Modular tie-making device

Abstract

A modular tie-making device that is made of a tie-knot shaped manifold, the manifold capable of accepting a tie-knot fabric on the outside, and at the same time facilitating a tie to be guided through the manifold, resulting in a modular and fully personalizable tie. The device can be used to make two-toned ties or any combination of tie-knot and tie. The manifold is made of three tubes joined together at their ends. By following the geometry of the manifold, a user easily forms the two loops and hanging ends of a necktie.

Claims

1. A necktie accessory for creating a modular tie knot, the accessory comprising: [a.] a first tube having a first end and a second end, a second tube having a first end and a second end, and a third tube having a first end and a second end, said three tubes attached together to form a manifold, said manifold having a front side and a back side, wherein the three tubes are attached together as follows: [i.] the first end of the first tube and the first end of the second tube are adjoined to form a right-side opening, the area of their joinder forming a right-side cross wall, wherein the first end of the first tube is on the front side of the manifold and the first end of the second tube is on the back side of the manifold; [ii.] the second end of the second tube and the second end of the third tube are adjoined to form a left-side opening, the area of their joinder forming a left-side cross wall, wherein the second end of the second tube is on the front side of the manifold and the second end of the third tube is on the back side of the manifold; and [iii.] the first end of the third tube and the second end of the first tube are adjoined to form a bottom opening, the area of their joinder forming a bottom cross wall, wherein the first end of the third tube is on the front side of the manifold and the second end of the first tube is on the back side of the manifold.

2. The necktie accessory of claim 1 wherein the front side of the manifold is convex and the back side of the manifold is concave.

3. The necktie accessory of claim 1 wherein the edge of at least one of the right-side, left-side or bottom cross walls is curved inward toward the interior of the manifold.

4. The necktie accessory of claim 2 wherein the edge of at least one of the right-side, left-side or bottom cross walls is curved inward toward the interior of the manifold.

5. The necktie accessory of claim 1 wherein the bottom cross wall is adjusted to be concave with respect to the first end of the third tube and convex with respect to the second end of the first tube.

6. The necktie accessory of claim 2 wherein the bottom cross wall is adjusted to be concave with respect to the first end of the third tube and convex with respect to the second end of the first tube.

7. The necktie accessory of claim 3 wherein the bottom cross wall is adjusted to be concave with respect to the first end of the third tube and convex with respect to the second end of the first tube.

8. The necktie accessory of claim 4 wherein the bottom cross wall is adjusted to be concave with respect to the first end of the third tube and convex with respect to the second end of the first tube.

9. The necktie accessory of claim 2 wherein the second tube is shorter than the first and third tubes, which are of the same length.

10. The necktie accessory of claim 2 wherein the second tube is longer than the first and third tubes, which are of the same length.

11. The necktie accessory of claim 4 wherein the second tube is shorter than the first and third tubes, which are of the same length.

12. The necktie accessory of claim 4 wherein the second tube is longer than the first and third tubes, which are of the same length.

13. The necktie accessory of claim 5 wherein the second tube is shorter than the first and third tubes, which are of the same length.

14. The necktie accessory of claim 5 wherein the second tube is longer than the first and third tubes, which are of the same length.

15. The necktie accessory of claim 6 wherein the second tube is shorter than the first and third tubes, which are of the same length.

16. The necktie accessory of claim 6 wherein the second tube is longer than the first and third tubes, which are of the same length.

17. The necktie accessory of claim 7 wherein the second tube is shorter than the first and third tubes, which are of the same length.

18. The necktie accessory of claim 7 wherein the second tube is longer than the first and third tubes, which are of the same length.

19. The necktie accessory of claim 8 wherein the second tube is shorter than the first and third tubes, which are of the same length.

20. The necktie accessory of claim 8 wherein the second tube is longer than the first and third tubes, which are of the same length.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a back elevational view of the device.

(2) FIG. 2 is a front bottom perspective view of the device.

(3) FIG. 3 depicts the device in use with a fabric or first tie secured around the device to form the tie knot.

(4) FIG. 4 depicts the device in use in which a necktie has been threaded through the bottom and right-side opening.

(5) FIG. 5 depicts the device in use in which a necktie has been threaded through the left-side to the right-side opening.

(6) FIG. 6 depicts the device in use in which a necktie has been threaded through the left-side opening to the bottom opening.

(7) FIG. 7 depicts an example of the device in use in which a two-toned tie has been completed for wearing.

(8) FIG. 8 is a bottom view of the device.

(9) FIG. 9 is a top view of the device.

DETAILED DESCRIPTION

(10) The following description refers to the accompanying drawings. Whenever possible, the same reference numbers are used in the drawings and the following description to refer to the same or similar elements. While embodiments of the invention may be described, modifications, adaptations, and other implementations are possible. For example, substitutions, additions, or modifications may be made to the elements illustrated in the drawings, and the methods described herein may be modified by substituting, reordering, or adding stages to the disclosed methods. The proper scope of the invention is defined by the appended claims, and therefore the following detailed description does not limit the invention but serves to give further description to the claims.

(11) The invention is a device which guides a user through the creation of a personalized, modular tie accessory. Briefly, the device comprises a 3-dimensional manifold [10] generally in the shape of a tie knot, for receiving a first tie or fabric wrapped around the exterior to form the tie knot, wherein the manifold [10] is comprised of three interlocked tubes [1;2;3] for receiving a second tie to form the loop and hanging ends. Reference will be made to FIG. 1, which is a back elevational view of the preferred embodiment of the device.

(12) The manifold [10] is comprised of three tubes [1; 2; 3] that are interwoven with their ends aligned to create a bottom opening [35], a right-side opening [25] and a left-side opening [15], wherein each said opening is comprised of the adjoined ends of two of the tubes. More particularly, the right-side opening [25] is comprised of the first end [la] of the first tube [1] and the first end [2a] of the second tube [2]; the bottom opening [35] is comprised of the second end [1b] of the first tube [1] and the first end [3a] of the third tube [3]; and the left-side opening [15] is comprised of the second end [2b] of the second tube [2] and the second end [3b] of the third tube [3].

(13) In the preferred embodiment, the front [4] of the manifold is convex while the back [5] of the manifold is concave. Tube ends [1b; 2a; 3b] are openings on the back side of the manifold, i.e. the side of the manifold facing the collar when worn, while openings [la; 2b; 3a] are openings on the front side of the manifold, i.e. the side of the manifold facing away from the body. The back elevational view of the preferred embodiment is shown in FIG. 1 so that the openings [15;25;35] of the manifold [10] can be clearly seen and described, since the openings [15;25;35] would be less visible in a front elevational view of the preferred embodiment due to the slight curvature. This slight curvature, also visible in FIGS. 8 and 9 bottom and top views, causes the completed tie knot to appear to fit more aesthetically against the collar, and also conceals the openings [15;25;35] when the tie knot is worn (as shown, for example, in FIG. 3). In other embodiments, however, the front [4] and back [5] of the manifold may be identical, and different curvatures may be possible for different tie knot effects, without departing from the spirit of the invention.

(14) The manifold [10] can therefore be used to create a modular, personalizable tie as follows: a strip of fabric can be attached and wrapped around the manifold to form a necktie knot. The fabric may be any strip of fabric that a user desires to form the tie knot of the modular tie, including a first necktie from which one end has been cut to eliminate extra material. The fabric is wrapped around the manifold [10] to form a decorative tie knot as desired, resulting in a tie knot [50] such as the example shown in FIG. 3, which depicts an aperture knot. Different techniques may be applied to create tie knots of different styles, such the Eldredge knot depicted in FIG. 7. As will be further described below, the geometry of the manifold [10] may also be adjusted in order to provide different tie knot shapes. For instance, thicker, looser or more compact knots may also be desired. There is no restriction in the way the tie knot can be wrapped around the manifold and constructed, such that any type of decorative knots may be formed. These decorative, modular tie knots can be sold pre-wrapped, but any user can create the tie knot using the manifold [10].

(15) The manifold [10] forms the base through which a necktie can be threaded to create the personalized tie. The skinny end [46] of necktie [45] is inserted into third tube [3] via its first end [3a] so it emerges through its second end [3b], as shown in FIG. 4. Next, end [46] is inserted into the second tube [2] via its first end [2a] so it emerges through its second end [2b], forming a first loop, as shown in FIG. 5. Finally, end [46] is inserted into first tube [1] via its first end [la] so it emerges through its second end [1b], forming a second loop, as shown in FIG. 6. The completed tie loops can be placed around the neck, adjusted and worn.

(16) An example of a completed modular tie being worn is depicted in FIG. 7. The decorative tie knot [50] depicted in FIG. 7 is an Eldredge knot, as an example of the variety of styles of tie knots that can be created using the manifold [10]. Different tie knots can be interchanged with different neckties [45] to personalize the wearer's style. The wearer may even desire to pair the tie knot with different color neckties for a two-toned tie style.

(17) The lengths of the tubes and therefore the proportions of the manifold may be adjusted to form the base of narrow or wide tie knots, i.e. the first, second and third tubes [1;2;3] may be of different sizes. For instance, where a longer knot is desired, the first and third tubes [1;3] may be longer than the second tube [2], said proportions being appropriate for a Van Wijk knot, for example. On the other hand, the first and third tubes [1;3] may alternatively be made shorter than the second tube [2], said proportions being appropriate for an Eldredge knot, for example. In the preferred embodiment shown in FIGS. 1-2, however, the first, second and third tubes [1;2;3] of the manifold [10] are of equal sizes; these proportions are appropriate for a Caf knot. There are, however, no limitations on the types of knots that can be emulated using the manifold. Different sized manifolds may also be desired to accommodate large and small sizes, or adults and children. Furthermore, a wider or narrower angle between the first and third tubes [1;3] may be desired so that the knot may rest comfortably under different sizes or styles of collars. The manifold is simple to construct using 3D-printing or any other known techniques, and may be constructed of any solid material that may or may not be flexible, the best example of which is 3D printed nylon.

(18) In the preferred embodiment depicted in FIGS. 1-2, the three tubes [1;2;3] have equal dimensions and are joined such that openings on the front and back of the manifold [10] are identical. The dimensions of the tubes and/or the way they are joined, however, may be varied without departing from the spirit of the invention. The tubes need not have the same dimensions throughout, and it is also noted that adjusting tube dimensions may result in changing the positions of opening cross walls [16; 26; 36]. Adjusting the tube dimensions may be desirable for a variety of purposes, including aesthetic reasons, or to make it easier for a user to thread the necktie through the manifold. For example, in order that the larger tie end [44] appears with a more natural and aesthetically pleasing curvature, cross wall [36] may be adjusted such that opening [3a] is concave at the cross wall and opening [1b] is convex at the cross wall. As another example, one or more cross walls at the opening may be constructed with a curved edge, as shown in FIG. 2 cross wall [36]. As another example, the thickness of any tube may be varied at any location in the tube to change the dimensions of the tubes or the cross wall locations. Any of the aforementioned variations may be desirable to facilitate threading different types of ties, such as thicker or wider ties.