JP2004187723A - Exercise machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an exercise apparatus for functional disordered person's rehabilitation, allowing a user to take load exercise different in exercise attitude and exercise amount between the right and the left and to take load exercise where the right and the left interlock with each other at least in the direction of receiving load resistance in one machine. <P>SOLUTION: In a rowing machine 1, operating arms 20R, 20L are turned by the right and left hands, thereby pulling a weight plate 7 upward to take exercise. An arm part 23R of a pulling arm 21R is provided with a plunger 15 for moving a pin forward and backward, and the plunger is moved forward and backward to a locking hole 16 provided in an opposite arm part 23L. The arm parts 23R, 23L are easily connected and the operations in the left and right load directions are interlocked by easy operation of pulling and rotating the plunger 15. At that time, the operation in the direction intersecting the load direction is set free by a turning joint 12. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to an exercise apparatus, and more particularly to an exercise apparatus suitable for rehabilitation performed by an exerciser with reduced physical motor function to restore the motor function.
[0002]
[Prior art]
Conventionally, exercise equipment that performs load exercise by linking load resistance such as weight, viscous resistance, spring resistance, etc. to a rotating arm or tow grip, and moving the rotation arm or tow grip with hands or feet Are variously known.
Such exercise equipment is adjusted so that a load acts on a specific muscle by appropriately setting the exercise direction in which the load is applied, so that individual muscles can be trained. In the case of instruments that act on the left and right muscles, there are those that move left and right independently and those that operate left and right in conjunction.
Patent Literature 1 discloses a fly training machine that trains the pectoralis major muscle by rotating the left and right upper arms in the horizontal direction, in which the left and right rotations are interlocked by gears, and when the upper arm is fixed to the arm pad. And a configuration in which the posture of the upper arm can be adjusted.
Patent Document 2 discloses a configuration in which a left and right grip is provided integrally with a U-shaped counter arm in a shoulder press training machine that vertically moves a grip, and the left and right grips perform the same vertical movement.
[0003]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 9-294827 (page 2-3, FIG. 1-5)
[Patent Document 2]
JP-A-9-294824 (pages 2-3, FIGS. 1 and 4)
[0004]
[Problems to be solved by the invention]
However, the conventional exercise equipment as described above has the following problems.
Since these conventional exercise equipment is designed as a training machine for strengthening the muscle strength of healthy people, motor dysfunction such as the elderly, physically disabled, sick, etc., whose physical function is partially reduced or paralyzed For rehabilitation of the elderly (hereinafter abbreviated as rehabilitation). For example, in many cases, these motor dysfunction patients not only have weakened predetermined muscles, but also have a lack of coordination of motor nerves, so there is little freedom in bending and stretching of limbs and movement, and load resistance is low. Even when there is no exercise, it is difficult to perform the same exercise as a healthy person. That is, similarly to a healthy person, it is often difficult to sit on an exercise machine and grip a rotating arm or the like and move it in a predetermined direction, or a great deal of stress is often involved.
However, in the techniques described in Patent Literatures 1 and 2, the movement trajectories of the pad to which the upper arm is fixed and the grip to be gripped are completely symmetrical, so that such a movement cannot be performed. For a motor dysfunction person who does not plan to perform rehabilitation, there is a problem that the exercise for rehabilitation, which is the original purpose, cannot be performed efficiently because only unnatural exercise is forced.
On the other hand, exercise equipment that can move the left and right hands or feet independently has few such problems, but if the left or right motor function is significantly reduced, the functionally degraded side is almost completely inactive. In addition, there was a problem that the amount of exercise for rehabilitation could not be secured.
In addition, by forcing the same exercise on the left and right, a therapy that stimulates rehabilitation by applying exercise stimulation to the motor function depressed side cannot be realized, and therefore, left and right interlocking exercise equipment must be separately prepared There was a problem.
[0005]
The present invention has been made in view of such a problem, and for the rehabilitation of a person with motor dysfunction, the left and right exercise postures and the left and right interlock at least in the direction of receiving the load resistance, with the load exercise having different exercise amounts. It is an object of the present invention to provide an exercise device that enables a single load exercise to be performed.
[0006]
[Means for Solving the Problems]
In order to solve the above problem, according to the first aspect of the present invention, a movement is performed by moving two gripping members connected to a load resistor that generates a load when moved in a predetermined direction with left and right hands or feet, respectively. And a gripping member interlocking mechanism for switching between a state in which the gripping members move independently of each other and a state in which the gripping members interlock with each other in the predetermined direction.
According to the present invention, when the gripping member is moved in a predetermined direction in which load resistance is generated (hereinafter, referred to as a load direction), a state in which the left and right hands or feet move independently and a state in which the left and right hands or feet move independently by the gripping member interlocking mechanism are switched. Therefore, a load exercise in which the left and right hands or feet have different exercise postures and amounts of exercise, and a load exercise in which the left and right hands or feet are interlocked can be performed by one unit.
[0007]
According to a second aspect of the present invention, in the exercise apparatus according to the first aspect, the gripping member is configured to be movable in a direction intersecting the predetermined direction.
According to the present invention, since the gripping member can move in the direction intersecting the load direction, it is possible to move the grip position in the direction intersecting the load direction even while moving in the load direction, and in the direction intersecting the load direction. A load exercise can be performed while changing the posture.
[0008]
According to a third aspect of the present invention, in the exercise apparatus according to the first or second aspect, the gripping member interlocking mechanism is capable of moving forward and backward in the axial direction from one of the gripping members to the other of the gripping members. A pin member is provided, and the connection and disconnection of the two gripping members are performed by moving the pin member forward and backward.
According to the present invention, the coupling and uncoupling of the two gripping members are performed by the reciprocation of the pin member, thereby switching between a state in which the gripping members are interlocked and a state in which the gripping members move independently. Switching becomes easy.
[0009]
According to a fourth aspect of the present invention, in the exercise apparatus according to any one of the first to third aspects, the gripping member interlocking mechanism includes an elastic member for urging an elastic force to push the pin member in the advance direction. An operating member that enables axial movement and rotation around the axis of the pin member, and a plurality of locking grooves for locking the operating member at predetermined positions in the axial direction and the axial direction, respectively. By moving the operation member between the plurality of locking grooves, the pin member can be moved forward and backward.
According to the present invention, the operation member is pulled back against the elastic member and retreated, and then is rotated around the axis and locked in the predetermined locking groove, whereby the connection with the opposite gripping member can be released. Then, the operating member is rotated while being pulled to be disengaged from the locking groove, and the pin member is pushed out in the advancing direction by the elastic force of the elastic member, so that the pin member can be connected to the opposite gripping member. Therefore, the gripping member interlocking mechanism can be operated by a very easy operation of pulling and rotating the operating member.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a front view for explaining a rowing machine 1 according to an embodiment of the present invention. 2 and 3 are side views as viewed from A and B in FIG. 1, respectively.
The rowing machine 1 according to the embodiment of the present invention is an exercise device for exercising, for example, latissimus dorsi, rhomboid muscle, posterior deltoid muscle, etc., by exercising the right and left upper arms at the sitting position. It is a device suitable for rehabilitation by elderly or sick persons who have declined or have motor dysfunction.
The schematic configuration of the rowing machine 1 includes a frame 3, a seat 4, a rotating arm 2R, 2L, a weight plate 7, and the like.
[0011]
The frame 3 is for supporting the rowing machine 1. The front frame 3b and the intermediate frame 3d are erected on a horizontally disposed lower frame 3a, and cantilever beams are formed obliquely upward in the upper part thereof. Is provided with an upper frame 3c.
The seating chair 4 is mainly for an exerciser to sit in a direction A shown in the figure, and stands upright at an end of the lower frame 3a. The height of the chair 4 can be adjusted.
The pad 5 provided at an intermediate portion in the vertical direction of the intermediate frame 3d is an auxiliary tool provided so that the exerciser can exercise while pressing the chest and fixing the posture of the upper body.
[0012]
As shown in FIGS. 2 and 3, the rowing machine 1 is formed substantially symmetrically left and right with respect to the center axis of the seating chair 4 in the side views in the views A and B. In the following, in order to simply represent the direction relating to the rowing machine 1, the direction in which the chair 4 is arranged in FIG. 1, that is, the sign A side is referred to as a rear side, and the sign B side in which the front frame 3b is arranged is referred to as a front side. The left and right when the rowing machine 1 is viewed from the rear side to the front side is referred to as the left and right of the rowing machine 1 or simply the left and right. Note that members provided at left and right symmetrical positions are denoted by reference numerals with L and R, respectively. These members have mutually symmetric shapes unless otherwise specified. Therefore, only one shape will be described below.
[0013]
The rotating arms 2R and 2L are provided at the intermediate portion between the front frame 3b and the chair 4 and at the lower portion on the upper end side of the upper frame 3c. It consists of towing arms 21R and 21L.
The towing arm 21R (21L) has, at its upper end, a rotating shaft 22R (22L) extending horizontally in the left-right direction. The arm 23R (23L) extends vertically from near the end of the rotating shaft 22R (22L). ) Are elongated L-shaped members. The rotation shaft portion 22R (22L) is rotatably fitted to a rotation fulcrum 11 provided at a lower portion of the upper frame 3c.
At the lower end of the arm 23R (23L), a traction pulley 10 having a rotation axis parallel to the rotation shaft 22R (22L) is provided.
Then, as shown in FIG. 2, the turning shaft portions 22R and 22L of the towing arms 21R and 21L are aligned on concentric axes. Further, the respective arm portions 23R (23L) are arranged so that they can be adjacent to each other in parallel at the center of the rowing machine 1 in the left-right direction.
[0014]
The operation arm 20R (20L) is connected to the upper end side of the traction arm 21R (21L) by the rotary joint 12, extends substantially parallel to the traction arm 21R (21L), and is near the lower end of the traction arm 21R (21L). In this case, the arm member is bent in the rearward direction. At its lower end, horizontal grips 2a, 2a are provided in horizontal and horizontal directions, and a vertical grip 2b is provided in an extending direction of the towing arm 21R (21L). When an exerciser sits on the chair 4, the upper arm is appropriately raised. In this state, the right (left) hand can grip the horizontal grip 2a or the vertical grip 2b.
[0015]
The rotation joint 12 is provided in a direction in which the rotation axis thereof is substantially perpendicular to the rotation shaft portion 22R (22L), more specifically, in a direction in which the rotation shaft slightly tilts inward from left and right outer sides when viewed from the rear side to the front side. ing. Therefore, when grasping the lateral grip 2a, the left and right hands can be arranged in a light inverted figure-eight shape on the front side of the body and grasped. Then, in this state, it is possible to change the position without difficulty in the left-right direction and move the load back and forth in the load direction.
[0016]
Note that the direction in which the rotation joint 12 intersects with the rotation shaft 22R (22L) is not limited to the direction substantially orthogonal to the rotation direction, as long as the amount of movement in the load direction becomes too large and the load effect is not lost. In, the angle can be set so as to reduce the burden on the exerciser. For example, the rotation joint 12 may be bolted so that the crossing angle can be changed.
[0017]
A plunger 15 (gripping member interlocking mechanism) is provided at an intermediate portion on the lower end side of the arm portion 23R. A locking hole 16 (see FIG. 2) is provided at a position facing the plunger 15 of the arm 23L when the arm 23R and the arm 23L are aligned in parallel.
FIG. 4A is a partial front sectional view for explaining the plunger 15. 4 (b) and 4 (c) are respectively a CC sectional view and a DD sectional view in FIG. 4 (a).
The plunger 15 includes a pin 15e (pin member), an outer cylinder 15d, an adjustment nut 17, a guide 15c, a knob 15a (operation member), and a coil spring 18 (elastic member).
[0018]
The pin 15e is a member that fits into the locking hole 16 and connects the arms 23R and 23L in the front-rear direction.
The outer cylinder 15d is a cylindrical member for holding the pin 15e movably in the axial direction, and has an external male thread formed on the outer periphery.
The adjustment nut 17 is a nut that is screwed into the male screw of the outer cylinder 15d, and is a position regulating member for adjusting the mounting position of the plunger 15 in the axial direction.
[0019]
The guide 15c is a grooved cylinder provided at the end of the outer cylinder 15d. As shown in FIG. 4B, a guide groove S1 (locking groove) is formed in one direction passing through the center axis of the guide 15c. Further, as shown in FIG. 4C, a guide groove S2 (locking groove) having a shallower groove depth in the axial direction than the guide groove S1 is provided in a direction perpendicular to the guide groove S1. The difference between the groove depths of the guide grooves S1 and S2 is set to an appropriate length necessary for the advance and retreat of the pin 15e. Further, the width of each groove in the circumferential direction is the same.
[0020]
The knob 15a is connected to a pin 15e via a locking shaft 15b fitted to the inner diameter of the guide 15c, and has an appropriate knob shape so that the pin 15e can be easily moved in the axial direction and rotated around the axial direction. Is provided. The locking shaft 15b is provided with locking projections 15B, 15B protruding in the radial direction and fitted in the width direction of the guide grooves S1, S2.
The coil spring 18 is a spring for urging an elastic force to press the pin 15e in the axial direction opposite to the knob 15a. The pin 15e is held in a compressed state by a spring stopper 15f provided at an intermediate portion of the pin 15e and another spring stopper (not shown) provided inside the outer cylinder 15d.
[0021]
The weight plate 7 is a plate-shaped metal plate that is appropriately divided into masses. Then, as shown in FIG. 3, a plurality of sheets are stacked in the up-down direction, and arranged by being guided by a guide rod 3e penetrating them in the up-down direction. And it is made to be able to move up and down integrally by the number of sheets from the uppermost part by a clamp means (not shown).
A moving pulley 8 having a rotating shaft oriented in the front-rear direction is fixed to an uppermost portion of the weight plate 7. The moving pulley 8 has a wire 6 wound around from above, and can be lifted by the wire 6.
[0022]
The wire 6 wound around the moving pulley 8 is turned obliquely rearward by the relay pulleys 9, 9 provided above the moving pulley 8 and having rotating shafts directed in the left-right direction, and the towing pulleys 10, 10 are turned. , And are turned upward, and their ends are locked by fixed hooks 13 fixed to the upper frame 3c.
[0023]
Next, an operation of the rowing machine 1 according to the embodiment of the present invention will be described. In FIG. 1, the rotation arm 2R is drawn by a solid line, and the rotation arm 2L is drawn by a two-dot chain line. However, since the respective front-back directions are the same, the state when the solid line pushes the arm forward is shown in FIG. The operation will be described assuming that the dotted chain line indicates a state when the arm is pulled backward.
[0024]
When the arm is pushed forward or before exercise, the weight plate 7 is lowered by its own weight, and the tow pulley 10 is pulled obliquely upward through the wire 6. Therefore, the arm portion 23R abuts against the stopper 14 in a state in which the arm portion 23R has completely rotated to the front side.
[0025]
When the athlete moves by pulling the horizontal grip 2a or the vertical grip 2b to the rear side, the towing pulley 10 moves in a circular arc having a length X, for example. Then, the wire 6 is pulled diagonally downward by 2 · X. Then, the moving pulley 8 rises by X. If the mass of the weight plates 7 and M, the work _{W 1} by this movement _is W 1 = M · g · X . Here, g is the gravitational acceleration.
If this exercise is performed with both arms, it is sufficient to consider that X has become 2 · X, and the work W _{2 in} that case is W ₂ = 2 · M · g · X.
That is, in the rowing machine 1, when the rotating arm 2R (2L) is pulled rearward, the weight plate 7 acts as a load resistance, and a load motion of the upper arm or the like is performed according to the amount of movement.
On the other hand, the load L _D applied to the left and right arms is the same as the tension of the wire 6 as long as the weight plate 7 is lifted, and L _D = (M · g) / 2.
[0026]
By the way, in the case of a healthy person, there is no extreme difference between the left and right muscular strength, so that the left and right muscular strength can be trained by performing the right and left exercises simultaneously or alternately with an appropriate load.
However, if there is a large left-right difference in the motor function of the athlete due to some obstacle, for example, a paralysis symptom in a part of the left upper arm, there may be a case where the left upper arm is pulled forward and there is almost no amount of exercise. Although the right upper arm can be exercised, the left upper arm is forced to be unnaturally pulled forward, resulting in an extremely imbalanced exercise that can lead to excessive fatigue and new failures.
In this case, since the left upper arm with paralysis is required to exercise for rehabilitation, the purpose of rehabilitation cannot be achieved.
[0027]
In such a case, the rowing machine 1 can link the movement of the rotating arms 2R and 2L in the load direction.
FIG. 5 is a partial sectional front view for explaining the operation of the plunger 15 in the present embodiment. FIGS. 5A and 5B show a linked state and a state of independently moving, respectively.
As shown in FIG. 5A, when the locking projection 15B of the plunger 15 is fitted in the guide groove S1, the pin 15e advances toward the arm 23L by the elastic force of the coil spring 18. It is fitted in the locking hole 16 provided on the arm 23L. As a result, the arms 23R and 23L move in the load direction.
[0028]
To release this interlocking state, as shown in FIG. 5B, the knob 15a is pulled in the direction in which the pin 15e withdraws from the locking hole 16 (the direction of the straight arrow in the figure), and the locking projection 15B is pulled. Is pulled out of the fitting of the guide groove S1, and then the knob 15a is rotated by 90 ° so that the locking projection 15B fits into the guide groove S2. At this time, the pin 15e retreats to a position where the pin 15e substantially fits in the outer cylinder 15d, and completely retreats from the locking hole 16.
[0029]
In order to return to the state shown in FIG. 5A, the arms 23R and 23L are first positioned so that the center axis of the pin 15e and the center axis of the locking hole 16 are aligned. Then, the knob 15a is pulled and rotated by 90 ° until the locking projection 15B is disengaged from the guide groove S2, and fitted into the guide groove S1. Then, the pin 15 e advances by the elastic force of the coil spring 18 and fits into the locking hole 16.
[0030]
In the present embodiment, since the connection and disconnection of the arms 23R and 23L are performed by a simple operation of only pulling and rotating the knob 15a, for example, the operation can be performed with one hand, which is extremely easy and convenient. There is an advantage that operation can be performed quickly. Therefore, time and effort can be saved for a device administrator, an assistant, and the like.
[0031]
As described above, in the rowing machine 1 according to the present embodiment, it is possible to easily switch between a state in which the rotating arms 2R and 2L performing left and right movements are interlocked and a state in which they are independently moved. Therefore, when rehabilitation is not performed in separate left and right exercises, such as when the motor function of one arm is significantly reduced, the left and right can be moved in conjunction with each other.
By doing so, the arm on the side with reduced motor function can be forcibly exercised, which stimulates the motor nerves and promotes the rehabilitation effect of promoting motor function recovery. Can be demonstrated.
[0032]
At that time, in the conventional exercise equipment that can perform separate left and right exercise, movement in the direction intersecting with the load direction is also regulated for the purpose of muscular strength training, so that it is designed to efficiently load multiple muscles On the other hand, in the present embodiment, since the rotation joint 12 is provided, even when a forced movement is imposed on the left and right upper arms by the left and right interlock, the movement in the direction substantially orthogonal to the load direction is performed. Is free.
Therefore, the exerciser can exercise in the load direction while moving the lateral grip 2a or the like to a free position in a direction substantially orthogonal to the load direction, according to the state of his or her movement disorder. As a result, no excessive stress is generated in a direction other than the load direction, so that the rehabilitation can be continued without difficulty even in a state where the movement of the joint is impaired, for example. In other words, there is an advantage that it is possible to provide an exercise equipment that is comfortable for a person with motor dysfunction.
[0033]
In the above description, the gripping member interlocking mechanism has been described as an example using the plunger 15 using a pin joint. However, the mechanism is not limited to this as long as the mechanism can interlock the rotating arms 2R and 2L. For example, an appropriate male-female joint may be used, or bolting may be used.
[0034]
Also, in the above description, the exercise equipment has been described as an example of a rowing machine, but any exercise equipment that can exercise left and right independently can be used.
Further, in the above description, an example has been described in which the load exercise is performed by grasping and pulling the gripping member with the hand, but it is needless to say that the exercise apparatus may be a push exercise by hand or an exercise apparatus that performs the load exercise with the foot.
[0035]
【The invention's effect】
As described above, according to the first aspect of the present invention, the left and right exercise postures and the momentums differ from each other because the gripping member interlocking mechanism can switch between a left and right independent movement state and an interlocking state. Since the left and right interlocking load exercise can be performed by one unit, there is an effect that one exercise unit can also serve as two types of exercise units. In particular, an excellent exercise device that can be used for exercising and maintaining muscle strength of healthy persons and convalescent patients and an exercise device for rehabilitation suitable for persons with motor dysfunction can be provided as a single unit. Has the effect.
[0036]
According to the second aspect of the present invention, the gripping posture in a direction intersecting the load direction can be changed, and even when the motor function is impaired, the load exercise can be performed with less stress. The effect is that comfort and rehabilitation without overload can be performed.
[0037]
According to the third aspect of the present invention, it is easy to switch between a state in which the gripping members are interlocked and a state in which the gripping members move independently, so that it is possible to save time and effort for setup change and the like, and to achieve efficient use. .
[0038]
According to the fourth aspect of the present invention, since the gripping member interlocking mechanism can be operated by a very easy operation, anyone can easily perform the switching operation, and the more efficient use is possible. Play.
[Brief description of the drawings]
FIG. 1 is a front view for explaining an exercise apparatus according to an embodiment of the present invention.
FIG. 2 is a side view as viewed from A in FIG.
FIG. 3 is a side view as viewed in B in FIG. 1;
FIG. 4 is a partial front view sectional view, a CC sectional view, and a DD sectional view for explaining a gripping member interlocking mechanism according to the embodiment of the present invention.
FIG. 5 is a partial front sectional view for explaining the operation of the gripping member interlocking mechanism according to the embodiment of the present invention.
[Explanation of symbols]
1 rowing machine (exercise equipment)
2R, 2L Rotating arm 7 Weight plate (load resistance)
12 Rotating joint 15 Plunger (Grip member interlocking mechanism)
15a Knob (operation member)
15e pin (pin member)
18 Coil spring (elastic member)
20R, 20L Operation arm (gripping member)

Claims (4)

An exercise instrument for performing exercise by moving two gripping members connected to a load resistance that generates a load when moved in a predetermined direction by right and left hands or feet, respectively.
An exercise tool, wherein a gripping member interlocking mechanism is provided for switching between a state in which the gripping members move independently of each other and a state in which the gripping members interlock with each other in the predetermined direction. The exercise device according to claim 1,
An exercise device, wherein the gripping member is movable in a direction intersecting the predetermined direction. The exercise equipment according to claim 1 or 2,
The gripping member interlocking mechanism includes a pin member provided to be able to advance and retreat in the axial direction from one of the gripping members to the other of the gripping members. An exercise device for performing disconnection. The exercise device according to any one of claims 1 to 3,
The gripping member interlocking mechanism,
An elastic member for urging an elastic force to push the pin member in the advance direction;
An operating member that enables the pin member to move in the axial direction and rotate around the axis,
A plurality of locking grooves for locking the operation member at predetermined positions in the axial direction and the axial direction, respectively.
The exercise equipment characterized in that the operation member can be operated to move forward and backward by moving the operation member between the plurality of locking grooves.

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