Pursuant to 37 C.F.R. ยง 1.78(d)(1), this application claims the benefit of and priority to prior filed co-pending Non-Provisional application Ser. No. 15/487,833, filed 14 Apr. 2017, and co-pending Non-Provisional application Ser. No. 15/489,116, filed 17 Apr. 2017, which are expressly incorporated herein by reference.
This invention relates to the field of tethered systems. More particularly, this invention relates to a tethered systems that include one or more of the following: (a) a belay tether connectable to a support and configurable for descending a user; (b) an attachment device installable onto the support between the support and the belay tether; (c) a user braking device connectable between the belay tether and the user; and (d) a tip resistant system.
Improvement is desired in the construction of devices used for descending users from elevated locations or ascending users to elevated locations. Conventional devices have numerous shortcomings, and the improvement of such devices is desired for use in the sport of rock climbing, as well as for use in first responder and military environments.
For example, a belay tether may be connected in some form or fashion to an elevated support, such as a tower, a helicopter or other support. Often, two hands are required to make the necessary connection between the load and the structure associated with the support location. Additionally, users are often required to lift and hold all or a portion of the load, which may be quite heavy, while the connection is being made. This is often carried out in positions and locations that involve potential danger and that require significant effort and dexterity. This shortcoming represents one aspect in which improvement is desired.
The user also typically wears a body harness and a device is utilized to connect between the body harness and the belay tether. Conventionally, the user must grasp the belay tether with one or both hands to balance and resist tipping backwards to remain in a generally upright attitude during descent (or ascent) and upon landing. This can become difficult in certain environments, and especially when the user has a backpack or other equipment, such as body armor, tools, or like equipment carried by the user. This represents yet another aspect in which improvement is desired.
In addition, in many instances, the belay tether is associated with an automatic belaying device, which enables controlled descent. However, there is currently no way for the user to slow or halt the descent, as the belay device continues to feed out the belay tether. This represents a further aspect in which improvement is desired.
As also seen, a prior art harness connector HC connects between a belay tether BT of a belay device BD, and a body harness BH worn by the user. Conventionally, the user U grasps the belay tether BT with one or both hands to balance and resist tipping backwards to remain in a generally upright attitude during descent (or ascent) and upon landing. This can become difficult in certain environments, and especially when the user has a backpack BP or other equipment, such as body armor, tools, or like equipment carried by the user.
In addition, it can be difficult for the user to detach from the belay tether BT when landing.
Finally, it will be observed that while the belay device BD is an automatic belaying device, which enables controlled descent, the user U has no way to slow or halt the descent, as the belay device continues to feed out the belay tether.
To address the foregoing shortcomings of the prior art, one aspect of the present invention relates to an attachment device for quick engagement with a support that enables the user to quickly form a connection between a support location and the load with limited engagement by the user, such as through the use of one hand, as may be required in a variety of situations and conditions.
Another aspect of the invention relates to a tip resistant system that operates to maintain a user in a desired static attitude. The tip resistant system may also incorporate a quick disconnect feature that enables the user to quickly disconnect from the belay tether with limited engagement by the user, such as through the use of one hand, as may be required in a variety of situations and conditions.
Further, in accordance with another aspect, the invention relates to user-controllable belay and braking systems suitable for enabling a user to control and even halt descent from a support from which the user is descending.
The above and other needs are met by a user insertion system, that includes (a) a belay tether connectable to a support and configurable for descending a user; (b) an attachment device installable onto the support between the support and the belay tether; (c) a user braking device connectable between the belay tether and the user; and (d) a tip resistant system.
The attachment device (b) includes a pair hooks rotatably mounted to the support so as to be oppositely facing and laterally offset from one another, a stop defined on one of the hooks and located so that the other one of the hooks is prevented from rotating past the stop by contact with the stop, and a biasing member operatively associated with the hooks for urging the hooks to rotate toward one another and until engaging the stop, which limits rotation of the hooks to maintain the hooks relative to one another to facilitate installation of the attachment device onto the support.
The user braking device (c) includes a rigid body configured to be connectable between the user and the belay tether, a pulley positioned on the rigid body and configured for receiving the belay tether when the braking system is in use, a brake member yieldably positioned adjacent the pulley, a brake bias member operatively associated with the brake member to bias the brake member away from the pulley, and a lever pivotally connected to the rigid body and operable by the user to bear against the brake member to controllably overcome the first bias member and controllably bear the brake member toward the pulley.
The tip resistant system (d) includes a user tether having a first length and configured to be connectable between the user and the belay tether, the user tether having a belay tether connector adjacent one end of the user tether, and a user connector adjacent an opposite end of the user tether, and an auxiliary tether having a second length less than the first length of the user tether and configured to be connectable between the user and the user tether, the auxiliary tether including: a user tether connector located adjacent a first end of the auxiliary tether, and an auxiliary user connector located adjacent a second end of the auxiliary tether opposite the user tether connector. The tip resistant system operates to maintain a user in a desired static attitude.
Other aspects of the invention relate to user insertion systems having various combinations of the attachment device (b), the user braking device (c), and the tip resistant system (d).
Other embodiments of the invention will become apparent by reference to the detailed description in conjunction with the figures, wherein elements are not to scale so as to more clearly show the details, wherein like reference numbers indicate like elements throughout the several views, and wherein:
With initial reference to
The insertion system 10 includes, as major components, a push locking load attachment device 12, a user controllable braking system 114, and a tip resistant system 200.
In brief overview, the push locking load attachment device 12 enables quick engagement with a support that enables the user to quickly form a connection between a support and the load with limited engagement by the user, such as through the use of one hand, as may be required in a variety of situations and conditions.
The user controllable braking system 114 enables a user to control and even halt descent from a support from which the user is descending.
The tip resistant system 200 operates to maintain a user in a desired static attitude, and having quick disconnect features that enable the user to quickly disconnect from the belay tether using only one hand and in difficult conditions.
As shown in
With reference to
The hub 18 is provided as by an elongate bar or other elongated member, having a U-shaped load attachment bar 26, e.g. a belay attachment structure, mounted to it. The U-shaped load attachment bar 26 includes threaded ends 28 that extend through apertures 18a of the hub 18 on either side of the hook structures 20 and are secured in place by fasteners 30, e.g. threaded fasteners. Loads, such as the belay tether 16a and the user U shown in
With reference to
The first hook 36 or the second hook 38 may each be a single hook or may be made using multiple hook members. For example, as shown, the first hook 36 includes hook members 36a and 36b, and the second hook 38 includes hook members 38a and 38b. A rigid connector 40, e.g. a joining member, positions the hook members 36a and 36b in spaced apart relation to one another so that a gap 42 is formed between them. Another rigid connector 40 holds the hook members 38a and 38b in spaced apart relation to one another so that a gap 42 is also formed between them.
It is not required that both sets of the hook members be joined together by a rigid connector 40. One pair may be joined while the other pair of hook members remains unjoined such that the individual hook members of the unjoined pair of hook members are able to rotate freely with respect to one another. In certain cases, the rigid connector 40 is a weld that joins the hook members together while, at the same time, providing a space between the hooks. The pairs of hooks 36 and 38 are arranged in a meshed configuration where one of the hook members 36a or 36b of the hook 36 is inserted into the gap between the hook members 38a and 38b of the second hook 38. At the same time, one of the hook members 38a and 38b of the second hook 38 is inserted into the gap between the hook members 36a and 36b.
It will be appreciated that each of the hooks 36 and 38 may be made up of multiple hook members. For example, each of the hooks 36 and 38 may be provided by two, three, four, or more of the hook members, such as the hook members 36a and 36b and hook members 38a and 38b. In this regard, a load rating of the attachment device 12 may be determined by the number of hook members utilized for each of the hooks, and the load rating of the attachment device may be adjusted by adjusting the number of hook members utilized by each of the hooks.
Each of the hook members 36a, 36b, 38a, and 38b may be substantially identical in shape and can include a mount 46 rotatably positioned on the hub 18, a shank 48 extending away from the mount 46, and a tip 50 at a terminal end. A bend 52 having a sloping engagement surface 52a, e.g. elongate exterior sloped surface, is formed at the tip 50 and a hook surface 54 is formed opposite the shank and the sloping engagement surface 52a. The tip 50 is configured to define a projection 56 formed at the intersection of the hook surface 54 and the sloping engagement surface 52a.
The hooks 36, 38 are rotatably mounted to the hub 18 in the meshed configuration discussed above and are configured to rotate between an open position and a closed position.
Hook members 36a, 36b and 38a, 38b may be joined together by a joining member, such as the rigid connector 40, to rotate simultaneously with one another. This has the advantage of simplifying the rotating action and facilitating simultaneous engagement. The hooks 36, 38 are biased towards the closed position by the biasing member 22.
As shown, the biasing member 22 is an elastic band secured around the outside of the hooks 36, 38, and sized to cause the hooks 36, 38 to be automatically rotated to the closed position and firmly held in place. It will be appreciated that the biasing member 22 may be otherwise configured and provided as by springs, actuators, and other biasing members.
Due to the arrangement of the hooks 36 and 38, the sloping engagement surfaces 52a of the hooks 36 and 38 cooperate to define a V-shaped guide 60. One of the hooks 36 or 38 includes a rotation limiting member or stop 62, which limits the relative motion of the hooks 36 and 38 towards the closed position so that the sloping engagement surfaces 52a remain positioned to define the guide 60. For example, each of the hook members 38a and 38b preferably includes the stop 62.
The provision of the V-shaped guide 60 in particular facilitates one-handed installation of the attachment device 12 onto the support 14, as depicted in
The attachment device 12 is installable onto the support 14 by grasping the hub 18 with one hand and urging the V-shaped guide 60 against the support 14 and continuing to urge the exterior sloped surfaces 52a that define the guide 60 toward the support 14 with sufficient force to overcome the biasing member 22 so that the tips 50 of the hook members rotate away from one another to separate and define sufficient space therebetween for passage of the tips 50 of the hook members 36a, 36b, 38a, and 38b past the support 14, with the biasing member 22 urging the hook members to rotate toward one another after the hook members have passed the support 14 to maintain the attachment device 12 installed onto the support 14.
For example, as illustrated in
In
In
In
After the hooks 36 and 38 rotate to the closed position, the support 14 is prevented from being removed from engagement with the hooks 36 and 38 until the hooks 36 and 38 are rotated to the open position. The hook surfaces 54 can be configured so that applying a force to the surfaces 54 will limit the hooks 36 and 38 from rotating with respect to one another once the device 12 is attached to the support 14. Therefore, applying a force to the hook surfaces 54 when the hooks 36 and 38 are in the closed position will not cause the hooks to rotate to the open position. This helps to prevent the support 14 from inadvertently becoming disengaged from the push locking load attachment device 12.
The projections 56 further reduce the chances that the support 14 is inadvertently disengaged from the push locking load attachment device 12. In the event that the hooks 36 and 38 begin to rotate to the open position, the projections 56 are designed to contact the support 14 and to halt the rotating motion of the hooks 36 and 38.
With reference now to
The automatic belay device 16 is configured to feed out the belay tether 16a during descent of the user U from the support 14, with the distal end of the belay tether 16a connected to the secondary support 14a. The automatic belay device 16 may take the form of a variety of belay devices and may be a conventional belay configured to store the belay tether 16a on an internal reel and automatically feed out the belay tether 16a to descend the user at a generally constant rate. The belay tether 16a is desirably a flat webbing, but may be round such as a rope or cable or the like, or of other cross-sectional configurations.
The braking system 114 cooperates with the belay tether 16a and enables the user U to slow the speed of descent or to even halt descent even though the belay tether 16a continues to be fed from the automatic belay device 16. As shown in
The rigid body 120 provides a support for the pulley 122 and may be a single piece but is provided as by a pair of rigid plates 130 and 132 in the illustrated embodiment. The plate 130 is generally rectangular with a lower indented portion 130a. The indented portion 130a includes apertures 134 to facilitate attachment of the user U via a belay ring 16c to the braking system 114, such as shown in
The plate 132 preferably has the same shape as the plate 130 with a lower indented portion 132a and including apertures 144 corresponding to the apertures 134 of the plate 130. To assemble the rigid body 120 as made with the rigid plates 130 and 132, the indented portions 130a and 132a are placed in abutting relationship so that the remaining portions of the plates 130 and 312 are spaced apart to provide a housing into which the pulley 120, brake members 124a and 124b, bias members 126a and 126b, and levers 128 are located.
The plate 132 includes apertures 136a, 138a, and 142a which correspond in location to the mounts 136, 138, and 142, and receive the ends thereof. The mount 136 is desirably threaded at its end and extends past the plate 132 as assembled with the plate 130. An enlarged easy to grip nut 146 is threadably received by the mount 136 to secure the plates 130 and 132 together. The nut 146 is easily manipulated without tools to enable the plate 132 to be easily removed for installation of the belay tether 16 on the pulley 122, and then reinstalled.
The pulley 122 may be provided as by a grooved wheel or other conventional pulley structure rotatably positioned on the rigid body 120. The pulley 122 may be a static structure as well, and could be provided by a pin or the pulley mount 136. That is, the pulley 122 will be understood to be a structure that supports movement and change of direction of the belay tether 16a.
The brake member 124a is configured to have a brake surface 150 and a leg 152 depending from the brake surface 150. A lower portion of the leg 152 has a central portion thereof removed to provide spaced apart leg portions 152a. A connector 152b is provided on the leg 152 for connecting the bias member 126a to the leg 152. Aligned apertures 154 are provided through the leg portions 152a to receive the mount 138.
The brake member 124b is configured to have a brake surface 156 and a leg 158 depending from the brake surface 156. A lower portion of the leg 158 has a reduced dimension central portion 158a configured to be received by the spaced apart leg portions 152a of the leg 152. A connector 158b is provided on the leg 158 for connecting the bias member 126b to the leg 158. Aperture 160 is provided through the central portion 158a for receiving the mount 138.
The bias members 126a and 126b may be provided as by springs, rubber bands, or other elastic or elastomer members. The bias members 126a and 126b are mounted to the mounts 140 and the brake members 124a and 124b, respectively. The bias members 126a and 126b serve to bias the brake members 124a and 124b in a direction away from the pulley 122 so that braking force is not applied unless the user acts on the levers 128a and 128b to overcome the bias members 124a and 124b to enable the brake members 124a and 124b to be moved toward the pulley 122. As described more fully below in connection with
The lever 128a is an elongated rigid member having a lobed end 162 configured for interfacing with the brake member 124a for urging the brake member 124a toward the pulley 122 based upon the force exerted on the lever 128a by the user U. The lever 128a may be a straight bar or other simple geometry, but the provision of the lobed end 162 is preferred for smooth application of force to facilitate infinitesimal adjustment of the degree of braking force applied. The lever 128a includes an aperture 164 for receiving the lever mount 142 to pivotally mount the lever 128a to the plate 130. The opposite free end of the lever 128a includes an aperture 166 for attachment of a line 168 or the like thereto to facilitate the user U acting on the lever 128a, such as seen in
The lever 128b may be identical to the lever 128a, and is configured for interfacing with the brake member 124b for urging the brake member 124b toward the pulley 122 depending upon the force exerted on the lever 128b by the user U. The lever 128b likewise includes lobed end 162, aperture 164, and aperture 166.
The braking system 114 may be assembled by:
To install the braking system 114 onto the belay tether 16a, the nut 146 is easily manipulated without tools to enable the plate 132 to be easily removed for installation of the belay tether 16a on the pulley 122, and then reinstalled.
With reference to
Turning now to
As seen in
For example, in the illustrated embodiment, the belay ring 16c (
With further reference to
The user tether 214 preferably has a length of from about 15 inches to about 50 inches to fit the majority of users. The user tether 214 may be made of any sufficiently strong tether material, but in the illustrated embodiment, the user tether 214 is made of nylon strap material. An elastic member 214a can be connected to the user tether 214 to gather and compact the length of the user tether 214 when it is not tensioned. The compaction of the user tether 214 by the elastic member 214a facilitates storage of the tether 214 against the user U when the tip resistant system 200 is not connected to the belay ring 16c, such as seen in
As seen in
As described herein, integral connector 232 and the mechanical disconnect 234 of the belay tether connector 216 are configured to provide a quick disconnect feature that enables quick and easy connection to the belay ring 16c and also enables quick and easy disconnection from the belay ring 16. The quick disconnect feature is particularly desirable to enable the user U to quickly disconnect when using the invention in difficult conditions and environments. The quick disconnect feature enables the user U to disconnect from the belay ring 16c with limited engagement from the user, such as requiring the use of only one hand to accomplish disconnect.
With reference to
The integral connector 232 includes a pair of cooperating rings 250 and 252, as shown in detail in
The mechanical disconnect 234 includes a cord 260 operably associated with the cooperating rings 250 and 252, a lock member 262 fixedly coupled to the user tether 214 as by a band 262a, a handle 264 removably couplable to the lock member 262, and a relatively rigid cable 266 having one end fixed to the handle 264 and the opposite free end extending upwardly and positioned to be releasably connectable to the cord 260.
The cord 260 has a free end defining a loop 260a and an opposite end 260b affixed to the user tether 214. The loop 260a passes through an aperture 268 defined through the user tether 214. The handle 264 may be of molded plastic construction with the cable 266 being a nylon cord attached to the handle 264. For example, the cable 266 may be attached when molding of the handle 264. As described more fully below, the loop 260a of the cord 260 is passed through the aperture 268 of the user tether 214. The cable 266 of the handle 264 extends through and past the loop 260a to prevent the loop 260a from passing back through the aperture 268. Once the handle 264 is pulled by the user to activate the quick disconnect feature, the cable 266 travels downward with the handle 264 to withdraw the cable 266 from the loop 260a.
In a preferred embodiment, the handle 264 includes a spring-loaded collar 270 and lock bearings shown in phantom as represented by reference numeral 270a (
The user connector 18 may be provided as by a locking carabiner or like structure. The user connector 218 may be connected to the user tether 214 as by a loop 274 sewn or otherwise formed on the user tether 214 (
The auxiliary tether 220 may be made of any sufficiently strong tether material, but in the illustrated embodiment is made of nylon strap material. The auxiliary tether 220 has a length less than the length of the user tether 214, and preferably from about 5 inches to about 35 inches. Thus, the ratio of the length of the user tether to the length of the equipment tether preferably ranges from about 1.4 to about 3.0.
The user tether connector 222 may be provided as by a quick release carabiner or like structure. The user tether connector 222 may be connected to the user tether 214 as by a loop 276 formed on the user tether 214 adjacent the belay tether connector 216. In this regard, a loop 278 or the like receiving structure is desirably formed on the auxiliary tether 220 for locating the user tether connector 222 onto the auxiliary tether 220.
The auxiliary user connector 224 may each be provided as by a quick release carabiner or like structure. The auxiliary user connector 224 may be connected to the auxiliary tether 220 as by a loop 280 formed on the auxiliary tether 220.
In the illustrated embodiment, the user tether 214 connects to the body harness 282 via the user connector 218, and the auxiliary tether 220 connects to the equipment 284, such as the strap of a backpack or other equipment, via auxiliary user connector 224. Absent the presence of auxiliary tether 220 connected between the user tether 214 and the equipment 284, the user U would not be able to maintain the upright attitude without the use of one or both hands and considerable effort. As depicted in
As outfitted in
Returning to
With reference to
Moving to
The foregoing description of preferred embodiments for this invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obvious modifications or variations are possible in light of the above teachings. The embodiments are chosen and described in an effort to provide the best illustrations of the principles of the invention and its practical application, and to thereby enable one of ordinary skill in the art to utilize the invention in various embodiments and with various modifications as are suited to the particular use contemplated. All such modifications and variations are within the scope of the invention as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly, legally, and equitably entitled.
The invention described herein may be manufactured and used by or for the Government of the United States for all governmental purposes without the payment of any royalty.
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Entry |
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DE3347725 machine translation. |
DE3037766 machine translation. |
CN100343154 machine translation. |
Number | Date | Country | |
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20180304103 A1 | Oct 2018 | US |