JP2011255172A - Golf ball - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a golf ball in which an iron spin force is superior as compared to a conventional golf ball, and driver flying distance is almost the same.SOLUTION: The golf ball includes a center 30, at least two intermediate tiers 20 and 22 sequentially surrounding the center, and an outer tier 10 surrounding the intermediate tiers, which includes: the outer tier having a thickness in a range of 0.8-1.4 mm, and an a hardness (Shore D) in a range of 40-50; among the intermediate tiers, the first intermediate tier formed just below the outer tier, having a thickness in a range of 1.0-2.0 mm and a hardness (Shore D) in a range of 50-65; each intermediate tier formed just below the first intermediate tier having a thickness in a range of 1.3-1.5 mm, and a hardness (Shore D) in range of 30-70; the radius of the center is in a range of 5-18 mm, and a hardness (Shore D) in a range of 30-70; and a moment of inertia value of the golf ball is less than 83 gcm.

Description

  The present invention relates to a golf ball, and more specifically, an approach shot within 100 yd is often spun and easily stops on the green, and when a driver hits the spin is reduced, the trajectory is lowered, and the run is increased. The present invention relates to a golf ball that increases the total distance.

  British R & A and USGA in the US will not be able to use the existing square type groove (club face groove) of iron (No. 5 iron wedge) with a loft of 25 degrees or more from January 1, 2010. Is divided by the pitch of the groove (Pitch = width + interval) to be 0.003 square inches (0.0762 square mm), and the sharpness of the end of the groove is 0.010 inch (0. 254mm) was announced.

  Compared to the time when V-shaped groove clubs were used in the past, the current U-shaped groove clubs are rough and the spin is remarkably increased, and the difference in producing spin between the fairway shot and the rough shot is almost the same. It is a fact that has been revealed by many research results that.

  Therefore, the purpose of the above-mentioned club groove regulation is to increase the difference in spinning between fairway shots and rough shots, and especially by playing advanced in the rough, the importance of accuracy for shots, ie, accurate It can be said that it is intended to further increase the profits received from various shots.

  On the other hand, the core content of the unusual club rules is that it is difficult to spin, so there is an urgent need to develop a ball that spins well. In other words, the products for players that are currently on sale use materials with a cover hardness of 50 or more (unit: ShoreD, the same applies hereinafter), but the ball with such hardness has been newly changed. When hit with a filling iron, it is difficult to give enough spin, which makes it difficult for the golf player to stop the ball at the desired point.

  Therefore, it is possible to give a desired level of spin only by using a golf ball using a lower hardness material as a cover material. However, in the case of a golf ball using a material with low hardness, the spin can be increased appropriately, but at the same time, when the driver hits, excessive spin is generated and the forward force is dispersed to the reverse rotation force. However, since the trajectory becomes higher due to excessive lift, the angle of falling on the ground increases, and the run decreases so that the flight distance is greatly reduced.

  After all, it can be said that there is a need to develop a new golf ball that is easy to give a spin when hitting an iron and at the same time does not reduce the flight distance when hitting a driver.

  The present invention has been devised to meet the above-mentioned needs, and it has a soft cover (outer layer) and is easy to spin on the approach shot and stop at the green, and at the same time, the moment of inertia. Limiting the value and reducing the amount of spin generated when the driver hits, suppressing the excessive lift, lowering the trajectory, reducing the angle when falling to the ground, increasing the run, and eventually increasing the overall flight distance It is an object of the present invention to provide a golf ball that can be used.

The golf ball of the present invention is a golf ball configured to include a central portion, at least two intermediate layers that sequentially enclose the central portion, and an outer layer that encloses the intermediate layer. The thickness is 0.8 to 1.4 mm, the hardness (unit: shore D) is 40 to 50, and the first intermediate layer located immediately below the outer layer among the intermediate layers is The thickness is 1.0 to 2.0 mm, the hardness (unit: shore D) is 50 to 65, and each of the other intermediate layers positioned immediately below the first intermediate layer has a thickness of 1.3 to 15 mm, hardness (unit: Shore D (shore D)) is 30 to 70, the radius of the central portion is 5 to 18 mm, hardness (unit: Shore D (shore D)) ) Is 30 to 70, and the inertia moment value of the golf ball is 83 g · cm ² or less.

  On the other hand, the outer layer is made of an ionomer resin, and the ionomer resin contains at least a part of an unsaturated carboxylic acid having 3 to 8 carbon atoms and an ester of the carboxylic acid. What is desirable is an ionomer resin obtained by neutralizing at least a part of a mono-olefin with a monovalent or divalent metal.

  On the other hand, the outer layer is a polyurethane containing at least one of ester type polyurethane, ether type polyurethane and ether ester copolymer type polyurethane, and is a polyurethane elastic body made by polymerizing polyol, diisocyanate, chain extender and the like. Or a two-component type polyurethane in which a polyol and a polyisocyanate are mixed and used at the time of molding.

  The first intermediate layer is made of an ionomer resin, and the ionomer resin contains at least a part of an unsaturated carboxylic acid having 3 to 8 carbon atoms and an ester of the carboxylic acid. It is desirable to use an ionomer resin obtained by neutralizing at least a part of a mono-olefin with a monovalent or divalent metal.

  According to the golf ball of the present invention, the spin force of the iron is very excellent as compared with the golf ball for conventional games, and further, it is possible to obtain the effect that the flight distance of the driver can show the equivalent performance. .

  Furthermore, since the outer layer (cover layer) is made of a relatively soft material, it is possible to obtain an effect that the feeling of putting and the feeling of hitting ball are improved as compared with the prior art.

1 is a cross-sectional view schematically showing a golf ball according to an embodiment of the present invention. It is sectional drawing which showed schematically the golf ball of the other Example concerning this invention.

  In order to achieve the above-mentioned object, the present invention produces a multi-layer golf ball having four layers (usually referred to as “4PC (piece) ball”), five layers or more when the central portion is a single layer. After adjusting the thickness and density of each layer to have various moment of inertia values, the spin amount and the flight distance are measured and analyzed by the swing robot and the flight performance measuring device. A golf ball that satisfies the requirements at the same time.

Through such experiments, it is found that the moment of inertia of the golf ball must have a value of 83 g · cm ² or less. Each of the outer layer, the first intermediate layer, the second intermediate layer, and each of the following layers The requirements for thickness and hardness were found. Therefore, when the requirements presented below are satisfied, the moment of inertia value of the golf ball is 83 g · cm ² or less, and a desired spin rate can be obtained.

  The golf ball of the present invention has an outer layer (outermost cover) having a thickness of 0.8 to 1.4 mm and a hardness (ShoreD) of 40 to 50, and a first intermediate layer (two from the outermost side). The thickness of the second layer) is 1.0 to 3.0 mm, the hardness (ShoreD) is 50 to 65, and the thickness of each layer is 1.3 from the second intermediate layer (the third layer from the outermost side). A golf ball having a hardness of 15 to 15 mm and a hardness (ShoreD) of 30 to 70. The length of the radius of the central portion is 5 to 18 mm, and the hardness is Shore D30 to 70.

The golf ball of the present invention has a moment of inertia value of 83 g · cm ² or less.

  On the other hand, when the thickness of the outer layer is 0.8 mm or less, the flight deviation when hitting a portion with or without dimples formed on the surface of the golf ball is large, and when the thickness is 1.4 mm or more It is not desirable because the distance loss becomes large.

  Further, if the cover hardness (ShoreD) of the outer layer is 50 or more, the iron spin generation force is reduced and the object of the present invention cannot be achieved, and if it is 40 or less, the driver flight distance is greatly reduced. And consumer preference is reduced.

  If the thickness of the first intermediate layer is 1.0 mm or less, the flight distance decreases, and if it is 3.0 mm or more, the shot feeling is undesirably deteriorated. Further, if the hardness of the first intermediate layer (ShoreD) is 50 or less, the flight distance decreases, and if it is 65 or more, the shot feeling becomes worse.

  From the second intermediate layer, the thickness of each layer is between 1.3 and 15 mm, and is appropriately adjusted in consideration of the thickness of the other layers, the length of the radius of the central portion, and the overall diameter of the golf ball. The length of the radius of the central portion is appropriately adjusted between 5 and 18 mm in consideration of the thickness of the other layer and the overall diameter of the golf ball.

  That is, when the golf ball of the present invention is a four-piece ball, the thickness and hardness of the outer layer and the first intermediate layer satisfy the above-described requirements, and the thickness of the second intermediate layer is 1.3 to It is good to comprise so that it may become between 15 mm, and the length of the radius of a center part may be between 5-18 mm. At this time, the thickness of the second intermediate layer and the size of the central portion may be adjusted in consideration of the overall diameter of the golf ball.

  For example, when the thickness of the second intermediate layer is increased, the radius of the central portion is configured to be relatively small so that the diameter of the golf ball is within a desired range. Currently, it is stipulated that the diameter of a golf ball for competition is 42.67 mm or more. However, since a golf ball having a small diameter is advantageous for a flight distance, most golf balls are usually slightly larger than 42.67 mm. The diameters of the golf balls of the first and second embodiments of the present invention are also 42.7 mm.

  Also, when the golf ball is a 5-piece ball, the thickness and hardness of the outer layer and the first intermediate layer are configured so as to satisfy the above-described requirements, and the thickness of the second intermediate layer and the third intermediate layer are set to Each is configured to be between 1.3 to 15 mm, and the radius of the central portion is configured to be between 5 and 18 mm. At this time, the thickness of the second and third intermediate layers and the size of the central portion may be adjusted appropriately so that the overall diameter of the golf ball can be a desired size.

  In addition, even when the golf ball is 6 pieces or 7 pieces, after the thickness and hardness of the outer layer and the first intermediate layer are configured so as to satisfy the above-mentioned requirements, The thickness of the three, four, or five intermediate layers may be between 1.3 and 15 mm, and the center radius may be between 5 and 18 mm.

  At this time, if the thickness of the second intermediate layer or lower layer is 1.3 mm or less, the moment of inertia cannot be significantly affected, and if the thickness is 15 mm or more, the thickness of the other layers in relation to the other layers. This is not desirable because a sufficient thickness cannot be secured.

  Further, in the case of the second intermediate layer and lower layers and the center portion, the flying distance is very lowered when the hardness (ShoreD) is 30 or less, and when it is 70 or more, the shot feeling is deteriorated. It is appropriate to use a material having an intermediate hardness.

  FIG. 1 is a schematic cross-sectional view of a golf ball according to a first embodiment of the present invention.

  The golf ball (1) of the first embodiment is a case of 4 pieces. The golf ball (1) has an outer layer (10), a first intermediate layer (20), a second intermediate layer (22) and a center. Part (30).

  The outer layer (10) has a thickness of 1.325 mm and a hardness of Shore D48. On the other hand, in other embodiments, the thickness can have other values within the range of 0.8 to 1.4 mm, and the hardness can also have other values between 40 and 50.

  The outer layer (10) is made of an ionomer resin. The ionomer resin is a mono-olefin containing at least a part of an unsaturated carboxylic acid having 3 to 8 carbon atoms and an ester of the carboxylic acid. The metal is at least partially neutralized with a valent metal.

  On the other hand, in another embodiment, the outer layer may be made of polyurethane including at least one of ester type polyurethane, ether type polyurethane and ether ester copolymer type polyurethane.

  Such porriuretan is made of a polyurethane elastic body produced by polymerizing a polyol, a diisocyanate, a chain extender, or the like, or a two-component polyurethane in which a polyol and a polyisocyanate are mixed together during molding.

  The first intermediate layer 20 has a thickness of 1.45 mm and a hardness of Shore D45. On the other hand, in other embodiments, the thickness can have other values in the range of 1.0 to 2.0 mm, and the hardness can also have other values between 50 and 65.

  The first intermediate layer (20) is made of an ionomer resin. The ionomer resin is a mono-olefin containing at least a part of an unsaturated carboxylic acid having 3 to 8 carbon atoms and an ester of the carboxylic acid. It is an ionomer resin at least partially neutralized with a valent metal.

  The second intermediate layer 22 has a thickness of 6.55 mm and a hardness of Shore D45. On the other hand, in other embodiments, the thickness can have other values in the range of 1.3-15 mm, and the hardness can also have other values between 30-70.

  The radius of the central portion (30) is 12.05 mm and the hardness is Shore D52. On the other hand, in other embodiments, the thickness can have other values in the range of 5-18 mm, and the hardness can also have other values between 30-70.

  Specific materials for the second middle layer and the center are presented in the table below. However, the material can be selected appropriately in consideration of hardness, density, and the like.

The moment of inertia of the golf ball (1) of this example is 82.36 g · cm ² . The calculation formula will be described later.

  FIG. 2 is a schematic sectional view showing a golf ball according to a second embodiment of the present invention.

  The golf ball (1a) of the second embodiment is a case of 5 pieces. The golf ball (1a) includes an outer layer (10), a first intermediate layer (20), a second intermediate layer (22), A third intermediate layer (24) and a central portion (30) are included. For the description of each component, the description of the first embodiment is applied as it is or after being appropriately modified.

  On the other hand, as other examples according to the present invention, third and fourth examples of a five-piece golf ball are presented. The golf balls of the third and fourth embodiments are equal to five pieces compared to the second embodiment, but the physical property values of the respective layers and the central portion are different from those of the second embodiment. . In the case of the third and fourth embodiments, the overall shape is similar to that of the second embodiment and is not presented in a separate drawing.

  The values of the diameter, weight, and hardness of the outer layer, middle layer, and central portion of the golf balls of the first, second, third, fourth, and examples are as follows.

  On the other hand, Comparative Tables 1, 2, 3, and 4 that were compared and tested with Examples according to the present invention are shown in the table below.

  The following table describes specific blending ratios of the respective layers of the first example and comparative examples 1 to 4.

  In the following table, the blending ratio of each layer of the second, third, and fourth examples and comparative examples 5 to 7 is described.

  On the other hand, the formulas for calculating the moment of inertia are the following two books `` Fundamentals of Physics 7 / e by David Halliday, 2006, p302-p305 '' and `` Physics for Scientists and Engineers with Modern Physics 6 / e by Raymond A. Serway, 2004, p211−p217 ”.

  In general formula, the moment of inertia I of a sphere consisting of four layers that are not homogeneous can be obtained from the following formula. The radius of each layer is ri and the density of each layer is ρi while going outward from the centrally located portion.

  The moment of inertia (I) is obtained by the following formula.

Using the above formula, the moment of inertia values of the first, second, third, fourth examples and comparative examples presented above were determined. In the table below, the unit of g · cm ² is used for the moment of inertia value I, so the length in the table presented above was converted to cm.

  In the following table, the flight performance values of the first, second, third, fourth examples and comparative examples 1 to 7 according to the present invention are described. The equipment used for the test is an Iron Byron Robot, Trackman measuring instrument, the Sita Club uses Callaway Driver-'R'SHAFT-10.5 °, and the test location is the applicant's R & D center.

  The following facts can be confirmed from the tables presented above.

  First, comparing Comparative Example 1 (2PC), Comparative Example 2 (3PC), and Comparative Example 3 (3PC), the spin amount of Comparative Example 2 (3PC) is 1964, which is the smallest, and the flight distance is the longest. It can be said that such a matter proves the fact that the flight distance becomes long when the value of the moment of inertia is small and the spin amount is small. However, 2PC and 3PC are not suitable as golf balls according to the present invention because the cover is single on the core and the flight distance is shorter than 4PC and 5PC.

  When comparing the second and first examples (4PC) and the comparative example 4 (4PC), the spin amount of the first example was 2001, which was smaller, and the flight distance was 0.5 yd. This proves the moment of inertia effect.

In the third, second example (5PC), example 3 (5PC), and fourth example (5PC), the moment of inertia is 83 (g · cm ² ) or less. Comparative Example 5 (5PC), Comparative Example 6 (5PC) and Comparative Example 7 (5PC) have an inertia moment of 83 (g · cm ² ) or more, and the average of the second example (5PC), the third example (5PC), and the fourth example (5PC). Since the flight distance was 2.2 yd longer than the average flight distance of Comparative Example 5 (5PC), Comparative Example 6 (5PC), and Comparative Example 7 (5PC), the inertia moment effect of the present invention is verified.

  On the other hand, the terms used in this specification will be described as follows.

  “Cover” indicates “cover” in English letters and designates the outer layer which is the outer layer of the golf ball, and the material is resin. 'Spin' indicates 'spin' in English and represents the rotation of the golf ball. 'Driver' is the name of one of the golf clubs. 'Run' means 'run' in English letters and means the distance the golf ball has been rolled. 'Carry' indicates 'carry' in English letters, meaning the distance the golf ball flew. “Iron” is the name of one of the golf clubs, indicating “iron” in English. 'Groove' indicates 'groove' in English letters and indicates the groove of the golf club head. 'Wedge' is an English letter indicating 'wedge' and is one of the names of golf clubs. 'Ionomer' is the name of a resin that contains 'ionomer' in English letters and contains metal ions.

DESCRIPTION OF SYMBOLS 1, 1a Golf ball 10 Outer layer 20 1st intermediate layer 22 2nd intermediate layer 24 3rd intermediate layer 30 Center part

Claims (4)

A golf ball comprising a central portion, at least two intermediate layers that sequentially enclose the central portion, and an outer layer that encloses the intermediate layer,
The outer layer has a thickness of 0.8 to 1.4 mm and a hardness (unit: Shore D) of 40 to 50,
Of the intermediate layers, the first intermediate layer located immediately below the outer layer has a thickness of 1.0 to 2.0 mm and a hardness (unit: Shore D) of 50 to 65,
Each of the other intermediate layers positioned directly below the first intermediate layer has a thickness of 1.3 to 15 mm and a hardness (unit: Shore D) of 30 to 70,
The radius of the central part is 5 to 18 mm, the hardness is (unit: shore D) 30 to 70,
The golf ball having a moment of inertia value of 83 g · cm ² or less. The outer layer is made of an ionomer resin,
The ionomer resin is
A mono-olefin containing at least a part of an unsaturated carboxylic acid having 3 to 8 carbon atoms and an ester of the carboxylic acid is monovalent or divalent. 2. The golf ball according to claim 1, wherein the golf ball is an ionomer resin neutralized at least partially with a metal. The outer layer is
A polyurethane comprising at least one of an ester type polyurethane, an ether type polyurethane and an ether ester copolymer type polyurethane,
A polyurethane elastic body produced by polymerizing a polyol, a diisocyanate, a chain extender, or the like, or a two-component polyurethane used by mixing a polyol and a polyisocyanate at the time of molding. 1. The golf ball according to 1. The first intermediate layer is made of an ionomer resin,
The ionomer resin is
A mono-olefin containing at least a part of an unsaturated carboxylic acid having 3 to 8 carbon atoms and an ester of the carboxylic acid is a monovalent or divalent metal. 2. The golf ball according to claim 1, wherein the golf ball is an ionomer resin in which at least a part thereof is neutralized.