The present invention relates to a training guidance instrument and a training guidance method using the same.
Body trunk training equipment disclosed in PTL 1 has been known. The body trunk training equipment includes an equipment base part, a support column, a circle frame, a support member, and a sliding part.
The support column is provided upright on the equipment base part. The circle frame in a substantially semicircular arc shape is attached to the support column by the support member. The circle frame can be raised/lowered in the vertical direction along the support column.
The sliding part is attached to the circle frame in a slidable manner in the circumferential direction of the circle frame. The sliding part is provided with a grip part which extends in the inward direction of the circle frame. The sliding part is provided with a weight plate through a pivot part. The weight plate is rotatable around the pivot part.
The user of the body trunk training equipment stands on the equipment base part on the inner side of the circle frame and has the sliding part slide in the circumferential direction of the circular frame while gripping the grip part. Then, the momentum along the circle frame caused by the sliding operation of the sliding part is transmitted as rotation force to the pivot part, so that inertial force is generated at the weight plate which is supported by the pivot part. In this way, the inertial force allows the user to get motion for obtaining a load unpredictable for the user, so that various kinds of muscle training are enabled by the load applied on the user, and the user can efficiently train muscles such as around the body trunk in a desired state.
According to the disclosure of PTL 1, using the body trunk training equipment, training associated with batting, tennis racket swinging, and golf swinging can be carried out.
A training guidance method disclosed in PTL 2 has been known. According to the training guidance method, the user is guided to exercise while a plane-stimulating member is provided in a position corresponding to a functional skin area of at least one muscle selected from a group of muscles divided by the level of muscle tone in relation to exercise with an antigravity effect, so that the muscle tone of the muscle provided with the plane stimulating member is relaxed, and the muscle consciousness of a desired muscle is lowered.
A foot health orthosis disclosed in PTL 3 has been known. The foot health orthosis includes an elastic ring-shaped holder which can be mounted on each toe from the outside and a cushion part which is disposed in a part of the holder, is held on the back surface side of the toe in an externally mounted state and has a greater thickness than the holder. According to the disclosure of PTL 3, when the foot health orthosis is put on to a big toe or each of other toes so that the cushion part is in contact with the back surface of the toe, the toe is pushed up from the side of the ground through the cushion part during walking, then flexing force in a substantially obliquely upward acts upon the feet, which amplifies the kicking force by the toe tip, the toe muscles, the foot muscle group, and the leg muscle strength are trained effortlessly or stimulated, and the foot arch formation is accelerated or the arch formation can be prevented from being deteriorated, which may lead to improvement to splayfoot or a spread foot.
[PTL 1] JP 2013-031642 A
[PTL 2] JP 2003-293206 A
[PTL 3] JP 2015-178041 A
However, the muscles which can be trained by the body trunk training equipment disclosed in PTL 1 are only particular muscles of a human body used for example for batting, tennis racket swinging, and golf swinging. The muscles which can be trained by the training guidance method disclosed in PTL 2 are also only specific muscles of the muscles of a human body. Using the fool health orthosis disclosed in PTL 3, improvements are only limited to splayfoot or a spread foot. Therefore, according to these conventional methods, physical abilities inherent in a human body cannot be improved.
Therefore, according to an embodiment of the present invention, a training guidance instrument capable of improving the physical ability of a person is provided.
According to the embodiment of the present invention, a training guidance method using the training guidance instrument capable of improving the physical ability of a person is provided.
A training guidance instrument according to the embodiment of the present invention includes a presser part, a heel placing part, and a control unit. The presser part presses the second joint of a big toe and the third joints of a second toe, a third toe, a fourth toe, and a fifth toe of a trainee. The heel placing part is for placing a heel of the trainee thereon. The control unit is configured to move the heel placing part toward the ground in response to application of second force toward the ground by the trainee on the heel placing part which is stronger than first force applied upward from the ground on the heel placing part when the heel placing part is positioned above and away from the ground, and the control unit is configured to move the heel placing part upward from the ground in response to application of weaker force toward the ground than the second force by the trainee on the heel placing part when the heel placing part is positioned below its upward highest position from the ground, while the second joint and the third joints of the trainee are pressed by the presser part.
In the training guidance instrument, the control unit is configured to move the heel placing part toward the ground in response to application of the second force on the heel placing part when the heel placing part is positioned above and away from the ground, and the control unit is configured to move the heel placing part upward from the ground in response to application of weaker force toward the ground than the second force on the heel placing part, while the second joint and the third joints of the trainee are pressed by the presser part. As a result, the trainee moves up and down the heel of the trainee in the vertical direction in response to the movement of the heel placing part, while the second joint and the third joints of the trainee are pressed by the presser part.
The trainee carries out the exercise, so that a balance between the left and right sides and a balance between the front and back sides of the trainee improve, and force exerted by the trainee to press the heel placing part by the heel increases.
Therefore, the physical ability of the trainee can be improved.
The training guidance instrument preferably includes a rotary member. The rotary member is provided rotatably around an axis of a support member provided on the ground and having one end attached to the support member and the other end connected to the heel placing part. The control unit is configured to rotate the rotary member around the axis of the support member so that the other end of the rotary member moves toward the ground in response to application of the second force by the trainee on the heel placing part when the heel placing part is positioned above and away from the ground, and the control unit is configured to rotate the rotary member around the axis of the support member so that the other end of the rotary member moves upward in response to the weaker force toward the ground than the second force applied by the trainee on the heel placing part when the heel placing part is positioned below the highest position.
The heel placing part moves in the vertical direction as the rotary member rotate. As a result, the trainee can easily move up and down the heel while placing the heel on the heel placing part by applying the second force on the heel placing part or weakening the force applied to the heel placing part to be less than the second force.
Therefore, the physical ability of the trainee can be improved by the simple exercise.
The training guidance instrument preferably includes a toe inserting part. The toe inserting part is for separately inserting therein the big toe, the second toe, the third toe, the fourth toe, and the fifth toe of the trainee.
The heel of the trainee is moved up and down in the vertical direction while the second joint and the third joints of the toes of the trainee are pressed by the presser part and all the toes are inserted in the toe inserting part.
Therefore, the physical ability of the trainee can further be improved.
The control unit preferably has a force adjusting unit. The force adjusting unit is configured to adjust force to be applied on the heel placing part by the trainee in order to move the heel placing part toward the ground between first strength and second strength greater than the first strength.
Since the strength of force to be applied by the trainee on the heel placing part in order to move the heel placing part toward the ground can be adjusted by the force adjusting unit, the strength of force applied on the heel placing part by the heel of the trainee in order to have the heel placing part reach the ground can be measured. After and before the exercise of moving up and down the heel of the trainee, the strength of force is measured, so that it can easily be determined whether the physical ability of the trainee has improved.
According to the embodiment of the present invention, a training guidance method for instructing a trainee uses the training guidance instrument of any one of claims 1 to 4 and includes instructing a trainee to carry out, at least once for both feet, the operation of applying the second force on the heel placing part so that the heel placing part in a position above and away from the ground approaches the ground and the operation of weakening the force toward the ground applied on the heel placing part to be less than the second force as the heel placing part approaches the ground, while the second joint and the third joints of the toes of the trainee are pressed by the presser part and the heel of the trainee is in contact with the heel placing part.
In the training guidance method according to the embodiment of the present invention, using the training guidance instrument, the trainee is instructed to carry out, for both feet, the operation of moving the heel up and down in the vertical direction while the second joint and the third joints of the toes of the trainee are pressed by the presser part.
In this way, the trainee can learn to walk with all toes of both feet in contact with the ground, and for example a balance between the left and right sides and a balance between the front and back sides improve, the ability of the fingers improve, or the force exerted to press the heel placing part toward the ground becomes stronger.
Therefore, the physical ability of the trainee can be improved. The physical ability can be improved.
An embodiment of the present invention will be described in detail with reference to the drawings. Note that the same or corresponding portions in the drawings are designated by the same reference characters and their description will not be repeated.
Coordinates x, y, and z are defined in
The support member 202 is provided at a prescribed height from the ground between the base member 201 and the base members 203 and 204 in the x-axis direction.
The support member 205 is in a substantially arc-shape in an x-z plane and has one end connected to one end side of the support member 201 and the other end connected to one end side of the support member 202. The support member 206 is in a substantially arc shape in an x-z plane and has one end connected to one end side of the support member 202 and the other end connected to the base member 203. As a result, when connected, the support members 205 and 206 have a substantially arc shape as a whole through the support member 202 in an x-z plane.
The support member 207 is in a substantially arc shape in an x-z plane and has one end connected to the other end side of the support member 201 and the other end connected to the other end side of the support member 202. The support member 208 is in a substantially arc shape in an x-z plane and has one end connected to the other end side of the support member 202 and the other end connected to the base member 204. As a result, when connected, the support members 207 and 208 have a substantially arc shape as a whole through the support member 202 in an x-z plane.
The footrest member 209 has a presser part 2091 on one end side and a heel placing part 2092A on the other end. The heel placing part 2092A of the footrest member 209 is connected to one end of the rotary member 210.
The rotary member 210 has one end connected to the heel placing part 2092A of the footrest member 209 and the other end connected to one end of the support member 211.
The support member 211 has one end connected to the other end of the rotary member 210 and the other end connected to the rotary part 202A of the support member 202.
The support member 212 has a substantially L shape in an x-z plane. The support member 212 has one end connected to the rotary part 202A of the support member 202 and an end of the straight line part in the x-axis direction connected to one end of the telescopic member 219. In the case, the straight line parts of the support members 211 and 212 are connected to the rotary part 202A of the support member 202 so as to form a substantially straight line in an x-z plane.
The footrest member 213 has a presser part 2131 on one end side and a heel placing part 2132A on the other end. The heel placing part 2132A of the footrest member 213 is connected to one end of the rotary member 214.
The rotary member 214 has one end connected to the heel placing part 2132A of the footrest member 213 and the other end connected to one end of the support member 215.
The support member 215 has one end connected to the other end of the rotary member 214 and the other end connected to the rotary part 202B of the support member 202.
The support member 216 has a substantially L shape in an x-z plane. The support member 216 has one end connected to the rotary part 202B of the support member 202 and an end of the straight line part in the x-axis direction connected to one end of the telescopic member 220. In this case, the straight line parts of the support members 215 and 216 are connected to the rotary part 202B of the support member 202 so as to form a substantially straight line in an x-z plane.
The leg part 217 has one end connected to the base member 201 and the other end connected to the plate member 221.
The leg part 218 is provided at a prescribed distance from the leg part 217 in the y-axis direction and has one end connected to the base member 201 and the other end connected to the plate member 221.
The telescopic member 219 has one end connected to an end of the straight line part of the support member 212 and the other end side provided through the plate member 221 and connected to the plate member 221.
The telescopic member 220 has one end connected to an end of the straight line part of the support member 216 and the other end side provided through the plate member 221 and connected to the plate member 221.
The plate member 221 is connected to the other ends of the leg parts 217 and 218 and the other end side of the telescopic members 219 and 220.
The main body 2191 has a tubular shape which is hollow inside. The main body 2191 has one end fixed to the plate member 221. The pressure adjusting unit 2192 is connected to one end of the shaft member 2194 in a rotatable manner around the axis of the main body 2191.
The support member 2193 is substantially disk shaped and fixed to the inner wall of the main body 2191.
The shaft member 2194 in a rod shape is fitted to the support member 2193 to penetrate through the support member 2193 and penetrate the main body 2191 to be arranged through the through hole 221A of the plate member 221. The shaft member 2194 has one end connected to the pressure adjusting unit 2192 and the other end connected to the gate valve 2195. The axis of the shaft member 2194 coincides with the axis of the main body 2191.
The gate valve 2195 is provided in close contact with the inner wall of the main body 2191 and inside the main body 2191. The area between the gate valve 2195 and the inner wall of the main body 2191 is sealed so that air is not let in/out from the space 2191A. The gate valve 2195 moves in the z-axis direction as the shaft member 2194 rotates in the clockwise or anti-clockwise direction in an x-y plane.
The gate valve 2196 is provided in close contact with the inner wall of the main body 2191 and inside the main body 2191. The area between the gate valve 2196 and the inner wall of the main body 2191 is also sealed so that air is not let in/out from the space 2191A. The gate valve 2196 moves up and down in the z-axis direction as the support member 2197 moves up and down in the z-axis direction on the sheet surface of
The support member 2197 has one end connected to the gate valve 2196 and the other end connected an end of the straight line part of the support member 212.
The support member 2193 has a threaded part 2193A at the inner circumferential part thereof, and the shaft member 2194 has a threaded part 2194A at the outer circumferential surface thereof. The threaded part 2193A of the support member 2193 engages with the threaded part 2194A of the shaft member 2194.
As the pressure adjusting unit 2192 turns anti-clockwise in an x-y plane, the shaft member 2194 also turns anti-clockwise in an x-y plane. Then, the gate valve 2195 moves upwardly in the z-axis direction on the sheet surface of
As the pressure adjusting unit 2192 turns clockwise in an x-y plane, the shaft member 2194 also turns clockwise in an x-y plane. Then, the gate valve 2195 moves for example downward in the z-axis direction on the sheet surface of
When the gate valve 2195 moves upward, the volume in the space 2191A increases, and the pressure PA in the space 2191A is lowered at a constant temperature. When the gate valve 2195 moves downward, the volume in the space 2191A decreases, and the pressure PA in the space 2191A increases at a constant temperature.
When the gate valve 2196 moves upward, the volume in the space 2191A decreases, and the pressure PA in the space 2191A increases at a constant temperature. When the gate valve 2196 moves downward, the volume in the space 2191A increases, and the pressure PA in the space 2191A decreases at a constant temperature.
The telescopic member 220 has the same structure as that of the telescopic member 219 shown in
In an initial state, the other ends of the support members 212 and 216 (the ends opposite to the ends connected to the rotary parts 202A and 202B) are in contact with the ground. Therefore, in the initial state, the gate valve 2196 and the main body 2191 define a space 2191B therebetween.
In the initial state, the pressure PA in the space 2191A is set to a pressure P0A, and the pressure PB in the space 2191B is set to a pressure P0B. The pressures P0A and P0B are, for example, higher than the atmospheric pressure, and pressure P0A is higher than the pressure P0B.
When the position of the gate valve 2196 in the z-axis direction is constant and the gate valve 2195 moves upward to the upper limit position, the pressure PA in the space 2191A attains a minimum value PAMIN, while when the gate valve 2195 moves downward to the lower limit position, the pressure PA in the space 2191A attains a maximum value PAMAX. The minimum value PAMIN and the maximum value PAMAX are higher than the atmospheric pressure, and the minimum value PAMIN is higher than the pressure P0B in the space 2191B. Therefore, the pressure PA in the space 2191A can be set to an arbitrary pressure between the minimum value PAMIN and the maximum value PAMAX by the pressure adjusting unit 2192.
When the other ends of the support members 212 and 216 are in contact with the ground, the position of the gate valve 2196 in the z-axis direction does not change, and the pressure PB in the space 2191B is kept at a constant value (P0B) even if the pressure PA in the space 2191A changes.
When the position of the gate valve 2195 in the z-axis direction is constant and the support member 2197 moves upward (in the z-axis direction) from the initial position, the pressure PA in the space 2191A increases as the volume in the space 2191A decreases, and the pressure PB in the space 2191B is lower than the pressure P0B as the volume in the space 2191B increases.
When the position ZA of the gate valve 2195 in the z-axis direction is in the position ZA_1 (which is the upper limit position ZA_U) and the position of the gate valve 2196 in the z-axis direction is the initial position (when the other ends of the support members 212 and 216 are in contact with the ground, which hereinafter applies to below), the pressure PA in the space 2191A is the pressure P0A-1 (which is the minimum value PAMIN), and the pressure PB in the space 2191B is the pressure P0B which is lower than the pressure P0A_1 (≤P0A-1) (which is the minimum value PAMIN).
Then, when the position ZA in the z-axis direction of the gate valve 2195 is kept in the position ZA_1 (which is the upper limit position ZA_U) and the position of the gate valve 2196 in the z-axis direction moves upward above the initial position, the pressure PA in the space 2191A rises from the pressure Z0A-1 (=PAMIN) to the pressure PA_1 (>PAMIN) and the pressure PB in the space 2191B decreases from the pressure P0B to the pressure PB-1 (<PA_1, P0B).
When the position ZA of the gate valve 2195 in the z-axis direction is in a position ZA_2 lower than the position ZA_1 (=ZA_U), and the position of the gate valve 2196 in the z-axis direction is in the initial position, the pressure PA in the space 2191A is a pressure P0A_2 higher than the pressure P0A_1 (=PAMIN), and the pressure PB in the space 2191B is the pressure P0B.
Then, when the position ZA of the gate valve 2195 in the z-axis direction is kept in the position ZA_2 (<position ZA_1) and the position of the gate valve 2196 in the z-axis direction moves upward to a position higher than the initial position, the pressure PA in the space 2191A increases from the pressure P0A_2 to the pressure PA_2 (>P0A_2) and the pressure PB in the space 2191B decreases from the pressure P0B to the pressure PB_2 (<PA_2, P0B).
Furthermore, when the position ZA of the gate valve 2195 in the z-axis direction is in a position ZA_3 which is lower than the position ZA_2 and the position of the gate valve 2196 in the z-axis direction is the initial position, the pressure PA in the space 2191A is P0A_3 which is higher than the pressure P0A_2, and the pressure PB in the space 2191B is the pressure P0B.
When the position ZA of the gate valve 2195 in the z-axis direction is kept in the position ZA_3 (<position ZA_2) and the position of the gate valve 2196 in the z-axis direction moves upward above the initial position, the pressure PA in the space 2191A increases from the pressure P0A_3 to the pressure PA_3 (>P0A_3) and the pressure PB in the space 2191B decreases from the pressure P0B to the pressure PB_3 (<PA_3, P0B).
Hereinafter, similarly, the position ZA of the gate valve 2195 in the z-axis direction is in a position ZA_n−1 which is lower than the position ZA_n−2 (n is an integer equal to or greater than 3), and the position of the gate valve 2196 in the z-axis direction is the initial position, the pressure PA in the space 2191A is a pressure P0A_n−1 which is higher than a pressure P0A_n−2, and the pressure PB in the space 2191B is the pressure P0B.
When the position ZA of the gate valve 2195 in the z-axis direction is kept in the position ZA_n−1 (<position and the position of the gate valve 2196 in the z-axis direction moves upward above the initial position, the pressure PA in the space 2191A increases from the pressure P0A_n−1 to a pressure PA_n−1 (>P0A_n−1) and the pressure PB in the space 2191B decreases from the pressure P0B to a pressure PB_n−1 (<PA_n−1, P0B).
When the position ZA of the gate valve 2195 in the z-axis direction is in the position ZA_n (=the lower limit position ZA_L) and the position of the gate valve 2196 in the z-axis direction is the initial position, the pressure PA in the space 2191A is a pressure P0A_n (=maximum value PAMAX) which is higher than the pressure P0A_n−1, and the pressure PB in the space 2191B is the pressure P0B.
When the position ZA in the z-axis direction of the gate valve 2195 is kept in the position ZA_n (=the lower limit position ZA_L), and the position of the gate valve 2196 in the z-axis direction moves upward to a position above the initial position, the pressure PA in the space 2191A increases from the pressure P0A_n to the pressure PA_n(>P0A_n) and the pressure PB in the space 2191B decreases from the pressure P0B to the pressure PB_n (<PA_n, P0B).
In this way, when the position of the gate valve 2195 changes from the upper limit position ZA_U to the lower limit position ZA_L while the position of the gate valve 2196 is kept in the initial position, the pressure PA in the space 2191A rises from the pressure P0A_1 (=PAMIN) to P0A_n (=PAMAX), and the pressure PB in the space 2191B is kept at the constant pressure P0B. In addition, when the position ZA of the gate valve 2195 is kept in the positions ZA_1, ZA_2, ZA_3, . . . , ZA_n−1, and ZA_n, and the position of the gate valve 2196 is shifted upward to higher positions from the initial position, the pressure PA in the space 2191A is increased from the pressures P0A_1, P0A_2, P0A_3, . . . , P0A_n−1, and P0A_n to the pressures PA_1, PA_2, PA_3, . . . , PA_n−1, and PA_n, respectively and the pressure PB in the space 2191B decreases from the pressure P0B to the pressures PB_1, PB_2, PB_3, . . . , PB_n−1, and PB_n, respectively.
The pressures PB_1, PB_2, PB_3, . . . , PB_n−1, and PB_n are lower than the pressures PA_1, PA_2, PA_3, . . . , PA_n−1, and PA_n, respectively.
Therefore, when the position of the gate valve 2195 is in the positions ZA_1, ZA_2, ZA_3, . . . , ZA_n−1, and ZA_n, respectively, and the position above the initial position of the gate valve 2191 is the same, the respective pressure differences PA_1−PB_1, PA_2−PB_2, PA_3−PB_3, . . . PA_n−1−PB_n−1, and PA_n−PB_n between the pressures PA_1, PA_2, PA_3, . . . , PA_n−1, and PA_n and the pressures PB_1, PB_2, PB_3, . . . , PB_n−1, and PB_n increase as the position of the gate valve 2195 is approaches the lower limit position from the upper limit position.
The presser part 2091 is attached to the base part 2092 at one end side of the base part 2092 in the x-axis direction. More specifically, the presser part 2091 is attached to side surfaces of the base part 2092 in the width-wise direction (the y-axis direction) in a position at a distance L1 from a tip end TOP of the base part 2092 in the x-axis direction. The distance L1 is determined as the distance within which the base between the big toe and the second toe of the trainee and the base between the second toe and the third toe exist when the trainee places the foot on the footrest member 209.
The presser part 2091 is made of an elastic material (such as rubber) and may have a thickness of 2 mm to 3 mm.
The base part 2092 has a flat plate shape. The base part 2092 has a heel placing part 2092A at the end opposite to the tip end TOP in the x-axis direction.
The base part 2092 is made of for example an ethylene-vinylacetate copolymer (EVA) and may have a thickness of 3 mm to 8 mm. The base part 2092 is bent in an x-z plane around an axis in the y-axis direction passing through an arbitrary point in the x-axis direction.
Referring to
Referring to
As shown in
Therefore, the presser part 2091A is provided corresponding to the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, and the third joint 43 of the third toe 33 to press the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, and the third joint 43 of the third toe 33.
The presser part 2091B is provided corresponding to the third joint 44 of the fourth toe 34 and the third joint 45 of the fifth toe 45 to press the third joint 44 of the fourth toe 34 and the third joint 45 of the fifth toe 45 (see
Note that in
As described above, the width (the length in the x-axis direction) of the presser part 2091B gradually increases in the negative direction along the y-axis. This is because the positions of the third joint 44 of the fourth toe 34 and the third joint 45 of the fifth toe 35 are displaced from the positions of the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, and the third joint 43 of the third toe 33 in the x-axis direction.
The presser part 2091 is made of the elastic material, and therefore when the tip end of the foot is inserted in the space 2091C so that the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 are in contact with the lower side of the presser part 2091, the tensile force of the elastic material in the z-axis direction acts to press the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 toward the base part 2092.
Note that the material of the presser part 2091 is not limited to the elastic material and may be any material which can press the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 toward the base part 2092 when the tip end of the foot is inserted in the space 2091C so that the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 are in contact with the lower side of the presser part 2091.
The footrest member 213 shown in
When the training guidance instrument 200 is used, the position ZA of the gate valve 2195 is adjusted to be in the position ZA_n by the pressure adjusting unit 2192 while one end of the support member 212 is in contact with to the ground.
In this case, when one end of the support member 212 is in contact with the ground, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 rotate clockwise in an x-z plane, and while the part from the presser part 2091 to the tip end of the footrest member 209 is in contact with the ground, the heel placing part 2092A of the footrest member 209 moves upward from the ground as the rotary member 210 and the other members rotate the clockwise and stops at the highest position (maximum position) above and away from the ground when one end of the support member 212 reaches the ground. Then, the position ZA of the gate valve 2195 is adjusted to be in the position ZA_n by the pressure adjusting unit 2192. As a result, since the pressure P0A_n in the space 2191A is higher than the pressure P0B in the space 2191B, the gate valve 2196 is pressed toward the ground (in the negative direction along the z-axis) by the pressure P0A_n in the space 2191A at a timing when the position ZA of the gate valve 2195 is in the position ZA_n. The force which pushes the gate valve 2196 toward the ground acts as force for rotating the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 in the clockwise direction in an x-z plane, a force Pw1 in the upward direction from the ground is applied on the heel placing part 2092A of the footrest member 209. More specifically, when the heel placing part 2092A reaches its highest position, the upward force Pw1 is applied from the ground to the heel placing part 2092A.
For example, while the force Pw1 is applied to the heel placing part 2092A, the toes of the left foot are inserted in the space 2091C so that the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 of the left foot are pressed by the presser part 2091, and the heel of the left foot is placed on the heel placing part 2092A (see
The left foot is bent at the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45, and the heel is raised upward (in the z-axis direction) while the part from the tip end of the toes to the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 is in contact with the ground through the base part 2092.
In the state shown in
Then, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 of the support member 202 of the training guidance instrument 200 rotate counterclockwise in an x-z plane in response to application of the force Pw2 toward the ground on the heel placing part 2092A, and stops the counterclockwise rotary movement as the heel placing part 2092A reaches the ground (see
In this case, since the gate valve 2196 is moved to a position above the initial position, the volume in the space 2191A is smaller than the volume in the state shown in
Therefore, when application of the force Pw2 on the heel placing part 2092A is stopped while the heel placing part 2092A in contact with the ground, since the pressure PA_n in the space 2191A is higher than the pressure PB_n in the space 2191B, the gate valve 2196 is pushed toward the ground (in the negative direction along the z-axis) by the pressure PA_n and gradually moves toward the initial position.
Then, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 of the support member 202 of the training guidance instrument 200 rotate clockwise in an x-z plane in response to the movement of the gate valve 2196 toward the initial position, and the heel placing part 2092A moves above and away from the ground in response to the rotation of the rotary member 210 in the clockwise direction and pushes the heel of the trainee in the upward direction.
When the gate valve 2196 reaches the initial position, one end of the support member 212 reaches the ground, and therefore the rotary member 210, the support member 211, the rotary part 202A and the support member 212 of the support member 202 stop to rotate clockwise, the heel placing part 2092A attains its highest position and stops moving upward while the force Pw1 upward from the ground is applied on the heel placing part 2092A. More specifically, the state shown in
Therefore, the operation of applying the force Pw2 on the heel placing part 2092A until the heel placing part 2092A reaches the ground when the heel placing part 2092A is in its highest position in the state shown in
Using the footrest member 213, the rotary member 214, the support members 215 and 216, the rotary part 202B, and the telescopic member 220 of the training guidance instrument 200, the heel of the right foot can be moved up and down in the vertical direction according to the same method described in conjunction with
In this manner, using the training guidance instrument 200, the heels of the both feet of the trainee can be made to move up and down in the vertical direction while the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 of each of the feet are pressed downward.
The pressure PA in the space 2191A can be adjusted to an arbitrary pressure within the range from the pressure PAMIN to the pressure PAMAX by the pressure adjusting unit 2192 in the state shown in
The strength of the force Pw1 applied on the heel placing part 2092A varies among trainees and strong force can be applied by some trainees on the heel placing part 2092A, while only weaker force can be applied by other trainees to the heel placing part 2092A. Therefore, the pressure PA in the space 2191A can be adjusted to an arbitrary pressure within the range from the pressure PAMIN to the pressure PAMAX by the pressure adjusting unit 2192, so that the physical ability of the trainee can be evaluated by the strength of the force Pw1 applied to the heel placing part 2092A. More specifically, a trainee who can apply strong force on the heel placing part 2092A has high physical ability, and a trainee who can apply only weak force on the heel placing part 2092A has low physical ability.
In this manner, using the training guidance instrument 200, the pressure PA in the space 2191A can be adjusted to an arbitrary pressure within the range from the pressure PAMIN to the pressure PAMAX by the pressure adjusting unit 2192, so that the force to be applied on the heel placing part 2092A can be adjusted depending on the physical abilities of the trainees in the state shown in
According to the method described in conjunction with
Therefore, using the training guidance instrument 200, it can quickly be determined whether the physical ability of the trainee has improved.
The presser part 2091-1 is attached to the base part 2092 in the same position as that of the presser part 2091. The presser part 2091-1 has the same planar shape as the presser part 2091 (see
Referring to
The fixing member 2094 is fixed to the side surfaces at both ends of the base part 2092 in the y-axis direction. The bag member 2095 is attached along the inner surface of the fixing member 2094 and partly connected to the valve 2096 through the fixing member 2094.
The valve 2096 is connected to a part of the bag member 2095. Then, the valve 2096 causes the inside of the bag member 2094 to communicate with the outside by an opening/closing mechanism or shuts off the inside of the bag member 2094 from the outside.
The fixing member 2094 and the bag member 2095 form the space 2091C between the base part 2092 and themselves.
The fixing member 2094 is made of a material such as a metal, plastic, wood, styrene foam and etc. The fixing member 2094 has for example a thickness from 2 mm to 3 mm.
The bag member 2095 is made for example of vinyl. When air is enclosed through the valve 2096 so that the internal pressure is higher than the atmospheric pressure, the bag member 2095 is inflated toward the base part 2092.
Therefore, when the trainee inserts the tip end of the foot into the space 2091C, and the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe are placed under the fixing members 2094 and the bag member 2095, air is sealed in the bag member 2095.
As a result, since the bag member 2095 is inflated toward the base part 2092, the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the trainee can be accurately pressed.
The foot size varies among trainees, and even for different foot sizes, the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of fourth toe, and the third joint of the fifth toe can accurately be pressed using the presser part 2091-1. As a result, when the operation described in conjunction with FIG. 7 is carried out by each of the trainees for both feet, the operation of moving up and down the heel of the feet can be carried out by the trainee while the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe are accurately pressed, so that the physical ability of the trainee can be improved more accurately.
According to the embodiment of the present invention, the training guidance instrument 200 may include the footrest member 209A instead of the footrest members 209 and 213.
The presser part 2091-2 is attached to the base part 2092 in the same position as the presser part 2091. The presser part 2091-2 has the same planar shape as the planar shape (see
Referring to
The protrusions 51 to 55 are provided in positions corresponding to the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe. The protrusions 51 to 55 are made of the same material as that of the presser parts 2091A and 2091B.
For example, the protrusions 51 to 55 have a length from 1 cm to 2 cm in the x-axis direction. For example, the protrusion 51 has a length of about 2 cm in the y-axis direction, and the protrusions 52 to 55 have a length from 5 mm to 1 cm in the y-axis direction.
Referring to
Since the presser part 2091-2 is made of the same material as that of the presser part 2091, and when the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe are inserted in the space 2091C, tensile force in the z-axis direction causes the protrusions 51 to 55 to be pressed against the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe.
Therefore, the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe can accurately be pressed by the presser part 2091-2. As a result, by letting the trainee carry out the operation described in conjunction with
According to the embodiment of the present invention, the training guidance instrument 200 may include the footrest member 209B instead of the footrest members 209 and 213.
The toe insertion parts 2097 to 2101 are provided closer to the tip end TOP than the presser part 2091. The toe insertion parts 2097 to 2101 are for inserting the big toe, the second toe, the third toe, the fourth toe, and the fifth toe, respectively.
The toe insertion parts 2097 to 2101 are made of an elastic material such as rubber. The toe insertion parts 2097 to 2101 have a cylindrical shape, the toe insertion part 2097 has an elliptical section having its major axis arranged in the y-axis direction, and the toe insertion parts 2098 to 2101 each have a substantially circular cross section. The length along the major axis of the toe insertion part 2097 is for example about 2.5 cm, and the length along the minor axis is for example about 2 cm. The toe insertion parts 2098 to 2101 each have for example a diameter of about 1 cm.
The thicknesses of the big toe, the second toe, the third toe, the fourth toe, fifth toe vary among trainees, but since the toe insertion parts 2097 to 2101 are made of an elastic material, each of the trainees can insert the big toe, the second toe, the third toe, the fourth toe, and the fifth toe into the toe insertion parts 2097 to 2101, respectively.
Using the footrest member 209C, the trainee is allowed to move the heels of the feet up and down in the vertical direction while the toes of the trainee are inserted into the toe insertion parts 2097 to 2101, and the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe are pressed by the presser part 2091.
As a result, since the heel can be moved up and down in the vertical direction while the tip end of the foot in contact with the ground via the footrest member 209C, the physical ability of the trainee can further be improved.
Note that the footrest member 209C may be provided with one of the presser parts 2091-1 and 2091-2 instead of the presser part 2091.
The training guidance instrument 200 according to the embodiment of the present invention may include a footrest member 209C instead of the footrest members 209 and 213.
The training guidance instrument according to the embodiment of the present invention may be a training guidance instrument 200A shown in
Referring to
The weight member 222 is provided on the support member 212, and the weight member 223 is provided on the support member 216.
In an initial state of the training guidance instrument 200A, one end of the support member 212 is in contact with the ground by the weight member 222, and one end of the support member 216 is in contact with the ground by the weight member 223.
The box member 2221 has a substantially rectangular parallelepiped shape and has an externally open recess. Then, the box member 2221 is fixed to the end of the straight part (the part parallel to the x-axis) of the support member 212.
The weights 2222 to 2226 have a substantially cylindrical shape and different weights from one another. In
Any one of the weights 2222 to 2226 is placed in the recess of the box member 2221. When the lightest weight 2226 is placed in the recess of the box member 2221, one end of the support member 212 reaches the ground.
Note that the weight member 223 shown in
The force of the weight member 222 which pushes the support member 212 toward the ground acts as force which rotates the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 in the clockwise direction in an x-z plane, and while the heel placing part 2092A reaches the highest position, a force Pw3 in the upward direction from the ground is applied on the heel placing part 2092A by the weight member 222.
For example, while the force Pw3 is applied on the heel placing part 2092A, the toes of the left foot are inserted in the space 2091C so that the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 of the left foot are pressed by the presser part 2091, and the heel of the left foot is mounted on the heel placing part 2092A (see
In this case, the left foot is bent at the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45, and the heel is raised in the upward direction (in the z-axis direction) while the part from tip end of the toes of the foot to the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 is in contact with the ground through the footrest member 209.
In the state shown in
In this way, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 of the support member 202 of the training guidance instrument 200A rotate counterclockwise in an x-z plane in response to application of the force Pw4 toward the ground on the heel placing part 2092A and stops the counterclockwise rotation as the heel placing part 2092A reaches the ground (see
When the application of the force Pw4 on the heel placing part 2092A is stopped while the heel placing part 2092A is in contact with the ground, the force of the weight member 222 which pushes the support member 212 toward the ground rotates the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 of the support member 202 of the training guidance instrument 200A in the clockwise direction, and the heel placing part 2092A moves upward from the ground as the clockwise rotation of the rotary member 210 and the other members to raise the heels upward.
When one end of the support member 212 reaches the ground, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 of the support member 202 stop rotating in the clockwise direction, and the heel placing part 2092A reaches the highest position above the ground and stops the upward movement, so that the state shown in
Therefore, the operation of applying the force Pw4 on the heel placing part 2092A until the heel placing part 2092A reaches the ground in the state shown in
Using the footrest member 213, the rotary member 214, the support member 215, the rotary part 202B, and the support member 216 of the training guidance instrument 200A, the heel of the right foot can be moved up and down in the vertical direction by the same method described in conjunction with
In this way, using the training guidance instrument 200A, the trainee can be instructed to carry out the operation of moving heel up and down in the vertical direction for both feet while the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 of the foot are pressed by the presser part 2091.
In the state shown in
The strength of the force Pw4 to be applied on the heel placing part 2092A may vary depending on the trainee, and some trainees can apply strong force on the heel placing part 2092A, while others can apply only weak force on the heel placing part 2092A. Therefore, the physical abilities of the trainee can be evaluated by the strength of the force Pw4 applied on the heel placing part 2092A. More specifically, a trainee who can apply strong force on the heel placing part 2092A has high physical ability, and a trainee who can apply only weak force on the heel placing part 2092A has low physical ability.
As described above, using the training guidance instrument 200A, the weight of the weight to be placed in the recess of the box member 2221 can be changed, so that the force Pw4 to be applied on the heel placing part 2092A in the state shown in
Furthermore, according to the method described in conjunction with
Therefore, using the training guidance instrument 200A, it can quickly be determined whether the physical ability of the trainee has improved.
Note that the training guidance instrument 200A may be provided with any one of the footrest members 209A, 209B, and 209C instead of the footrest members 209 and 213.
Referring to
The expandable/shrinkable member 230 has for example an elliptical spherical shape similar to a rugby ball. In this case, the major axis of the ellipse is arranged in the y-axis direction.
The expandable/shrinkable member 230 can enclose air inside. The air pressure in the expandable/shrinkable member 230 can be adjusted to an arbitrary air pressure in a range higher than the atmospheric pressure.
The heel placing part 2092A of the footrest member 209 is fixed to the surface of the expandable/shrinkable member 230. More specifically, one of a pair of hook-and-loop fasteners is fixed to the back surface of the heel placing part 2092A, the other is fixed to the surface of the expandable/shrinkable member 230, and the heel placing part 2092A is fixed to the surface of the expandable/shrinkable member 230 as one of the fasteners is contacted to the other.
When one of the both feet is placed on the footrest member 209 and force is applied on the heel placing part 2092A by the heel so that the expandable/shrinkable member 230 is shrunk, the force to be applied on the heel placing part 2092A is greater than the pressure of the air enclosed in the expandable/shrinkable member 230. Therefore, when force toward the ground which is greater than the pressure of the air enclosed in the expandable/shrinkable member 230 is applied on the heel placing part 2092A, the heel placing part 2092A moves toward the ground, so that the expandable/shrinkable member 230 can be shrunk toward the ground and the footrest member 209 is substantially parallel to an x-y plane.
Then, when application of the force on the heel placing part 2092A is stopped while the footrest member 209 is substantially parallel to an x-y plane, the heel placing part 2092A is moved upward (in the z-axis direction) by the pressure of the air enclosed in the expandable/shrinkable member 230.
Referring to
For example, while the force Pw5 is applied on the heel placing part 2092A, the toes of the left foot is inserted in the space 2091C so that the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 are pressed by the presser part 2091, and the heel of the left foot is placed on the heel placing part 2092A (see
In this case, the left foot is bent at the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34 and the third joint 45 of the fifth toe 45, the part from the tip end of the toes to the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 is in contact with the ground through the footrest member 209, and the heel is raised upward (in the z-axis direction).
In the state shown in
Then, the expandable/shrinkable member 230 of the training guidance instrument 200B is shrunk toward the ground, and the heel placing part 2092A is substantially parallel to an x-y plane (see
Then, when the heel placing part 2092A stops applying the force Pw6 while the heel placing part 2092A is substantially parallel to an x-y plane, the expandable/shrinkable member 230 is inflated by the pressure of the air inside, and the heel placing part 2092A moves upward from the ground by the inflation of the expandable/shrinkable member 230 and pushes the heel upward.
When the heel placing part 2092A reaches the upward highest position (in the z-axis direction), the heel placing part 2092A stops moving in the upward direction. More specifically, the state shown in
Therefore, the operation of applying the force Pw6 on the heel placing part 2092A until the heel placing part 2092A is substantially parallel to an x-y plane in the state shown in
Furthermore, the heel of the right foot can be moved up and down according to the method shown in
In this way, using the training guidance instrument 200B, the trainee is allowed to carry out, for both feet, the operation of moving the heel up and down in the vertical direction while the second joint 41 of the big toe 31, the third joint 42 of the second toe 32, the third joint 43 of the third toe 33, the third joint 44 of the fourth toe 34, and the third joint 45 of the fifth toe 45 are pressed by the presser part 2091.
Furthermore, in the state shown in
The strength of the force Pw6 applied on the heel placing part 2092A varies among trainees, and some trainees can apply strong force on the heel placing part 2092A, while other trainees can apply only weak force on the heel placing part 2092A. Therefore, the physical ability of a trainee can be evaluated by the strength of the force Pw6 applied on the heel placing part 2092A. More specifically, a trainee who can apply strong force on the heel placing part 2092A has high physical ability, and a trainee who can apply only weak force on the heel placing part 2092A has low physical ability.
Since the pressure of the air inside the expandable/shrinkable member 230 can be changed using the training guidance instrument 200B, the force Pw6 applied to the heel placing part 2092A in the state shown in
Furthermore, according to the method described in conjunction with
Therefore, using the training guidance instrument 200B, it can quickly be determined whether the physical ability of the trainee has improved.
Note that the training guidance instrument 200B may include any one of the footrest members 209A, 209B, and 209C instead of the footrest member 209.
In the above description, at the start of using the training guidance instruments 200, 200A, and 200B, the forces Pw2, Pw4, and Pw6 are applied to the heel placing part 2092A in a position where the heel placing part 2092A of each of the training guidance instrument 200, 200A, and 200B is raised from the ground, and then the heel placing part 2092A is moved closer to the ground. However, according to the embodiment of the present invention, the present invention is not limited to this, and use of the training guidance instruments 200, 200A, and 200B may be started while the heel mounting part 2092A is in contact with the ground.
When the training guidance instrument 200 is used, the pressure adjusting unit 2192 adjusts the pressure PA in the space 2191A so that the pressure PA in the space 2191A is higher than the pressure PB in the space 2191B when air is enclosed in the space 2191B until the heel placing part 2092A reaches the ground, and then the training guidance instrument 200 may start to be used, so that in the state shown in
Then, when the state shown in
Therefore, the heel of the trainee can be moved up and down in the vertical direction even when the training guidance instrument 200 starts to be used from the state where the heel placing part 2092A is in contact with the ground.
Furthermore, when the training guidance instrument 200A starts to be used and a weight is not placed in the recess of the box member 2221, the heel placing part 2092A is in contact with the ground. Therefore, when the training guidance instrument 200A starts to be used with no weight placed in the recess of the box member 2221 by placing the foot of the trainee on the footrest member 209 and then placing a weight (any of weights 2222 to 2226) in the recess of the box member 2221, the heel of the trainee may be moved up and down in the vertical direction according to the above-described method even by starting using the training guidance instrument 200A from the state in which the heel placing part 2092A is in contact with the ground.
Furthermore, when the training guidance instrument 200B is used, the heel placing part 2092A is in contact with the ground while air is evacuated from the expandable/shrinkable member 230. Therefore, when the foot of the trainee is placed on the footrest member 209 with no air inside the expandable/shrinkable member 230, and then air is gradually input to be enclosed in the expandable/shrinkable member 230 so that the state shown in
Therefore, even when the training guidance instrument 200B starts to be used while the heel placing part 2092A is in contact with the ground, the heel of the trainee can be moved up and down in the vertical direction.
Accordingly, the training guidance instruments 200, 200A, and 200B may start to be used from the state in which the heel placing part 2092A is in a position above and away the ground or the training guidance instruments 200, 200A, and 200B may start to be used from the state in which the heel placing part 2092A is in contact with the ground.
In the above description, when the heel placing part 2092A is in the highest position above the ground, one of the forces Pw2, Pw4, and Pw6 toward the ground is applied on the heel placing part 2092A to have the heel placing part 2092A reach the ground, while according to the embodiment of the present invention, the present invention is not limited to this, and when the heel placing part 2092A is positioned above and apart from the ground, force toward the ground which is stronger than the upward force from the ground applied on the heel placing part 2092A may be applied on the heel placing part 2092A to move the heel placing part 2092A to a lower position, and the application of the force on the heel placing part 2092A may be stopped in the lower position. This also allows the trainee to move the heel up and down in the vertical direction while the second joint of the big toe, and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe are pressed by the presser part. More specifically, the trainee can move the heel up and down in the range below the highest position of the heel placing part 2092A above the ground while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe are pressed by the presser part.
Therefore, the training guidance instrument according to the embodiment of the present invention may include a presser part which presses the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the trainee, a heel placing part for placing the heel of the trainee thereon, and a control unit configured to move the heel placing part toward the ground in response to application of second force by the trainee on the heel placing part, the second force being stronger than first force applied upward from the ground on the heel placing part when the heel placing part is positioned above and away from the ground and move the heel placing part upward from the ground in response to application of weaker force toward the ground than the second force by the trainee on the heel placing part when the heel placing part is positioned below its upward highest position above the ground, while the second and third joints of the trainee are pressed by the presser part. The control unit preferably moves the heel placing part upward from the ground in response to interruption of application of force toward the ground by the trainee to the heel placing part when the heel placing part is positioned below the upward highest position above the ground.
The force applied on the heel placing part 2092A should be weaker than the second force when the heel placing part 2092A is below the highest position for the following reason.
In the training guidance instruments 200, 200A, and 200B, when the forces Pw2, Pw4, and Pw6 (the second force) are each applied on the heel placing part 2092A, the heel placing part 2092A stops by the forces Pw2, Pw4, and Pw6 (=the second force) in a position which prohibits the heel placing part 2092A from moving toward the ground. More specifically, the heel placing part 2092A stops in a position where the forces Pw2, Pw4, and Pw6 are equal to the forces Pw1, Pw3, and Pw5, respectively. Therefore, when the force applied on the heel placing part 2092A is weaker than the forces Pw2, Pw4, and Pw6 (=the second force) while the heel placing part 2092A is below its highest position, the heel placing part 2092A starts to move upward from the ground.
Therefore, when the presser part, the heel placing part, and the control unit are provided, the trainee is allowed to move the heel up and down in the vertical direction while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe are pressed.
In the training guidance instruments 200, 200A, and 200B, when the upward forces Pw1, Pw3, and Pw5 are each applied from the ground on the heel placing parts 2092A and 2132A of the footrest members 209 and 213, the downward forces Pw2, Pw4, and Pw6 stronger than the forces Pw1, Pw3, and Pw5 are each applied on the heel placing parts 2092A and 2132A against the forces Pw1, Pw3, and Pw5, so that the heel placing parts 2092A and 2132A move toward the ground, and application of the downward forces Pw2, Pw4, and Pw6 on the heel placing parts 2092A and 2132A moved toward the ground is interrupted, so that the heel placing parts 2092A and 2132A move upward from the ground.
Note that in the training guidance instrument 200, the rotary members 210 and 214, the support members 211 and 215, the rotary parts 202A and 202B, the support members 212 and 216, and the telescopic members 219 and 220 constitute the “control unit.”
Also in the training guidance instrument 200A, the rotary members 210 and 214, the support members 211 and 215, the rotary parts 202A and 202B, the support members 212 and 216, and the weight members 222 and 223 constitute the “control unit.”
In the training guidance instrument 200B, the expandable/shrinkable member 230 constitutes the “control unit”.
A training guidance method using the training guidance instruments 200, 200A, and 200B will be described.
Referring to
For example, the instructor checks, as the degree of how much the toes contact the floor surface, whether any of the toes of the trainee has hallux valgus, whether any of the toes of the trainee is floating, whether the toes of trainee has a bunionette.
In addition, the instructor evaluates the physical ability by the following method.
(1) The instructor pushes the shoulders of the trainee in a standing posture to the right and left and checks whether the trainee can maintain the standing posture in order to check a balance between the left and right sides of the trainee.
(2) When the trainee is in a sitting posture, the instructor pushes the trainee in the sitting posture to the back and checks whether the trainee can maintain the sitting posture in order to check a balance between the front and back sides of the trainee.
(3) The instructor asks the trainee to make a loop with the index finger and the thumb of one of the hands and a loop with the index finger and the thumb of the other hand and to connect the loops like a chain. Then, the instructor asks the trainee to pull the loops to the right and left to make the loops apart while holding the index fingers and the thumbs with all the strength to prevent the loops from opening. At this time, the instructor checks the ability of the thumbs and the fingers of trainee's hands by checking how much strength the index fingers and the thumbs of the trainee exert.
The instructor checks the physical ability of the trainee by using at least one of (1) to (3).
After step S1, the instructor instructs the trainee to take a standing posture and support the body in a forward tilted posture by the upper limbs using the support member (step S2).
Then, the instructor instructs the trainee to put one of the right and left feet forward, place the toes and the heel in contact with the floor surface, put the other foot behind, have the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the other foot pressed by the presser part 2091 of the training guidance instrument 200, and place the heel of the other foot on the heel placing part 2092A (step S3).
Subsequently, the instructor instructs the trainee to apply force on the heel placing part 2092A by the heel of the foot put behind until the heel placing part 2092A reaches the floor while all the toes of the foot put behind are in contact with the base part 2092 of the footrest member 209 (step S4). In this way, the trainee moves the heel of the other foot toward the floor surface until the heel placing part 2092A reaches the floor surface while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the other foot are pressed by the presser part 2091 of the training guidance instrument 200.
Thereafter, when the heel placing part 2092A reaches the floor surface, the instructor instructs the trainee to stop applying the force on the heel placing part 2092A (step S5). In this way, while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the other foot are pressed by the presser part 2091 of the training guidance instrument 200, the trainee moves the heel of the other foot upward until one end of the support member 212 of the training guidance instrument 200 reaches the floor surface.
In this case, the instructor preferably instructs the trainee to move up and down the heel of the foot put behind, for example, five to ten times in the vertical direction. More specifically, the instructor repeats steps S4 and S5 five to ten times.
Then, the instructor instructs the trainee to put the other foot forward and place the toes and heel on the floor surface, put one foot backward, so that the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of one foot are pressed by the presser part 2091 of the training guidance instrument 200 and the heel of one foot is placed on the heel placing part 2092A (step S6).
Subsequently, the instructor instructs the trainee to apply force on the heel placing part 2092A by the heel of the foot put behind until the heel placing part 2092A reaches the floor surface while all the toes of the foot put behind are in contact with the base part 2092 of the footrest member 213 (step S7). In this way, the trainee moves the heel of one foot toward the floor surface until the heel placing part 2092A reaches the floor surface while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the foot are pressed by the presser part 2091 of the training guidance instrument 200.
Thereafter, when the heel placing part 2092A reaches the floor surface, the instructor instructs the trainee to stop applying the force on the heel placing part 2092A (step S8). In this way, the trainee moves the heel of one foot upward until one end of the support member 216 of the training guidance instrument 200 reaches the floor surface while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the foot are pressed by the presser part 2091 of the training guidance instrument 200.
In this case, the instructor preferably instructs the trainee to move up and down the heel of the foot put behind, for example, five to ten times. More specifically, the instructor repeats steps S7 and S8 five to ten times.
Then, the instructor checks the physical ability of the trainee (step S9). For example, the instructor checks the physical ability of the trainee according to the same method as described in connection with step S1.
This ends the training guidance method using the training guidance instrument 200.
Note that the training guidance method using the training guidance instrument 200A or 200B is also executed according to the flowchart shown in
Referring to
In step S9 of the training guidance method, the instructor also checks a balance between the left and right sides of the trainee using the method shown in
Referring to
The trainee can be prevented from being subjected to an excessive load on the lumbar vertebra by checking a balance between the front and back sides of the trainee while the feet of the trainee are in contact with the floor surface 10.
In checking a balance between the front and back sides of the trainee, both feet of the trainee do not have to be in contact with the floor surface 10.
Also in step S9 of the training guidance method, the instructor checks a balance between the front and back sides of the trainee by using the method shown in
Referring to
Referring to
Then, it is determined whether the trainee can apply force on the heel placing part 2092A by the heel and make the heel placing part 2092A reach the floor surface while the pressure PA in the space 2191A is kept at the pressure P0A_k, and the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the trainee are pressed by the presser part 2091.
If the heel placing part 2092A can be made to reach the floor surface, it is determined whether the trainee can apply force on the heel placing part 2092A by the heel and make the heel placing part 2092A reach the floor surface while the pressure PA in the space 2191A is set to the pressure P0A_k+1 and the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the trainee are pressed by the presser part 2091.
In this way, while changing the pressure PA in the space 2191A, the force exerted by the trainee to make the heel placing part 2092A reach the floor surface is measured. In this case, the pressure PA in the space 2191A when the heel placing part 2092A can be made to reach the floor surface is recorded as force allowing the heel placing part 2092A to reach the floor surface. The force exerted by the trainee to make the heel placing part 2092A reach the floor surface is measured for both feet.
In steps S1 and S9 of the training guidance method, force exerted by the trainee to make the heel placing part 2092A reach the floor surface is measured for both feet according to the above-described method, and the measured force represents the physical ability of the trainee.
Note that the force exerted by the trainee to make the heel placing part 2092A reach the floor surface can be measured in the same manner by using one of the training guidance instruments 200A and 200B.
When the training guidance instrument 200A is used, while the weight of a weight placed in the box member 2221 may be changed, the weight of the weight when the trainee can make the heel placing part 2092A reach the floor surface is detected, so that the force exerted by the trainee to make the heel placing part 2092A reach the floor surface can be measured.
Furthermore, when the training guidance instrument 200B is used, the air pressure in the expandable/shrinkable member 230 is detected when the trainee can make the heel placing part 2092A reach the floor surface while the air pressure in the expandable/shrinkable member 230 is changed, so that the force exerted by the trainee to make the heel placing part 2092A reach the floor surface can be measured.
The instructor carries out at least one of checking of a balance between the left and right sides as described in conjunction with
The instructor may check the physical ability of the trainee using at least one of the above (1) to (3) in steps S1 and S9 of the training guidance method.
Referring to
In this case, one end of the support member 216 of the training guidance instrument 200 is in contact with the floor surface 10, and the heel placing part 2092A moves upward above the floor surface 10 (in the direction of the arrow 14 along the z-axis) by the force Pw1 applied upward from the ground. In addition, the instructor instructs the trainee to put the right arm 7 and the left arm 8 horizontally forward and bring the palms of the right arm 7 and the left arm 8 into contact with the wall 30 to maintain the forward tilted posture. In addition, the instructor instructs the trainee not to bend the knees of the left foot 1 and the right foot 2 when the trainee puts the left foot 1 forward and the right foot 2 behind.
After the trainee takes the posture shown in
In this way, the trainee applies the force Pw2 on the heel placing part 2092A by the heel 13 of the right foot 2 until the heel placing part 2092A reaches the floor surface 10, and moves the heel 13 toward the floor surface 10 (downward) while the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the right foot 2 are pressed by the presser part 2091. Then, the rotary member 214, the support member 215, the rotary part 202B, and the support member 216 rotate counterclockwise within an x-z plane, and the gate valve 2196 is pushed upward (in the z-axis direction). As a result, the pressure PA in the space 2191A between the gate valves 2195 and 2196 becomes higher than the pressure in
In the movement for shifting from the state shown in
As shown in
Then, since the pressure PA in the space 2191A between the gate valves 2195 and 2196 is higher than the pressure PB in the space 2191B between the gate valve 2196 and the main body 2191, the gate valve 2196 is pushed toward the floor surface 10 (downward) by the pressure PA until one end of the support member 216 reaches the floor surface 10.
As a result, the rotary member 214, the support member 215, the rotary part 202B, and the support member 216 rotate clockwise in an x-z plane, the heel placing part 2092A of the footrest member 213 moves upward from the floor surface 10, and then moves the heel 13 of the right foot 2 of the trainee in the upward direction. Then, the state shown in
In this case, the instructor preferably instructs the trainee to stand on a tiptoe only on the right foot 2 without bending the knee of the right foot 2. More preferably, the instructor instructs the trainee to raise the heel 13 of the right foot 2 immediately above. With this instruction, the center of gravity is brought on all of the five toes (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) of the right foot 2 when the heel 13 is raised upward, and all the five toes of the right foot 2 (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) can be made to reach to the base part 2092 of the footrest member 213.
In addition, the instructor confirms that all the toes of the right foot 2 are in contact with the base part 2092 of the footrest member 213. Then, if at least one toe of the right foot 2 is not in contact with the base part 2092 of the footrest member 213, the instructor instructs the trainee to raise the heel 13 upward while being conscious of that all the toes of the right foot 2 are in contact with the base part 2092 of the footrest member 213. With this instruction, the center of gravity is more easily brought on all the five toes (the big toe, the second toe, the third toe, the fourth toe and the fifth toe) of the right foot 2 when the heel 13 is raised upward.
The instructor preferably repeats steps S4 and S5 of the training guidance method five to ten times (a predetermined number of times). More specifically, the instructor instructs the trainee to repeat, five to ten times (a prescribed number of times), the exercise for shifting from the state shown in
Subsequently, in step S6 of the training guidance method, the instructor instructs the trainee to put the right foot 2 forward to have the toes and the heel 13 contact the floor surface 10, put the left foot 1 behind, and place the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the left foot 1 pressed by the presser part 2091, and place the heel 12 of the left foot 1 on the heel placing part 2092A of the footrest member 209 (see
In this case, one end of the support member 212 of the training guidance instrument 200 is in contact with the floor surface 10, and the heel placing part 2092A is moved upward and apart (in the z-axis direction) from the floor surface 10 by the force Pw1 applied upward from the ground. The instructor also instructs the trainee to put the right arm 7 and the left arm 8 horizontally forward and bring the palms of the right arm 7 and the left arm 8 into contact with the wall 30 to maintain the forward tilted posture. The instructor also instructs the trainee not to bend the knees of the left foot 1 and the right foot 2 when the trainee puts the right foot 2 forward and the left foot 1 behind.
After the trainee takes the posture shown in
In this way, the trainee applies the force Pw2 on the heel placing part 2092A until the heel placing part 2092A reaches the floor surface 10 by the heel 12 of the left foot 1 and moves the heel 12 toward the floor surface 10 (downward) while the second joint of the big toe and the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the left foot 1 are pressed by the presser part 2091. Then, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 rotate counterclockwise in an x-z plane, and the gate valve 2196 is pushed upward (along the z-axis). As a result, the pressure PA in the space 2191A between the gate valves 2195 and 2196 becomes higher than the pressure in
In the operation of shifting from the state shown in
As shown in
Then, since the pressure PA in the space 2191A between the gate valves 2195 and 2196 is higher than the pressure PB in the space 2191B between the gate valve 2196 and the main body 2191, the gate valve 2196 is pushed toward the floor surface 10 (downward) by the pressure PA until one end of the support member 212 reaches the floor surface 10.
As a result, the rotary t member 210, the support member 211, the rotary part 202A, and the support member 212 rotate clockwise in an x-z plane, and the heel placing part 2092A of the footrest member 209 moves upward from the floor surface 10 and moves the heel 12 of the left foot 1 of the trainee upward. Then, the state shown in
In this case, the instructor preferably instructs the trainee to stand on a tiptoe only by the left foot 1 without bending the knee of the left foot 1. The instructor more preferably instructs the trainee to raise the heel 12 of the left foot 1 immediately above. With this instruction, the center of gravity is brought on all of the five toes (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) of the left foot 1 when the heel 12 is moved upward, and the five toes of the left foot 1 (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) can be in contact with the base part 2092 of the footrest member 209.
In addition, the instructor confirms that all the toes of the left foot 1 are in contact with the base part 2092 of the footrest member 209. Then, if at least one toe of the left foot 1 is not in contact with the base part 2092 of the footrest member 209, the instructor instructs the trainee to raise the heel 12 upward while being conscious of that all the toes of the left foot 1 are in contact with the base part 2092 of the footrest member 209. With this instruction, the center of gravity can more easily be brought on all of the five toes (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) of the left foot 1 when the heel 12 is raised upward.
The instructor preferably repeats, five to ten times (a predetermined number of times), steps S7 and S8 in the training guidance method. More specifically, the instructor instructs the trainee to repeat, five to ten times (a predetermined number of times), the operation for shifting from the state shown in
Using training guidance instrument 200, the instructor instructs the trainee to repeat the operation of moving the heel 12 or 13 up and down in the vertical direction while keeping all the toes of the left foot 1 or the right foot 2 in contact with the base parts 2092 of the footrest member 209 or 213, so that the trainee learns how to walk, run, and play various sports while keeping the toes of the left foot 1 and the right foot 2 in contact with the ground by repeating the up-down movement of the heel 12 or 13 while keeping the toes of the left foot 1 or the right foot 2 in contact with the base parts 2092 of the footrest member 209 or 213. As a result, the trunk balance of the trainee can be improved, so that the physical ability of the trainee can be improved.
When the training instructing instrument 200A or the training instructing instrument 200B is used, the operation in steps S2 to S8 in the training guidance method is the same as that described in conjunction with
Referring to
Then, when the heel 13 of the right foot 2 is raised by the training guidance instrument 200, the instructor instructs the trainee to have all the five toes (the big toe 21, the second toe 22, the third toe 23, the fourth toe 24, and the fifth toe 25) reach the floor surface 10 through the base part 2092 of the footrest member 213. The instructor preferably instructs the trainee to have a region REG including the five toes (the big toe 21, the second toe 22, the third toe 23, the fourth toe 24, and the fifth toe 25) of the right foot 2 reach the floor surface 10 through the base part 2092 of the footrest member 213 (see
When the heel 12 of the left foot 1 is raised upward using the training guidance instrument 200, as shown in
This better ensures that the region REG shown in
In
When the instructor instructed a trainee according to the training guidance method using the training guidance instruments 200, 200A, and 200B, and the trainee carried out the up-down movement of the heel 12 of the left foot 1 and the heel 13 of the right foot 2 in the vertical direction a prescribed number of times as shown in
More specifically, the trainee was able to improve the physical ability by performing steps S2 to S8 in the training guidance method.
The inventor of the above-mentioned training guidance method has acquired knowledge that a lot of people do not have some of the five toes of the left foot 1 (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) and/or the five toes of the right foot 2 (the big toe 21, the second toe 22, the third toe 23, the fourth toe 24, and the fifth toe 25) in contact with the ground and has created the above training guidance instruments 200, 200A, and 200B and the training guidance method using the training guidance instruments 200, 200A, and 200B thereby.
The feet are crucial when a person walks, runs, and plays various sports, and the feet are unstable unless the five toes of both feet (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) are firmly in contact with the ground.
When guided by the training guidance method using the above-mentioned training guidance instruments 200, 200A, and 200B, however, the trainee can carry out the exercise of moving the heels up and down while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe are pressed by the presser part 2091 and the five toes of each of the feet (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) are securely in contact with the ground, so that the trunk balance may be improved and the physical ability of the trainee may be improved.
As described above, the training guidance instruments 200, 200A, and 200B and the training guidance method using the training guidance instruments 200, 200A, and 200B described above were created on the basis of the above-described new findings and are entirely different from known foot health orthoses and training methods. More specifically, the known foot health orthoses and training methods are adapted to train specific muscles among many muscles of the body and not adapted to train the trunk (torso) balance.
Furthermore, the known foot health orthoses and training methods do not involve an idea concerning training performed for the purpose of having all the five toes of both feet (the big toe, the second toe, the third toe, the fourth toe, and the fifth toe) trained to reach the ground while the second joint of the big toe of the foot, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe are pressed. Therefore, the training guidance instruments 200, 200A, and 200B and the training guidance method using the training guidance instruments 200, 200A, 200B involve a totally different idea from conventional foot health orthoses and training methods, and highly unique training guidance instruments and training guidance method are provided.
The training guidance instruments 200, 200A, and 200B and the training guidance method described above are not for use in medical practice such as medical treatment, but are used by the trainee to execute training so that the trainee can improve the trunk balance.
This is also evident for example from a result of instructing a golf player according to the training guidance method using the above-mentioned training guidance instruments 200, 200A, and 200B that the flight distance of balls struck with a driver increased by 20 to 30 yards.
In addition, the training guidance method using the above-described training guidance instruments 200, 200A, and 200B is not limited to training for golf players and may be used by players of various sports such as baseball, tennis, athletics, and martial arts (judo, karate, kendo, etc.) for training to improve the trunk balance and the physical ability.
In the training guidance method shown in
The time required for training is shortened by the training guidance method using the above-described training guidance instruments 200, 200A, and 200B. More specifically, it takes only several minutes (which could be one minute depending on the trainee) for the trainee to work out by the guidance of steps S2 to S8 described above. In this way, even for the short training time, the trunk balance of the trainee (for example a balance between the left and right sides and a balance between the front and the back) is effectively improved, or force applied on the heel placing part 2092A by the trainee to make the heel placing part 2092A contact the ground becomes stronger, and the physical ability of the trainee can be improved.
In addition, according to the training guidance method using the training guidance instruments 200, 200A, and 200B, the trainee can be trained by simple workout. More specifically, by the guidance of the above-described steps S2 to S8, the trainee simply presses the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the foot by the presser part 2091 and moves the heel up and down by keeping all the toes of the feet in contact with the ground. In this way, even the training by the simple workout allows the trunk balance of the trainee (for example a balance between the left and the right sides and a balance between the front and back sides) to be effectively improved, and force exerted by the trainee to make the heel placing part 2092A contact the ground increases, so that the physical ability of the trainee can be improved.
In the flowchart shown in
Referring to
Then, the instructor instructs the trainee to bend the knees to take a sitting posture, press the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe and the fifth toe of the left foot by the presser part 2091 of the footrest member 209, place the left heel on the heel placing part 2092A of the footrest member 209, press the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the right foot by the presser part 2131 (=the presser part 2091) of the footrest member 213, and place the right heel on the heel placing part 2132A (the heel placing part 2092A) of the footrest member 213 (step S11).
Thereafter, the instructor instructs the trainee to make all the toes of one of the right foot and the left foot contact the base part 2092 of the footrest member and apply the force Pw2 on the heel placing part 2092A by one heel until the heel placing part 2092A reaches the floor surface 10 (step S12).
When the heel placing part 2092A reaches the floor surface 10, the instructor instructs the trainee to stop applying the force Pw2 on the heel placing part 2092A (step S13).
Subsequently, the instructor instructs the trainee to make all the toes of the other foot contact the base part 2092 of the footrest member and apply the force Pw2 by the other heel on the heel placing part 2092A until the heel placing part 2092A reaches the floor surface 10 (step S14).
Then, when the heel placing part 2092A reaches the floor surface 10, the instructor instructs the trainee to stop applying the force Pw2 on the heel placing part 2092A (step S15).
Thereafter, the instructor performs step S9 described above. As a result, the training guidance method shown in
When the training guidance instrument 200A or the training guidance instrument 200B is used, the training guidance method is executed according to the flowchart shown in
In the training guidance method shown in
In the training guidance method shown in
In the training guidance method shown in
Referring to
Thereafter, in step S12 of the training guidance method shown in
In this way, the trainee applies the force Pw2 on the heel placing part 2092A by the heel 12 of the left foot 1 until the heel placing part 2092A reaches the floor surface 10 and moves the heel 12 toward the floor surface 10 (downward) while the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the left foot 1 are pressed by the presser part 2091. Then, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 rotate counterclockwise in an x-z plane, and the gate valve 2196 is pushed upward (in the z-axis direction). As a result, the pressure PA in the space 2191A between the gate valves 2195 and 2196 becomes higher than the pressure in
When the heel placing part 2092A reaches the floor surface 10 as shown in
Then, since the pressure PA in the space 2191A between the gate valves 2195 and 2196 is higher than the pressure PB in the space 2191B between the gate valve 2196 and the main body 2191, the gate valve 2196 is pushed toward the floor surface 10 (downward) by the pressure PA until one end of the support member 212 reaches the floor surface 10.
As a result, the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 rotate clockwise in an x-z plane, and the heel placing part 2092A of the footrest member 209 moves upward from the floor surface 10 to move the heel 12 of the left foot 1 of the trainee upward. Then, the state shown in
Subsequently, in step S14 of the training guidance method shown in
In this way, the trainee applies force Pw2 on the heel placing part 2092A by the heel 13 of the right foot 2 until the heel placing part 2092A reaches the floor surface 10 and moves the heel 13 toward the floor surface 10 (downward) while the second joint of the big toe and the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the right foot 2 are pressed by the presser part 2091. Then, the rotary member 214, the support member 215, the rotary part 202B, and the support member 216 rotate counterclockwise in an x-z plane, and the gate valve 2196 is pushed upward (in the z-axis direction). As a result, the pressure PA in the space 2191A between the gate valves 2195 and 2196 becomes higher than the pressure in
When the heel placing part 2092A reaches the floor surface 10 as shown in
Then, since the pressure PA in the space 2191A between the gate valves 2195 and 2196 is higher than the pressure PB in the space 2191B between the gate valve 2196 and the main body 2191, the gate valve 2196 is pushed by the pressure PA toward the floor surface 10 (downward) until one end of the support member 216 reaches the floor surface 10.
As a result, the rotary member 214, the support member 215, the rotary part 202B, and the support member 216 pivot clockwise in an x-z plane, and the heel placing part 2092A of the footrest member 213 moves upward from the floor surface 10 and moves the heel 13 of the right foot 2 of the trainee in the upward direction. Then, the state shown in
As a result of guidance according to the training guidance method described in conjunction with
The description of the training guidance method shown in
Referring to
The instructing means 101 stores image information indicating postures of the trainee. The instructing means 101 also stores audio information for explaining the contents of steps S1 to S9 shown in
The instructing means 101 receives a guidance start signal from the accepting means 102 and sequentially displays the image information and the character information at the display unit 103 and sequentially outputs the audio information to the reproducing means 106 in response to the received guidance start signal.
The instructing means 101 outputs a photographing instruction signal to the photographing means 104. The instructing means 101 receives image information indicating an image taken by the photographing means 104 from the photographing means 104 and displays the received image information at the display unit 105.
The accepting means 102 accepts a start of training from the instructor, generates a guidance start signal in response to the accepted start of training, and outputs the generated signal to the instructing means 101.
The display unit 103 sequentially displays the image information and the character information received from the instructing means 101.
The photographing means 104 receives a photographing instruction signal from the instructing means 101, photographs a trainee in response to the received photographing instruction signal, and outputs the image information of the photographed image to the instructing means 101.
The display unit 105 receives the image information from the instructing means 101 and displays the received image information.
The reproducing means 106 receives audio information from the instructing means 101, reproduces the received audio information, and outputs the reproduced audio information to the speaker 107.
In addition, the reproducing means 106 receives audio information from the microphone 108, reproduces the received audio information, and outputs the reproduced audio information to the speaker 107.
The speaker 107 receives the audio information from the reproducing means 106, amplifies the received audio information, and outputs the amplified audio information to the outside.
The microphone 108 is provided with audio information from an instructor as an input and outputs the input audio information to the reproducing means 106.
The instructing means 101 of the training guidance apparatus 100 stores the character information CHR1 to CHR10. In addition, the instructing means 101 of the training guidance apparatus 100 stores audio information AUD1 to AUD10 having the same contents as the character information CHR1 to CHR10.
The instructing means 101 of the training guidance apparatus 100 stores the image information G1 to G6.
Referring to
The instructing means 101 displays the character information CHR1 and the image information G1 at the display unit 103 and outputs the audio information AUD1 to the reproducing means 106 in response to the guidance start signal from the accepting means 102. The reproducing means 106 reproduces the audio information AUD1 and outputs the reproduced audio information AUD1 to the speaker 107, and the speaker 107 amplifies the audio information AUD1 and outputs the amplified audio information to the outside. In this way, the character information CHR1 and the image information G1 are displayed at the display unit 103, and the audio information AUD1 is output to the outside (step S22). As a result, the trainee looks at the character information CHR1 and the image information G1 displayed at the display unit 103, listens to the audio information AUD1, and then takes a sitting posture on the seat 20 while making the both feet contact the floor surface.
Then, the instructing means 101 generates a photographing instruction signal and outputs the generated signal to the photographing means 104, and the photographing means 104 photographs the part from the five toes to the heel of the foot of the trainee in response to the photographing instruction signal (step S23).
The photographing means 104 outputs the photographed image to the instructing means 101, and the instructing means 101 displays the image at the display unit 105 (step S24). In this way, the instructor can look at the image displayed at the display unit 105 and check the degree of how much the toes of the foot of the trainee contact the floor surface.
Thereafter, the instructing means 101 displays the character information CHR2 and the image information G2 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD2 and outputs the reproduced audio information to the outside (step S25).
As a result, the trainee looks at the character information CHR2 and the image information G2 displayed at the display unit 103 and listens to the audio information AUD2 to take the standing posture shown in
Then, the instructing means 101 generates a photographing instruction signal and outputs the generated signal to the photographing means 104, and the photographing means 104 photographs the trainee when the deltoid muscles are pushed to the left and the right in response to the photographing instruction signal (step S26).
The photographing means 104 outputs the photographed image to the instructing means 101, and the instructing means 101 displays the image at the display unit 105 (step S27).
In this way, the instructor can look at the display unit 105 and check whether the trainee can maintain the standing posture shown in
After step S27, the instructing means 101 displays the character information CHR3 and the image information G3 at the display unit 103, and the instructing means 101, the reproducing means 106 and the speaker 107 reproduce audio information AUD3 and output the reproduced audio information to the outside (step S28).
In this way, the trainee looks at the character information CHR3 and the image information G3 displayed at the display unit 103, listens to the audio information AUD3, and takes the sitting posture shown in
The instructing means 101 generates a photographing instruction signal and outputs the photographing instruction signal to the photographing means 104. In response to the photographing instruction signal, the photographing means 104 photographs the trainee when the left and right shoulders are pushed to the back (step S29).
The photographing means 104 outputs the photographed image to the instructing means 101, and the instructing means 101 displays the image at the display unit 105 (step S30).
In this way, the instructor can look at the display unit 105 and check whether the trainee can maintain the sitting posture shown in
Thereafter, the instructing means 101 determines whether the character information CHR4 to CHR10 has already been displayed at the display unit 103 (step S31).
In step S31, if it is determined that the character information CHR4 to CHR10 has not been displayed at the display unit 103, the instructing means 101 displays the character information CHR4 and the image information G4 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD4 and output the reproduced audio information to the outside (step S32).
In this way, the trainee looks at the character information CHR4 and the image information G4, listens to the audio information AUD4, and takes a standing posture having the body supported by the upper limbs in a forward tilted manner using the support member (the wall 30).
Thereafter, the instructing means 101 displays the character information CHR5 and the image information G5 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD5 and output the reproduced audio information to the outside (step S33). In this way, the trainee looks at the character information CHR5 and the image information G5, listens to the audio information AUD5, and takes the standing posture shown in
Subsequently, the instructing means 101 displays the character information CHR6 and the image information G6 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD6 and output the reproduced audio information to the outside (step S34). In this way, the trainee looks at the character information CHR6 and the image information G6 and listens to the audio information AUD6, and as shown in
Then, the instructing means 101 displays the character information CHR7 and the image information G5 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD7 and output the reproduced audio information to the outside (step S35). In this way, the trainee looks at the character information CHR7 and the image information G5, listens to the audio information AUD7, stops applying the force Pw2 on the heel placing part 2092A, and takes the standing posture shown in
Thereafter, the instructing means 101 displays the character information CHR8 and the image information G5 (image information G5 in which the left foot and the right foot are exchanged) at the display unit 103, and the instructing means 101, the reproducing means 106 and the speaker 107 reproduce the audio information AUD8 and outputs the reproduced audio information to the outside (step S36). In this way, the trainee looks at the character information CHR8 and the image information G5 (the image information G5 in which the left foot and the right foot are exchanged), listens to the audio information AUD8, and takes the standing posture shown in
Subsequently, the instructing means 101 displays the character information CHR9 and the image information G6 (the image information G5 in which the left foot and the right foot are exchanged) at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD9 and output the reproduced audio information to the outside (step S37). In this way, the trainee looks at the character information CHR9 and the image information G6 (the image information G5 in which the left foot and the right foot are exchanged), listens to the audio information AUD9, and applies the force Pw2 on the heel placing part 2092A and lowers the heel of the foot put behind until the heel placing part 2092A reaches the floor surface 10 by the heel of the foot put behind while the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of the foot put behind are pressed by the presser part 2091 and all the toes of the foot put behind are in contact with the base part 2092 as shown in
Then, the instructing means 101 displays the character information CHR10 and the image information G5 (image information G5 in which the left foot and the right foot are exchanged) at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD10 and outputs the reproduced audio information to the outside (step S38). In this way, the trainee looks at the character information CHR10 and the image information G5 (the image information G5 in which the left foot and the right foot are exchanged), listens to the audio information AUD10, stops applying the force Pw2 on the heel placing part 2092A, and takes the standing posture shown in
After step S38, the operation of the training guidance apparatus 100 returns to step S25, and the above-described steps S25 to S31 are repeatedly executed. Then, if it is determined in step S31 that the character information CHR4 to CHR10 has already been displayed at the display unit 103, the operation of the training guidance apparatus 100 ends.
The above-described steps S22 to S30 correspond to step S1 shown in
Step S32 corresponds to step S2 shown in
In the flowchart shown in
Furthermore, in the flowchart shown in
In this way, the training guidance method shown in
In step S24, the instructor can check the presence of hallux valgus, floating toes, a bunionette, and the like of the foot of the trainee by looking at the image displayed at the display unit 105.
In step S27, the instructor can check a balance between the left and right sides of the trainee as a method for checking the physical ability of the trainee by looking at the image displayed at the display unit 105. In step S30, the instructor can check a balance between the front and back sides of the trainee as a method for checking the physical ability of the trainee by looking at the displayed image at the display unit 105.
When the training guidance method executed using the training guidance instrument 200 is carried out using the training guidance apparatus 100, one or more instructors may check whether the movement of the trainees is conducted as instructed. In this manner, the trainee can be instructed correctly. As a result, the physical ability of the trainee can be effectively improved.
Furthermore, in the flowchart shown in
In the description in conjunction with
The instructing means 101 of the training guidance apparatus 100 stores the character information CHR1 to CHR 3 and CHR11 to CHR15. The instructing means 101 of the training guidance apparatus 100 also stores the audio information AUD1 to AUD3 and AUD11 to AUD15 having the same contents as the character information CHR1 to CHR 3 and CHR11 to CHR15, respectively.
Referring to
The instructing means 101 of the training guidance apparatus 100 stores image information G1 to G3, G7, and G8.
In the flowchart shown in
Referring to
Then, the instructing means 101 determines whether the character information CHR11 to CHR15 has already been displayed at the display unit 103 (step S41).
When it is determined in step S41 that the character information CHR11 to CHR15 has not been displayed at the display unit 103, the instructing means 101 displays the character information CHR11 and the image information G7 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD11 and output the reproduced audio information to the outside (step S42). In this way, upon looking at the character information CHR11 and the image information G7 and listening to the audio information AUD11, the trainee bends the knees to take a sitting posture, has the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the left foot pressed by the presser part 2091 of the footrest member 209, place the heel of the left foot on the heel placing part 2092A of the footrest member 209, has the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the right foot pressed by the presser part 2091 of the footrest member 213, and place the heel of the right foot on the heel placing part 2092A of the footrest member 213 to take the sitting posture shown in
Thereafter, the instructing means 101 displays the character information CHR12 and the image information G8 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD12 and output the reproduced audio information to the outside (step S43). In this way, upon looking at the character information CHR12 and the image information G8 and listening to the audio information AUD12, the trainee applies the force Pw2 on the heel placing part 2092A until the heel placing part 2092A reaches the floor surface 10 and lowers the heel of one foot downward while having the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe of one foot pressed by the presser part 2091 and all the toes of the foot contact the base part 2092 of the footrest member 213. More specifically, the trainee takes the sitting posture shown in
Subsequently, the instructing means 101 displays the character information CHR13 and the image information G7 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce audio information AUD13 and output the reproduced audio information to the outside (step S44). In this way, upon looking at t the character information CHR13 and the image information G7 and listening to the audio information AUD13, the trainee stops applying the force Pw2 on the heel placing part 2092A. Then, the gate valve 2196 is pushed downward (toward the floor surface 10) by the pressure PA in the space 2191A between the gate valves 2195 and 2196, and the rotary member 210, the support member 211, the rotary part 202A and the support member 212 rotate clockwise in an x-z plane. As a result, the heel placing part 2092A is moved upward, and the trainee raises the heel upward. More specifically, the trainee takes the sitting posture shown in
Then, the instructing means 101 displays the character information CHR14 and the image information G8 (the image in which the heel of the foot different from the foot in the step S43 is placed on the heel placing part 2092A) at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD14 and outputs the reproduced audio information to the outside (step S45). In this way, upon looking at the character information CHR14 and the image information G8 (the image in which the heel of the foot different from the foot in the step S43 is placed on the heel placing part 2092A) and listening to the audio information AUD14, the trainee applies the force Pw2 on the heel placing part 2092A by the heel of the other foot until the heel placing part 2092A reaches the floor surface 10 and lowers the heel of the other foot downward while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe of the other foot are pressed by the presser part 2091 and all the toes of the other foot are in contact with the base part 2092 of footrest member. More specifically, the trainee takes the sitting posture shown in
Thereafter, the instructing means 101 displays the character information CHR15 and the image information G7 at the display unit 103, and the instructing means 101, the reproducing means 106, and the speaker 107 reproduce the audio information AUD15 and output the reproduced audio information to the outside (step S46). In this way, upon looking at the character information CHR15 and the image information G7 and listening to the audio information AUD15, the trainee stops applying the force Pw2 on the heel placing part 2092A. Then, the gate valve 2196 is pushed downward (toward the floor surface 10) by the pressure PA in the space 2191A between the gate valves 2195 and 2196, and the rotary member 210, the support member 211, the rotary part 202A, and the support member 212 rotate clockwise in an x-z plane. As a result, the heel placing part 2092A is moved upward, and the trainee raises the heel upward. More specifically, the trainee takes the sitting posture shown in
After step S46, the operation of the training guidance apparatus 100 returns to step S25, and the above-described steps S25 to S30 and S41 are repeatedly executed. Then, if it is determined in step S41 that the character information CHR11 to CHR15 has already been displayed at the display unit 103, the operation of the training guidance apparatus 100 ends.
The above-described steps S22 to S30 correspond to step S1 shown in
Step S42 corresponds to step S11 shown in
In the flowchart shown in
Furthermore, in the flowchart shown in
Furthermore, in the flowchart shown in
Furthermore, in the flowchart shown in
In this way, the training guidance method using the training guidance instrument 200 shown in
Note that when the training guidance method is executed by the training guidance apparatus 100, one or more instructors may check whether the movement of the trainee is as instructed. In this way, the trainee can be instructed correctly. As a result, the physical ability of the trainees can effectively be improved.
Furthermore, in the flowchart shown in
Note that in the description in conjunction with
As for the rest, the description in connection with
According to the embodiment of the present invention, the operation of the training guidance apparatus 100 may be executed by software. In this case, the training guidance apparatus 100 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), display unites 103 and 105, a speaker 107, and a microphone 108.
The ROM stores a program Prog_A including steps S21 to S38 in the flowchart shown in
The CPU reads the program Prog_A (or the program Prog_B) from the ROM and executes the program. In this case, the CPU displays the images stored in the RAM at the display unit 105.
In this way, the above-described training guidance method shown in
Therefore, the program Prog_A (or program Prog_B) is a program for causing a computer (CPU) to execute the training guidance method.
Furthermore, the program Prog_A (or the program Prog_B) may be recorded on a recording medium such as a CD and a DVD and distributed. When a recording medium in which the program Prog_A (or the program Prog_B) is recorded is mounted to a personal computer, the CPU (computer) reads and the program Prog_A (or the program Prog_B) from the recording medium and executes the program. In this way, the above-described training guidance method shown in
Therefore, the recording medium having the program Prog_A (or program Prog_B) recorded therein is a computer (CPU) readable recording medium.
As described above, the training guidance method according to the embodiment of the present invention may be executed by an instructor or may be executed by the training guidance apparatus 100 (the instructor may also join in some cases).
In addition, the training guidance method according to the embodiment of the present invention may be executed in a facility such as a training center or may be executed outdoors.
In the above description, the trainee keeps the forward tilted posture having the palms of both hands in contact with the wall 30. However, according to the embodiment of the present invention, the trainee may use any member to keep the forward tilted posture if the posture can be maintained, and in general, the forward tilted posture may be maintained using the support member.
In the above description, the trainee is instructed to move the heel up and down in the vertical direction while the second joint of the big toe, the third joint of the second toe, the third joint of the third toe, the third joint of the fourth toe, and the third joint of the fifth toe are pressed by the presser part 2091 of the training guidance instrument 200, 200A, or 200B and all the toes of the foot are in contact with the base part 2092 of the footrest member 209 or 213.
Steps S1 and S9 in the flow chart shown in
Therefore, the training guidance method according to the embodiment of the present invention may be a training guidance method for instructing a trainee by using any one of the training guidance instruments 200, 200A, and 200B, and the training guidance method includes instructing a trainee to carry out, at least once for both feet of the trainee, the operation of applying the second force (any of the forces Pw2, Pw4, and Pw6 described above) on the heel placing part so that the heel placing part positioned above and away from the ground approaches the ground and the operation of weakening the force toward the ground applied on the heel placing part to be less than the second force (any of the forces Pw2, Pw4, and Pw6 described above) as the heel placing part approaches the ground, while the second and third joints of the foot of the trainee are pressed by the presser part and the heel of the foot of the trainee is in contact with the heel placing part. Here, “weakening the force toward the ground applied on the heel placing part to be less than the second force (any one of the forces Pw2, Pw4, and Pw6 described above) as the heel placing part approaches the ground” includes stopping applying the force toward the ground on the heel placing part.
The training guidance method according to the embodiment of the present invention may further include the step of checking how much the toes of the trainee contact the ground in a sitting posture with the feet in contact with the ground and the physical ability of the trainee before the operation of applying the second force (any of the forces Pw2, Pw4, and Pw6 described above) on the heel placing part so that the heel placing part positioned above and away from the ground approaches the ground and the operation of weakening the force toward the ground applied on the heel placing part to be less than the second force (any of the forces Pw2, Pw4, and Pw6 described above) as the heel placing part approaches the ground and the step of checking the physical ability of the trainee after the operation of applying the second force (any of the forces Pw2, Pw4, and Pw6 described above) on the heel placing part so that the heel placing part positioned above and away from the ground approaches the ground and the operation of weakening the force toward the ground applied on the heel placing part to be less than the second force (any of the forces Pw2, Pw4, and Pw6 described above) as the heel placing part approaches the ground.
In this way, the step of checking the physical ability of the trainee allows evaluation of the advantageous effect provided as a result of carrying out the operation of applying the second force (any of the forces Pw2, Pw4, and Pw6 described above) on the heel placing part so that the heel placing part positioned above and away from the ground approaches the ground and the operation of weakening the force toward the ground applied on the heel placing part to be less than the second force (any of the forces Pw2, Pw4, and Pw6 described above) as the heel placing part approaches the ground. Since the advantageous effect provided as a result of carrying out the operation of applying the second force (any of the forces Pw2, Pw4, and Pw6 described above) on the heel placing part so that the heel placing part positioned above and away from the ground approaches the ground and the operation of weakening the force toward the ground applied on the heel placing part to be less than the second force (any of the forces Pw2, Pw4, and Pw6 described above) as the heel placing part approaches the ground may be immediately observed, the advantageous effects provided as a result of carrying out these kinds of operation can easily be checked by checking the physical ability of the trainee before and after these kinds of operation are executed.
In the training guidance method using the above-described training guidance instrument 200, 200A, or 200B, the trainee is instructed to carry out, while the second joint of the big toe and the third joints of the second toe, the third toe, the fourth toe, and the fifth toe are pressed by the presser part 2091, first operation for applying the force Pw2, Pw4, or Pw6 stronger than the force Pw1, Pw3, or Pw5 against the force Pw1, Pw3, or Pw5 on the heel placing part 2092A or 2132A by the heel of the trainee when the force Pw1, Pw3, or Pw5 is applied on the heel placing part 2092A or 2132A of the footrest member 209 or 213, so that the heel placing part 2092A or 2132A is moved toward the ground, and second operation for moving the heel of the trainee toward the ground as the heel placing part 2092A or 2132A approaches the ground and weakening the force applied on the heel placing part 2092A or 2132A to be less than the force Pw2, Pw4, or Pw6, so that the heel placing part 2092A or 2132A is moved upward from the ground.
In particular, the training guidance method is different from any of conventional training guidance methods in that the trainee is instructed to carry out the first operation.
The disclosed embodiment herein is to be considered in all respects as illustrative and not restrictive. The scope of the invention being indicated by the appended claims rather than by the foregoing description of the embodiment, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.
Industrial Applicability
The present invention is applicable to a training guidance instrument and a training guidance method using the same.
Number | Date | Country | Kind |
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2016-135515 | Jul 2016 | JP | national |
2016-154268 | Aug 2016 | JP | national |
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Number | Date | Country | |
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Number | Date | Country | |
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Parent | 16309528 | US | |
Child | 16953412 | US |