The present invention relates to a shoelace tying device to assist a user with limited hand dexterity in forming a knot in a shoelace.
Shoelace tying is a daily activity that can be particularly difficult for people with limited fine motor hand skills. For instance, individuals stricken with birth defects, amputations, strokes, and arthritis can find shoelace tying difficult if not impossible. Such individuals are thus forced to seek the assistance of a care provider or to wear shoes that use hook-and-loop fasteners, e.g., Velcro strips, or shoes outfitted with specially made shoelaces that do not need to be tied in a conventional manner to secure the shoe around the individual's foot. Such specially made shoes and shoes outfitted with Velcro strips however are not always ideal.
For example, a tieless elastic shoelace has been proposed that has plastic disks at each end of the shoelace. The plastic disks are temporarily removed to allow the shoelace to be threaded through the eyelets of the shoe. Once the shoelace is threaded, the disks are secured to the ends of the shoelace and are operative as a stop to prevent the ends of the shoelace from being pulled back through the first eyelets. With such a configuration, the shoelace sets a maximum of the opening formed between the tongue and the counter of the shoe into which the individual can slip the foot into the shoe; however, the shoelace cannot be effectively tightened to snug the shoe around the foot. In this regard, the shoe may not provide the necessary support for the foot and ankle that is needed for athletic activity, such as walking. Another drawback of such special shoelaces is that the original shoelaces that come with the shoes must be removed and replaced, which can be difficult for an individual with limited fine motor skills in one or both hands.
Velcro strips, or other hook-and-loop fasteners, are effective in providing a snug fit of the shoe around the foot. However, shoes equipped with such fasteners are generally not visually appealing and thus are typically not preferred for formal wear or business attire. The individual must then either wear a conventional shoe and seek assistance in tying the shoelaces or wear the unsightly hook-and-loop fastener shoe that can negatively impact the individual's esteem and confidence.
The present invention is directed to a shoelace tying apparatus designed to aid individuals with limited or no use of one hand to tightly tie footwear with standard shoelaces. The apparatus is lightweight and portable. In addition, the apparatus alleviates the need for special shoelaces or shoes, such as those equipped with hook-and-loop fasteners.
The apparatus is generally comprised of a stand and a tying device. The stand includes a stand base, a stand arm, a collet, and a tying platform. The stand arm extends upwardly from the base and has a series of vertically spaced notches to which the collet may be selectively secured to accommodate various shoe types and sizes. The tying device is secured to the collet and thus the spacing between the tying device and the stand base may be adjusted by repositioning the collet on the stand arm. The tying device generally includes a pair of hooks, a rack and pinion system, anchor points, and cleats. Once the tying device is secured at a desired height relative to the stand arm, a user may wrap the ends of the shoelace around the anchor points and the hooks and then pull the ends through the cleats to secure the ends to the tying device. The hooks are connected to the rack and pinion system such that movement of one hook automatically causes an equal, but opposite movement of the other hook. Through a series of movements of the free ends of the shoelace and the hooks, which can be performed by an individual with limited dexterity, the shoelace can be tied to a user defined tightness and thus provide a snug fit of the shoe around the foot.
The shoelace tying procedure is summarized below:
A. Place shoe on stand base beneath tying device and adjust height of tying device as needed;
B. Push one of the hooks inwardly toward the center of the tying device;
C. Manually tie slip knot by pulling free ends of the lace down and outward through cleats;
D. Release shoelace from right cleat;
E. Wrap that free end of the shoelace around the right anchor point from front to back;
F. Pull that free end of the shoelace down through the left hook and then toward the front of the tying device, under the right hook;
G. Pull that free end of the shoelace again down through the right cleat;
H. Release the free end of the shoelace from the left cleat;
I. Slide that free end of the shoelace toward the back of the tying device, under all hooks and anchor points;
J. Wrap that free end of the shoelace around the left anchor point from back to front
K. Pull that free end of the shoelace down through the right hook;
L. Pull that free end of the shoelace down through the left cleat;
M. Pull outward on one of the hooks until a knot with a desired tightness is formed;
N. Release free ends from the cleats;
O. Push inward on one of the hooks to reset the hooks to their original position; and
P. Remove shoelace from hooks.
It will thus be appreciated that the present invention provides a shoelace tying apparatus that assists an individual with tying a shoelace to a desired tightness. The shoelace tying apparatus may be used with a shoe and its original laces thereby avoiding the need for replacement laces. The apparatus can tie the laces of athletic shoes, dress shoes, formal shoes, laced boots, and the like.
It is therefore an object of the invention to assist an individual with limited dexterity with tying the laces of a shoe to provide a snug fit that is suitable for athletic activity, such as walking.
It is another object of the invention to provide a shoelace tying device that is workable with conventional shoelaces.
It is a further object of the invention to provide a shoelace tying device of lightweight and rugged construction.
Therefore, in accordance with one aspect of the invention, a shoelace tying apparatus includes a shoe platform, an arm extending from the shoe platform, and a tying platform connected to the arm and spaced from the shoe platform to define a shoe reception area. The apparatus further includes a pair of reciprocating hooks, anchors, and a pair of lace end retainers supported by the tying platform. Through a series of predefined movements of securing the lace ends to the lace end retainers, anchoring the lace about the anchors, and moving the hooks, a double-loop knot is formed in the shoelace.
In accordance with another aspect of the invention, a shoe tying device includes a first anchor and a second anchor, wherein the first anchor is configured to secure a first free end of a shoelace and the second anchor is configured to secure a second free end of the shoelace. The device also includes a first loop forming element and a second loop forming element that are linked with a rack and pinion arrangement including a first rack connected to the first loop forming element and a second rack connected to the second loop forming element. The rack and pinion arrangement is constructed such that rotation of the rack induced by lateral movement of one loop forming element causes equal and opposite lateral movement of the other loop forming element. Moreover, movement of the loop forming elements from a first position to a second position causes a pulling force to be applied to both free ends of the shoelace such that a first loop is formed in the first free end of the shoelace and a second loop is formed in the second free end of the shoelace with a knot formed between the loops.
According to another aspect of the invention, a knot tying apparatus for forming a double-loop knot when presented with a slip knot is disclosed. The apparatus includes a pair of reciprocating hooks adapted to hold respective free ends of a shoelace in which the slip knot has been formed. A rack and pinion arrangement is connected to the pair of reciprocating hooks and is configured to cause movement of one of the pair of reciprocating hooks in response to movement of the other one of the pair of reciprocating hooks. The apparatus further has a pair of retainers configured to securely hold the free ends of the shoelace such that a knot is formed in the shoelace as the reciprocating hooks are moved away from one another.
Other objects, features, and advantages of the invention will become apparent to those skilled in the art from the following detailed description and accompanying drawings. It should be understood, however, that the detailed description and specific examples, while indicating preferred embodiments of the present invention, are given by way of illustration and not of limitation. Many changes and modifications may be made within the scope of the present invention without departing from the spirit thereof, and the invention includes all such modifications.
Preferred exemplary embodiments of the invention are illustrated in the accompanying drawings in which like reference numerals represent like parts throughout.
In the drawings:
Turning now to
The tying platform 14 also includes a shoelace tying device 32 that generally includes hooks 34, 36, cleats 38, 40, anchors 42, 44 and a rack and pinion gear arrangement 46. The gear arrangement 46 includes a pair of racks 48, 50 spaced from one another and driven by a pinion 52. The pinion 52 and the interfacing of the pinion 52 with the racks 48, 50 sits beneath a gear cover 54. The anchors 42, 44 are mounted to the tying platform 14 by spring loaded pins 56, 58, respectively, that allow the anchors 42, 44 to pivot during knot formation. The anchors 42, 44 also have upwardly extending anchor pins 60, 62, respectively. As will be described, the free ends of a shoelace are held against the anchor pins 60, 62 during the shoelace typing process.
The cleats 38, 40 are designed such that the shoelace may only be pulled out of the cleats 38, 40 in one direction. As such, as a knot is being tied, which will be described in greater detail below, the cleats 38, 40 maintain tension on the shoelace. Once the knot is completed, the free ends of the shoelace may be pulled from the cleats 38, 40 opposite to the direction of loading to free the shoelace from the cleats 38, 40. In a preferred embodiment, the cleats are oriented at a 20 degree angle from the plane of the tying platform 14 and at a 30 degree angle from the front of the tying platform 14. In addition, it is preferred that the cleats are slightly recessed or sunken into the platform 14 to avoid contact with the hooks 34, 36 as the hooks 34, 36 are moved.
The shoelace tying apparatus 10 preferably includes an extension arm 64 that can be magnetically coupled to the stand arm 16 to effectively lengthen the stand arm 16 and increase the number of elevation points at which the tying platform 14 can be positioned. In one preferred embodiment, the extension arm 64 has a plug 65 that is received by an opening formed in the stand arm 16.
Hook 34 is connected to rack 48 by a connecting member 66 that includes a pull handle 68. Similarly, hook 36 is connected to rack 50 by a connecting member 70 that also has a pull handle 72. The connection of the hooks 34, 36 with respective racks 48, 50 of the rack and pinion arrangement 46 allows a user to move the hooks 34, 36 in unison, but in opposite directions by pulling or pushing on only one of the handles 68, 72. That is, the pinion 52 drives both racks 48, 50 to move equally but in opposite directions which in turn causes the hooks 34, 36 to move equally but in opposite directions. The racks 48, 50 are carried by respective slide bars 74, 76 that allow the racks 48, 50 to slide relatively freely along respective linear axes. Preferably, the slide bars 74, 76 are comprised of a material that allows the slide bars 74, 76 to slide along the platform 14 without the need for additional lubricant or oil.
With particular reference to
Operation of the shoelace tying apparatus 10 to form a knot in the shoelace 78 of a shoe S will be described with respect to
Referring now to
In the next step, shown in
In the next step, shown in
In the next step, shown in
In the next step, shown in
With continued movement of the handles 68, 72 and thus hooks 34, 36, the shoelace portions 88, 90 will slide completely off the anchors 42, 44, as shown in
As further shown in
In the next step, which is shown in
The aforementioned steps may then be repeated, as needed, for the other shoe. It will thus be appreciated that the present invention may be used to tie the shoelaces of a conventional shoe, including athletic, casual, business, and formal shoes. Thus, the present invention is particularly advantageous for users with limited hand dexterity who wish to wear conventional shoes without the need for caregiver assistance or special shoelaces.
In one alternate embodiment, the shoelace typing apparatus includes a fixed base and the shoe platform is movable along the stand arm. This alternate embodiment allows the shoe platform to be raised to accommodate users who have difficulty in bending fully to otherwise use the shoelace tying apparatus.
Many changes and modifications could be made to the invention without departing from the spirit thereof. The scope of these changes will become apparent from the appended claims.
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Number | Date | Country | |
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20100148503 A1 | Jun 2010 | US |