COMPACT DESCENT CONTROLLER<BR> REFERENCE TO RELATED APPLICATIONS The present application claims benefit of United States Provisional Patent Application No. 60/324, 756 filed on September 25,2001.

BACKGROUND OF THE INVENTION The present invention relates to a descent controller for use on a rope or line or cable for lowering a person or load in a controlled descent from a higher elevation to a lower elevation. More particularly, the present invention relates to a rope or cable mounted descent control device having a compact design and wherein the operating components are substantially enclosed.

Numerous descent assistance devices have been developed, all with the objective of aiding in the lowering of a load from a higher to a lower elevation.

These devices have taken many forms and have utilized a variety of elements capable of providing a mechanical advantage together with a braking mechanism. In more recent years, concerns with occupational safety have led to the development of mechanisms that enable a worker to lower himself from an elevated position such as a scaffold, crane, lift truck or platform in the event of an emergency.

A descent control device with a deadman brake, in the form of a vertical cylindrical drum or capstan about which a rope is wound and a tapered slot through the drum for receiving and releasably gripping the rope along which descent is made, together with a releasable locking end plate, is shown in United States Patent Application No. 5, 131, 491, issued July 21, 1992, to H. M. Varner and R. H. Frost. While the above device is well designed and effective, it is desirable in some applications to reduce overall size and number of operating components. It is also desirable to enclose the operational components in some applications to lessen the potential for contamination or damage.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new and improved load lowering descent controller of the type embodying a fixed cylindrical body or capstan about which a rope or cable is turned.

Another object of the present invention is to provide a descent controller of the foregoing character that may be actuated for lowering a load such as an unconscious user or equipment.

A further object of the present invention is to provide a descent controller of the foregoing character having a compact and robust design.

Still another object of the present invention is to provide a descent controller wherein the operating components are substantially enclosed.

A further object of the present invention is to provide a descent controller having the foregoing characteristics, which enables the user to adjust the mechanical advantage of the device.

Briefly, one embodiment of the present invention comprises an improved descent controller for lowering a load along a rope from an elevated position to a relatively lower position. The controller comprises a housing having a friction cylinder or capstan of a length adapted to receive a plurality of turns of the rope wrapped therearound. The housing has an upper end portion and a lower end portion, with top and bottom end plates attached respectively adjacent the upper end portion and spaced from the lower end portion of the housing. The lower end portion has a transverse through aperture connecting to a generally longitudinal aperture. The top end plate has a portion thereof overhanging the cylinder and defining radial slots sized to loosely receive the rope. The housing defines a longitudinal counterbore intersecting the transverse through aperture at the housing lower end portion. An elongated aperture extends transversely through the housing upper end portion and intersects the counterbore.

A plunger comprises a bottom portion disposed within the housing counterbore and a top portion disposed adjacent the housing top plate. The plunger may include an intermediate portion having a diameter between the diameter of the bottom and top portions. The bottom portion of the plunger extends below the lower end plate and defines diametrically therethrough a downwardly narrowing tapered slot. The tapered slot defines an enlarged end

adapted to freely admit the rope and tapers from the enlarged end to a relatively constricted end of a width sufficient for gripping the rope.

A bias member is disposed within the counterbore and between the plunger bottom portion and the housing. The bias member urges the plunger toward a position for wedging the rope in the narrow end of the tapered slot.

An outer sleeve is secured to the plunger top portion for use in sliding the plunger against the force of the biasing spring to release the rope from the narrow end of the tapered slot. The sleeve defines a housing substantially enclosing the plunger, spring, friction cylinder and the rope wrapped therearound. The lower portion of the sleeve may also include a longitudinally extending slot therein of sufficient width for freely receiving the rope.

Means are provided on the lower end of the housing for engagement with a load support. The descent controller supports a load on the rope and, upon sliding movement of the sleeve, provides for a controlled descent of descent controller and the supported load along the rope.

In another aspect of the invention the controller can be secured at an elevated position and actuated at that point to lower a rope-supported load.

The present invention provides a descent controller that substantially encloses all of the working components. Additionally, the inventive descent controller uses parts that are robust in construction while requiring only a fraction of the length of some known controllers.

BRIEF DESCRIPTION OF THE DRAWINGS Other objects and advantages of the invention will be evident to one of ordinary skill in the art from the following detailed description may with reference to the accompanying drawings, in which: Figure 1 is a perspective view illustrating use of an embodiment of an inventive descent controller; Figure 2 is side view, partly in phantom and partly in section, of an embodiment of an inventive descent controller ; Figure 3 is a side view showing the descent controller of figure 2 in a different rotational orientation; Figure 4 is a top view of the descent controller of Figure 2;

Figure 5 is a side view, partly in phantom, of an embodiment of an inventive housing; Figure 6 is a side view showing the housing of figure 5 in a different rotational orientation ; Figure 7 is a bottom view of the housing of Figure 5; Figure 8 is a perspective view of the housing of Figure 5; Figure 9 is a side view, partly in phantom, of an embodiment of an inventive plunger ; Figure 10 is a side view showing the plunger of figure 9 in a different rotational orientation; Figure 11 is a top view of the plunger of Figure 9; Figure 12 is a perspective view of the plunger of Figure 9; Figure 13 is a side view, in phantom, of an embodiment of an inventive sleeve ; Figure 14 is a side view showing the sleeve of figure 13 in a different rotational orientation; and Figure 15 is a perspective view of a portion of an emergency descent kit utilizing an inventive descent controller ; DETAILED DESCRIPTION OF A PREFERRED EMBODIMENT One embodiment of a descent controller 10 of the present invention is shown in Figures 2 and 3. The descent controller comprises a housing 12 (shown best in Figures 5-8) including a longitudinally oriented capstan 14 such as a cylinder shaft or drum about which a length of rope or line 16 is wound. The number of turns of rope is the principal determinate of the capstan ratio or mechanical advantage enabling the user or load to descend slowly along the fixed rope as the rope hangs from the elevated point. A user can change the number of turns of rope wound around the capstan to change the mechanical advantage and thereby the descent speed. The rope is secured at one end at an elevated point (not shown) above the ground, and hangs downwardly to the ground or a lower platform (not shown). The descent controller is mounted on the rope to enable the descent controller and user or a load to descend slowly and controllably along the fixed length of rope from the elevated point to the lower point, whether the ground or a platform. The controller includes means for

selectively gripping the rope to slow or prevent descent and for selectively releasing the rope to provide for a controlled descent. In a first extreme position or deadman position, the controller grips the rope tightly and prevents descent.

In some embodiments the opposite extreme position comprises a complete release position wherein the rope is released at a rate limited by the weight of the load and the number of turns of rope wrapped around the capstan or friction cylinder. Between the opposing positions, the rope is released at a user controlled rate.

The housing includes a top plate 44 adjacent an upper end portion and a bottom portion comprising a bottom plate 46 adjacent a lower end of the capstan. Juxtaposed with the bottom portion of the housing is means for receiving a strap 48, supporting rope, hook, loop or the like for engaging and supporting a load suspension structure or harness. The housing can be integral.

The housing lower end portion defines a transverse through aperture 54 connecting to a longitudinal aperture 52, each sized for freely receiving a portion of the rope. The top plate includes at least one rope receiving guide notch defined therein for receiving an inserted portion of the rope.

The housing defines a longitudinal counterbore 56 substantially concentric with a center axis and intersecting the transverse through aperture at the housing lower end portion. Advantageously, the housing defines a diametrically smaller counterbore in the lower end portion and a diametrically larger counterbore in the intermediate and upper portions. The housing intermediate and upper portions define at least one longitudinally elongated aperture 50 intersecting the counterbore. The housing intermediate and upper portions define a longitudinally elongated aperture. Advantageously, the housing defines a pair of diametrically opposed, longitudinally elongated apertures and at least one aperture extends transversely through the wall of the housing and intersects the counterbore.

A plunger 28 (shown best in Figures 9-12) comprises a bottom portion 66 disposed within the housing counterbore and a top portion 42 overlying the housing top plate. The plunger includes an intermediate portion 62 that may have a diameter between the diameter of the bottom and top portions. The plunger intermediate portion defines a diametrical aperture 68 therethrough. The

plunger can be integral. The housing is secured to the plunger by at least one stop pin 36 extending through the plunger diametrical aperture and housing longitudinally elongated aperture. See Figures 2 and 3. The stop pin and longitudinally elongated aperture combine to limit the plunger to only axial movement between the extreme raised and lowered positions.

In one embodiment the bottom portion of the plunger extends below the lower end plate and defines diametrically therethrough a narrowing tapered slot 60 having a generally teardrop shape. The slot tapers from an enlarged end that loosely receives the rope to a narrow or gripping end that frictionally grips the rope. A rope passing through the open end of the slot moves freely through the slot. However, the rope is tightly gripped and restrained by the narrower end of the slot. The housing transverse aperture positively positions the rope in the slot. The transverse aperture receives the rope and allows the rope to pass freely through the enlarged end of the tapered slot when the plunger is in a lowered position, as well as receiving the rope to force or jam the rope into the narrow end of the tapered slot when the plunger is in its upper position. While a downwardly narrowing tapered slot is preferred at the present time it should be understood that other slots having different configurations in which the rope is loosely received in one portion and restrained from passage in another portion are possible and all such configurations are encompassed by the invention. For example, the slot may have an enlarged central portion connecting opposing narrower portions in a general diamond shape.

The rope is inserted through the transverse through aperture and longitudinal aperture, wound in a number coils or turns about the capstan or friction cylinder between the bottom and top plates and disposed through the top plate guide notch.

A bias member functions to urge the plunger toward its rope gripping or deadman position wherein the narrower end of the slot is aligned with the housing transverse through aperture. In this position the slot narrow end restrains the rope from passing through the descent controller. The bias member can be, for example, a coil spring 32 disposed between an interior wall 38 of the counterbore and an outer surface 40 of the bottom portion of the plunger. Preferably, a lower end of the spring is supported by a thrust shoulder

34 in the housing lower end portion and an opposing upper end of the spring is supported by a plunger thrust shoulder 64 defined at the intersection of the plunger bottom and intermediate portions.

A sleeve or housing 30 (shown best in Figures 13 and 14) is secured to the plunger top portion 42. As shown in Figures 2 and 3, the sleeve extends in surrounding covering relation with the plunger intermediate and lower portions, spring, capstan, rope turns, the housing upper and lower plates and some of the housing lower end portion. Advantageously, the sleeve is removably secured to the plunger top portion by, for example, ball detents 26 or threaded fasteners so that the sleeve can be removed to facilitate disassembly and reassembly of the descender. The sleeve is advantageously provided with a knurled, grooved or roughened outer surface 70 to enable a user to readily grip the housing surface without slipping, in order to actuate the plunger. Adjacent its lower edge the sieeve is provided with a longitudinally extending peripheral notch 72 which aligns with the housing transverse aperture and through which the rope loosely extends.

Since the sleeve is rotationally secured to the plunger and the plunger is rotationally secured to the housing by, for example, the stop pin, there is no tendency for the sleeve and/or plunger to rotate with respect to the capstan cylinder in this embodiment, thereby minimizing binding or jamming of the rope during descent.

In the event that a user completely releases the sleeve, e. g. a deadman fall, the spring will bias the plunger to a raised position so that the transverse aperture will jam the rope in the upper tapered end of the slot to prevent or retard further descent. The device can thus provide for a stop or controlled descent under deadman conditions.

In any embodiment the portions of the device in contact with the rope, such as aperture edges, can be polished or chamfered or rounded to reduce cutting of or damage to the rope.

The present invention finds particular but not necessarily exclusive utility in safety escape systems, as shown in Figure 15. Such an escape system includes a descent controller in association with a safety rope and a supporting harness 20 such as, for example, a harness of the type disclosed and claimed

in U. S. Patent No. 5,070, 692, issued Dec. 10,1991. At one end, the rope is provided with a loop 24 or other device to enable the rope to be secured at an elevated position. The free end of the rope is housed in a container 22. The rope container, descent controller, and harness are packaged in a kit containing appropriate instructions. In use, such as for a descent from a scaffold or lift truck platform, the kit is opened and the loop end of the rope is secured to a fixture at the elevated location. The rope packet is lowered so that the rope extends from the fixture to the ground. The user dons the harness, steps off of the platform and actuates the descent controller so that the descent controller and user descend along the rope to the ground.

Alternatively, for lowering an unconscious person or other load along a rope from an elevated position to a lowered position, the load can be secured to the loop end of the rope and the descent controller secured to a fixed mounting support by attaching the strap 18 thereto. An operator, at the position of the fixed descent controller can reach the sleeve to actuate the controller to control the descent of the load in the harness. The free end of the rope feeds through the controller as the load descends.

A further alternative use of a descent controller embodying the present invention, is for controlling the descent of work stations, such as a bosun's chair, while the rider is working on a vertical surface. The user secures the descent controller to the bosun's chair and descends to a working position. At the working position the sleeve is released, thereby stopping the descent, and enabling the user to perform a task at the working position. When the task at that location is finished, the user can descend to a lower position and continue the work. The descent is controlled by actuating the sleeve of the descent controller to provide for a controlled descent. For additional safety, the user also conventionally employs a separate, secured safety rope (not shown), to prevent accidental descent or catch the user and prevent a fall.

The foregoing descent controller provides a user controllable means for a person located above the ground or floor to descend thereto on a rope.

Applications include but are not limited to egress from overhead crane cabs, forklift or stockpicker cabs, and the buckets on high-lift utility vehicles. In addition, the device may be used for the evacuation of buildings, bridges,

structures, platforms, ships, or aircraft where the descent distance is sufficient to cause injury if the user jumps without a control device. Another application is for the rescue of persons trapped in a building by fire, stranded on a ledge or a mountain, or in similar hazardous situations. Police special weapons teams and armed forces personnel can use the device effectively for controlled descent from buildings, ledges, mountains, aircraft and other elevated positions.

While certain illustrative embodiments have been shown in the drawings and described above in considerable detail it should be understood that there is no intention to limit the invention to the specific forms disclosed. On the contrary the intention is to cover all modifications, alternative constructions, equivalents and uses falling within the spirit and scope of the invention as expressed in the appended claims.