Not Applicable.
Not Applicable.
This disclosure relates to fall arresters which are part of a climbing protection system for preventing a user of a ladder, a platform or the like from falling.
Fall arresters are known to be movable along a guide rail of a climbing protection system and to have a rotatably mounted pawl which, in the event of a fall, engages against catching stops in the guide rail, whereby the fall arrester is stopped in the guide rail to arrest a user from falling further. A connecting element of the fall arrester transmits force to the pawl from the user that is secured to the connecting element by a lanyard or other suitable attaching device. The connecting element can be formed as a deformable damping element, such as shown in PCT/EP2006/067469. While such fall arresters work well for their intended purpose, there is always room for improvement.
One issue with at least some current commercially available fall arresters is that they can fail to arrest a fall under certain conditions. More specifically, at least some current commercially available fall arresters can fail to properly arrest the fall of a user when the user falls in a direction that doesn't actuate the pawl of the fall arrester into a position to engage the stops in the guide rail, such as can happen when falling from a squatted position or while leaning towards the fall arrester such as when a user becomes unconscious or dizzy.
In accordance with one feature of this disclosure, a fall arrester is provided for use in a climbing protection system to protect a user of a ladder, a platform or the like from falls wherein the fall arrester is adapted to be used with, and to be movable along, a guide rail having catching stops engageable by the fall arrester in response to a fall by the user. The fall arrester includes a body configured to be movable along a guide rail, a pawl including a pawl tooth, the pawl mounted to the body for movement relative to the body between an engaging position wherein the pawl tooth will engage a catching stop in the guide rail and a disengaged position wherein the pawl tooth will not engage the catching stops in the guide rail. The fall arrester further includes a connecting element operably connected to the pawl and configured to transmit force to the pawl from a user attached to the connecting element. The pawl and the connecting element are operably connected to each other such that: (a) the pawl and the connecting element rotate in a common direction as the pawl moves from the disengaged position to the engaged position in response to a first predetermined force applied to the connecting element in a first direction, and (b) the pawl rotates away from the connecting element as the pawl moves from the disengaged position to the engaging position in response to a second predetermined force applied to the connecting element in a second direction that is different than the first direction.
As one feature, the pawl is mounted to the body to rotate about a first axis between the disengaged and engaging positions.
In one feature, the connecting element rotates about the first axis in the same direction as the pawl in response to the first predetermined force being applied to the connecting element in the first direction.
According to one feature, the connecting element is mounted to rotate about a second axis spaced from the first axis.
As one feature, the first and second axes are parallel to each other.
According to one feature, the first axis is fixed relative to the body.
In one feature, the second axis is movable relative to the body.
As one feature, the connecting element rotates about the second axis in a direction opposite to the rotation of the pawl about the first axis in response to the second predetermined force being applied to the connecting element in the second direction.
In one feature, the second axis moves with the pawl as the pawl rotates about the first axis.
According to one feature, the pawl is pre-loaded by a spring toward the disengaged position.
In one feature, the spring is engaged against the connecting element and the pre-load is transferred to the pawl by engagement of the connecting element against the pawl.
As one feature, the connecting element and the pawl are pre-loaded against each other.
According to one feature, the pre-load is overcome in response to the second predetermined force applied to the connecting element in the second direction.
As one feature, the pawl is mounted to the body to rotate about a first axis between the disengaged and the engaging positions, the connecting element is mounted to rotate about a second axis spaced from the first axis, and the pawl rotates about the first axis away from the connecting element in response to the second predetermined force being applied to the connecting element in the second direction.
In one feature, the second axis is movable relative to the body and moves with the pawl as the pawl rotates about the first axis.
According to one feature, the connecting element is formed as a damping element which deforms upon the application of the predetermined force.
In one feature, the connecting element is mounted to translate relative to the second axis in addition to rotating about the second axis.
Other features and advantages will become apparent from a review of the entire specification, including the appended claims and drawings.
According to
For ease of description, the figures illustrating the fall arrester 10 show embodiments in the typical orientation that the fall arrester 10 would have when employed by a user in a climbing protection system 13, and terms such as upper, lower, horizontal, etc., are used with reference to this orientation. It will be understood, however, that the fall arrester 10 may be manufactured, stored, transported, used, and sold in an orientation other than the orientation described.
The fall arrester 10 has an elongate body 20 extending in the elongate length direction of the guide rail 12 (typically vertical) with a pawl 18 rotatably mounted therein. Two pairs of rollers 22, 24 are provided at the front end or top of the body 20. The inner pair of rollers 22 runs on the inside of the guide flange 14, while the outer pair of rollers 24 runs on the outside of the guide flange 14. The rollers 22, 24 are mounted on journal bearings which are fastened rigidly to the body 20. The inner rollers 22 remain at a distance from the outer rollers 24 that is somewhat greater than the material thickness of the guide flange 14. Two similar pairs of rollers 26, 28 are provided at the rear end or bottom of the body 20, wherein the inner pair of rollers 26 again runs on the inside of the guide flange 14, while the outer pair of rollers 28 runs on the outside of the guide flange 14.
It should be appreciated that the rollers 22, 24, 26, 28 serve to rollingly guide the fall arrester 10 up and down along the length of the guide rail 12 while bearing a portion or all of a user's weight (as shown by arrow “A” in
The body 20 of the fall arrester 10 has a slot-shaped opening 29 in which the pawl 18 is mounted on a cylindrical pin 32 to rotate about a first axis 33 (extending perpendicular to the plane of the paper in
In the illustrated embodiments, a damping element 40 is formed as a single, unitary part of a connecting element 41 on the side facing the user. The first connecting element 41 is operably connected to the pawl 18 and configured to transmit force to the pawl from a user attached to the first connecting element 41. In this regard, the first connecting element 41 and has a lug 42 from which a lanyard 43 or other safety harness attachment of the user can be connected to the fall arrester 10, The damping element 40 is U-shaped overall, with the end of one leg of the U terminating at the lug 42 and the end of the other leg extending from the remainder of the first connecting element 41.
The first connecting element 41 is mounted by a cylindrical pin 44 defining a second axis 46 (extending perpendicular to the plane of the paper in
While it is believed that the illustrated mounting configuration discussed above for the pawl 18 and the connecting element 41 will be desirable in many applications, in some applications it may be desirable to employ other configurations that allow the pawl 18 and the connecting element 41 to rotate in a common direction as the pawl 18 moves from the disengaged position to the engaged position in response to the first predetermined force applied to the connecting element 41 in the first direction, and for the pawl 18 to rotate away from the connecting element 41 as the pawl 18 moves from the disengaged position to the engaging position in response to the second predetermined force applied to the connecting element 41 in the second direction, and that such alternate configurations would be within the broad scope of this disclosure.
In the illustrated embodiment, a torsion spring 70, best seen in
In the event of a generally downward vertical fall, such as indicated by arrow “B” in
In the event that a user should fall in a more horizontally directed direction, such as shown by the arrow “C” in
It should be understood that in the event of either of the falls described above in connection with either
It should also be understood that while the illustrated embodiments show the axes 33, 46, 51, and 58 extend parallel to each other in a horizontal direction when the fall arrester 10 is in use, this disclosure contemplates that a fall arrester 10 can be configured wherein one or more of the axes 33, 46, 51, and 58 do not extend parallel to each other, or may not extend in the horizontal direction.
While the body 20 can have any suitable construction, in the illustrated embodiment, the body 20 is formed from two elongate frame members 90 and 92 that are essentially mirror images of each other, with the frame members 90 and 92 being held together by a plurality of threaded fasteners 94, and the pins 32, 50, and 56 being fixed on opposite sides to the respective frame members 90 and 92 such that they are supported on both sides.
While the pawl 18 and connecting element 41 can have any suitable construction, in the illustrated embodiment, the pawl 18 includes a centrally located slot 100 having spaced flanges 102 with pin receiving holes 104 formed therein for receiving the pin 44, and the connecting element 41 has a centrally located flange 110 that is received in the slot 100, with the slot 48 formed in the flange 110 so as to receive the pin 44.
While specific embodiments of the fall arrester 10 have been illustrated herein, it should be understood that there are many possible ways to configure a fall arrester 10 within the scope of this disclosure and no limitations to specific illustrated or described embodiments are intended unless the structure for such is expressly recited in the claims.
The present invention can be summarized in the following statements or aspects numbered 1-20:
1. A fall arrester for use in a climbing protection system to protect a user of a ladder, a platform or the like from falls wherein the fall arrester is adapted to be used with, and to be movable along, a guide rail having catching stops engageable by the fall arrester in response to a fall by the user, the fall arrester comprising:
a body configured to be movable along a guide rail;
pawl comprising a pawl tooth, the pawl mounted to the body for movement relative to the body between an engaging position wherein the pawl tooth will engage a catching stop in the guide rail and a disengaged position wherein the pawl tooth will not engage the catching stops in the guide rail;
a connecting element operably connected to the pawl and configured to transmit force to the pawl from a user attached to the connecting element; wherein
the pawl and the connecting element are operably connected to each other such that:
(a) the pawl and the connecting element rotate in a common direction as the pawl moves from the disengaged position to the engaged position in response to a first predetermined force applied to the connecting element in a first direction, and
(b) the pawl rotates away from the connecting element as the pawl moves from the disengaged position to the engaging position in response to a second predetermined force applied to the connecting element in a second direction that is different than the first direction.
2. The fall arrester in accordance with any one or more of the preceding aspects wherein the pawl is mounted to the body to rotate about a first axis between the disengaged and engaging positions.
3. The fall arrester in accordance with aspect 2 wherein the connecting element rotates about the first axis in the same direction as the pawl in response to the first predetermined force being applied to the connecting element in the first direction.
4. The fall arrester in accordance with aspect 2 wherein the connecting element is mounted to rotate about a second axis spaced from the first axis.
5. The fall arrester in accordance with aspect 4 wherein the first and second axes are parallel to each other.
6. The fall arrester in accordance with aspect 4 wherein first axis is fixed relative to the body.
7. The fall arrester in accordance with aspect 5 wherein the second axis is movable relative to the body.
8. The fall arrester in accordance with aspect 7 wherein the connecting element rotates about the second axis in a direction opposite to the rotation of the pawl about the first axis in response to the second predetermined force being applied to the connecting element in the second direction.
9. The fall arrester in accordance with aspect 4 wherein the second axis moves with the pawl as the pawl rotates about the first axis.
10. The fall arrester in accordance with any one or more of the preceding aspects wherein the pawl is pre-loaded by a spring toward the disengaged position.
11. The fall arrester in accordance with aspect 10 wherein the spring is engaged against the connecting element and the pre-load is transferred to the pawl by engagement of the connecting element against the pawl.
12. The fall arrester in accordance with any one or more of the preceding aspects wherein the connecting element and the pawl are pre-loaded against each other.
13. The fall arrester in accordance with aspect 12 wherein the pre-load is overcome in response to the second predetermined force applied to the connecting element in the second direction.
14. The fall arrester in accordance with aspect 12 wherein the pawl is mounted to the body to rotate about a first axis between the disengaged and the engaging positions, the connecting element is mounted to rotate about a second axis spaced from the first axis, and the pawl rotates about the first axis away from the connecting element in response to the second predetermined force being applied to the connecting element in the second direction.
15. The fall arrester in accordance with aspect 14 wherein the second axis is movable relative to the body and moves with the pawl as the pawl rotates about the first axis.
16. The fall arrester in accordance with any one or more of the preceding aspects wherein the connecting element is formed as a damping element which deforms upon the application of the predetermined force.
17. The fall arrester in accordance with aspect 4 wherein the connecting element is mounted to translate relative to the second axis.
18. The fall arrester in accordance with aspect 9 wherein the connecting element is mounted to translate relative to the second axis.
19. The fall arrester in accordance with aspect 8 wherein the connecting element is mounted to translate about the second axis.
20. The fall arrester in accordance with aspect 15 wherein the connecting element is mounted to translate relative to the second axis.
This application claims priority of Provisional Ser. No. 62/004,816, filed May 29, 2014, and Appln. No. PCT/US15/30697, filed May 14, 2015, the disclosures of which are hereby incorporated by reference in their entirety.
Filing Document | Filing Date | Country | Kind |
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PCT/US2015/030697 | 5/14/2015 | WO | 00 |
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WO2015/183564 | 12/3/2015 | WO | A |
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