JP2014236927A - Metal bat for hardball baseball - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a metal bat for hardball baseball capable of significantly enhancing a batted ball speed.SOLUTION: The metal bat for the hardball baseball includes: a ball batting part 1; a cap 2 connected to a tip end side of the ball batting part 1; a tapered part 3 provided at a rear end side of the ball batting part 1; and a grip 4 provided at an opposite side of the ball hitting part 1 with respect to the tapered part 3. A moment of inertia evaluation value Igrip around the grip 4 is 2.26 kg cm sor less. A ratio of a distance from a center CP of percussion of the metal bat for hardball baseball to a rear end 41 of the grip 4, to a distance from a tip end 21 of the cap 2 is 0.828 or more.

Description

  The present invention relates to a metal baseball bat for hard baseball.

  Conventionally, hard baseball metal bats are required to increase the flight distance of the hit ball. The flight distance of the hit ball is influenced by the angle of the trajectory and the amount of spin, but the hit ball speed has the greatest effect. Therefore, it is effective to increase the hitting speed in order to increase the flight distance of the hitting ball. Here, the hitting speed is the speed of the ball immediately after the hard baseball metal bat collides with the ball. In order to increase the hitting speed, for example, it has been proposed to improve the coefficient of restitution of a hard baseball metal bat.

  An important characteristic of a baseball bat is the mass characteristic of a baseball bat. For example, Japanese Patent Laying-Open No. 2002-52106 (Patent Document 1) discloses a bat in which the mass characteristic of the bat can be set to a state where the mass is concentrated on the grip portion as compared with the conventional bat. In this bat, the weight of the grip portion is made heavier than before by making the cross-sectional area of the grip portion of the outer shell member larger than the cross-sectional area of other regions of the bat.

JP 2002-52106 A

  However, there is a limit to improving the coefficient of restitution of the baseball bat because there are restrictions based on the rules regarding the baseball bat. For this reason, it is difficult to sufficiently increase the hitting speed by improving the coefficient of restitution of the baseball bat. Further, the above publication does not disclose that the hitting speed is increased by adjusting the mass characteristics of the bat.

  This invention is made | formed in view of the said subject, The objective is to provide the metal bat for hard baseball which can fully raise a hitting speed.

The metal baseball bat for a hard baseball of the present invention includes a hitting ball portion, a cap portion connected to the front end side of the hitting ball portion, a tapered portion provided on the rear end side of the hitting ball portion, and the opposite of the hitting ball portion with respect to the tapered portion. And a grip portion provided on the side. The moment of inertia evaluation value around the grip portion is 2.26 kg · cm · s ² or less. The ratio of the distance from the hitting point of the metal baseball bat for hard baseball to the rear end of the grip part to the distance from the front end of the cap part to the rear end of the grip part is 0.828 or more.

The inventors have conducted intensive studies and found that the hitting speed can be improved by changing the mass characteristics of the hard baseball metal bat. That is, the moment of inertia evaluation value around the grip portion is 2.26 kg · cm · s ² or less, and the rear end of the grip portion from the tip of the cap portion at the distance from the striking of the baseball metal bat to the rear end of the grip portion The inventors have found that the hitting speed can be improved by setting the ratio to the distance to 0.828 or more. By improving the hitting speed, the flight distance of the hitting ball can be improved. Here, the shot is the point at which the ball is hit when the impact on the grip is minimized when the ball is hit perpendicularly to the bat. In other words, slashing means a so-called sweet spot.

  In the above-mentioned metal baseball bat for hard baseball, preferably, an interior object having a mass of 20 g or more is arranged in a range within 10 cm from the rear end of the grip portion toward the front end of the cap portion inside the grip portion. Thus, the inventors have found that the hitting speed can be improved by increasing the mass of the portion on the grip side of the hard baseball metal bat.

  In the above-mentioned metal baseball bat for hard baseball, preferably, the hitting part includes a protrusion provided so as to protrude toward the inner peripheral side of the hitting part at the tip of the hitting part. The cap part includes a recess that can be fitted to the protrusion on the outer peripheral surface of the cap part. By fitting the concave portion into the projecting portion, the cap portion can be firmly fixed to the hitting ball portion, so that the cap portion can be prevented from falling off the hitting ball portion. For this reason, the mass of a cap part can be made heavy.

  In the above-mentioned hard baseball metal bat, the mass of the cap portion is preferably 38 g or more and 75 g or less. Thus, the inventors have found that the hitting speed can be improved.

  In the above-mentioned hard baseball metal bat, the mass of the hard baseball metal bat is preferably 900 g or more. Thus, the inventors have found that the hitting speed can be improved.

  As described above, according to the metal baseball bat for hard baseball of the present invention, the hitting speed can be sufficiently increased.

It is sectional drawing (a) of the hard baseball metal bat in one embodiment of this invention, sectional drawing (b) of the modification 1, and sectional drawing (c) of the modification 2. It is the enlarged view (a) of the P1 part of Fig.1 (a), the enlarged view (b) of the P1 part of FIG.1 (b), and the enlarged view (c) of the P1 part of FIG.1 (c). FIG. 2 is an enlarged view (a) of the P2 portion in FIG. 1 (a), an enlarged view (b) of the P2 portion in FIG. 1 (b), and an enlarged view (c) of the P2 portion in FIG. 1 (c). It is a side view which shows roughly the structure of the metal baseball bat for hard baseball in one embodiment of this invention. It is a figure which shows the hitting speed etc. of the metal baseball bat for hard baseball in one embodiment of this invention. It is a figure which shows the relationship between the rotation center position of an Example, and a strike distance. It is a figure which shows the relationship between the angular velocity of an Example, and an inertia moment. It is a side view which shows roughly the structure of the metal bat for hard baseball in an Example. It is a figure which shows the relationship between the hit velocity of an Example, and rear end side additional mass. It is a figure which shows the relationship between the hitting velocity of an Example, and the front end side additional mass. It is a figure which shows the relationship between the hit velocity of an Example, and rear end side additional mass. It is a figure which shows the relationship between the hitting velocity of an Example, and the front end side additional mass. It is a figure which shows the relationship between the thickness from Examples 1-6 and a comparative example, and the distance from a bat front-end | tip.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
First, the configuration of the hard baseball metal bat of the present embodiment will be described.

  Referring to FIGS. 1 (a) to 1 (c), a hard baseball metal bat according to one embodiment of the present invention, Modification 1 and Modification 2 of the present embodiment has a hitting ball portion 1 and a cap portion 2, respectively. And the taper part 3 and the grip part 4 are mainly provided.

  The hitting ball portion 1, the taper portion 3 and the grip portion 4 of the metal baseball bat for hard baseball are integrally formed. The material of the hitting ball portion 1, the taper portion 3, and the grip portion 4 is, for example, an aluminum alloy. The material of the cap part 2 is plastic, for example.

  The mass of the baseball metal bat is preferably 900 g or more. The mass of the hard baseball metal bat is desirably 950 g or less so as not to adversely affect the ease of swinging. The total length of the hard baseball metal bat is preferably 82 cm or more and 86 cm or less in consideration of ease of hitting.

  The hitting portion 1 is a portion where it is planned to hit the ball from the beginning. The hitting ball portion 1 is a substantially parallel portion with no change in diameter extending from the tip of the hitting ball portion 1 toward the tapered portion 3, and has a length dimension 1L in the range of 160 mm to 230 mm, for example.

  The cap part 2 is connected to the tip side of the hit ball part 1. The cap part 2 is a tip of a metal baseball bat for hard baseball and its vicinity. The tip 21 of the cap portion 2 constitutes the tip of the hard baseball metal bat. The cap part 2 protrudes from the tip of the hit ball part 1 to the opposite side of the taper part 3 in a range of, for example, 7 mm or more and 13 mm or less. The mass of the cap part 2 is preferably 38 g or more and 75 g or less.

  The tapered portion 3 is provided on the rear end side of the hit ball portion 1. The tapered portion 3 is located between the hitting ball portion 1 and the grip portion 4, and the tapered portion 3 is a portion whose outer diameter gradually decreases from the hitting ball portion 1 toward the grip portion 4. The ball hitting part 1 has a length dimension 3L in the range of, for example, 220 mm or more and 440 mm or less from the end part on the grip part 4 side to the grip part 4 side.

  The grip portion 4 is provided on the opposite side of the hitting ball portion 1 with respect to the taper portion 3. The grip portion 4 is a portion where the batter is scheduled to be gripped by hand. The grip part 4 is a part from the end part by the side of the grip part 4 of the taper part 3 to the rear end of the metal baseball bat for hard baseball. The grip part 4 is a substantially parallel part with no change in diameter extending from the end of the taper part 3 on the grip part 4 side to the rear end 41 of the grip part 4, and has a length dimension in the range of 450 mm to 600 mm, for example. 4L. The grip portion 4 has a grip end 4a including a rear end 41 of a hard baseball metal bat. The grip end 4a has an enlarged diameter portion.

  As shown in FIG. 1A, the hard baseball metal bat according to the embodiment of the present invention has an interior 5 inside a grip end 4 a of the grip portion 4. It is preferable that the interior object 5 is disposed within the grip portion 4 within a range of 10 cm from the rear end 41 of the grip portion 4 toward the tip 21 of the cap portion 2. The interior 5 is preferably 20 g or more in mass.

  Subsequently, the configurations of the hit ball portion 1 and the cap portion 2 will be described in more detail with reference to FIGS.

  As shown in FIG. 2A, in one embodiment of the present invention, the cap portion 2 has a flange portion 2a, a protruding portion 2b, a cylindrical portion 2c, and a bottom portion 2d. The flange portion 2 a is formed in the vicinity of the tip 21 of the cap portion 2. The flange portion 2a protrudes outside the cylindrical portion 2c in the radial direction of the cylindrical portion 2c. The end surface on the rear end side of the cap portion 2 of the flange portion 2 a is in contact with the tip of the hit ball portion 1. The protruding portion 2 b is formed in the vicinity of the rear end of the cap portion 2. The protruding portion 2b protrudes outside the cylindrical portion 2c in the radial direction of the cylindrical portion 2c. The protrusion 2 b is fitted in a recess 1 a formed on the inner peripheral surface of the hit ball 1. The outer peripheral surface of the cylindrical portion 2 c is in contact with the inner peripheral surface of the hit ball portion 1. The bottom 2d is connected to the tip of the cylinder 2c. The bottom portion 2d is formed to be recessed toward the rear end side of the cap portion 2 in the axial direction of the cap portion 2. In one embodiment of the present invention, the mass of the cap part 2 is, for example, 38 g.

  As shown in FIG. 2 (b), the shape of the cap part 2 is different in the first modification as compared with the embodiment of the present invention. Specifically, the thickness of the bottom 2d of the first modification is larger than that of the embodiment of the present invention. In other words, the bottom portion 2d of Modification 1 has a larger dimension in the axial direction of the cap portion 2. For this reason, the mass of the cap part 2 of the modification 1 is heavier than the mass of the cap part 2 of one embodiment of the present invention. In the modification 1, the mass of the cap part 2 is 55 g, for example.

  As shown in FIG.2 (c), compared with one Embodiment of this invention, in the modification 2, the shape of the cap part 2 differs. Specifically, the axial dimension of the cap portion 2 of the second modification is larger than that of the embodiment of the present invention. The axial dimension of the cap part 2 of the cylinder part 2c is larger than that of the embodiment of the present invention. Further, the thickness of the bottom 2d of the modified example 2 is larger than that of the embodiment of the present invention. That is, the dimension of the cap part 2 in the axial direction of the bottom part 2d of the modification 2 is large. Therefore, the mass of the cap part 2 of the modification 2 is heavier than the mass of the cap part 2 of one embodiment of the present invention. Moreover, the mass of the cap part 2 of the modification 2 is heavier than the mass of the cap part 2 of the modification 1. In the modification 2, the mass of the cap part 2 is 75 g, for example.

  Furthermore, in the modified example 2, the hitting ball portion 1 has a protruding portion 1 b provided to protrude toward the inner peripheral side of the hitting ball portion 1 at the tip of the hitting ball portion 1. The protruding portion 1b is formed to extend in the radial direction of the hit ball portion 1. The protruding portion 1 b is formed over the entire circumference of the hitting ball portion 1. The cap part 2 has the recessed part 2e in the outer peripheral surface. Specifically, the recess 2e is continuously formed on the end surface of the cap portion 2 of the flange portion 2a on the rear end side, and is formed on the inner diameter side of the cylindrical portion 2c. The recess 2e is configured to be able to fit into the protrusion 1b. The concave portion 2e is formed over the entire outer periphery of the cylindrical portion 2e. The distal end of the protruding portion 1b in the radial direction is inserted into the concave portion 2e from the circumferential direction. Further, the end surface on the front end side in the axial direction of the protruding portion 1 b of the hitting ball portion 1 is in contact with the end surface of the flange portion 2 a on the rear end side of the cap portion 2.

  Next, the configuration of the grip part 4 will be described in more detail with reference to FIGS.

  As shown in FIG. 3A, in one embodiment of the present invention, the interior 5 is filled in the grip end 4 a of the grip portion 4. The thickness of the grip part 4 differs between the rear end side, the front end side, and the grip end 4a.

  The thickness t1 on the rear end side of the grip portion 4 is, for example, 3 mm or more and 6 mm or less, preferably 4 mm or more and 5 mm or less. The thickness t2 on the front end side of the grip portion 4 may be, for example, 2.5 mm or more and 3.5 mm or less, and preferably 2.5 mm or more and 3 mm or less. That is, in the grip part 4, the thickness t1 on the rear end side is thicker than the thickness t2 on the front end side. The thickness t2 on the tip side of the grip portion 4 is substantially the same as the thickness of the taper portion 3 and the hitting ball portion 1. Further, the thickness t3 of the grip end 4a is, for example, not less than 1.6 mm and not more than 3 mm. The thickness t3 of the grip end 4a is thinner than the thickness t1 on the rear end side of the grip portion 4 and the thickness t2 on the front end side.

Next, the mass characteristics of the hard baseball metal bat of the present embodiment will be described.
An important feature of the present embodiment is that the mass characteristics of the hard baseball metal bat are adjusted so as to increase the hitting speed. Specifically, an important feature is that the moment of inertia evaluation value around the grip portion and the strike rate are adjusted.

Referring to FIG. 4, inertia moment evaluation value Igrip around the grip portion of the hard baseball metal bat is 2.26 kg · cm · s ² or less. Here, the inertia moment evaluation value Igrip around the grip portion means an inertia moment at a position of 11 cm from the rear end 41 of the grip portion 4 toward the tapered portion 3. That is, the inertia moment evaluation value Igrip around the grip portion means the moment of inertia about the rotation axis GP of the grip portion 4. The reason why the position of 11 cm from the rear end 41 of the grip part 4 toward the taper part 3 is used as a reference is that this position substantially corresponds to the midpoint of the position where the metal baseball bat for hard baseball is grasped with both hands. When the inertia moment evaluation value Igrip around the grip portion 4 is 2.26 kg · cm · s ² or less, the metal baseball bat for hard baseball can be easily swung.

Further, if the moment of inertia evaluation value Igrip around the grip portion 4 exceeds 2.26 kg · cm · s ² , the swing time until impact is long, and the probability that the ball 10 hits the hard baseball metal bat decreases. Further, when the weight of the metal baseball bat for hard baseball is 900 g or more, it is not possible to manufacture a metal baseball bat for hard baseball having a moment of inertia evaluation value Igrip around the grip portion 4 of 1.90 kg · cm · s ² or less while maintaining strength. Have difficulty.

  The ratio of the distance from the hit point CP of the hard metal base bat to the rear end 41 of the grip part 4 to the distance from the front end 21 of the cap part 2 to the rear end 41 of the grip part 4 is 0.828 or more. The ratio of the distance from the hitting point CP to the rear end 41 of the grip part 4 to the distance from the tip 21 of the cap part 2 to the rear end 41 of the grip part 4 is referred to as a hitting rate. The distance from the shooter CP to the rear end 41 of the grip part 4 is the shooter distance CL. Moreover, the distance from the front-end | tip 21 of the cap part 2 to the rear end 41 of the grip part 4 is the full length TL of the hard metal baseball bat. That is, the strike rate is a value obtained by dividing the strike distance CL by the total length TL of the hard baseball metal bat.

  Moreover, it is difficult to manufacture a hard baseball metal bat having a hit rate of more than 0.839 due to strength and durability limitations. In addition, in a hard baseball metal bat having a hit rate exceeding 0.839, the hit point position is too far ahead, and numbness at the time of hitting becomes large even at a normal hit point position. As a result, the sensory evaluation becomes worse, and there is a problem in normal use.

  The distance from the hit point HP of the ball 10 to the rear end 41 of the grip portion 4 is the hit point distance HL. The distance from the center of gravity G of the hard baseball metal bat to the rear end 41 of the grip is the center of gravity distance R.

Next, the function and effect of this embodiment will be described.
In the hard baseball metal bat of the present embodiment, the moment of inertia evaluation value Igrip around the grip portion 4 is 2.26 kg · cm · s ² or less, and the strike rate is 0.828 or more. The inventors have found that the hitting speed can be improved when the inertia moment evaluation value Igrip around the grip portion 4 is 2.26 kg · cm · s ² or less and the hit rate is 0.828 or more. It was. By improving the hitting speed, the flight distance of the hitting ball can be improved.

  In the metal baseball bat for a hard baseball according to an embodiment of the present invention, the interior of the grip portion 4 has an inner weight of 20 g or more within a range of 10 cm from the rear end 41 of the grip portion 4 toward the tip 21 of the cap portion 2. 5 is arranged. Thus, the inventors have found that the hitting speed can be improved by increasing the mass of the grip base 4 side portion of the hard baseball metal bat.

  In the hard baseball metal bat according to the second modification of the embodiment of the present invention, the hit ball portion 1 includes a protruding portion 1b, and the cap portion 2 is a concave portion that can be fitted to the protruding portion 1b on the outer peripheral surface of the cap portion 2. 2e is included. By fitting the concave portion 2e into the protruding portion 1b, the cap portion 2 can be firmly fixed to the hitting ball portion 1, so that the cap portion 2 can be prevented from falling off the hitting ball portion 1. For this reason, the mass of the cap part 2 can be made heavy.

  In the hard baseball metal bat of the present embodiment, the mass of the cap portion 2 is not less than 38 g and not more than 75 g. Thus, the inventors have found that the hitting speed can be improved.

  In the baseball metal bat of the present embodiment, the mass of the baseball metal bat is 900 g or more. Thus, the inventors have found that the hitting speed can be improved.

Examples of the present invention will be described below.
The inventors investigated the parameters of mass characteristics having a high correlation with the hitting speed because the hitting speed has the greatest influence on the flight distance of the hitting ball.

  First, a formula for calculating the hitting speed will be described. The hitting speed is calculated by the following equation (1) assuming a direct collision in which the direction vector of the ball center before the collision and the direction vector of the bat center match.

Vout = (1 + COR) / (1 + ma / M) × (VS + Vin) −Vin (1)
Here, Vout is a hitting velocity, COR is a coefficient of restitution, ma is a ball mass, M is a bat equivalent mass, VS is a hitting velocity, and Vin is a pitching velocity.

The bat equivalent mass (M) is calculated by the following equation (2).
M = 1 / (1 / mb + L ² / Icg) (2)
Here, mb is the mass of the bat, L is the distance between the hit point and the center of gravity, and Icg is the moment of inertia around the center of gravity of the bat.

  As shown in the above formula (1) of the hitting speed, the hitting speed depends on various parameters. Of these, the hitting speed VS is affected by the moment of inertia around the grip portion. Therefore, by using the hitting speed VS as a function, the hitting speed is predicted using the mass characteristic as an input value, and a predicted value of the hitting speed is calculated.

  Next, a calculation formula for the hitting speed will be described.

  Seven subjects swung samples 1 to 12 of the bat having the mass characteristics shown in Table 1. From the results, the rotation center position and angular velocity shown in Table 2 were calculated. The rotation center position and the angular velocity shown in Table 2 are average values of seven subjects, respectively. The total length of samples 1 to 9 is 33 inches, the total length of sample 10 is 31 inches, the total length of sample 11 is 32 inches, and the total length of sample 12 is 34 inches.

  Referring to FIG. 5, the distribution of velocity V of the hard baseball metal bat is proportional to the distance from the center of rotation in the order of the grip portion speed VG, the hit point HP speed VS, and the hard baseball metal bat tip speed VT. And get bigger. The position coordinates of the two markers were acquired by photographing with a high-speed camera from directly above the striking position, and the rotational center position and angular velocity were calculated by obtaining the speeds of the two points.

  Specifically, the rotation center position C was calculated by the following equation (3). The rear end of the grip part was set to zero, and the marker position of the grip part was 0.26 m from the rear end of the grip. Moreover, TL is the full length of the hard baseball metal bat.

C = (0.26 × VT−TL × VG) / (VT−VG) (3)
Further, the angular velocity ω was calculated by the following equation (4).

ω = (VT−VG) / (TL−0.26) (4)
Referring to FIG. 6, the relationship between the rotation center position and the hitting distance of the seven subjects is shown in a graph, and the relationship between the rotation center position and the hitting distance is formulated from this graph. The result is shown in the following formula (5).

Rotation center position C = −0.000218 × attack distance + 0.141123 (5)
In addition, referring to FIG. 7, the relationship between the angular velocity and the moment of inertia of seven subjects was shown in a graph, and the relationship between the angular velocity and the moment of inertia was formulated from this graph. The result is shown in the following formula (6).

Angular velocity ω = −7.6924 × moment of inertia + 58.522 (6)
Further, in any of Samples 1 to 12, the ratio of the hitting distance to the entire length of the hard baseball metal bat was substantially constant. The following equation (7) is established as a relationship between the hitting distance HL and the total length TL of the hard baseball metal bat.

Riding distance HL = Total length of metal baseball bat for hard baseball TL × 0.817 (7)
The striking point speed is calculated by the following equation (8) using the rotation center position C, the angular velocity ω, and the striking point distance HL.

Riding speed VS = (HL−C) × ω (8)
That is, the hitting speed VS is predicted by inputting the values of the rotation center position C, angular velocity ω, and hitting distance HL obtained from the above expressions (5), (6), and (7) into the above expression (8). Is possible. A predicted value of the hitting ball speed is calculated by inputting the hitting speed VS into the equation (1).

Next, weight simulation of a hard baseball metal bat will be described.
When the baseball metal bat for hard baseball was manufactured as lightly as possible while satisfying the strength, the mass characteristics shown in Table 3 were obtained. This hard baseball metal bat is defined as a bat body, and a mass added to the bat body is referred to as an added mass. The added mass may be added to the interior, or may be added by increasing the wall thickness of the bat.

  Note that the inertia moment evaluation value Igrip around the grip portion is calculated using GODO WORKSCO. It measured using the measuring device (BALANCE TESTER) of LTD. The measuring device calculates and displays the moment of inertia evaluation value Igrip around the grip portion from the cycle according to the principle of the rigid pendulum by the following calculation formula. The period T of the rigid pendulum is expressed by the following formula (9). And the grip part inertia moment IG is calculated | required as shown to Formula (10) from the relationship of this Formula (9).

T = 2π × (IG / (mb × g × a)) ^1/2 (9)
IG = (g / π ² ) × mb × a × (T / 2) ² (10)
IG represents the moment of inertia of the grip part, mb represents the mass of the bat, g represents the acceleration of gravity, and a represents the distance from the rotation axis to the center of gravity when measuring the inertia moment evaluation value around the grip part.

  The grip portion inertia moment evaluation value Igrip displayed on the measuring instrument is a value obtained by dividing the grip portion inertia moment IG in the above equation (9) by the gravitational acceleration g. Further, the strike distance of the distance from the rear end of the grip to the strike is calculated by Expression (11).

Strike distance CL (mm) = (Igrip × 0.098 / (mb / 1000) / ((R−110) / 1000) +0.11) × 1000 (11)
Igrip represents the moment of inertia evaluation value (kg · cm · s ² ) around the grip portion, mb represents the butt mass (g), and R represents the center of gravity distance (mm).

Next, the relationship between added mass, moment of inertia and hitting velocity was examined.
Referring to FIG. 8, assuming that the mass m (kg) of the bat main body, the additional mass m1 (kg) on the rear end side of the bat, and the additional mass m2 (kg) on the front end side of the bat, the bat with additional mass added. The mass M of is represented by the following formula (12).

M = m + m1 + m2 (12)
The center-of-gravity distance R of the bat to which the additional mass is added is expressed by the following formula (13).

R = (m × r + m1 × x1 + m2 × x2) / M (13)
Here, r is the center-of-gravity distance of the bat (bat body) to which no additional mass is added, x1 is the distance from the additional mass m1 to the rear end of the grip portion, and x2 is the rear end of the grip portion. The distance to the edge.

The inertia moment Icg ′ around the center of gravity of the bat without adding the weight of the bat with the added mass added to the inertia moment Icg (kg · cm ² ) around the center of gravity of the bat without adding the added mass is represented by the following formula (14 ).

Icg ′ = Icg + m1 (r−x1) ² + m2 (r−x2) ² (14)
The moment of inertia ICG around the center of gravity of the bat to which the additional mass is added is expressed by the following equation (15).

ICG = Icg′−M (R−r) ² (15)
The inertia moment evaluation value Igrip (kg · cm · s ² ) around the rotation axis at a position 11 cm from the rear end of the grip portion is expressed by the following equation (16).

Igrip = (ICG + M (R−0.11) ² ) /0.098 (16)
Subsequently, the mass characteristics of the bat were calculated when x1 = 0 (mm), x2 = 830 (mm), and m1 + m2 = 100 (g). The results are shown in Table 4, FIG. 9 and FIG.

The hitting speed in Table 4 was calculated from the formula (1), the ball mass ma was 149 g, and the throwing speed Vin was 130 km / h. Referring to Table 4, the inertia moment evaluation value Igrip is preferably 2.26 kg · cm · s ² or less, because it becomes difficult to swing the bat if the inertia moment evaluation value Igrip becomes too large. It was also found that the hitting speed was 45 m / s or more when the hit rate was 0.828 or more. If the hitting speed is 45 m / s or more, the flying distance of the hitting ball corresponds to about 112 m, so that a home run can be hit. For this reason, if the hitting speed is 45 m / s, it can be said that the hitting speed is sufficiently improved.

  On the other hand, the mass characteristics of the bat were calculated when x1 = 100 (mm), x2 = 730 (mm), and m1 + m2 = 100 (g). The results are shown in Table 5, FIG. 11 and FIG.

  Referring to Table 5, in this case, it was found that when the additional mass was added at two locations, the hitting speed did not become faster than 45 m / s. It was found that the additional masses at the two locations are preferably closer to the front end side and rear end side of the bat, respectively.

  It was also found that the mass distribution ratio between the front end side and the rear end side of the bat is preferably in the range from 3 to 7 to 8 to 2.

Next, a specific configuration of the hard baseball metal bat will be described.
Referring to FIG. 13, in order to reduce the weight of the bat body, a bat simulating the outer diameter and wall thickness of a conventional bat as a comparative example, three-point bending using CAE (Computer Aided Engineering) analysis, flat strength As a result, an excessive strength setting part was found. As a result, it was confirmed by preliminary analysis that even if the thickness in the range of 480 mm or more and 600 mm or less from the butt tip was reduced, the strength standard was cleared. In addition, a bat with an actually reduced wall thickness was prototyped, and it was confirmed that the strength standard was cleared by a strength test. In this way, a bat body having a weight of about 810 g and a strength standard of bat body was manufactured.

  From Table 4 and Table 5 above, the position of the additional mass on the rear end side of the bat is within 100 mm from the rear end of the bat, and the position of the additional mass on the front end side of the bat is preferably within 100 mm from the front end of the bat. I understand that. Further, it can be seen that the hitting speed is higher than 45 m / s when the hitting rate is 0.828 or more due to the arrangement of the additional mass at the rear end and the front end of the ideal bat.

  In addition, the structure which raises the thickness of a grip part as the additional mass to the rear end side of a bat can be considered. If the thickness in the range up to 160 mm excluding the grip end of the grip part is 4 mm or more, the additional mass can be increased in a range closer to the rear end of the bat, and a design closer to the ideal is obtained. I was able to. In addition, interior items and parts may be attached to the grip end.

  With reference to Table 6 and Table 7, Examples 1-6 have the structure shown in a table | surface, respectively. Example 1 and Example 4 have the shape shown in FIG. Example 2 and Example 5 have the shape shown in FIG. Example 3 and Example 6 have the shape shown in FIG.

  The cap interior material may be aluminum, iron, high specific gravity resin, adhesive resin, or the like, and a metal having a large specific gravity such as cobalt, tungsten, or lead is preferable. The cap interior can be mounted in the cap by wrapping a heavy object such as metal with an elastic body such as silicon. Further, the mass of the main body tip portion and the main body base portion is adjusted by changing the thickness or the length of the thick wall portion.

Moreover, with reference to Table 8, Examples 1-6 each have the mass characteristic shown to a table | surface. As shown in Table 8, in Examples 1 to 6, it was found that the evaluation value of the moment of inertia around the grip portion was 2.26 kg · cm · s ² or less, and the shot ratio was 0.828 or more.

  It should be understood that the embodiments and examples disclosed herein are illustrative and non-restrictive in every respect. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.

  1 hitting part, 1a recessed part, 1b protruding part, 2 cap part, 2a flange part, 2b projecting part, 2c cylindrical part, 2d bottom part, 2e recessed part, 3 taper part, 4 grip part, 4a grip end, 5 interior, 10 balls, 21 front end, 41 rear end, C rotational center position, CL impact distance, CP impact center, G center of gravity, GP rotation axis, HL impact point distance, HP impact point, Igrip inertia moment evaluation value around grip, ICG, Icg Moment of inertia around the center of gravity, R Center of gravity distance, TL total length, VS RBI speed.

Claims (5)

A metal baseball bat for baseball,
The hitting ball part,
A cap portion connected to the tip side of the hitting ball portion;
A tapered portion provided on the rear end side of the hitting ball portion;
A grip portion provided on the opposite side to the hitting ball portion with respect to the tapered portion,
The moment of inertia evaluation value around the grip portion is 2.26 kg · cm · s ² or less,
The baseball metal bat for hard baseball, wherein the ratio of the distance from the hitting point of the metal baseball bat for hard baseball to the rear end of the grip portion to the distance from the tip end of the cap portion to the rear end of the grip portion is 0.828 or more.   The baseball metal bat for a hard baseball according to claim 1, wherein an interior object having a mass of 20 g or more is arranged within a range of 10 cm from the rear end of the grip portion toward the tip of the cap portion inside the grip portion. . The hitting part includes a protrusion provided to protrude toward the inner peripheral side of the hitting part at the tip of the hitting part,
The hard baseball metal bat according to claim 1, wherein the cap portion includes a recess that can be fitted to the protruding portion on an outer peripheral surface of the cap portion.   The baseball metal bat for hard baseball according to any one of claims 1 to 3, wherein the cap portion has a mass of 38 g or more and 75 g or less. The baseball metal bat according to any one of claims 1 to 4, wherein a mass of the baseball metal bat is 900 g or more.

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