm inside the core surface, and F be the JIS-C hardness at a center of the core: A is from 60 to 88, B is from 54 to 83, C is from 56 to 85, D is from 54 to 80, E is from 51 to 75, and F is from 48 to 72; the relative hardness conditions A>B<C≧D>E>F are satisfied; the value A-F is not more than 19; the core is formed in such a way that A has the highest value among A to F; the value A-C is from 0 to 8; the core has a specific gravity of from 1.05 to 1.2; the resin component of the cover is composed primarily of polyurethane; the cover has a material hardness, expressed as the Shore D hardness, of from 30 to 57; the cover has a thickness of from 0.3 mm to 2.5 mm; and when the core and the ball are each compressed under a final load of 1,275 N (130 kgf) from an initial load of 98 N (10 kgf), letting deflection by the core be CH and deflection by the ball be BH1, the ratio CH/BH1 is from 0.95 to 1.1.
3 . The practice golf ball of claim 1 , wherein the ball has, upon initial measurement, a deflection BH1 (mm) when compressed under a final load of 1,275 N (130 kgf) from an initial load of 98 N (10 kgf) and an initial velocity BV1 (m/s), and also has, when measured again after being left to stand for 350 days following initial measurement, a deflection BH2 (mm) when compressed under a final load of 1,275 N (130 kgf) from an initial load of 98 N (10 kgf) and an initial velocity BV2 (m/s), such that the difference BH2−BH1 is not more than 0.2 mm and the difference BV2−BV1 is not more than 0.3 m/s.
4 . The practice golf ball of claim 1 , wherein the ball has formed on a surface thereof a plurality of dimples which satisfy conditions (1) and (2) below:
(1) the dimples have a peripheral edge provided with a roundness represented by a radius of curvature R of from 0.5 mm to 2.5 mm; and (2) the ratio ER of a collective number of dimples RA having a radius of curvature R to diameter D ratio (R/D) of at least 20%, divided by a total number of dimples N on the surface of the ball, is from 15% to 95%.
5 . The practice golf ball of claim 4 which further satisfies condition (3) below:
(3) the ball has thereon a plurality of dimple types of differing diameter, and the ratio DER of a combined number of dimples DE obtained by adding together dimples having an own diameter and an own radius of curvature larger than or equal to a radius of curvature of dimples of larger diameter than said own diameter plus dimples of a type having a largest diameter, divided by the total number of dimples N on the surface of the ball, is at least 80%.
6 . The practice golf ball of claim 5 which further satisfies conditions (4) to (6) below:
(4) the number of dimple types of differing diameter is 3 or more;
(5) the total number of dimples N is not more than 380; and
(6) the surface coverage SR of the dimples, which is the sum of individual dimple surface areas, each defined by a flat plane circumscribed by an edge of the dimple, expressed as a percentage of the surface area of a hypothetical sphere representing the ball were the ball to have no dimples on the surface thereof, is from 60% to 74%.
7 . The practice golf ball of claim 1 , wherein the polyurethane in the resin component of the cover is a thermoplastic polyurethane elastomer.
8 . The practice golf ball of claim 7 , wherein the thermoplastic polyurethane elastomer comprises soft segments formed from a polymeric polyether polyol and hard segments formed from an aromatic diisocyanate.
9 . The practice golf ball of claim 1 , wherein the ball has, upon initial measurement, a deflection BH1 when compressed under a final load of 1,275 N (130 kgf) from an initial load of 98 N (10 kgf) of from 2.5 mm to 7.0 mm.
10 . The practice golf ball of claim 1 wherein, in the rubber composition making up the core, polybutadiene accounts for not more than 80 wt % of the base rubber, styrene-butadiene rubber or isoprene rubber or both account for from 20 wt % to 60 wt % of the base rubber, and the compounding ingredients are included in respective amounts of from 10 to 40 parts by weight of methacrylic acid, from 15 to 30 parts by weight of metal oxide, from 0.3 to 5.0 parts by weight of crosslinking initiator, and from 0.1 to 1.0 part by weight of an antioxidant, per 100 parts by weight of the base rubber.Cited by (0)
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