1. Field of the Invention
The present invention relates to a lace and, more particularly, to a shoelace structure for one of a pair of shoes.
2. Description of the Related Art
A conventional shoelace structure comprises a solid lace including a plurality of projections and a plurality of reduced portions located between the projections. Thus, when the solid lace is tied on one shoe, the projections are stopped by the eyelets of the shoe to prevent the solid lace from slipping due to an external pulling force. However, the projections and the reduced portions are arranged on the solid lace, thereby decreasing the outer appearance of the solid lace. In addition, the solid lace is provided with the projections, thereby increasing the cost of fabrication. Further, the solid lace is provided with the projections and the reduced portions so that the solid lace is not made easily, thereby causing inconvenience in fabrication of the solid lace, and thereby increasing the working time.
Another conventional shoelace structure comprises a hollow outer layer and an inner core mounted in the outer layer. The inner core is provided with a plurality of projections which are formed by knotting. Thus, when the outer layer is tied on one shoe, the projections are stopped by the eyelets of the shoe to prevent the outer layer from slipping due to an external pulling force. However, the projections are successively formed on the inner core by knotting, so that the inner core is not made easily and quickly, thereby causing inconvenience in fabrication of the inner core, and thereby increasing the working time. In addition, it is not easy to insert the inner core into the outer layer, thereby wasting the time and energy of fabrication.
The primary objective of the present invention is to provide a shoelace structure that is made easily and conveniently and is not loosened easily during a long-term utilization.
In accordance with the present invention, there is provided a shoelace structure an outer sleeve, a liner mounted in the outer sleeve, and an inner core mounted in the liner. The inner core includes a first weaving thread and a plurality of second weaving threads. The first weaving thread interweaves and intertwines with the second weaving threads along a lengthwise direction, with the second weaving threads being secured to the first weaving thread, thereby defining a plurality of enlarged portions and a plurality of separation portions. Each of the enlarged portions of the inner core has an outer diameter greater than that of the first weaving thread. The liner is formed by a plurality of fibers which are weaved together. The liner defines a cavity for receiving the inner core which is hidden in and covered by the cavity of the liner. The liner is squeezed by the enlarged portions of the inner core and defines a plurality of expanded sections and a plurality of recessed sections. The expanded sections of the liner respectively corresponds to the enlarged portions of the inner core, and the recessed sections of the liner respectively corresponds to the separation portions of the inner core. The outer sleeve defines a chamber for receiving the liner which contains the inner core.
Further benefits and advantages of the present invention will become apparent after a careful reading of the detailed description with appropriate reference to the accompanying drawings.
Referring to the drawings and initially to
The inner core 11 includes a first weaving thread 111 and a plurality of second weaving threads 112. The first weaving thread 111 interweaves and intertwines with the second weaving threads 112 along a lengthwise direction, with the second weaving threads 112 being secured to the first weaving thread 111, thereby defining a plurality of enlarged portions 113 and a plurality of separation portions 114. Each of the enlarged portions 113 of the inner core 11 has an outer diameter greater than that of the first weaving thread 111.
In the preferred embodiment of the present invention, the enlarged portions 113 and the separation portions 114 of the inner core 11 are adjacent and arranged in an alternating manner. Each of the enlarged portions 113 of the inner core 11 has two opposite end portions 1131 and a middle portion 1132 located between the two end portions 1131. The first weaving thread 111 of the inner core 11 interweaves and intertwines with one of the two end portions 1131 of each of the enlarged portions 113, extends along the middle portion 1132 of each of the enlarged portions 113 and interweaves and intertwines with the other one of the two end portions 1131 of each of the enlarged portions 113. In such a manner, each of the two end portions 1131 of each of the enlarged portions 113 has a compact structure, and the middle portion 1132 of each of the enlarged portions 113 has a loose structure, so that the outer diameter of each of the enlarged portions 113 of the inner core 11 is greater than that of the first weaving thread 111. The enlarged portions 113 of the inner core 11 are distant from each other equally or unequally. Each of the second weaving threads 112 is made of cotton wool clump for interweaving and intertwining of the first weaving thread 111 to form the enlarged portions 113.
In another preferred embodiment of the present invention, the inner core 11 includes a plurality of first weaving threads 111 which initially interweave and intertwine with each other and then interweave and intertwine with the second weaving threads 112. In practice, when the first weaving threads 111 interweave along the lengthwise direction, the first weaving threads 111 interweave and intertwine with the second weaving threads 112 through a predetermined distance. Then, the second weaving threads 112 are cut. Then, the first weaving threads 111 interweave successively to form the separation portions 114. After the first weaving threads 111 interweave through a predetermined distance, the first weaving threads 111 again interweave and intertwine with the second weaving threads 112 to form the enlarged portions 113. After the first weaving threads 111 interweave and intertwine with the second weaving threads 112 through a predetermined distance, the second weaving threads 112 are cut. The above procedures are repeated to form the enlarged portions 113 and the separation portions 114.
The liner 12 is formed by a plurality of fibers which are weaved together. The fibers of the liner 12 are preferably made of polyester. The liner 12 defines a cavity 120 for receiving the inner core 11 which is hidden in and covered by the cavity 120 of the liner 12. The liner 12 is squeezed by the enlarged portions 113 of the inner core 11 and defines a plurality of expanded sections 121 and a plurality of recessed sections 122. The expanded sections 121 of the liner 12 respectively corresponds to the enlarged portions 113 of the inner core 11, and the recessed sections 122 of the liner 12 respectively corresponds to the separation portions 114 of the inner core 11.
The outer sleeve 13 is formed by a weaved fabric. The outer sleeve 13 defines a chamber 130 for receiving the liner 12 which contains the inner core 11. In the preferred embodiment of the present invention, the outer sleeve 13 has two ends each provided with a head 131. Preferably, the outer sleeve 13 has a constant outer diameter. Preferably, the outer sleeve 13 has a cylindrical or flat profile.
In fabrication, the inner core 11 extends into the cavity 120 of the liner 12 so that the inner core 11 is hidden in and covered by the cavity 120 of the liner 12 so as to increase the thickness of the inner core 11. Thus, the liner 12 containing the inner core 11 extends into the chamber 130 of the outer sleeve 13 conveniently, thereby saving the time and energy of fabrication. In addition, the liner 12 is formed by fibers, so that the shoelace structure 1 has a soft feature. Thus, the liner 12 is squeezed by the enlarged portions 113 of the inner core 11 to form a plurality of expanded sections 121 and a plurality of recessed sections 122 respectively corresponding to the enlarged portions 113 and the separation portions 114 of the inner core 11.
In use, referring to
Accordingly, the tie portion 10 is bound tightly by restriction of the expanded sections 121 of the liner 12 to prevent the shoelace structure 1 from slipping or becoming loosened during a long-term utilization, thereby facilitating the user using the shoelace structure 1. In addition, the shoelace structure 1 has a smooth profile by provision of the outer sleeve 13 so that the shoelace structure 1 is tied easily and conveniently. Further, the inner core 11 are made of the first weaving thread 111 and the second weaving threads 112, while the liner 12 is formed by fibers, so that the shoelace structure 1 has a soft feature. Further, the inner core 11 is formed directly by interweaving the first weaving thread 111 and the second weaving threads 112 to form the enlarged portions 113 and the separation portions 114, so that the shoelace structure 1 is made easily and quickly, without needing additional working procedures, thereby facilitating fabrication of the shoelace structure 1, and thereby decreasing the cost of fabrication.
Although the invention has been explained in relation to its preferred embodiment(s) as mentioned above, it is to be understood that many other possible modifications and variations can be made without departing from the scope of the present invention. It is, therefore, contemplated that the appended claim or claims will cover such modifications and variations that fall within the true scope of the invention.
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