1. Field of the Invention
An article of footwear includes a flexible horizontal insole member formed by molding from a synthetic plastic material, the bottom surface of said insole member containing adjacent the ball of the user's foot a plurality of transversely-extending flex grooves that define therebetween a plurality of generally-parallel transversely-extending longitudinally-spaced flex ribs that impart flexibility to the ball portion of the insole relative to the user's foot. The bottom surface of the insole also contains adjacent the arch portion of the user's foot a longitudinally extending shank slot for receiving a rigid or semi-rigid bowed shank member.
2. Description of the Related Art
It is well known in the patented prior art to provide articles of footwear that make use of the well known Goodyear welt concept for securing together the upper and midsole components of the article of footwear, as shown, for example by the prior patents to Clements U.S. Pat. No. 6,601,319 (which is assigned to the owner of the instant application), and Bianchini, et al., U.S. Pat. No. 4,852,275, among others. In order to increase the flexibility of such footwear and to reduce the weight and cost thereof, various proposals have been set forth in the footwear industry.
The present invention was developed to provide an improved flexible, light-weight insole member that combines the multiple aspects of product design to reduce labor and material costs and production time throughout the Goodyear welt manufacturing process. Utilization of the flexible insole affords to the wearer a more stable and lighter article of footwear, while allowing the manufacturing process to proceed smoother and faster, and while cutting down on inventory needs, as for example, pry-ribs, glue for the ply-ribs, cork or other bottom filler.
Accordingly, a primary object of the present invention is to provide a flexible insole component for an article of footwear, wherein the insole is formed by molding a flexible synthetic plastic material to form a light-weight component containing in its bottom surface beneath the ball portion of the user's foot a plurality of transverse grooves, thereby to define therebetween a plurality of integral transversely-extending longitudinally-spaced flex ribs that impart flexibility to the insole.
According to another object of the invention, the bottom surface of the insole contains beneath the arch portion of the user's foot a longitudinally-extending shank slot that receives a rigid or semi-rigid shank member, thereby to impart stability to and support for the arch portion of the user's foot.
Another object of the invention is to provide an insole of the type described above that is caused to be moisture-resistant by the provision of an annular compressible gasket member in a sealing channel arranged concentrically about the area containing the flex grooves and the shank slot, thereby to isolate the same against ambient moisture.
The light-weight flexible insole component of the present invention permits the manufacture of the article of footwear to flow in a smother, faster manner, and cuts down on inventory needs, such as ply-rib, glue for a ply-rib, cork, or other type of bottom filler.
Other objects and advantages of the invention will become apparent from a study of the following specification when viewed in the light of the accompanying drawings, in which:
Referring first more particularly to
As shown in
According to another feature of the invention, the insole member 6 contains adjacent and spaced from the peripheral side wall thereof a continuous sealing channel 28 (
The upper portion of the peripheral side wall of the insole member 6 is provided with a continuous outwardly-extending horizontal lip portion 6e. As best shown in
The midsole member 14 is formed of a suitable synthetic plastic cushioning material, and the bottom outsole member 16 is formed from a suitable durable synthetic plastic material, or laminate thereof. In addition to the mid-stitching 12, the midsole can be glued or adhesively fastened to the lower surface of the insole, thereby compressing the sealing gasket 30. The outsole is normally glued or stitched to the midsole.
It should be mentioned that the use of the sealing gasket 30—which serves as a water resistant material preventing moisture from entering the grooves 20 and the sealing channel 24—is optional. Thus, footwear that does not need to be moisture resistant will not require the sealing gasket.
The flexible insole of the present invention is suitable for use in both men's and women's shoes and boots. The invention is not limited to dress, casual, work, service or military footwear. The insole is lightweight, and requires lower inventories of materials—i.e., eliminates the need for ply-ribs, glue, bottom fillers. It also results in lower production times, lower cost and quicker turn-around times. By integrally molding the flex ribs, bottom filler and shank slot into the insole, accurate positioning of the shank member is assured while affording greater flexibility to the insole.
While in accordance with the provisions of the Patent Statutes the preferred forms and embodiments of the invention have been illustrated and described, it will be apparent to those skilled in the art that various changes may be made without deviating from the inventive concepts set forth above.