The present application is based on and claims the priority benefit of Japanese Patent Application 2008-122164 filed on May 8, 2008, the contents of which are incorporated herein by reference in its entirety.
1. Field of the Invention
The present invention relates to a walking assist device which assists a user in walking by alleviating a load acted on a leg thereof.
2. Description of the Related Art
Conventionally, there has been known a walking assist device having a load transmit portion, a ground contacting portion and a leg link disposed between the load transmit portion and the ground contacting portion, which assists a user in walking by alleviating a load acted on a leg thereof by means of supporting at least a part of the user's body weight by the leg link through the load transmit portion (for example, refer to Japanese Patent Laid-open No. 2007-20909).
In the conventional walking assist device, the ground contacting portion is composed of a special shoe provided with a connection member configured to connect with the leg link. Therefore, it is impossible to use a commercially available shoe in the conventional walking assist device, which makes it inconvenient in use since it is necessary to change to wear the special shoe every time when using the conventional walking assist device.
The present invention has been accomplished in view of the aforementioned problems, and it is therefore an object of the present invention to provide a walking assist device in which a commercially available shoe can be used.
To attain an object described above, the present invention provides a walking assist device having a load transmit portion, a ground contacting portion and a leg link disposed between the load transmit portion and the ground contacting portion, which at least a part of a user's body weight is supported by the leg link through the load transmit portion, wherein the ground contacting portion is composed of a footboard for supporting thereon a shoe; and the footboard is provided with a connection member for connecting with the leg link, a front holding member and a rear holding member for stably holding the shoe in an anteroposterior direction.
According to the present invention, the shoe is laid on the footboard and is held by the front holding member and the rear holding member in the anteroposterior direction to become integrated with the footboard. The shoe is subsequently connected with the leg link through the footboard and the connection member connected to the footboard. Therefore, the walking assist device can be used to assist walking by using a commercially available shoe without using a special shoe connected to the connection member, which makes it convenient in use.
The front holding member and the rear holding member may be designed to hold a protruded portion of a sole of the shoe in the anteroposterior direction, respectively. However, it is possible that a shoe may not have the protruded portions in the anteroposterior direction. Therefore, by configuring the front holding member to hold a front vamp portion of the shoe and the rear holding member to hold a rear vamp portion thereof, it is advantageous to use various kinds of shoes in the walking assist device.
Further, when a pressure sensor is disposed in the footboard to detect a stepping force by the user, it is desirable to locate at least a part of the front holding member which presses the shoe from the upper ahead of the pressure sensor. Thereby, a pressing force by the front holding member will not act on the pressure sensor, and consequently, the detection error on the stepping force by the pressure sensor becomes small, improving the detection accuracy of the stepping force.
Hereinafter, a walking assist device according to an embodiment of the present invention will be described. As illustrated in
Each leg link 3 can bend and stretch freely, composed of a first link member 32, and a second link member 34. The first link member 32 is connected to the seat member 1 through a first joint portion 31 at an upper end thereof, capable of swinging freely in the anteroposterior direction around the seat member 1. The second link member 34 is connected to a lower end of the first link member 32 through a rotary-typed second joint portion 33. A lower end of the second link member 34 is connected with a ground contacting portion 2 through a third joint portion 35 of a 3-axis structure.
The first link member 32 is provided with a driving source 4 for driving the second joint portion 33. Thereby, according to the rotation of the second joint portion 33 driven by the driving source 4, each leg link 3 is stretched to push the seat member 1 along a stretching direction upward so as to generate an assist force to support at least a part of a body weight of a user P (hereinafter, referred to as a body weight relieving assist force). The body weight relieving assist force generated in each leg link 3 is transmitted to the body trunk of the user P through the seat member 1 to relieve the load acted on a leg of the user P.
The driving source 4 is an electric motor provided with a reduction gear 4a, attached to a side surface of an upper end portion of the first link member 32. An output member of the reduction gear 4a, that is, a driving pulley 4b and a driven pulley 34a which is fixed concentrically with a joint axis 33a of the second joint portion 33 at the second link member 34 are connected through a wrapping transmission member 4c, such as a wire, a chain, a belt or the like. Thereby, a driving force output from the driving source 4 is transmitted to the second link member 34 through the wrapping transmission member 4c so that the second link member 34 swings around the joint axis 33a with respect to the first link member 32 to bend or stretch the leg link 3. Additionally, the first link member 32 is provided with a cover 32a configured to cover the wrapping transmission member 4c.
The seat member 1 is composed of a seat portion 1a, a support frame 1b, and a waist supporter 1c. The seat portion 1a is of a saddle shape to be seated by the user P. The support frame 1b is disposed below the seat portion 1a to support the seat portion 1a. The support frame 1b is configured to extend upward behind the seat portion 1a to form an uprising portion at a rear end thereof. The waist supporter 1c is disposed at the uprising portion. The waist supporter 1c is provided with a holding portion 1d of an arch shape to be held by the user P if necessary.
The first joint portion 31 at the upper end of each leg link 3 has a guide rail 31a of an arc shape disposed below the seat member 1. Then, each leg link 3 is movably engaged with the guide rail 31a via a plurality of rollers 31c pivotally attached to a slider 31b which is fixed to the upper end of the first link portion 32. In this way, each leg link 3 swings in the anteroposterior direction around the center of curvature of the guide rail 31a and the anteroposterior swing fulcrum of each leg link 3 functions as the center of curvature of the guide rail 31a.
Furthermore, the guide rail 31a is pivotally supported at the uprising portion formed at the rear end of the support frame 1b of the seat member 1 via a spindle 32d which is longitudinal in the anteroposterior direction. Therefore, the guide rail 31a is connected to the seat member 1, capable of swinging freely in the lateral direction. Accordingly, each leg link 3 is allowed to swing in the lateral direction, which enables the user P to abduct his/her legs. In addition, the center of curvature of the guide rail 31a and the axis line of the spindle 31d are both located above the seat portion 1a. Thereby, the seat member 1 can be prevented from inclining greatly in the vertical direction and in the lateral direction when the user P shifts his/her body weight.
Each ground contacting portion 2 is composed of a footboard 21 for supporting thereon a shoe 5 to be worn by each foot of the user P. The footboard 21 is provided with a connection member 22 connected to the lower end of the leg link 3 through the third joint portion 35. The footboard 21 is also provided with a front holding member 23 and a rear holding member 24 for stably holding the shoe 5 in the anteroposterior direction, that is, to prevent the shoe 5 from deviating in the anteroposterior direction.
Since the shoe 5 supported on the footboard 21 is held by the front holding member 23 and the rear holding member 24 in the anteroposterior direction, the footboard 21 is integral with the shoe 5. Consequently, the shoe 5 is essentially connected with the leg link 3, through the footboard 21 and the connected member 22 disposed at the footboard 21. Therefore, a commercially available shoe 5 can be used instead of a special shoe connected to the connection member. As a result thereof, it is convenient to use the walking assist device since it is not necessary to change to wear the special shoe every time when using the walking assist device.
Herein, it is possible to configure the front holding member 23 and the rear holding member 24 to hold a protruded portion from a sole of the shoe 5 in the anteroposterior direction, respectively. However, it is unable to cope with a shoe without such protruded portions in the anteroposterior direction in this configuration. Therefore, as illustrated in
The front holding member 23 is composed of a pair of laterally disposed bands 23a and 23a. Each band 23a is provided with a fastener. When the rear vamp portion of the shoe 5 is pushed to contact with the rear holding member 24, the pair of bands 23a and 23a of the front holding member 23 are tied up on the front vamp portion of the shoe 5 so as to hold the front vamp portion.
The rear holding member 24 is configured to have an inward inclination in the upward direction to have a surface contact with the rear vamp portion of the shoe 5. According thereto, the rear vamp portion of the shoe 5 can be certainly prevented from slipping out. Moreover, in case the rear holding member 24 is formed from a hard material, by attaching a friction material such as rubber or the like on the rear holding member 24 to be contacted by the rear vamp portion, the rear vamp portion of the shoe 5 can be further prevented from slipping out. It is possible to form the rear holding member 24 from a soft material such as rubber or the like to have the same shape as described in the present embodiment. It is also acceptable that the rear holding member 24 is composed of a pair of laterally disposed bands and each band is provided with a fastener so that the rear vamp portion of the shoe 5 is held by fastening the pair of bands.
In order to detect the stepping force from the user P, the footboard 21 is provided with three pressure sensors 6, in detail, two of them are located underneath the MP joints of the user's foot in the front (at an MP joint supporting portion 21a of the footboard 21), respectively, and one of them is located underneath the heel of the foot in the back. Moreover, a 2-axis force sensor 7 is built into the third joint portion 35. Detection signals from the pressure sensors 6 and the force sensor 7 are input to a controller 8 housed in the support frame 1b of the seat member 1. On the basis of the detection signals from the pressure sensors 6 and the force sensor 7, the controller 8 performs a walking assist control by controlling the driving source 4 to drive the second joint portion 33 of the leg link 3 to generate the body weight relieving assist force.
The body weight relieving assist force is acted on a connection line (hereinafter, referred to as a reference line) joining a swing fulcrum of the leg link 3 with respect to the first joint portion 31 in the anteroposterior direction and a swing fulcrum of the leg link 3 with respect to the third joint portion 35 in the anteroposterior direction. In the walking assist control, the actual body weight assist force acted on the reference line (accurately, a resultant force between the body weight relieving assist force and a force generated by the weights of the seat member 1 and each leg link 3) is calculated based on detection values of forces in the two-axis direction detected by the force sensor 7. Thereafter, on the basis of the stepping force detected by the pressure sensors 6 in each ground contacting portion 2, a ratio of the stepping force of each leg with respect to the resultant force from both legs of the user P is calculated. Then, a desired control value of the body weight relieving assist force which should be generated for each leg link 3 is calculated by multiplying a predefined value of the body weight relieving assist force by the calculated ratio of the stepping force of each leg. Subsequently, the driving source 4 is controlled so as to make the actual body weight relieving assist force calculated on the basis of the detection values by the force sensor 7 approximate to the desired control value.
Herein, if a pressing force generated by the front holding member 23 is acted on the pressure sensors 6, the detection accuracy of the stepping force will be deteriorated. Therefore, as illustrated in
Although the embodiment of the present invention has been described hereinabove with reference to the drawings, the present invention is not limited thereto. For example, in the above-mentioned embodiment, the leg link 3 is configured as a telescopic link with a rotary second joint portion 33 disposed therein; it is acceptable that the leg link is configured as a telescopic link having a linear second joint portion. In addition, it is possible to adopt a harness mounted around the waist of the user as the load transmit portion. Moreover, in order to assist the walking of a handicapped user whose one leg is crippled due to bone fracture or the like, it is possible to leave only one leg link of the left and right leg links 3 and 3 in the above-mentioned embodiment corresponding to the crippled leg of the user by removing the other.
Number | Date | Country | Kind |
---|---|---|---|
2008-122164 | May 2008 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5476441 | Durfee et al. | Dec 1995 | A |
5935047 | Cawley | Aug 1999 | A |
6699209 | Turtzo | Mar 2004 | B2 |
6935991 | Mangino | Aug 2005 | B1 |
7278954 | Kawai et al. | Oct 2007 | B2 |
7563238 | Breashears | Jul 2009 | B1 |
7578799 | Thorsteinsson et al. | Aug 2009 | B2 |
Number | Date | Country |
---|---|---|
2278041 | Nov 1994 | GB |
2007-020909 | Feb 2007 | JP |
Number | Date | Country | |
---|---|---|---|
20090281636 A1 | Nov 2009 | US |