JP4922702B2 - Ankle exercise device - Google Patents

Description

  The present invention relates to an ankle joint exercise device used for rehabilitation of ankle joint function, improvement of exercise ability, and the like.

As described above, various types of ankle joint exercise devices used for rehabilitation of ankle joint function, improvement of exercise ability, and the like are known (see, for example, Patent Documents 1 and 2).
Utility model registration 3030897 Utility model registration 3082506

The invention described in Patent Document 1 is a leg stretch device, and this leg stretch device is supported so as to be swingable in the vertical direction. It includes an angle adjustment pin that regulates the position of the swinging angle of the platform, and a handle that is held by hand to support the body.
According to this, the flexibility of the leg, especially the thigh, biceps, calf muscle and Achilles tendon is improved, and exercise for reducing foot fatigue is easily performed at home. It can be done.

The invention described in Patent Document 2 is a health device, which has the functions of a step exercise and an arm chest expander, and is provided with a set of step device and tension set on the instrument seat. is there.
According to this, stability can be maintained, health training with various variations can be performed with one instrument, and effects can be achieved with various uses with one instrument, saving space. Not only that, it is very convenient and quick to use.

However, the invention described in Patent Document 1 has a problem that the footrest cannot be sufficiently swung when the muscle strength is weakened or the joint is stiff, and there is an obstacle, so there is a careful rehabilitation especially for one leg. There is a problem that it is not possible to cope with the case where the right and left ankle joints can be bent in different ranges.
Further, since the footrest is of a type that bulges upward and curves, and that both feet are placed at the same time, the footrest cannot always be placed on the footrest at the same position. Therefore, since the influence exerted on the foot by changing the tilt angle varies depending on the position of the foot, there is a problem that an extremely fine ankle joint motion cannot be performed.

Moreover, although the invention described in the above-mentioned patent document 2 can perform health training with various variations, since the step device does not have an inclination angle adjustment mechanism, the muscles are moved little by little particularly by rehabilitation. It is not suitable when there is a need to go.
Further, as in Patent Document 1, the step plate of the step device is of a type in which the foot is simply placed on each foot, but the foot cannot always be placed on the footrest at the same position. The influence exerted on the foot by changing it varies depending on the position of the foot, and there is a problem that an extremely fine ankle joint movement cannot be performed.
Furthermore, since the step device described in Patent Document 2 is tilted so as to raise the heel side from the horizontal position, it is not sufficient to improve the flexibility of the region centering on the calf muscle and the Achilles tendon. is there.
Moreover, since the step apparatus described in Patent Document 2 has a large gap between the left and right step plates, there is a risk that a foot may be caught in the gap.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an ankle joint exercise device that can perform sufficient exercise of the ankle joint even if the user's muscle strength is weak or the joint is stiff, and can perform extremely fine exercise safely for the user. Is to provide.

In order to solve the above-described problems, an ankle joint exercise device of the present invention swings in a direction to change a forward inclination angle with respect to a rear side while being fitted in the base and housed in the base. A pair of left and right pedal parts supported movably, an actuator that swings and drives the pedal part, a control means that controls the operation of the actuator, and a body that is provided on the base so that the user stands An ankle joint exercise device comprising supporting means for supporting
The pedal portion includes a footrest plate on which a user's foot is placed, a left and right side wall that is erected over the entire circumference of the footrest plate, a front wall that is provided in front of the left and right side walls, and the left and right side walls. The rear wall is an inner moat structure including a frame that also serves as a stopper that contacts the user's heel, and is supported to be swingable around a hinge provided at the rear part. And
In addition, the left and right side walls of the frame change from the rear to the front so that the height of the wall surface increases, and the side surface shape is the same fan shape that is located at the rear, and the outer wall side of the front wall is The curved surface shape along the fan-shaped curved surface, and the shape of the portion of the base that supports the pedal portion that faces the front wall of the frame is a curved surface shape along the curved surface shape of the front wall. to, characterized in that there.

Further, according to the present invention, when a user puts his / her foot on the footrest plate of the pedal portion and swings so that the toe side is raised with respect to the heel side, the pedal portion is exposed upward from the state in which the pedal portion is housed in the base. to characterized in that so as to.

Further, according to the present invention, the outer wall side of the right side wall of the frame of the left pedal portion and the outer wall side of the left side wall of the frame of the right pedal portion are vertical walls, and the left and right pedal portions are in sliding contact with each other between the outer wall sides. It is characterized in that it is set so that there is no possibility that the user's foot is caught in the minimum gap supported so as to be swingable .

According to the ankle joint exercise device of the present invention, the pair of left and right pedal parts supported to be swingable with respect to the base includes the footrest plate and the frame, and the frame includes the left and right side walls, the front wall, and the rear wall. Since the inner moat structure is constructed over the entire circumference of the footrest plate, the user can fit the foot in the pedal portion, and the foot does not protrude from the pedal as in the conventional example. In particular, the rear wall of the frame also serves as a stopper that comes into contact with the user's heel, so that it is easy to place the foot on the same position in the pedal portion, and the foot position is stabilized. Further, since the stopper swings integrally with the pedal portion, it can be prevented that the heel is rubbed by the stopper and becomes painful or peeled off.
Thus, since the position of the foot can always be stabilized, it is possible to carry out extremely fine ankle movement by changing the inclination angle.
Thereby, even if the muscular strength is weakened or the joint is stiff, the user can efficiently improve the flexibility of the part centered on the calf muscle and the Achilles tendon.

Further, according to the present invention, the outer wall side of the right side wall of the frame of the left pedal portion and the outer wall side of the left side wall of the frame of the right pedal portion are vertical walls, and the left and right pedal portions do not slide against each other between the outer wall sides. Since the minimum gap supported so as to be swingable is set, a large gap as shown in the conventional example is not formed between the left and right pedal portions.
Therefore, it is safe because there is no fear that the user's foot is caught between the left and right pedal parts.

  Furthermore, according to the present invention, the left and right side walls of the frame are changed so that the height of the wall surface increases from the rear to the front, so that the user can easily put his / her feet from the rear toward the front.

  Further, according to the present invention, the left and right side walls of the frame have the same sector shape, and the outer wall side of the front wall has a curved shape along the curved surface of the sector shape. Since the shape of the portion facing the wall is also a curved shape along the curved shape of the front wall, the base can be supported in a state where the pedal portion is stored compactly, and space saving can be achieved.

  Embodiments of the present invention will be described below with reference to the drawings. 1 is a perspective view showing an ankle exercise apparatus according to an embodiment of the present invention, FIG. 2 is a front view thereof, FIG. 3 is a side view thereof, and FIG. 4 is a plan view thereof. FIG. 5 is an enlarged side view showing the movement of the pedal portion provided in the ankle joint exercise device according to the embodiment of the present invention.

As shown in FIGS. 1 to 5, the ankle joint exercise device according to this embodiment includes a base 1 and a pair of left and right (two left and right) pairs fitted in substantially the center of the base 1 and supported so as to be able to swing. A pair of pedal portions 2 and 3, and a substantially inverted U-shaped column portion 4 in which two leg portions 4a and 4b extend upward from the front portion of the base 1 and are connected to each other at the upper portion. The column part 5 has a substantially inverted U shape in which two leg parts 5a and 5b extend upward from the rear part of the base 1 and the legs 5a and 5b are connected to each other at the upper part. A handrail portion 6 that is provided on the upper inner side of the support column 4 with the left and right sides protruding inward, holds the user U on the pedal portions 2 and 3, and supports the user U in a standing state; An operation display unit 7 including a plurality of operation switches and a monitor provided on the upper part of the sliding unit 6, and provided on the upper part of the support column unit 5. A back support 8 for supporting in a state of standing back of, such as base 9 provided at the rear end of the base 1 is provided.
When the user U rests on the pedals 2 and 3 from the pedestal 9, the leg 5a of the column 5 is separated from the base 1 and the column 5 rotates around the leg 5b (in the direction of the arrow shown in FIG. 1). And when the user U mounts on the pedal parts 2 and 3 straight from the rear part of the base 1, the support | pillar part 5 does not become an obstacle.

In addition, stepping motors 11 and 12 functioning as actuators that swing and drive the pedal portions 2 and 3 are provided inside the base 1, and the pedal portions 2 and 3 include a user U applied to the pedal portions 2 and 3. Pressure sensors 13, 14, 15, and 16 are provided for detecting the load.
Further, inside the base 1 (alternatively, it may be provided in the operation display unit 7), as shown in FIG. 6, an instruction from the user U input from the operation display unit 7, The control unit 20 comprising a CPU that controls the operation of the stepping motors 11 and 12 via the driver 22 based on the determined reference inclination angle θ ₀ of the pedal units 2 and 3, and the load detected by the pressure sensors 13 to 16 A storage unit 21 is provided which includes a RAM for storing a value and a reference inclination angle θ ₀ and a ROM in which a control program is written. The control unit 20 can control the forward / reverse rotation of the stepping motors 11 and 12 separately to set the swing drive speeds of the pedal units 2 and 3 differently, and variably set the swing drive speeds. You can also. It should be noted that the operation display unit 7 can display the result of the ankle joint movement, and can display a normal television image or video image for maintaining and relaxing the posture of the user U.

As shown in FIGS. 4 and 5, the left and right pedal portions 2 and 3 are erected over the entire circumference of the plate-like footrest plates 2a and 3a on which the user U's feet are directly placed and the footrest plates 2a and 3a. It is an inner moat structure composed of frames 32 and 33, and the footrest plates 2a and 3a have a forward inclination angle θ with respect to the rear, that is, the toe side with respect to the heel side of the foot of the user U as shown in FIG. It is supported so as to be able to swing in the direction of changing from the horizontal direction upward.
Thus, by making the left and right pedal portions 2 and 3 have an inner moat structure, the entire sole of the user's U foot can be reliably placed on the footrest plates 2a and 3a. Therefore, it is possible to accurately measure the load of the user U and to perform exercise such as rehabilitation of stable ankle function.

As shown in FIG. 5, a support plate 34 that extends downward is fixed to the lower portion of the footrest plate 2 a of the left pedal portion 2. A bevel gear 35 that rotates in the vertical direction is provided on the side surface of the support plate 34, and the support shaft of the bevel gear 35, that is, in the left-right direction of the pedal portions 2, 3 (direction perpendicular to the front and rear of the pedal portions 2, 3). An extending support shaft is fixed to the support plate 34. The bevel gear 35 is a bevel gear 37 that rotates in the vertical direction attached to the tip of a coupling 36 that is attached to the rotation shaft of the stepping motor 11, that is, the rotation shaft that extends parallel to the front-rear direction of the pedal portions 2 and 3. Are engaged. In addition, another gear may be interposed between the bevel gears 35 and 37 in order to increase the torque.
As a result, the pedal portion 2 is supported so as to be swingable around a support shaft of a bevel gear 35 serving as a hinge provided at the rear portion thereof, and the forward rotation of the stepping motor 11 causes the pedal portion 2 to move forward. The direction in which the inclination angle is changed upward, that is, as shown by a two-dot chain line in FIG. 5, when the user U puts his / her foot on the pedal portion 2, it swings so as to raise the toe side with respect to the heel side. (In FIG. 5, the inclination angle θ indicates a state in which the toe side is raised with respect to the heel side), and the reverse rotation of the stepping motor 11 causes the pedal portion 2 to change the forward inclination angle with respect to the rear thereof downward. That is, when the user U puts his / her foot on the pedal portion 2, it swings so that the toe side is lowered with respect to the heel side. In the present embodiment, since the footrest plate 2a of the pedal portion 2 is in a horizontal state during normal times when the user U is not placed, the forward movement of the stepping motor 11 causes the pedal portion 2 to move forward from the horizontal direction. The pedal portion 2 is swung so as to decrease the tilt angle in the reverse direction due to the reverse rotation of the stepping motor 11.

  Here, the mechanism for the left pedal portion 2 has been described in detail. Similarly, for the right pedal portion 3, a bevel gear meshing with a support plate and a bevel gear attached to the stepping motor 12 via a coupling is also provided. The pedal part 3 is provided so that the forward direction of the stepping motor 12 becomes higher than the horizontal direction and the tilting angle is increased by the forward rotation of the stepping motor 12. The reverse rotation of the stepping motor 12 causes the pedal part 3 to move in the reverse direction. In this way, it is swung so as to reduce the inclination angle.

The frames 32 and 33 include left side walls 32a and 33a, right side walls 32b and 33b, front side walls 32c and 33c connected in front of the left and right side walls 32a, 33a, 32b and 33b, and left and right side walls 32a and 33a, It consists of rear surface walls 32d and 33d connected to the rear of 32b and 33b, and surrounds the entire circumference of the footrest plates 2a and 3a.
The rear walls 32d and 33d also serve as stoppers that contact the heel of the user U when the pedal portions 2 and 3 are inclined. According to this, the position of the foot is stably fixed by the user U bringing the heel into contact with the stopper, and the stopper swings integrally with the pedal portions 2 and 3, so that the heel is rubbed with the stopper. It can be prevented that it hurts or peels off.

Further, the left and right side walls 32a, 33a, 32b, and 33b have the same fan-shaped side surface that is located on the rear side, and change so that the height of the wall surface increases from the rear to the front.
According to this, the user U can easily place his / her feet on the footrest plates 2a and 3a from behind the pedal portions 2 and 3.
Particularly, the outer wall side (right pedal part 3 side) of the right side wall 32b of the frame 32 of the left pedal part 2 and the outer wall side (left side pedal part 2 side) of the left side wall 33a of the frame 33 of the right pedal part 3 are both vertical walls. The space between the two outer walls is set to a minimum gap in which the left and right pedal portions 2 and 3 are supported so as to be swingable without being in sliding contact with each other.

  Further, the outer wall side of the front walls 32c and 33c, that is, the front side of the pedal portions 2 and 3, bulges toward the front side in a curved shape along the fan-shaped curved surfaces of the left and right side walls 32a, 33a, 32b and 33b. . Correspondingly, the shape of the front portion 38 of the base 1 facing the front walls 32c, 33c of the frames 32, 33 is a curved surface shape along the curved surface shape of the front walls 32c, 33c. .

Further, as shown in FIG. 4, the pressure sensor 13 is attached in front of the footrest plate 2a of the left pedal portion 2, detects a load applied to the toe side of the left foot of the user U, and the pressure sensor 14 The pedal portion 2 is attached to the rear side of the footrest plate 2a, detects the load applied to the heel side of the user U's foot, and the pressure sensor 15 is attached to the front side of the footrest plate 3a of the right pedal portion 3. The load applied to the toe side of the right foot of the user U is detected, and the pressure sensor 16 is attached to the rear side of the footrest plate 3a of the right pedal portion 3 so as to detect the load applied to the heel side of the right foot of the user U. It has become.
Then, the load values detected by the pressure sensors 13 to 16 are sent to the storage unit 21.

In the ankle exercise apparatus configured as described above, the control unit 20 executes processing as shown in FIG.
The controller 20 performs initialization when the power is turned on (step 1). In initialization, internal timers, counters, registers, etc. are set to initial values.
Next, the control part 20 detects the presence or absence of the input from the user U (step 2), and will read the content, if there exists an input (step 3). The input includes ID information for identifying the user U.

Based on the input data, the control unit 20 determines whether automatic control is selected or manual control is selected (step 4). If manual control is selected, the corresponding manual control process is performed. If automatic control is selected (step 5), automatic control processing shown in steps 6 to 16 is performed.
In the manual control, the user inputs the tilt angle of the pedal units 2 and 3, the swing drive speed during training, and the training time input by the user U, or the preset tilt angle, swing drive speed, and training time. Based on the value selected by U, the pedal portions 2 and 3 are swung. Usually, an instructor in a hospital or training gym performs an input or selection by referring to the state of the user U or a past record, but the user U can also directly input or select.

On the other hand, when the automatic control is selected in step 4, the control unit 20 performs a reference inclination angle determination process for determining a reference value of the inclination angle of the pedal units 2 and 3 suitable for the user U (step 6).
The processing content of the reference inclination angle determination will be described with reference to FIG.

In this process, first, the control unit 20 reads the values detected by the pressure sensors 13 and 14 and inputs the values to the registers S ₁ and S ₂ (step 61). Here, among the pressure sensors 13 to 16 provided in the left and right pedal portions 2 and 3, the value of the pressure sensor on the side where the load is detected by the user U being placed on the pedal portions 2 and 3 is read. ing. That is, when the user U puts both feet on the left and right pedal portions 2 and 3, the left pedal portion 2 is given priority (in this embodiment, the left pedal portion 2 is given priority, but there is no particular meaning. When the values of the pressure sensors 13 and 14 provided in the pedal part 3 may be prioritized) and only one foot is placed, the value of the pressure sensor provided in the pedal part on the side where the one foot is placed Is read. Moreover, you may make it give priority to the side detected first among right-and-left pressure sensors 13-16. According to this, for example, the foot on the necessary side such as rehabilitation may be first placed on the pedal portion.
Thus, the load value of the toe side of the user U to the pressure sensor 13 has detected is entered into the register S _1, the load value of the heel side of the user U to the pressure sensor 14 has detected is input to the register S _2.

Then, by shifting the value of the register M ₁ which load value is input in the toe as well as a shift in the register N _1, the value of the register M ₂ which load value is input in the heel side to the register N ₂ (Step 62 ), then inputs the value of the register S ₁ to the register M _1, and inputs the value of the register S ₂ to the register M ₂ (step 63).
As a result, the load values on the toe side and the heel side of the user U read in step 61 are input to the registers M ₁ and M ₂ respectively, and the toe side of the user U read in step 61 last time. The load value on the heel side is shifted and input to the registers N ₁ and N ₂ , respectively. Initially, by initialization (step 1), 0 is set in the registers M ₁ and M _2, and 0 is also set in the values of the shifted registers N ₁ and N ₂ .

Next, the control unit 20 compares the values of the registers M ₁ , M ₂ , N ₁ , and N ₂ (step 64). Here, the condition that the value of the register N ₁ is less than the value of the register N ₂ (N ₁ <N ₂ ) and the value of the register M ₁ is equal to or greater than the value of the register M ₂ (M ₁ ≧ M ₂ ). It is determined whether or not the above is satisfied.
And when not satisfy | filling conditions, the control part 20 performs the process which increases the inclination-angle of the pedal part 2 until it satisfy | fills conditions (step 65). At this time, the pedal portion 3 may be inclined in the same manner as the pedal portion 2 or may not be inclined.
Thereafter, when the condition is satisfied, the inclination angle of the pedal portion 2 at that time is determined as the reference inclination angle θ ₀ (step 65), and the process returns.
That is, as shown in the graph of FIG. 9, when the user U is placed on the pedal portion 2, the load is applied in the same manner on the toe side (value of the pressure sensor 13) and on the heel side (value of the pressure sensor 14). When the toe side is increased by increasing the inclination angle of the pedal portion 2, the load value on the heel side becomes larger than the load value on the toe side, but when the inclination angle is further increased, a certain inclination angle (in the graph) In the case, the load value on the toe side and the heel side is reversed at 15 degrees), the load value on the toe side is larger than the load value on the heel side, and eventually the load value on the toe side is the maximum, It is known that the load value becomes 0 and the heel is lifted from the footrest plate 2a of the pedal portion 2. Therefore, in this embodiment, the inclination angle when the load value on the toe side and the load value on the heel side are reversed is set as the reference inclination angle θ ₀ .

When the reference inclination angle θ ₀ is determined, the control unit 20 returns to FIG. 7, and the control unit 20 performs the preparatory exercise swing process (step 7) and the training swing process (step 8) based on the reference tilt angle θ _0. )I do. That is, based on the reference tilt angle theta ₀ was in physical condition of the user U, the pedal unit 2, for example, as in the first part of the training shown in FIG. 10, tilted Warming angle theta ₁ through? ₀ ( It is swung several times within the range of θ ₁ <θ ₀ ), and then swung within the range of tilt angles θ _{0 to} θ ₂ (θ ₂ > θ ₀ ) as training. The inclination angle θ ₁ and the inclination angle θ ₂ are automatically calculated by the control unit 20 based on the reference inclination angle θ ₀ .

If the load of the user U greatly fluctuates per unit time during the training swing process, the control unit 20 determines that an abnormality has occurred in the user U, and swings the pedal units 2 and 3. Is supposed to stop.
That is, the control unit 20 reads the values detected by the pressure sensors 13 and 14 and inputs the values to the registers S ₁ and S ₂ in the same manner as in the above-described steps 61 to 63 (step 9).
Next, the value of the register M ₁ to which the load value on the toe side is input is shifted to the register N _1, and the value of the register M ₂ to which the load value on the heel side is input is shifted to the register N ₂ (step 10). ), then inputs the value of the register S ₁ to the register M _1, and inputs the value of the register S ₂ to the register M ₂ (step 11).
As a result, the load values on the toe side and the heel side of the user U read in step 9 are input to the registers X ₁ and X ₂ respectively, and the toe side of the user U read in step 9 last time. The load value on the heel side is shifted and input to the registers Y ₁ and Y ₂ , respectively. Initially, by initialization (step 1), the registers X ₁ and X ₂ are set to 0, and the shifted values of the registers Y ₁ and Y ₂ are also set to 0.

Next, the control unit 20 compares the values of the registers X ₁ , X ₂ , Y ₁ , Y ₂ (step 12). Here, the absolute value of the difference between the value of the register Y _{1 and} the value of the register X ₁ is greater than or equal to the limit value α, or the absolute value of the difference between the value of the register Y _{2 and} the value of the register X ₂ is the limit value β. It is determined whether or not the above condition is satisfied.
If the condition is not satisfied, it is determined that there is no abnormality, and it is determined whether the training is finished or the end switch is pressed according to the instruction from the user U (step 13). Returning, the processing below is repeated, and if it is completed, the result of the training is corresponded to each user U by the form as shown in FIG. 11, for example, the number of times, the date, the determined reference inclination angle θ ₀ , The swing speed, the number of swings, etc. are recorded (step 16). This record is output to the operation display unit 7. The record may be printed out, or the card created for each user U may be read and the record may be input to the card.
If the condition is satisfied in step 12, the control unit 20 forcibly stops the swinging of the pedal units 2 and 3, inputs the fact and the situation at that time into the remarks of the recording, and finishes the process (step 15).

  By performing such training, as shown in FIG. 10, when the user U performs the second training, the reference inclination angle is usually improved. Along with this, the maximum inclination angle during training increases compared to the first training, so that the exercise function is improved by training.

Here, when the load of the user U greatly fluctuates per unit time, it is determined that an abnormality has occurred in the user U and the swinging of the pedal units 2 and 3 is stopped (steps 9 to 12). 15) is performed during the training swing process (step 8), but the processes of steps 9 to 12 and 15 can also be provided during the preparatory movement swing process (step 7). .
Further, the reference inclination angle θ ₀ of the pedal unit 2 is determined based on the load applied to the left foot of the user U placed on the left pedal unit 2, and the swinging of the pedal units 2 and 3 is urgently stopped due to the fluctuation of the load However, the reference inclination angle θ ₀ of the pedal unit 3 is determined based on the load applied to the right foot of the user U placed on the right pedal unit 3 independently of the control of the left pedal unit 2. In addition, the swinging of the pedal portions 2 and 3 can be urgently stopped by a change in load. In such a case, two processes for determining the reference inclination angle shown in FIG. 8 are provided for the left pedal section 2 and the right pedal section 3, and the processes in steps 9 to 12 and 15 in FIG. By providing two for the pedal part 2 and for the right pedal part 3, this can be easily performed, and the pedal parts 2 and 3 can be swung with different phases for each leg.

Further, in the present embodiment, the reference inclination angle θ ₀ is set as an inclination angle when the load value on the toe side and the load value on the heel side are reversed as shown in FIG. Can be determined by.
For example, when the inclination angle is changed so as to raise the front of the pedal unit 2 and the load value on the heel side of the user U detected by the pressure sensor 14 becomes 0, that is, the inclination angle becomes too large. The inclination angle when the heel floats (θ ₂ shown in FIG. 9) or the load value on the toe side of the user U detected by the pressure sensor 13 exceeds a certain amount (30 kg shown in FIG. 9). The inclination angle (θ ₂ shown in FIG. 9) may be determined as the reference inclination angle. Here, since the reference inclination angle θ ₂ is the maximum value of the inclination angle of the pedal portion 2 and becomes the inclination angle θ ₂ shown in FIG. 10, the controller 20 changes the inclination angle shown in FIG. 10 from the inclination angle θ ₂ . theta _0, calculates the theta _1, with a wobbling for Warming a range of inclination angle theta ₀ through? _1, then will make a swing for training in a range of inclination angle theta ₀ through? ₂ .
Further, when the inclination angle is changed so that the front of the pedal portion 2 is raised, the amount of change in the load value detected by the pressure sensor 14 with respect to the change in the inclination angle exceeds a predetermined value for the heel. When the inclination angle is determined to be the reference inclination angle, or when the inclination angle is changed by raising the front of the pedal portion 2, the load value detected by the pressure sensor 13 with respect to the change in the inclination angle It is also possible to determine the inclination angle when the amount of change of the above becomes a predetermined value for toe or more as the reference inclination angle.
Such determination of the reference inclination angle can be easily performed by changing the condition of step 64 shown in FIG.

  Further, in this embodiment, the pedal portions 2 and 3 are swung at a cycle as shown in FIG. 10, but there are various modes as the cycle, for example, a cycle shorter than that shown in FIG. Thus, the pedal portions 2 and 3 can be swung, and the pedal portions 2 and 3 can be lifted and lowered while vibrating. In particular, when the pedal portions 2 and 3 are vibrated thinly at the maximum angle at which the foot neck is fully extended, the training effect is improved.

In this embodiment, the stepping motors 11 and 12 are used as the actuators for driving the pedal units 2 and 3 to realize high-precision control. However, the actuators are not limited to this. For example, the operating rod may be driven by an electric motor, or the operating rod may be driven by a fluid pressure cylinder to swing the pedal portions 2 and 3.
Moreover, although the pressure sensors 13-16 were used as a sensor which detects the user's U load, what kind of sensor may be sufficient as long as it can detect a load.

According to the automatic control as described above, the reference inclination angle θ ₀ of the pedal portions 2 and 3 that matches the physical condition of the user U is automatically determined, and based on the value, the swing range during the preparatory exercise is determined. Since (inclination angles θ _{1 to} θ ₀ ) and a swing range during training (inclination angles θ _{0 to} θ ₂ ) are set, it is possible to execute training that is optimal and fine for the user U.
Thereby, the user U can efficiently improve the flexibility of the part centering on the calf muscle and the Achilles tendon even if the muscle strength is weakened or the joint is stiff.
Moreover, since the pedal portions 2 and 3 and the stepping motors 11 and 12 are provided in pairs for each leg, there is a range where the right and left ankle joints can be bent because there is a failure and careful rehabilitation is required especially for one leg. Different cases can be accommodated.

Further, since the control unit 20 can variably set the swing drive range of the left and right pedal units 2 and 3, it can easily cope with a case where the range that can be bent at the left and right ankle joints of the user U is different.
Further, since the control unit 20 can variably set the swing drive speed of the two pedal units 2 and 3, the control unit 20 can swing the pedal units 2 and 3 in accordance with the physical condition of the user U. Can exercise joints.

  In addition, this invention is not limited to embodiment mentioned above, A various change is possible in the range shown to the claim. That is, embodiments obtained by combining technical means appropriately modified within the scope of the claims are also included in the technical scope of the present invention.

1 is an overall perspective view showing an ankle joint exercise device according to an embodiment of the present invention. It is a front view showing an ankle joint exercise device concerning an embodiment of the present invention. It is a side view showing an ankle joint exercise device concerning an embodiment of the present invention. It is a top view showing an ankle joint exercise device concerning an embodiment of the present invention. It is an expanded side view which shows a motion of the pedal part of the ankle joint exercise apparatus which concerns on embodiment of this invention. It is a block diagram which shows the outline | summary of the electric constitution of the ankle joint exercise apparatus which concerns on embodiment of this invention. It is a flowchart which shows the principal part of the processing content of the control part shown in FIG. It is a flowchart which shows the processing content of the reference | standard inclination angle determination shown in FIG. It is a graph which shows the relationship between the inclination-angle of a pedal part, and a load. It is the graph which showed an example of rocking | fluctuation control of a pedal part in the relationship between elapsed time and the inclination angle of a pedal part. It is a top view which shows an example of the content of a personal record.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Base 2 Left pedal part 2a Footrest board 3 Right pedal part 3a Footrest board 4 Support pillar (support means)
4a Leg 4b Leg 5 Support column (support means)
5a Leg part 5b Leg part 6 Handrail part 7 Operation display part 8 Back support part 9 Base 11 Stepping motor (actuator)
12 Stepping motor (actuator)
13 Pressure sensor 14 Pressure sensor 15 Pressure sensor 16 Pressure sensor 20 Control part (control means)
21 Storage unit 22 Driver 32 Frame 32a Left side wall 32b Right side wall 32c Front wall 32d Rear wall 33 Frame 33a Left side wall 33b Right side wall 33c Front wall 33d Rear wall 34 Support plate 35 Bevel gear 36 Coupling 37 Bevel gear 38 Relative to front wall The front part of the base to face U User

Claims (3)

The base,
A pair of left and right pedal parts that are fitted in the base and housed in the base and supported so as to be swingable in a direction in which a forward inclination angle with respect to the rear is changed;
An actuator that swings and drives the pedal unit;
Control means for controlling the operation of the actuator;
A support means provided on the base for supporting the body while the user is standing;
An ankle exercise device comprising:
The pedal portion is
A footrest plate for placing the user's foot;
The left and right side walls erected over the entire circumference of the footrest plate, a front wall continuously provided in front of the left and right side walls, and a rear wall continuously provided behind the left and right side walls, and the rear The face wall also serves as a stopper that contacts the user's heel; and
It is an inner moat structure consisting of and supported swingably around the hinge provided at the rear ,
In addition, the left and right side walls of the frame change from the rear to the front so that the height of the wall surface increases, and the side surface shape is the same fan shape that is located at the rear, and the outer wall side of the front wall is The curved surface shape along the fan-shaped curved surface, and the shape of the portion of the base that supports the pedal portion that faces the front wall of the frame is a curved surface shape along the curved surface shape of the front wall. An ankle motion device characterized by being. When the user puts his / her foot on the footrest plate of the pedal portion and swings so that the toe side is raised with respect to the heel side, the pedal portion is exposed upward from the state stored in the base. The ankle joint exercise device according to claim 1. The outer wall side of the right side wall of the frame of the left pedal part and the outer wall side of the left side wall of the frame of the right pedal part are vertical walls, and the left and right pedal parts can swing without sliding against each other between the outer wall sides. The ankle joint exercise device according to claim 1 , wherein the ankle joint exercise device is set so as not to cause a user's foot to be caught in a minimum supported gap.

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