JP2018158003A - Glove, striking member and grip member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a glove, a striking member and a grip member capable of reducing intensity of numbness which a user feels in striking time.SOLUTION: Gloves 1 comprise: a first glove 1A capable of receiving one hand 101 of a wearer on a root side of a striking member 2; and a second glove 1B capable of receiving the other hand 102 of a wearer on a tip side 22 of the striking member 2. The first glove 1A includes a first buffer member arranged on a palm side of one hand 101. The second glove 1B includes a second buffer member arranged on a palm side of the other hand 102. The first buffer member is formed of a material for reducing a low frequency vibration component when the striking member 2 vibrates, relative to the second buffer member. The second buffer member is formed of a material for reducing a high frequency vibration component when the striking member 2 vibrates, relative to the first buffer member.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a glove, a striking member, and a grip member.

  2. Description of the Related Art Conventionally, there are some gloves used for impact reduction in gloves used for hitting with a baseball bat as an example of a hitting member. For example, Japanese Unexamined Patent Application Publication No. 2011-229731 (Patent Document 1) describes a glove that exhibits sufficient shock absorbing performance.

JP 2011-229731 A

  Generally, it is known that a batter feels numbness in the hand when the ball is removed from the core of the baseball bat at the time of hitting. However, in the glove described in the above publication, the shock absorbing performance when the ball is hit with the hitting core of the baseball bat has been studied, and when the ball is hit with the hitting base of the baseball bat removed. The buffer performance has not been improved sufficiently. Therefore, it is not assumed that the numbness felt by the batter at the time of hitting will be reduced.

  This invention is made in view of the said subject, The objective is to provide the glove, the striking member, and the grip member which can reduce the numbness which a batter feels to a hand at the time of striking.

  The gloves of the present invention are a pair of gloves that are worn on both hands of a wearer holding the striking member. The glove is a first glove that can accept one hand of the wearer located on the base side of the striking member, and a first glove that can accept the other hand of the wearer located on the tip side of the striking member rather than one hand. 2 gloves. The first glove includes a first buffer member disposed on the palm side of one hand. The second glove includes a second buffer member disposed on the palm side of the other hand. The first buffer member is made of a material that reduces a low-frequency vibration component when the striking member vibrates more than the second buffer member. The second buffer member is made of a material that reduces a high-frequency vibration component when the striking member vibrates more than the first buffer member.

  As a result of intensive studies, the inventors have found that the feeling of numbness varies depending on the hit point position at the time of hitting and the left and right hands of the batter. Specifically, when the striking point position at the time of striking is located on the tip side of the striking center position of the striking member, the batter easily feels numbness in the hand located on the root side, and the striking position at the time of striking is the striking position of the striking member. The inventors have found that the batter easily feels numbness in the hand located on the tip side when located closer to the base side. When the striking position at the time of striking is located on the tip side of the striking center position of the striking member, the low frequency vibration component becomes large on the root side, and the striking position at the time of striking is located on the base side from the striking position of the striking member. The inventors have found that the high-frequency component sometimes increases on the tip side.

  According to the glove of the present invention, the low-frequency vibration component on the base side can be reduced by the first buffer member when the striking point position at the time of striking is located on the tip side from the striking position of the striking member. Further, when the striking point position at the time of striking is located on the base side from the hitting core position of the striking member, the high-frequency component on the tip side can be reduced by the second buffer member. Accordingly, it is possible to reduce numbness felt by the batter at the time of hitting.

  Preferably, in the above glove, the first glove includes a first palm part that can receive the palm of one hand, a first index finger part that can receive the index finger, middle finger, ring finger, and little finger of one hand, A middle finger part, a first ring finger part, and a first little finger part are included. The first buffer member is disposed across the first palm part, the first index finger part, the first middle finger part, the first ring finger part, and the first little finger part. The second glove includes a second palm portion that can accept the palm of the other hand. The second buffer member is disposed on the second palm portion.

  When the striking point position at the time of striking is located on the tip side of the striking center position of the striking member, the striking member is rotated by an impact at the time of striking, or one hand is pressed by bending the striking member by vibration. At this time, positions straddling the first index finger part, the first middle finger part, the first ring finger part, and the first little finger part from the first palm part are strongly pressed. Since the 1st buffer member is arrange | positioned in these positions, the low frequency vibration component by the side of a root can be reduced effectively by the 1st buffer member. Further, when the striking point position at the time of striking is located closer to the root side than the hitting core position of the striking member, the second palm portion of the other hand is pushed by the striking member by the impact at the time of striking. Since the 2nd buffer member is arrange | positioned at the 2nd palm part, the high frequency component of the front end side can be effectively reduced by the 2nd buffer member.

  Preferably, in the above glove, the first glove includes a thumb portion that can receive the thumb of one hand. The first palm portion includes a little finger ball portion that covers the little finger ball of one hand. The 1st buffer member is arrange | positioned at the thumb part, and is arrange | positioned ranging from a little finger ball part to a little finger part. The second glove includes a second index finger part, a second middle finger part, a second ring finger part, and a second little finger part that can receive the index finger, the middle finger, the ring finger, and the little finger of the other hand, respectively. The 2nd buffer member is each arrange | positioned at the 2nd index finger part, the 2nd middle finger part, the 2nd ring finger part, and the 2nd little finger part.

  When the striking point position at the time of striking is located on the tip side of the striking center position of the striking member, the striking member is rotated by the impact at the time of striking, or the striking member is bent by vibration so that the first thumb part and the little finger of one hand The sphere is pressed. Since the 1st buffer member is arrange | positioned at the 1st thumb part, and is arrange | positioned ranging from a little finger ball part to a 1st little finger part, the low frequency vibration component by the side of a root is more effectively by the 1st buffer member. Can be reduced. Further, when the striking point position at the time of striking is located at the base side from the hitting core position of the striking member, the second index finger portion, the second middle finger portion, the second ring finger portion and the second ring finger portion of the other hand by the striking member due to the impact at the time of striking Each of the 2 little fingers is pushed in. At this time, since the second buffer member is disposed on each of the second index finger portion, the second middle finger portion, the second ring finger portion, and the second little finger portion, the high-frequency component on the distal end side is more effectively reduced by the second buffer member. Can be reduced.

  In the above glove, preferably, the first buffer member is a gel and the second buffer member is rubber. For this reason, the low frequency vibration component on the base side of the striking member can be reduced by the gel, and the high frequency component on the tip side of the striking member can be reduced by the rubber.

  The striking member of the present invention includes a main body member and a grip member attached to the main body member. The grip member includes a first buffer member disposed on the base side of the main body member, and a second buffer member disposed on the distal end side of the main body member with respect to the first buffer member. The first buffer member is made of a material that reduces a low-frequency vibration component when the main body member vibrates more than the second buffer member. The second buffer member is made of a material that reduces a high-frequency vibration component when the main body member vibrates more than the first buffer member.

  According to the striking member of the present invention, the low-frequency vibration component on the root side can be reduced by the first buffer member when the striking point position at the time of striking is located on the tip side from the striking core position of the striking member. Further, when the striking point position at the time of striking is located on the base side from the hitting core position of the striking member, the high-frequency component on the tip side can be reduced by the second buffer member. Accordingly, it is possible to reduce numbness felt by the batter at the time of hitting.

  In the hitting member, preferably, the first buffer member is a gel and the second buffer member is rubber. For this reason, the low frequency vibration component on the base side of the striking member can be reduced by the gel, and the high frequency component on the tip side of the striking member can be reduced by the rubber.

  The grip member of the present invention is a grip member attached to the main body member of the striking member. The grip member includes a first buffer member disposed on the base side of the main body member, and a second buffer member disposed on the distal end side of the main body member with respect to the first buffer member. The first buffer member is made of a material that reduces a low-frequency vibration component when the main body member vibrates more than the second buffer member. The second buffer member is made of a material that reduces a high-frequency vibration component when the main body member vibrates more than the first buffer member.

  According to the grip member of the present invention, the low-frequency vibration component on the base side can be reduced by the first buffer member when the striking point position at the time of striking is located on the tip side from the hitting core position of the striking member. Further, when the striking point position at the time of striking is located on the base side from the hitting core position of the striking member, the high-frequency component on the tip side can be reduced by the second buffer member. Accordingly, it is possible to reduce numbness felt by the batter at the time of hitting.

  In the above grip member, preferably, the first buffer member is a gel and the second buffer member is rubber. For this reason, the low frequency vibration component on the base side of the striking member can be reduced by the gel, and the high frequency component on the tip side of the striking member can be reduced by the rubber.

  As described above, according to the present invention, it is possible to reduce numbness felt by a batter at the time of hitting.

It is a front view showing roughly the state where the wearer wearing the glove in Embodiment 1 of the present invention grasped the grasping part of the striking member. It is a figure which shows roughly the state which looked at the glove for left hands from the palm side among the gloves in Embodiment 1 of this invention. It is a figure which shows roughly the state which looked at the glove for left hands from the back side of the hand among the gloves in Embodiment 1 of this invention. It is a figure which shows schematically the state which looked at the glove for right hands among the gloves in Embodiment 1 of this invention from the palm side. It is a figure which shows roughly the state which looked at the glove for right hands among the gloves in Embodiment 1 of this invention from the back side of the hand. It is a schematic diagram which shows roughly the arrangement | positioning of the external appearance and frame | skeleton of a left hand at the time of seeing a wearer's left hand from the palm side, and a 1st buffer member. It is a schematic diagram which shows schematically the arrangement | positioning of the external appearance and frame | skeleton of a right hand, and a 2nd buffer member when a wearer's right hand is seen from the palm side. It is a front view which shows roughly the baseball bat as a striking member in Embodiment 2 of this invention. It is an end elevation which follows the IX-IX line of FIG. It is an end view which follows the XX line of FIG. It is an end view which follows the XI-XI line of FIG. It is an end view which follows the XII-XII line | wire of FIG. It is a perspective view which shows schematically the golf club as a modification of the striking member in Embodiment 2 of this invention. It is a perspective view which shows roughly the grip part in Embodiment 3 of this invention. It is a figure which shows the experimental result of Example 1. FIG. 4 is a view showing a state of a modal test of Example 2. It is a figure which shows the relationship between the vibration position of Example 2, and a holding position. It is a figure which shows the peak frequency of FIG. It is a figure which shows the mode of experiment of Example 3. FIG. It is a figure which shows the experimental result of the experiment 3. FIG. It is a figure which shows the result of isolate | separating the vibration component of FIG. It is a figure which shows the mode of the experiment of experiment 4. FIG. It is a figure which shows the experimental result of the experiment 4. FIG. It is a figure which shows the experimental result of Experiment 5.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following drawings, the same or corresponding parts are denoted by the same reference numerals, and the description thereof will not be repeated.

(Embodiment 1)
With reference to FIGS. 1-7, the structure of the glove 1 in Embodiment 1 of this invention is demonstrated.

  As shown in FIG. 1, the glove 1 in the present embodiment is a pair of gloves to be worn on both hands of a wearer holding the striking member 2. In FIG. 1, a baseball bat is illustrated as the striking member 2, and a baseball glove is illustrated as the glove 1. This baseball bat includes a softball bat. The gloves 1 are not limited to baseball gloves, and may be sports gloves such as golf gloves. The glove 1 is a right batter glove.

  The glove 1 includes a first glove 1A and a second glove 1B. The first glove 1A is configured to receive one hand 101 of the wearer's hands. One hand 101 of the wearer is located on the base 21 side of the striking member 2. Here, the one hand 101 is a left hand, and the first glove 1A is a left hand glove worn on the left hand. The 2nd glove 1B is comprised so that the other hand 102 on the opposite side to one hand 101 among the wearer's both hands can be received. The other hand 102 of the wearer is located closer to the tip 22 side of the striking member 2 than the one hand 101. Here, the other hand 102 is a right hand, and the second glove 1B is a right hand glove worn on the right hand. In the present invention, in the striking member 2, the side that strikes the striking object is referred to as “tip side”, and the end side that is different from the side that strikes the striking object is referred to as “root side”.

  2-7, 1st glove 1A and 2nd glove 1B are each provided with the palm part which covers a wearer's palm, and the back part which covers the back of the hand located in the other side of a palm part. . Moreover, the 1st glove 1A and the 2nd glove 1B are each provided with each finger | toe part corresponding to each finger | toe of a wearer's one hand.

  Specifically, as shown in FIGS. 2 and 3, the first glove 1A includes a first palm portion 13A, a first back portion 14A, a first thumb portion 15A1 (thumb portion), and a first index finger. Part 15A2, 1st middle finger part 15A3, 1st ring finger part 15A4, and 1st little finger part 15A5 are included. The first palm portion 13A is configured to accept the palm 101A of one hand 101 shown in FIG. The first palm part 13A includes a little ball part 13A1 and a thumb ball part 13A2. The little ball part 13A1 is configured to cover the little ball of one hand 101. The thumb ball portion 13A2 is configured to cover the thumb ball of one hand 101. 14 A of 1st back parts are comprised so that the back of the hand of one hand 101 can be received.

  The first thumb part 15A1, the first index finger part 15A2, the first middle finger part 15A3, the first ring finger part 15A4 and the first little finger part 15A5 are the thumb 101B1, index finger 101B2, middle finger 101B3 of one hand 101 shown in FIG. Each of the ring finger 101B4 and the little finger 101B5 can be received. The first thumb part 15A1, the first index finger part 15A2, the first middle finger part 15A3, the first ring finger part 15A4 and the first little finger part 15A5 are the thumb 101B1, the index finger 101B2, the middle finger 101B3, the ring finger 101B4 and the little finger 101B5 respectively. It is configured to accommodate. The first thumb portion 15A1, the first index finger portion 15A2, the first middle finger portion 15A3, the first ring finger portion 15A4, and the first little finger portion 15A5 are independent of each other.

  As shown in FIGS. 4 and 5, the second glove 1B includes a second palm part 13B, a second back part 14B, a second thumb part 15B1, a second index finger part 15B2, and a second middle finger. Part 15B3, second ring finger part 15B4, and second little finger part 15B5. The second palm portion 13B is configured to accept the palm 102A of the other hand 102 shown in FIG. The second back portion 14B is configured to receive the back of the other hand 102.

  The second thumb part 15B1, the second index finger part 15B2, the second middle finger part 15B3, the second ring finger part 15B4, and the second little finger part 15B5 are the thumb 102B1, index finger 102B2, middle finger 102B3 of the other hand 102 shown in FIG. Each of the ring finger 102B4 and the little finger 102B5 can be received. The second thumb part 15B1, the second index finger part 15B2, the second middle finger part 15B3, the second ring finger part 15B4, and the second little finger part 15B5 are respectively the thumb 102B1, the index finger 102B2, the middle finger 102B3, the ring finger 102B4, and the little finger 102B5. It is configured to accommodate. The second thumb portion 15B1, the second index finger portion 15B2, the second middle finger portion 15B3, the second ring finger portion 15B4, and the second little finger portion 15B5 are independent of each other.

  As shown in FIG. 2, the first glove 1 </ b> A includes a first buffer member 11 arranged on the palm side of one hand 101. As shown in FIG. 4, the second glove 1 </ b> B includes a second buffer member 12 disposed on the palm side of the other hand 102.

  As shown in FIGS. 2 and 4, the first buffer member 11 is made of a material that reduces a low-frequency vibration component when the striking member 2 vibrates more than the second buffer member 12. The second buffer member 12 is made of a material that reduces a high-frequency vibration component when the striking member 2 vibrates more than the first buffer member 11. In the present embodiment, the first buffer member 11 is a silicone gel, and the second buffer member 12 is natural rubber. For example, silicone gel has an Asker C hardness of 36 and natural rubber has an Asker C hardness of 72. These Asker C hardnesses are measured values using an Asker C hardness meter and are surface hardnesses. Each thickness of the 1st buffer member 11 and the 2nd buffer member 12 is 0.5 mm or more and 5 mm or less, for example.

  Each of the first buffer member 11 and the second buffer member 12 is disposed on, for example, a member on the surface of the first glove 1A and the second glove 1B (an outer skin made of natural leather or artificial leather). The outer peripheral part of the cover member covered on each of the second buffer members 12 is sewn to the surface members of the first glove 1A and the second glove 1B, whereby the surface members of the first glove 1A and the second glove 1B are sewn. It is fixed. Moreover, you may arrange | position the 1st buffer member 11 and the 2nd buffer member 12 directly as a member of the surface of the 1st glove 1A and the 2nd glove 1B. For example, the first buffer member 11 and the second buffer member 12 may be sewn or bonded so as to be adjacent to the outer skin of the first glove 1A and the second glove 1B.

  The first buffer member 11 and the second buffer member 12 may be disposed so as to cover at least the region located on the striking surface side of the striking member 2 and the region located on the counter electrode thereof at the time of striking. Then, the preferable arrangement | positioning of the 1st buffer member 11 and the 2nd buffer member 12 in this Embodiment is demonstrated.

  As shown in FIG. 2, the first buffer member 11 is disposed across the first palm 13A to the first index finger 15A2, the first middle finger 15A3, the first ring finger 15A4, and the first little finger 15A5. Has been. That is, the first buffer member 11 is disposed at the boundary between the first palm portion 13A and the first index finger portion 15A2, the first middle finger portion 15A3, the first ring finger portion 15A4, and the first little finger portion 15A5. For example, the first cushioning member 11 has a range that covers the length from the base of each finger to the second interphalangeal joint of each finger and a length that is the same as the range that covers each finger from the base of each finger. It is arranged in the range covered on the palm side. The first cushioning member 11 includes a first palm part of each of the first index finger part 15A2, the first middle finger part 15A3, the first ring finger part 15A4, and the first little finger part 15A5 from the tip of each finger side of the first palm part 13A. It arrange | positions to the base part by the side of 13A. The first buffer member 11 is disposed across the end portion on the first thumb portion 15A1 side from the end portion on the first thumb portion 15A1 side at the tip end portion on each finger side of the first palm portion 13A. For this reason, when the wearer wears the first glove 1 </ b> A and grips and strikes the striking member 2, the first buffer member 11 may be disposed at a position where the first glove 1 </ b> A strongly contacts the striking member 2. it can.

  The first buffer member 11 is not disposed at the center and the tip of each of the first index finger 15A2, the first middle finger 15A3, the first ring finger 15A4, and the first little finger 15A5. Therefore, when the wearer wears the first glove 1A and grips and strikes the striking member 2, the first index finger portion 15A2, the first middle finger portion 15A3, the first ring finger portion 15A4, and the first little finger portion 15A5. Easy to bend each of.

  The 1st buffer member 11 is not arrange | positioned at the base part of 13 A of 1st palm parts. For this reason, the wearer can easily wear the first glove 1 </ b> A in one hand 101. The first buffer member 11 is disposed across the little finger ball portion 13A1 to the first little finger portion 15A5. The first buffer member 11 is not arranged at the center of the first palm portion 13A except for the little finger ball portion 13A1 and the thumb ball portion 13A2. For this reason, a wearer tends to hold | grip the striking member 2 in the state which mounted | wore the 1st glove 1A. The first buffer member 11 is disposed on the first thumb portion 15A1. The first buffer member 11 is disposed from the root portion of the first thumb portion 15A1 on the first palm portion 13A side to the center portion. For this reason, when the wearer wears the first glove 1 </ b> A and grips and strikes the striking member 2, the first buffer member 11 can be disposed at a position where the first glove 1 </ b> A contacts the striking member 2. . The first buffer member 11 is not disposed at the tip of the first thumb portion 15A1. For this reason, when the wearer wears the first glove 1A and grips the striking member 2, the wearer can easily bend the first thumb portion 15A1.

  As shown in FIG. 4, the second buffer member 12 is disposed on the second palm portion 13 </ b> B. The 2nd buffer member 12 is not arranged at the tip part by the side of each finger of the 2nd palm part 13B. For this reason, a wearer tends to hold | grip the striking member 2 in the state which mounted | wore the 2nd glove 1B. The second buffer member 12 is disposed at the center of the second palm portion 13B. The second cushioning member 12 is disposed across the end on the second thumb 15B1 side from the end on the second thumb 15B1 side in the center of the second palm 13B. The second buffer member 12 is arranged so that the width increases from the second thumb portion 15B1 side toward the second pinkie portion 15B5 side. For this reason, when the wearer wears the second glove 1B and grips and strikes the striking member 2, the second buffer member 12 can be disposed at a position where the second glove 1B strongly contacts the striking member 2. it can. The second buffer member 12 is not disposed on the base side of the second palm portion 13B. For this reason, the wearer can easily wear the second glove 1 </ b> B in one hand 101.

  The second buffer member 12 is disposed on the second index finger portion 15B2, the second middle finger portion 15B3, the second ring finger portion 15B4, and the second little finger portion 15B5, respectively. The second cushioning member 12 is disposed from the root portion on the second palm portion 13B side to the center portion of the second index finger portion 15B2, the second middle finger portion 15B3, the second ring finger portion 15B4, and the second little finger portion 15B5. ing. For this reason, when the wearer wears the second glove 1B and grips and strikes the striking member 2, the second buffer member 12 can be disposed at a position where the second glove 1B contacts the striking member 2. . The second buffer member 12 is not disposed at the tip of each of the second index finger portion 15B2, the second middle finger portion 15B3, the second ring finger portion 15B4, and the second little finger portion 15B5. Therefore, when the wearer wears the second glove 1B and grips the striking member 2, the wearer holds the second index finger 15B2, the second middle finger 15B3, the second ring finger 15B4, and the second little finger 15B5. Easy to bend. The second buffer member 12 is not disposed on the second thumb portion 15B1. For this reason, when the wearer wears the second glove 1B and grips the striking member 2, the wearer can easily bend the second thumb portion 15B1.

  With reference to FIG. 2 and FIG. 6, the arrangement of the first buffer member 11 will be described using correspondence with the bone of the left hand of the wearer. FIG. 6 shows the appearance and skeleton of the left hand when the left hand of the wearer is viewed from the palm side. For convenience of explanation, the position of the first buffer member 11 is shown by a solid line in FIG.

  As shown in FIG. 6, in each of the index finger 101B2, the middle finger 101B3, the ring finger 101B4, and the little finger 101B5, the distal phalanx 111, the middle phalanx 112, the proximal phalanx 113, and the metacarpal bone 114 are arranged in order from the fingertip side. Yes. The distal phalanx 111 and the middle phalanx 112 are connected to each other via a distal interphalangeal joint 121. The middle phalanx 112 and the proximal phalanx 113 are connected via a proximal interphalangeal joint 122. The proximal phalanx 113 and the metacarpal bone 114 are connected via a metacarpophalangeal joint 123. A bulging portion 114 </ b> A is disposed at an end portion of the metacarpal bone 114 on the proximal phalanx 113 side. In the thumb 101B1, a distal phalanx 111, a proximal phalanx 113, and a metacarpal bone 114 are arranged in order from the fingertip side. In the thumb 101B1, the distal phalanx 111 and the proximal phalanx 113 are connected via the first interphalangeal joint 124, and the proximal phalange 113 and the metacarpal bone 114 are connected via the metacarpal joint 123. Has been.

  The first buffer member 11 has a distal end portion (bulging portion 114A) on the proximal phalange 113 side of the metacarpal bone 114 of each finger of the index finger 101B2, the middle finger 101B3, the ring finger 101B4, and the little finger 101B5 on the palm side of the left hand of the wearer. To the root portion on the metacarpal bone 114 side of the proximal phalanx 113 via the metacarpophalangeal joint 123 of each finger. The first buffer member 11 is disposed across the distal end portion (bulging portion 114A) of the metacarpal bone 114 of the index finger 101B2, middle finger 101B3, ring finger 101B4, and little finger 101B5 on the proximal phalanx 113 side. . The first buffer member 11 includes a distal end portion of the index finger 101B2, a middle finger 101B3, a ring finger 101B4, and a little finger 101B5 on the side opposite to the middle phalanx 112 from the distal end portion of the proximal phalanx 113 to the middle phalanx 112 side. It is not arranged until. The first buffer member 11 is disposed between the distal end portion (bulging portion 114A) of the metacarpal bone 114 of the index finger 101B2, middle finger 101B3, and ring finger 101B4 on the proximal phalanx 113 side and the carpal bone 130. Not. Further, the first buffer member 11 is not disposed on the carpal bone 130 except for the thumb 101B1. The first cushioning member 11 is disposed so as to straddle the root portion on the metacarpal bone 114 side of the proximal phalanx 113 from the root portion on the carpal bone 130 side of the metacarpal bone 114 of the little finger 101B5. The first buffer member 11 is disposed along the metacarpal bone 114 of the little finger 101B5. In addition, the first buffer member 11 is disposed to extend from the carpal bone 130 of the thumb 101B1 to the proximal phalanx 113 on the side of the distal phalanx 111 via the metacarpal bone 114 and the metacarpophalangeal joint 123.

  With reference to FIG. 4 and FIG. 7, the arrangement of the second buffer member 12 will be described using correspondence with the bone of the wearer's right hand. FIG. 7 shows the appearance and skeleton of the right hand when the wearer's right hand is viewed from the palm side. For convenience of explanation, the position of the second buffer member 12 is shown by a solid line in FIG.

  As shown in FIG. 7, the second buffer member 12 is disposed across the central portion of the metacarpal bone 114 of each finger of the index finger 102B2, the middle finger 102B3, the ring finger 102B4, and the little finger 102B5.

  The second cushioning member 12 is not disposed at the distal end portion of the metacarpal bone 114 of the middle finger bone 114 of the index finger 102B2, middle finger 102B3, ring finger 102B4, and little finger 102B5 on the palmar side of the right hand of the wearer. . The second cushioning member 12 is not disposed at the root portion on the carpal bone 130 side of the metacarpal bone 114 of each finger of the index finger 102B2, the middle finger 102B3, the ring finger 102B4, and the little finger 102B5. Further, the second buffer member 12 is not disposed on the carpal bone 130. The second cushioning member 12 is formed from the root of the proximal phalange 113 of each finger of the index finger 102B2, middle finger 102B3, ring finger 102B4, and little finger 102B5 through the proximal interphalangeal joint 122 of each finger. The phalanx 112 is disposed across the root portion of the proximal phalanx 113 side. The second cushioning member 12 extends from the distal end of the middle phalanx 112 of each finger of the index finger 102B2, middle finger 102B3, ring finger 102B4, and little finger 102B5 to the distal end of the distal phalanx 111 opposite to the middle phalanx 112. Is not arranged. Further, the second buffer member 12 is not disposed on the thumb 101B1.

  In the above, the first thumb part 15A1, the first index finger part 15A2, the first middle finger part 15A3, the first ring finger part 15A4 and the first little finger part 15A5 are the thumb 101B1, the index finger 101B2, the middle finger 101B3, the ring finger 101B4 and the little finger 101B5, respectively. The case where it is comprised so that the whole may be accommodated was demonstrated. However, the first thumb part 15A1, the first index finger part 15A2, the first middle finger part 15A3, the first ring finger part 15A4 and the first little finger part 15A5 are the thumb 101B1, the index finger 101B2, the middle finger 101B3, the ring finger 101B4 and the little finger 101B5, respectively. It is sufficient that at least the root portion is accommodated.

  Moreover, although the case where the glove 1 was a glove for right batters was demonstrated above, the glove 1 may be a glove for left batters. In the case where the glove 1 is a left batter glove, the left and right gloves are opposite to the right batter glove. That is, since the wearer's right hand is one hand 101 and the left hand is the other hand 102, the glove worn on the right hand is the first glove 1A and the glove worn on the left hand is the second glove 1B.

Next, the effect of the glove 1 in this Embodiment is demonstrated.
The inventors have found that the feeling of numbness differs depending on the striking position at the time of striking and the left and right hands holding the striking member. Specifically, when the hitting point position at the time of hitting is located closer to the tip 22 side than the hitting core of the hitting member 2, the batter easily feels numbness in the hand located at the base 21 side, and the hitting point position at the time of hitting is the hitting member 2 The inventors found that the batter easily feels numbness in the hand located on the tip 22 side when located closer to the root 21 side than the hitting core. When the striking point position at the time of striking is located on the tip 22 side of the striking member 2, the low frequency vibration component becomes large on the base 21 side, and when the striking point position at the time of striking is located on the base 21 side of the striking member 2, the tip 22. The inventors have found that the high frequency component increases on the side.

  According to the glove 1 of the present embodiment, when the striking point position at the time of striking is located closer to the tip 22 side than the striking core of the striking member 2, the first buffer member 11 reduces the low frequency vibration component on the base 21 side. Can do. Further, when the striking position at the time of striking is located closer to the root side than the striking core of the striking member 2, the high-frequency component on the tip 22 side can be reduced by the second buffer member 12. Therefore, it is possible to reduce numbness felt by the batter (wearer) at the time of hitting.

  In the glove 1 of the present embodiment, the striking member 2 is rotated by an impact at the time of striking when the striking point position at the time of striking is located closer to the tip 22 side than the striking position of the striking member 2, or the striking member is caused by vibration. One hand 101 is pressed by bending. At this time, the positions extending from the first palm 13A to the first index finger 15A2, the first middle finger 15A3, the first ring finger 15A4, and the first little finger 15A5 are strongly pressed. Since the first buffer member 11 is disposed at these positions, the low-frequency vibration component on the root 21 side can be effectively reduced by the first buffer member 11. Further, when the striking point position at the time of striking is positioned closer to the root 21 side than the striking position of the striking member 2, the second palm portion 13B of the other hand 102 is pushed by the striking member 2 by the impact at the time of striking. Since the second buffer member 12 is disposed in the second palm portion 13B, the high-frequency component on the tip 22 side can be effectively reduced by the second buffer member 12.

  In the glove 1 of the present embodiment, the striking member 2 is rotated by an impact at the time of striking when the striking point position at the time of striking is located closer to the tip 22 side than the hitting core of the striking member 2, or the striking member is caused by vibration. By bending, the first thumb portion 15A1 and the little finger ball portion 13A1 of one hand 101 are pressed. Since the 1st buffer member 11 is arrange | positioned at 1st thumb part 15A1, and is arrange | positioned ranging from the little finger ball part 13A1 to the 1st little finger part 15A5, the low frequency vibration component by the side of the base 21 is made into the 1st buffer member. 11 can be further effectively reduced. Further, when the striking point position at the time of striking is located closer to the base side than the hitting core of the striking member 2, the second index finger portion 15B2, the second middle finger portion 15B3, Each of the second ring finger portion 15B4 and the second little finger portion 15B5 is pushed in. At this time, since the second buffer member 12 is disposed on the second index finger part 15B2, the second middle finger part 15B3, the second ring finger part 15B4, and the second little finger part 15B5, the high-frequency component on the tip 22 side is second buffered. It can reduce more effectively by the member 12.

  In the glove 1 of the present embodiment, the first buffer member 11 is a gel, specifically a silicone gel. The second buffer member 12 is rubber, specifically, natural rubber. For this reason, the low frequency vibration component on the root 21 side can be reduced by the silicone gel, and the high frequency component on the tip 22 side can be reduced by natural rubber. As the gel of the first buffer member 11, urethane gel, styrene gel, acrylic gel, or the like can be used in addition to silicone gel. As the rubber of the second buffer member 12, in addition to natural rubber, isoprene rubber, butadiene rubber, acrylic rubber, silicone rubber, urethane rubber, styrene-butadiene rubber, or the like can be used.

(Embodiment 2)
With reference to FIGS. 8-12, the structure of the striking member 2 in Embodiment 2 of this invention is demonstrated.

  In FIG. 8, a baseball bat is illustrated as the striking member 2 of the present embodiment. The baseball bat can be made of any material such as metal, wood, or CFRP (Carbon Fiber Reinforced Plastic). The baseball bat includes a softball bat.

  The baseball bat as the striking member 2 in the present embodiment includes a main body member 20 and a grip member 30. The main body member 20 includes a root 21, a tip 22, a grip part 23, a taper part 24, and a hitting ball part 25. The material of the main body member 20 is, for example, an aluminum alloy.

  The grip part 23 is a part to which the grip member 30 is attached. The gripping part 23 is provided on the opposite side of the hitting ball part 25 with respect to the taper part 24. The grip part 23 is configured in a cylindrical shape. The grip member 30 is configured to cover the outer peripheral surface of the grip portion 23.

  The grip member 30 is attached to the main body member 20. The grip member 30 is a member that is gripped by both hands of the batter. The grip member 30 includes a first buffer member 31 and a second buffer member 32. The grip member 30 may be composed of a first buffer member 31 and a second buffer member 32. In addition to the first buffer member 31 and the second buffer member 32, the grip member 30 may have an exterior member that covers the surfaces of the first buffer member 31 and the second buffer member 32.

  The first buffer member 31 is disposed on the base 21 side of the main body member 20. The second buffer member 32 is disposed closer to the distal end 22 side of the main body member 20 than the first buffer member 31. The first buffer member 31 is made of a material that reduces a low-frequency vibration component when the main body member 20 vibrates more than the second buffer member 32. The second buffer member 32 is made of a material that reduces a high-frequency vibration component when the main body member 20 vibrates more than the first buffer member 31. In the present embodiment, the first buffer member 31 is a silicone gel, and the second buffer member 32 is natural rubber. For example, silicone gel has an Asker C hardness of 36 and natural rubber has an Asker C hardness of 72. These Asker C hardnesses are measured values using an Asker C hardness meter and are surface hardnesses.

  As shown in FIG. 9, the first buffer member 31 covers the entire outer peripheral surface of the grip portion 23 of the main body member 20. As shown in FIG. 10, the second buffer member 32 covers the outer peripheral surface of the grip portion 23 of the main body member 20 over the entire circumference.

  As shown in FIGS. 8, 11, and 12, the grip member 30 may be configured by winding the grip tape 33 around the grip portion 23. In this case, the grip tape 33 includes a first exterior member 33 a that covers the first buffer member 31 and a second exterior member 33 b that covers the surface of the second buffer member 32. That is, the grip tape 33 includes the first buffer member 31 and the second buffer member 32. In the grip tape 33, a portion including the first buffer member 31 and a portion including the second buffer member 32 are separated. Note that the grip tape 33 may be configured such that a portion including the first buffer member 31 and a portion including the second buffer member 32 are integrally formed.

Next, the effect of the striking member 2 in this Embodiment is demonstrated.
According to the striking member 2 of the present embodiment, the low-frequency vibration component on the base 21 side is reduced by the first buffer member 31 when the striking position at the time of striking is located on the tip 22 side of the striking core of the striking member 2. be able to. Further, when the striking position at the time of striking is located closer to the root 21 than the striking core of the striking member 2, the high frequency component on the tip 22 side can be reduced by the second buffer member 32. Accordingly, it is possible to reduce numbness felt by the batter at the time of hitting.

  In the striking member 2 of the present embodiment, the first buffer member 31 is silicone gel, and the second buffer member 32 is natural rubber. For this reason, the low frequency vibration component on the root 21 side can be reduced by the silicone gel, and the high frequency component on the tip side can be reduced by natural rubber.

(Embodiment 3)
With reference to FIGS. 13-14, the structure of the striking member 2 in Embodiment 3 of this invention is demonstrated.

In FIG. 13, a golf club is illustrated as the striking member 2 of the present embodiment.
As shown in FIG. 13, the golf club as the hitting member 2 in the present embodiment includes a grip portion 23, a shaft 26, a head 27, and a grip member 30. The grip portion 23, the shaft 26 and the head 27 constitute the main body member 20. A grip member 30 is attached to a grip portion 23 disposed on the base 21 side of the shaft 26. A head 27 is attached to the tip of the shaft 26. The grip member 30 includes a first buffer member 31 and a second buffer member 32 similar to the above.

  With reference to FIG. 14, the structure of the grip member 30 in Embodiment 3 of this invention is demonstrated.

  With reference to FIG. 14, the grip member 30 in this Embodiment is the grip member 30 attached to the main body member 20 of the striking member 2 as shown in FIG. The grip member 30 penetrates the first opening 30a disposed on the base side of the main body member 20, the second opening 30b disposed on the front end side of the main body member 20, and the first opening 30a and the second opening 30b. And a hole 30c. The grip portion 23 of the main body member 20 of the striking member 2 is inserted into the through hole 30c.

  The grip member 30 includes a first buffer member 31 and a second buffer member 32. The first buffer member 31 is disposed on the base side of the main body member 20. The second buffer member 32 is disposed closer to the distal end side of the main body member 20 than the first buffer member 31. The first buffer member 31 is made of a material that reduces a low-frequency vibration component when the main body member 20 vibrates more than the second buffer member 32. The second buffer member 32 is made of a material that reduces a high-frequency vibration component when the main body member 20 vibrates more than the first buffer member 31. The first buffer member 31 is a silicone gel, and the second buffer member is natural rubber. For example, silicone gel has an Asker C hardness of 36 and natural rubber has an Asker C hardness of 72. These Asker C hardnesses are measured values using an Asker C hardness meter and are surface hardnesses.

Next, the effect of the grip member 30 in this Embodiment is demonstrated.
According to the grip member 30 of the present embodiment, the low-frequency vibration component on the base 21 side is reduced by the first buffer member 31 when the striking point position at the time of striking is located closer to the tip 22 side than the striking core of the striking member 2. be able to. Further, when the striking position at the time of striking is located closer to the root 21 than the striking core of the striking member 2, the high frequency component on the tip 22 side can be reduced by the second buffer member 32. Accordingly, it is possible to reduce numbness felt by the batter at the time of hitting.

  In the grip member 30 of the present embodiment, the first buffer member 31 is silicone gel, and the second buffer member 32 is natural rubber. For this reason, the low frequency vibration component on the root 21 side can be reduced by the silicone gel, and the high frequency component on the tip 22 side can be reduced by natural rubber.

  Examples of the present invention will be described below. In constructing the glove, striking member, and grip member according to the present invention, the following experiment was conducted.

(Experiment 1)
The numbness felt by the batter when the ball was removed from the base of the baseball bat at the time of hitting was evaluated. Specifically, a baseball bat was prepared in which the base of the baseball bat was 700 mm from the base of the baseball bat. Whether the batter felt numbness with his left or right hand when hitting the baseball bat (800mm from the base of the baseball bat) and the base (600mm from the base of the baseball bat) Evaluated. The results of experiments with 11 subjects were evaluated.

  Referring to FIG. 15, when the striking position is the tip side of the baseball bat (the striking position is a position 800 mm from the base of the baseball bat), the gripping position is numb at the bottom (the base side of the baseball bat). The number of subjects who felt numb was larger than the number of subjects who felt numbness in the upper gripping position (the position on the tip side of the baseball bat). In addition, when the hit point position is the base side of the baseball bat (the hit point position is 600 mm from the base of the baseball bat), the number of subjects who feel numbness at the upper part (the position of the base end of the baseball bat) , The gripping position was higher than the number of subjects who felt numbness in the lower part (position on the base side of the baseball bat). When the hit point position is the base of the baseball bat (the hit point position is 700 mm), the number of subjects who feel numbness is two at both the upper and lower gripping positions, and less than 20% of the total ( 2/11).

  As a result, it was confirmed that the batter often feels numbness in the hand when the hit position is off the base of the baseball bat compared to the base of the baseball bat. . And it turned out that the test subject's feeling of numbness changes with a hit point position and a holding position. The subject is likely to feel numbness with the lower gripping position at the tip of the baseball bat hitting position, and the subject is the upper gripping position at the base of the baseball bat hitting position. I found that it was easy to feel numbness. As a result, the inventors have obtained the idea of reducing the numbness felt by the subject by using a configuration having different characteristics depending on the position of the hand at the gripping position.

(Experiment 2)
In order to examine the factors affecting the numbness felt by the subject, the inherent vibration of the baseball bat used in Experiment 1 was measured. Specifically, a modal test was conducted to measure the inherent vibration of this baseball bat. Referring to FIG. 16, in this modal test, the baseball bat was hung with a rubber string connected to the grip end of the baseball bat assuming a free support state. An accelerometer was attached at a position of 50 mm and 150 mm from the grip end of the baseball bat. The positions 800 mm and 600 mm from the grip end of the baseball bat were vibrated with an impact hammer, and the vibration was measured with an accelerometer. That is, the vibration position was set at 800 mm and 600 mm from the base of the baseball bat. Moreover, the vibration measurement position (gripping position) was 50 mm and 150 mm from the base of the baseball bat. In addition, the position of 50 mm from the base of the baseball bat assumes the central part of the palm on the base side, and the position of 150 mm assumes the central part of the palm on the tip side.

  FIG. 17 shows a frequency response function for each excitation position and vibration measurement position. FIG. 18 shows peak values of frequency response functions of the primary vibration and the secondary vibration. Referring to FIGS. 17 and 18, when the excitation position is 800 mm from the base of the baseball bat (the front end side of the baseball bat), the gripping position is 50 mm from the base of the baseball bat (lower part). The peak value P1 of the frequency response function of the bending primary vibration in the curve was larger than the peak value of the frequency response function of the bending primary vibration when the gripping position was 150 mm from the base of the baseball bat (upper part). When the excitation position is 600 mm from the base of the baseball bat (base of the baseball bat), the frequency response function of the bending secondary vibration when the gripping position is 150 mm from the base of the baseball bat (upper part) The peak value P2 of was larger than the peak value of the frequency response function of the bending secondary vibration at the gripping position 50 mm from the base of the baseball bat (lower part).

  As a result, the sensory evaluation in Experiment 1 (the subject is likely to feel numbness with the hand at the lower end of the baseball bat and the gripping position is the upper hand at the base of the baseball bat) The inventors have found that the sensory evaluation that the subject easily feels numbness) corresponds to the peak values of the frequency response functions of the primary vibration and the secondary vibration.

(Experiment 3)
The inventors evaluated the relationship between the hitting position and the vibration of the gripping position when the ball collided with the baseball bat by a collision test. Specifically, the behavior of the baseball bat when the ball collides with the baseball bat is photographed with a high-speed camera (high-speed camera), and the inventors etc. show the relationship between the hit ball position and the vibration of the gripping position. evaluated.

  Referring to FIG. 19, the baseball bat was hung with an elastic string connected to the grip end of the baseball bat. A ball (leather softball) injected at a speed of 135 km / h was collided at a position 600 mm from the grip end of the baseball bat. In addition, the ball was similarly collided at a position 800 mm from the grip end of the baseball bat. The behavior of the baseball bat was photographed at 40000 fps using a high-speed camera. The marker pasted at intervals of 25 mm in the longitudinal direction of the baseball bat was tracked to measure the deformation behavior of the baseball bat.

  FIG. 20 shows the integrated movement amount of the gripping position for each gripping position (upper and lower) during the contact time between the baseball bat and the ball. Referring to FIG. 20, sensory evaluation in Experiment 1 (the subject is likely to feel numbness with the hand at the lower end of the baseball bat and the gripping position is at the base of the baseball bat, and the gripping position is at the base of the baseball bat. It was found that the sensory evaluation that the subject easily feels numbness with the upper hand) corresponds to the accumulated movement amount of the gripping position.

  FIG. 21 shows the result of separating the vibration components of FIG. Referring to FIG. 21, the secondary component of the base position of the baseball bat (the base position of the baseball bat is 600 mm from the base of the baseball bat) and the gripping position is 150 mm (upper) from the base of the baseball bat. It was found that the influence of (high frequency component) was great. In addition, when the striking position is the tip side of the baseball bat (the striking position is 800 mm from the base of the baseball bat), the primary component (low frequency component) at the gripping position of 50 mm from the base of the baseball bat (lower part). It was found that the influence of

  From the above, in order to reduce the numbness felt by the batter, it is effective to reduce the low frequency component (primary, around 200 Hz) at the lower part of the gripping position, and the high frequency component (2 at the upper part of the gripping position). Next, the inventors have obtained the idea that it is effective to reduce the frequency around 750 Hz. This frequency band varies depending on the material and structure. For example, for metals, the primary is around 200 Hz, the secondary is around 750 Hz, FRP (Fiber Reinforced Plastic) is primary around 200 Hz, secondary is around 700 Hz, and wooden is primary. It is effective to reduce the vicinity of 150 Hz, the secondary is about 500 Hz, and for bamboo, the primary is about 125 Hz and the secondary is about 450 Hz.

(Experiment 4)
The inventors evaluated a material for reducing the vibration component by disposing it between the batter's hand and the striking member. Specifically, it was evaluated whether a plurality of different materials can be used as a buffer member to reduce vibration (lower the peak value of the frequency response function).

  At the time of hitting, passive pressure due to impact is applied to the batter's hand in addition to active pressure due to grasping the baseball bat. Therefore, since the actual condition cannot be realized by the single material test, a modal test was performed under the condition where pressure was applied in order to realize the actual condition. The conditions were as follows.

  Similar to Experiment 1, in this modal test, the baseball bat was hung with an elastic band connected to the grip end of the baseball bat. An accelerometer was attached at a position of 50 mm and 150 mm from the grip end of the baseball bat. The positions 800 mm and 600 mm from the grip end of the baseball bat were vibrated with an impact hammer, and the vibration was measured with an accelerometer.

Referring to FIG. 22, the shock absorbing material as a buffer member is arranged on the entire circumference of the grip of the baseball bat. An acceleration sensor was arranged on the outer peripheral surface of the shock absorbing material and sandwiched between the same materials as the shock absorbing material. In this state, the outer shock absorbing material was wrapped and fixed with a flat rubber. Using the elongation of the flat rubber, a pressure similar to the pressure (400 gf / cm ² ) generated in the batter's hand at the time of hitting was set in the center direction of the grip of the baseball bat.

  Measure the peak frequency of each vibration in the state where only the acceleration sensor is placed without placing the shock absorbing material, and in the state where each sample of EVA, rubber (natural rubber), and gel (silicone gel) is placed as the shock absorbing material. did. The thickness of these samples was 2 mm.

  Referring to FIG. 23, the primary vibration is reduced by 7.9 db and the secondary vibration is reduced by 3.4 db in the state where EVA is arranged, compared to the state where only the acceleration sensor is arranged without arranging the shock absorbing material. did. In the state where the gel (silicone gel) is arranged, the primary vibration is reduced by 21.3 db. Moreover, in the state where rubber (natural rubber) is arranged, the secondary vibration is reduced by 20.6 db. Therefore, it was found that the primary vibration can be effectively reduced by disposing a gel (silicone gel) as the buffer member. Further, it was found that secondary vibration can be effectively reduced by arranging rubber (natural rubber) as a buffer member.

(Experiment 5)
Based on Experiment 3, the inventors conducted a sensory test by actual hitting. Specifically, the sample as a shock absorbing material having a thickness of 2 mm is placed between the subject's hand and the baseball bat, and numbness at the upper part of the gripping position when the baseball bat is hit at the base side and baseball The numbness at the lower part of the gripping position when the ball was hit on the tip side of the bat was evaluated.

  When the numbness in the state where no shock absorbing material is arranged is set to 10 in 10 steps, the numbness in the state where each sample is arranged was evaluated in 10 steps. The results of experiments with four subjects were evaluated.

  FIG. 24 shows the average value of the evaluation results. As shown in FIG. 24, in the upper part of the gripping position when the baseball bat is hit at the base side, the state in which shock absorbing material is not disposed, EVA, rubber (natural rubber), and gel (silicone gel) are in this order. The average value of evaluation became small. Also, in the lower part of the gripping position when the ball is hit on the tip side of the baseball bat, no shock absorbing material is disposed, EVA (Ethylene-Vinyl Acetate), gel (silicone gel), rubber The average value of numbness evaluation decreased in the order of (natural rubber).

  The evaluation result of the upper part of the gripping position corresponds to the peak value of the bending secondary vibration in Experiment 3, and the evaluation result of the lower part of the gripping position corresponds to the peak value of the bending primary vibration. The inventors confirmed that the results agree with the experimental results in Experiment 3. Therefore, it has been found that numbness can be most reduced by disposing gel (silicone gel) as a buffer member at the lower part of the gripping position and rubber (natural rubber) as the buffer member at the upper part of the gripping position. Therefore, it was found that numbness can be further reduced by using different materials for the left and right hands.

  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.

  DESCRIPTION OF SYMBOLS 1 glove, 2 striking member, 1A 1st glove, 1B 2nd glove, 11 1st buffer member, 12 2nd buffer member, 13A 1st palm part, 13A1 little finger ball part, 13B 2nd palm part, 14A 1st back Part, 14B second back part, 15A1 first thumb part, 15A2 first index finger part, 15A3 first middle finger part, 15A4 first ring finger part, 15A5 first little finger part, 15B1 second thumb part, 15B2 second index finger part, 15B3 2nd middle finger part, 15B4 2nd ring finger part, 15B5 2nd pinky part, 20 body member, 21 root, 22 tip, 23 gripping part, 24 taper part, 25 hitting part, 26 shaft, 27 head, 30 grip member, 31 First buffer member, 32 Second buffer member, 33 Grip tape, 101 One hand, 102 The other hand, 111 End phalanx, 112 Middle phalanx, 1 3 group phalanx, 114 metacarpal, 114A bulging portion 121 distal interphalangeal joint, 122 proximal interphalangeal joint, 123 metacarpophalangeal joint 124 first interphalangeal joint, 130 carpal.

Claims (8)

A pair of gloves worn on both hands of the wearer holding the striking member,
A first glove that can receive one hand of the wearer located on the base side of the striking member;
A second glove capable of receiving the other hand of the wearer located on the tip side of the striking member than the one hand;
The first glove includes a first cushioning member disposed on the palm side of the one hand,
The second glove includes a second cushioning member disposed on the palm side of the other hand,
The first buffer member is made of a material that reduces a low-frequency vibration component when the striking member vibrates more than the second buffer member,
The second buffer member is a glove made of a material that reduces a high-frequency vibration component when the striking member vibrates more than the first buffer member. The first glove is
A first palm part capable of receiving the palm of the one hand;
Including the first index finger, the first middle finger, the first ring finger, and the first little finger that can receive the index finger, the middle finger, the ring finger, and the little finger, respectively, of the one hand;
The first buffer member is disposed across the first index finger part, the first middle finger part, the first ring finger part and the first little finger part from the first palm part,
The second glove includes a second palm part capable of receiving the palm of the other hand,
The glove according to claim 1, wherein the second buffer member is disposed on the second palm portion. The first glove includes a thumb portion that can receive a thumb of the one hand,
The first palm part includes a little ball part covering the little ball of the one hand,
The first buffer member is disposed on the thumb part, and is disposed across the little finger part from the little ball part,
The second glove includes a second index finger part, a second middle finger part, a second ring finger part, and a second little finger part that can receive the index finger, middle finger, ring finger, and little finger of the other hand,
3. The glove according to claim 2, wherein the second buffer member is disposed on each of the second index finger part, the second middle finger part, the second ring finger part, and the second pinky part. The first buffer member is a gel;
The glove according to any one of claims 1 to 3, wherein the second buffer member is rubber. A body member;
A grip member attached to the main body member,
The grip member is
A first buffer member disposed on the base side of the main body member;
A second buffer member disposed on the front end side of the main body member with respect to the first buffer member,
The first buffer member is made of a material that reduces a low-frequency vibration component when the main body member vibrates more than the second buffer member,
The said 2nd buffer member is a striking member comprised with the material which reduces the high frequency vibration component when the said main body member vibrates rather than the said 1st buffer member. The first buffer member is a gel;
The striking member according to claim 5, wherein the second buffer member is rubber. A grip member attached to the main body member of the striking member,
A first buffer member disposed on the base side of the main body member;
A second buffer member disposed closer to the distal end side of the main body member than the first buffer member;
The first buffer member is made of a material that reduces a low-frequency vibration component when the main body member vibrates more than the second buffer member,
The second buffer member is a grip member made of a material that reduces a high-frequency vibration component when the main body member vibrates more than the first buffer member. The first buffer member is a gel;
The grip member according to claim 7, wherein the second buffer member is rubber.

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