The present invention relates to a one-piece pull tab for zippers. In particular, the invention relates to a pull tab that can be applied directly to the zipper head and which is molded in one piece.
Pull tabs for zippers are usually formed by metal plates having an aperture in which the zipper head is mounted. These metal plates are often too small to allow for easy sliding of the zipper. This is especially true when the zipper pull becomes wet and slippery. Therefore, many manufacturers attach a cord having a larger pull on the end to the existing zipper pull. However, these additional cords are often too long to make pulling easy, and the manufacturing process is expensive and time consuming.
U.S. patent application Ser. No. 14/969,094 solves this problem using a one-piece pull tab having a plug and socket configuration connected by a cord. The plug is fitted through the socket in one direction, the cord is wrapped around the plug, and the plug is then inserted back into the socket. The extra width created by the cord wrap prevents the plug from being pulled back through the socket and creates a secure pull tab for attachment to a zipper.
While this configuration is simple to manufacture, it can be complicated to assemble due to the cord being manually wrapped around the plug during assembly.
It is therefore an object of the invention to provide a zipper pull that can be applied directly to the zipper head, can be customized for a variety of sizes and decorations, and which can be produced and assembled quickly and economically in a single piece.
These and other objects of the invention are accomplished by a pull tab formed by a cord having a cord retaining member attached to one end of the cord and a channel through the interior of the cord retaining member, and a securing device formed by a plug attached to other end of the cord. The plug has a flap secured to a proximal end of the plug via a hinge. Adjacent the cord is a first channel that opens into the proximal end of the cord retaining member and extends partially through the cord retaining member. The channel is sized to allow the plug to pass completely through when the flap is open and extending away from the plug along the cord. On the opposite side of the cord retaining member is a second channel that connects to the first channel to form a continuous straight path through the cord retaining member. The second channel is wider than the width of the plug and has a width that is equal to the width of the plug with the flap closed and secured to it.
In order to secure the device to a zipper, the plug is fed through the loop on the zipper and then through the opening and channels in the cord retaining member, so that the plug extends entirely through the opposite end of the cord retaining member. At this point, the flap on the plug is secured onto the side of the plug via a snap mechanism, increasing the width and circumference of the plug. Finally, the plug with the secured flap is pulled into the second channel by pulling on the looped cord on the proximal end of the cord retaining member. The second channel is sized to be the same size than the circumference of the plug with the flap secured to it. This way, the plug can be pulled back into the cord retaining member and held in the cavity via friction fit. The plug with the flap secured is much too large to fit through the first channel, so the plug cannot be inadvertently disengaged from the cord retaining member.
The first and second channels can be sized based on the size of the plug. For example, the first and second channels could be of relatively equal length, if the plug is approximately half the length of the cord retaining member. The first channel can be made shorter if the plug is longer, or vice versa, so that the plug can be completely accommodated within the second channel inside the cord retaining member.
The cord can be a woven cord, and the cord retaining member and plug are then over-molded onto the woven cord.
The cord retaining member can be formed in any desired shape.
The pull tab of the present invention can be applied directly to a zipper head without the need for a traditional zipper pull. This reduces cost and labor in manufacturing consumer items. The cord could be made to any desired length, depending on the needs of the end user.
The cord retaining member can be equipped with ridges or protrusions or a textured surface, to aid in gripping the pull tab during use.
Other objects and features of the present invention will become apparent from the following detailed description considered in connection with the accompanying drawings. It is to be understood, however, that the drawings are designed as an illustration only and not as a definition of the limits of the invention.
In the drawings, wherein similar reference characters denote similar elements throughout the several views:
Referring now in detail to the drawings and,
Cord retaining member 12 has a first channel 14 therein, which opens into the proximal end of the cord retaining member 12, for receiving plug 13 when cord 11 is folded over itself and flap 16 is in an open position extending toward the cord 11. As shown in
The method of attaching the pull tab 10 to a zipper head is shown in
The present invention provides a simple and attractive pull tab that is inexpensive to manufacture and easy to assemble.
Accordingly, while only a single embodiment of the present invention has been shown and described, it is obvious that many changes and modifications may be made thereunto without departing from the spirit and scope of the invention.
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