This application does not claim priority based on any prior filed patent application.
This invention pertains to shoes.
More particularly, the invention pertains to a method and apparatus to stretch shoe uppers.
In a further respect, the invention pertains to shoe stretching apparatus that includes a pair of jaws to engage and stretch a selected portion of a shoe upper and includes an operatively associated actuating mechanism that fits inside the heel of a shoe.
Shoe stretching apparatus is well known, is typically constructed like a pair of pliers, and includes an elongate pair of members hinged together at a single pivot point to produce a pair of jaws on one side of the pivot point and a pair of handles on the other side of the pivot point. In such shoe stretching apparatus the handles are, in order to provide leverage and enable a user to produce sufficient compressive force when the jaws are closed on a portion of a shoe upper, relatively long. These handles require sufficient hand strength to operate, and extend and are manually operated outside of a shoe.
The prior art shoe stretching apparatus noted above has long existed. There does not appear to be market pressure to change the design of such apparatus, nor does there appear to be any recognition of a design need that would fuel a search for a change in design of such apparatus. The market trend appears to be in favor of retaining prior art shoe stretching apparatus. As a result, it is anticipated that prior patents or articles describing such prior art shoe stretching apparatus will not discuss market pressure or a design need in connection with shoe stretchers of the general type addressed by the invention.
In addition, the knowledge of a skilled artisan appears to comprise the shoe stretching apparatus noted above. Consequently, there does not seem to be motivation for the artisan to consider altering such apparatus.
However, as has been demonstrated many times in the Patent Office, existing apparatus and methods often can be improved by utilizing an unidentified, unanticipated combination which provides functions that are unpredictable in view of the prior art.
Accordingly, it would be highly desirable to provide an improved shoe stretching apparatus and method that would facilitate stretching the uppers of a shoe.
Therefore, it an object of the present invention to provide an improved shoe stretching method and apparatus.
A further object of the invention is to provide a shoe stretching apparatus having an actuating mechanism that requires minimal strength to operate and that can be utilized inside a shoe.
These and other, further and more specific objects and advantages of the invention will be apparent to those of skill in the art from the following detailed description thereof, taken in conjunction with the drawings, in which:
Briefly, in accordance with the invention, I provide an improved apparatus for stretching the upper of a shoe. The apparatus comprises a first generally L-shaped elongate arm having a distal end, a proximate end, a length (L2), and a longitudinal axis (Y); a second generally L-shaped elongate arm operatively associated with the first arm, having a distal end, having a longitudinal axis (L3), and having a proximate end attached to the proximate end of the first arm at a first pivot point (30); a first shoe stretching member mounted on the distal end of the first arm; and, a second shoe stretching member mounted on the distal end of the second arm and cooperatively associated with the first shoe stretching member. The second arm is moveable between at least two operative positions, a first closed operative position with the first and second shoe stretching members adjacent one another, and a second open operative position with the first and second shoe stretching members spaced apart from one another. The first and second arms having a maximum width (W2) when the second arm is in the first closed operative position. The longitudinal axis (L3) of the second arm is generally parallel to the longitudinal axis (L2) of the first arm when the second arm is in the second open operative position. The apparatus also includes an actuating unit to move the second arm from the first to the second operative position. The actuating unit comprises a first displacement member (32) attached to said second arm at a second pivot point (31) spaced apart from the first pivot point (30). The first and second pivot points lie along a line canted at an angle of at least forty-five degrees with respect to the longitudinal axis of the first arm when the second arm is in the second open operative position. The actuating unit also comprises an actuating assembly interconnecting the first displacement member and the first arm to displace the second arm such that the displacement member (32) pivots about the second pivot point; the displacement member (32) is pushed by the actuating assembly in a direction (B) generally toward the distal ends of the arms, and the second arm pivots on the first pivot point to move the second shoe stretching member toward the first shoe stretching member. The actuating unit has a length (L) less than the length (L2) of the first arm; has a width (W) less that the width (W2) of the first and second arms when the second arm is in the second open operative position; and, is sized to fit inside a shoe in the heel of a shoe of a selected size.
Turning now to the drawings, which depict the presently preferred embodiments of the invention for the purpose of illustrating the practice thereof, and not by way of limitation of the scope of the invention, and in which like characters refer to corresponding elements throughout the several views,
The arm 16 is movable between at least two operative positions, an open operative position illustrated in
When the second arm 16 is in the closed operative position illustrated in
Although the shape and dimension of arms 11 and 16 can vary as desired, the general L-shape is preferred for arms 11, 16 in the practice of the invention. One leg 40 of L-shaped arm 11 extends outwardly and forwardly to facilitate the arm 11 extending outwardly and around a shoe to a point on the outside of the shoe upper. The other leg 39 of arm 11 extends forwardly to a desired point on the outside of the shoe upper.
The longitudinal axis V of arm 16 is generally parallel to the longitudinal axis Y when the arm 16 is in its second open operative position.
An actuating unit moves the arm 16 from the first to the second operative position. The actuating unit includes a displacement member 32. Member 32 is attached at one end to arm 16 at a pivot point 31 that is spaced apart from pivot point 30. Pivot points 30 and 31 lie along a line X that is canted with respect to the longitudinal axis Y of arm 11 when arm 16 is in the opening operative position illustrated in
While the shape and dimension of an arm 11 may vary, the longitudinal axis of arm 11 extends in a direction the best approximates the centerline of the arm, that coincides with or is parallel to the centerline of arm 11, that is generally parallel to the longitudinal axis of arm 16, and that is generally perpendicular to the direction of travel of members 14 and 19 when arm 16 is moved between its first and second operative positions.
While one end of displacement member 32 is attached to arm 16 at pivot point 31, a groove 35 (
L-shaped member 34 includes leg 38 integrated with and fixedly connected to the proximate end 13 of arm 11. Member 34 also includes leg 37. Internally threaded aperture 36 is formed in leg 37 to receive rotatably the externally threaded neck 33.
Turning member 60 in the direction of arrow A in
The actuating unit has a length, indicated by arrow L in
An alternate actuating unit is illustrated in
Still another alternate actuating unit is illustrated in
In use, a shoe 50 (