This invention relates to an attachment system for attaching a buckle, D-ring or other structure to a length of webbing or a strap. In particular, the invention relates to an attachment system that can be quickly and easily attached or detached from the structure, so that the structure can be removed from the webbing without adjusting the webbing.
A plastic fastener is often used to connect two sections of a webbing that bear tension, has the purposes such as lacing and adjustment, and is widely used in bags and suitcases. Common fasteners can often take the form of a two-piece side release buckle having a male portion and a female portion. As for the connection between the male and female portions and the webbing, the webbing is usually sewn around a closed cross bar, and the closed cross bar is integrally formed with the fastener, thus achieving the advantages of a low cost and high durability. However, this kind of closed cross bar cannot be replaced, which results in the lack of rework elasticity in production and also blocks the development of a repairing market at the consumer end. Therefore, fasteners with a quick release function were designed, which allow the removal of the fastener without affecting the structure of the fastener or of the webbing. For example, some buckles are equipped with a slot in the cross bar, so that the buckle can be removed by sliding the webbing through the slot until it clears the bar. However, due to the slot, the strength of the cross-bar in this situation is significantly reduced, so that the device is prone to breakage under large degrees of tension. In another solution such as disclosed in U.S. Pat. No. 5,706,560 to Anscher, the webbing attachment bar can be unclipped from the buckle at one end to release the webbing. This too has reduced strength as compared to a single piece closed cross-bar, due to the unbalanced stress on the two ends, causing the weaker edge to break first. While these devices can be useful, it would be desirable to have a quick-attach system that is completely independent of the webbing.
It is therefore an object of the invention to provide an attachment system that can be quickly and easily detached from the strap or webbing, yet does not compromise the strength or integrity of the device. This object is accomplished according to the invention by a device for attachment to webbing or a strap, comprising an attachment portion and an operating portion that can be easily attached to and detached from each other. The attachment portion comprises a base body having front and back walls with a cavity between the front and back walls, at least one transverse bar connected to the base body and separated from the base body by a gap, and two locking hooks extending into the cavity in a direction opposite the at least one transverse bar.
The operating portion has two side legs, top sections connected to the side legs and a gap between the top sections. The operating portion is pliable so that squeezing the side legs together narrows the gap. Each of the top sections of the operating portion has a locking hook extending therefrom. The operating portion is connectable to the attachment portion by pressing the side legs together and inserting the locking hooks of the operating portion into the cavity of the attachment portion, and then releasing the side legs so that the locking hooks of the attachment portion engage the locking hooks of the operating portion. The operating portion is detachable from the attachment portion by squeezing the side legs together until the locking hooks on the operating portion clear the locking hooks on the attachment portion, and moving the operating portion away from the attachment portion.
In one embodiment, there can be at least one, and preferably two prongs extending from the attachment portion opposite the at least one transverse bar. The prongs are disposed in the gap between the top sections of the operating portion when the operating portion is attached to the attachment portion and help to guide the operating portion into alignment with the attachment portion while connecting the two portions together. In another embodiment, the device does not have any prongs.
In use, a strap is connected to the attachment portion and extends through a space between the transverse bar and the base body, and around a bottom of the attachment portion, and is then closed in a loop, so that the base body is contained within the loop. When the attachment portion is connected to the operating portion the strap extends around a bottom of the top sections of the operating portion as well. In practical use, the attachment portion is first placed in the webbing loop, and the legs of the operating portion span left and right sides of the webbing loop. The operating portion is fastened to the attachment portion as described above, so that the corresponding locking hooks of each of the portions engage each other. The other end of the operating portion can be attached to a second strap or loop of webbing as well.
Once connected, the assembly of the attachment portion and operating portion is therefore firmly fastened into the webbing loop. When external tension is applied on the operating portion, and it is attempted to pull the assembly of the attachment portion and operating portions away from the webbing loop, the underside of the top sections of the operating portion are continuously pressed against an inner side of the webbing loop. When the tension continues to increase beyond the form that the material of the attachment portion can maintain, the legs will gradually deform in an attempt to escape toward the gap. However, this just presses the locking hooks of the operating portion more deeply into the attachment portion, thus strengthening the connection. The possibility of the legs escaping from the webbing is thus counteracted and prevented. The higher the tension is, the stronger the counter-acting force provided by the webbing. The structure of the present invention is easy to assemble and allows for arbitrary assembly and disassembly without affecting the sewn webbing loop. In an assembled state, the tension and the general fastener are just as strong as a conventional system without the quick release function.
The webbing can be formed from any suitable material, such as polypropylene, polyethylene, nylon, cloth or any suitable material in the form of a belt, strap, tape, etc.
In one embodiment, rear wall of the attachment portion has apertures therein so that the locking hooks of the operating portion are visible through the apertures when the operating portion is connected to the attachment portion.
The operating portion can be any suitable functional object. In one embodiment, the operating portion is a D-ring. In another embodiment, the operating portion is a female portion of a two-piece side-release buckle, wherein the operating portion has a main body connected to the side legs, with a cavity within the main body for receiving a male portion of the side-release buckle. The operating portion could also form the male portion of a side-release buckle. Other suitable objects are a male buckle or female buckle of a sliding buckle, a swivel hook buckle, a swivel square ring, a press release buckle, a ladder buckle, a tri-glide buckle, an O-ring, a square ring, a triangular ring, a snap hook, or a rope-adjusting buckle. It can also be any electronic device: a light-emitting device, a video screen, a telephone, a remote contact tool, a video camera, a video recorder, a microphone, an amplifier, a fan cooler, a fan heater, an insulation device, a portable power source, an electronic protective case, a tension meter, etc.
In a preferred embodiment, the side legs are disposed entirely outside of the base body when the operating portion is connected to the attachment portion. This makes it easier to attach the operating portion to the attachment portion, as only the ends of the top sections having the locking hooks enter the cavity of the base body, leaving the side legs outside of any interference with the webbing loop. The side legs can be equipped with ridges to increase a user's grip. Other gripping structures could also be used.
In another embodiment, the device can be used on a Molle (Modular Lightweight Load-carrying Equipment) system, where the device is sewn in place on a tactical vest by sewing two ends of the strap that extends around the attachment portion. The operating portion can then be switched out as needed, keeping the attachment portion in place.
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,
Operating portion 30 is in the form of a D-ring and is formed from two side legs 31, 32, which are each connected to an inwardly extending top section 33, 34, respectively. Top sections 33, 34, are separated by a gap 38. Top section 33 has a locking hook 35 extending upward therefrom, and top section 34 has another locking hook 36 extending therefrom. The locking hooks 35, 36 each face outward, away from the gap. The operating portion 30 is constructed of a pliable material, so that pressing legs 31, 32, together causes the gap to narrow and the locking hooks 35, 36, to move toward each other. The rear wall of the attachment portion 20 has apertures 26, 27 therein so that the locking hooks 35, 36 of the operating portion 30 are visible through the apertures 26, 27 when the operating portion 30 is connected to the attachment portion 20.
Then, operating portion 30 is connected to attachment portion 20 with strap 40 already attached, by inserting locking hooks 35, 36 into cavity 218 until locking hooks 35, 36 engage locking hooks 201, 202 on attachment portion 20, as shown in the cross-section in
Upward tension on strap 40 away from operating portion 30 presses operating portion 30 toward attachment portion 20, preventing any chance of separation. As the tension increases, either by increased tension on strap 40, or by tension from a strap attached to the bottom of operating portion 30, legs 31, 32 and top sections 33, 34 are deformed, which presses hooks 35, 36 even more tightly into engagement with hooks 201,202 within attachment portion 20, by the pressure of strap 40. Thus, the tighter the tension on strap 40, the more secure the connection between operating portion 30 and attachment portion 20. To detach operating portion 30 from attachment portion 20, the tension on strap 40 is slackened to create room for movement, and the user presses legs 31, 32 toward each other until locking hooks 35, 36 clear locking hooks 201, 202, at which point operating portion 30 can be disengaged from strap 40 through gap 38.
Another embodiment of the attachment system is shown in
Strap 40 is connected to attachment portion 20 in the same manner as described with respect to
Another alternative embodiment is shown in
Accordingly, while only a few embodiments of the present invention have 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.
Number | Name | Date | Kind |
---|---|---|---|
4688337 | Dillner | Aug 1987 | A |
5465472 | Matoba | Nov 1995 | A |
5706560 | Anscher et al. | Jan 1998 | A |
6421889 | Chien | Jul 2002 | B1 |
6571433 | Uehara | Jun 2003 | B2 |
7055226 | Uehara | Jun 2006 | B2 |
7174609 | Park | Feb 2007 | B2 |
8365368 | Kaneko | Feb 2013 | B2 |
9113680 | Takazakura | Aug 2015 | B2 |
9930937 | Nanbu | Apr 2018 | B2 |
20080178438 | Yoshie | Jul 2008 | A1 |
20110061211 | Anscher | Mar 2011 | A1 |
20120017347 | Strum | Jan 2012 | A1 |