1. Field of the Invention
The present invention generally relates to an apparatus for selectively extending and retracting a utility line, hose, or the like. More particularly, the present invention relates to an apparatus for selectively extending a dental utility line for utility line use and selectively retracting a dental utility line for utility line storage.
2. Description of the Prior Art
The prior art is replete with examples of apparatus and systems for enabling users to selectively extend and retract a utility line, hose, or cord. The dental industry, in particular, requires utility lines for the actuated use of a variety of dental instruments and appliances and thus has been offered a variety of means for selectively extending and selectively retracting utility lines in the office. It has been noted that when an effective dental utility line storage system (that enables the user to selectively extend a line for use and selectively retract a line for storage) is not employed in a dental practice setting, the dental utility lines often become entangled with one another or damaged by everyday office behavior, such as by being trampled under foot or by rolling chairs and the like. Added to the potential for damage and entanglement is the rather unsightly appearance of utility lines. Dental practitioners typically strive to enhance the appeal of their offices since the services they perform can often be rather unpleasant and thus a means for storing utility lines behind the scenes is preferable to allowing utility lines to be open for unsightly inspection. The prior art thus teaches a variety of devices or systems to effectively store dental utility lines and allow selective extension and retraction thereof for generally enhancing the dental office visit. Some of the more pertinent prior art relating to these subjects is described hereinafter.
U.S. Pat. No. 3,180,585 ('585 Patent), which issued to Pusey et al., discloses an Extendable and Retractable Utility Line Apparatus. The '585 Patent teaches an extendable utility line apparatus providing automatic retraction for an extended line. The extendable utility line apparatus comprises a console cabinet having a hinged cover, a series of broad and relatively shallow structural channels of smooth-faced material removably mounted in the cabinet and disposed back to open mouth so as to define a corresponding series of vertically disposed and elongate smooth-wall pockets. The upper end of the back of each channel projects upwardly beyond its sides. A bottom grooved spanning board is slidably mounted within the cabinet and normally extends across the upper ends and slidably receives the end within its grooves for firmly positioning the channels within the cabinet. A utility line for each pocket extends into the upper end of the pocket, dipping low into the pocket in retracted position and looping back to return to the upper end of the pocket to emerge therefrom and extend through the hinged cover. Further disclosed are means for supporting the emergent upper end of the retracted utility line against being withdrawn through the cover and into the pocket. A freely floating sheave, having no connection with the pocket-defining structure, is disposed within the loop of the utility line for riding upwardly in the pocket with the loop as a guide and retainer when the utility line is extended, and for dropping down with the loop when the line is released. The line thus retracts automatically under the influence of gravity, the sheave having sound absorbent material laterally thereof as a silencer.
U.S. Pat. No. 3,427,719 ('719 Patent), which issued to Gordon et al., discloses a Dental Unit. The '719 Patent teaches a dental instrument unit comprising in combination an extendable utility line having a dental instrument thereon, the extendable utility line being anchored within a cabinet and being trained over a pulley on a movable piston within the cabinet. Further the line is trained over a fixed pulley to extend outside of the cabinet. Vacuum means may be applied to the piston to retract the utility line.
U.S. Pat. No. 3,429,516 ('516 Patent), which issued to Sharp et al., discloses Dental Equipment. The '516 Patent teaches a support for dental equipment of the type that has a flexible hose connected at one end with an instrument and at the opposite end with a hose activation or actuation means. The hose is suspended in a loop between a pair of upright guides. A weighted pulley rides in the loop of the hose and is supported by the upright guides. The pulley assembly applies tension to the hose to draw the instrument end of the hose into the cabinet where the support is mounted. The instrument end of the hose passes through a tube at the top of the cabinet and the outer end of the tube supports the instrument in position for being grasped by the user. A catch mechanism on the pulley assembly latches the pulley assembly temporarily at the top of the guides to relive the tension in the hose. The catch may be readily unlatched by pulling on the instrument end of the hose. The weight of the pulley assembly then draws the instrument end of the hose into the cabinet.
U.S. Pat. No. 3,793,729 ('729 Patent), which issued to Nyboer, discloses a Gripping Device Assembly for Tensioned Pliable Elongate Member. The '729 Patent teaches an assembly used in conjunction with a hand-holdable instrument that has an elongate pliable member extending therefrom to a source of power that serves to actuate the instrument. The assembly comprises a housing that is located in a fixed base position relative to the source of power, and the housing having the elongate pliable member extending therein. The confined space is partially defined in the housing by a top and bottom, with the bottom including an inclined surface on which a rotatable member is movably supported. Means for maintaining tension on the elongate pliable member are disposed between the source of power and the housing.
The housing is preferably capable of removably supporting the instrument at a first position thereon. When the instrument is moved outwardly from the housing without the pliable elongate member contacting the rotatable member, tension is maintained on the elongate member until the instrument is moved downwardly to bring the elongate member into friction contact with the rotatable member. The instrument is then allowed to move toward the housing a short distance due to the tension on the elongate member, with the rotatable member now rolling up the inclined surface to frictionally grip the pliable elongate member between the rotatable member and the top of the housing. The portion of the elongate member extending outwardly from the housing to the instrument is now free of tension and the instrument may be maneuvered without any restraint thereon. After the instrument has been used, the instrument is returned to the first position by reversing the above-described steps.
U.S. Pat. No. 5,450,874 ('874 Patent), which issued to Hamula, discloses a Dental Instrument Hose Retraction Device. The '874 Patent teaches a device for retracting and storing a length of hose. The device is housed within a dental cabinet and includes a rectangular compartment formed by integral side walls and front and rear walls. A plurality of spool supports is positioned adjacent to the side walls. A spool is positionable within the compartment. A length of hose anchored at the rear wall is routed under the spool and through an opening in an instrument panel of the dental cabinet. At the distal end of the hose is attached the desired dental tool. In retracted position, the hose hangs in a loop or bight with the spool supported on the bight. The weight of the spool normally keeps the hose under tension. The device is operated by pulling on the distal end of the hose such that the spool is lifted onto and secured by the spool supports. In this position, tension is released from the hose. The hose is retractable by exerting a quick jerk or pull on the distal end of the hose which dislodges the spool from the spool support causing the spool to displace vertically down into the compartment, exerting a downward force on the hose to retract it.
It will thus be noted that the prior art teaches a variety of mechanisms for allowing dental practitioners to both store a plurality of utility lines and further to selectively extend and retract each of the utility lines for operative use. It will be noted that a variety of pulley assemblies have been developed to enhance the effectiveness of the utility line extension and retraction systems. Further, the prior art teaches a variety of means for braking the utility line when in a fully extended, operative state. A number of retraction means are also taught by the prior art. From a thorough inspection of the prior art, it will be seen, however, that none of the prior art teach a uniquely configured traveling pulley assembly track comprising an ascension path for utility line extensions and a separate and distinct descension path for utility line retractions.
Further, it is noted that prior art braking systems employing line-cinching or line-pinching means for braking the utility line are deficient for various reasons. In this regard, it has been noted that cinch or pinch-type braking means, which attempt to hold utility lines in an extended state for utility line use often fail to properly grab or hold the utility line in place for utility line use. See, for example, the '729 Patent. Cross sectional configurations of utility lines vary in practice, there being a number of different types of utility lines for actuating different types of dental instruments. These utility lines often rotate about the axis extending therethrough and thus means for cinching or pinching the line in place often fail to properly make sufficient frictional contact with the utility line for holding the same in place. Further, these systems may compromise the effectiveness of the utility line by kinking the line or by damaging the line from repeated pinched engagement. Thus, it is contemplated that braking systems that do not rely upon line-cinching or line-pinching braking means are to be preferred over those that do.
While the '874 Patent teaches braking means that do not comprise line-cinching or line-pinching means for braking a utility line, the '874 Patent does not teach a positive tracking system with transitional lock or transitional brake means. It will be seen from an inspection of the '874 Patent that the hose is retractable by exerting a quick jerk or pull on the distal end of the hose which dislodges the spool from the spool support causing the spool to displace vertically down into the compartment, exerting a downward force on the hose to retract it.
From a review of the above-referenced patents and other prior art generally known to exist, it will be seen that the prior art does not teach a positive tracking system, comprising a closed path with transitional braking means along the closed path. It will be further seen that the prior art does not teach a selectively extendable and selectively retractable utility line system comprising non-frictional braking means. The prior art thus perceives a need for a selectively extendable and selectively retractable utility line system comprising positive tracking with smooth transitional brake means for enhancing utility line extensions and utility line retractions.
Accordingly, it is an object of the present invention to provide a selectively extendable and selectively retractable utility line system for enabling users thereof to effectively extend utility lines for utility line use and further to effectively retract utility lines for utility line storage. It is a further object of the present invention to provide novel utility line braking means for selectively holding the extended utility line in an extended state during utility line use. In this regard, it is a further object of the present invention to provide a unique pulley-receiving track comprising a distinct ascension path, a distinct extended-state rest stop or brake point, and a distinct descension path for respective utility line extensions, utility line usage, and utility line retractions.
To achieve these and other readily apparent objectives, the present invention provides a utility line extension and retraction system or utility line extension and retraction cassette assembly for enabling users thereof to selectively extend a utility line for utility line use and retract the utility line for utility line storage. The utility line extension and retraction system essentially comprises a plurality of utility line cassettes. Each utility line cassette essentially comprises two laterally-spaced, pulley-receiving walls; spacer means intermediate the pulley-receiving walls, an anterior line outlet end; a posterior line inlet end; a stationary pulley assembly adjacent the anterior line outlet end; a traveling pulley assembly intermediate the anterior line outlet end and the posterior line inlet end; and a utility line extending from the posterior line inlet end to the anterior line outlet end.
Each pulley-receiving wall comprises an inner wall surface, an outer wall surface, and a pulley-receiving groove situated intermediate the inner wall and outer wall surfaces. The pulley-receiving grooves together cooperatively form the pulley-receiving track. The pulley-receiving track comprises an inferior track path, a superior track region, and a pulley guide junction intermediate the inferior track path and the superior track region. The superior track region essentially comprises a closed path comprising an anterior track path or ascension path, a posterior track path or descension path and superior path track with transitional braking means or an extended brake stop intermediate the anterior track path and the posterior track path. The extended-state rest stop effectively provides cinch-less or pinch-less braking structure so as to effectively brake the utility line when it is in extended utility line use.
The traveling pulley assembly comprises a first pulley and track-traveling means. The first pulley comprises an inferior pulley region, a central traveling hub aperture, and a first utility line-accepting groove. The central traveling hub aperture has a traveling hub axis about the first pulley may rotate. The track traveling means are located within the central traveling hub aperture for enabling the traveling pulley assembly to travel along the pulley-receiving track. The stationary pulley assembly comprises a second pulley and cassette attachment means. The cassette attachment means are designed to rotatably attach the stationary pulley assembly to the pulley-receiving walls. The second pulley comprises a superior pulley region, a central stationary hub, and a second utility line-accepting groove. The utility line is trained through the utility line accepting grooves from the posterior line inlet end to the anterior line outlet end.
Thus, as the utility line is extended, the utility line length imparts varying forces to the traveling pulley assembly to cause the same to travel along the pulley-receiving track. When the utility line is in a fully extended state, the traveling pulley assembly comes to rest in the extended-state rest stop. When the user wishes to retract the utility line, the user imparts a tensile force to the utility line to cause the traveling pulley assembly to start from the extended-state rest stop and continue along the pulley-receiving track. The pulley-receiving track is bi-directional along the inferior track path and uni-directional along the superior track region. In other words, the traveling assembly both ascends and descends in the inferior track path, but travels along a one-way path when in the superior track region. It will thus be seen that the present invention provides a unique pulley-receiving track comprising a distinct ascension path, a distinct extended-state rest stop or brake point, and a distinct descension path for respective utility line extensions, utility line usage, and utility line retractions.
Other objects of the present invention, as well as particular features, elements, and advantages thereof, will be elucidated or become apparent from, the following description and the accompanying drawing figures.
Other features of my invention will become more evident from a consideration of the following brief description of my patent drawings, as follows:
Referring now to the drawings, the preferred embodiment of the present invention concerns a utility line extension and retraction system or utility line extension and retraction cassette assembly for enabling users thereof to selectively extend a utility line for utility line use and retract the utility line for utility line storage. The utility line extension and retraction system 10 is generally illustrated and referenced in
Each pulley-receiving wall 21 is preferably constructed from 0.375-inch thick Type 1 (gray) PVC and comprises an inner wall surface 27 as illustrated and referenced in
A pulley-receiving groove 29 or pulley-receiving structure is situated intermediate each inner wall surface 27 and outer wall surface 28 as illustrated in
Utility line 26 varies in cross-sectional orientation as generally illustrated in
Prior art utility line braking systems incorporate various types of line-cinching or line-pinching braking means for selectively holding a utility line in an extended state. The utility line tubing, however, tends to rotate about its axis when extended and retracted. The described prior art braking means employing line-cinching or line-pinching means for selectively holding a utility line in an extended state are problematic insofar as the tubing often becomes damaged and/or is not properly cinched or pinched (and thus braked). This shortcoming is particularly common when the tubing is of the Hand-Piece type. As will be understood from general consideration of
Traveling pulley assembly 25 preferably comprises a first pulley 42 as illustrated and referenced in
It is contemplated that first pulley 42 may comprise three different types of pulleys depending on the type of utility line 26 being used with cassette assembly 20 as previously outlined. If utility line 26 is either Saliva Ejector Valve (SEV)-type tubing or 3-Way Syringe-type tubing, it is contemplated that first pulley 42 preferably comprise a 2.625-inch diameter having an inferior pulley region 43 (as well as a first pulley, superior pulley region) measuring about 0.9375 inches. The diameter of central traveling hub aperture 44 further preferably measures about 0.75 inches. Together, the radial measurements of inferior pulley region 43, the first-pulley, superior-pulley region, and central traveling hub aperture 44 thus comprise the 2.625-inch preferred diameter. The preferred width of the 2.625-inch diameter first pulley 42 is about 0.75 inches. The preferred depth of first utility line-accepting groove 45 is about 0.375 inches. It will thus be seen that shock-absorbing core 46 preferably comprises a 0.75-inch diameter for snug insertion in central traveling hub aperture 44.
If utility line 26 is selected to be High Vacuum Evacuator (HVE) type tubing, it is contemplated that first pulley 42 preferably comprise a 3.625-inch diameter having an inferior pulley region 43 (as well as a first-pulley, superior-pulley region) measuring about 1.4375 inches. The diameter of central traveling hub aperture 44 further preferably remains constant at about 0.75 inches. Together, the radial measurements of inferior pulley region 43, the first-pulley, superior-pulley region, and central traveling hub aperture 44 thus comprise the 3.625-inch preferred diameter. The preferred width of the 3.625-inch diameter first pulley 42 is about 1 inch. The preferred depth of first utility line-accepting groove 45 remains constant at about 0.375 inches. Again, it will be seen that shock-absorbing core 46 preferably comprises a 0.75-inch diameter for snug insertion in central traveling hub aperture 44.
If utility line 26 is Hand Piece type tubing, it is contemplated that first pulley 42 preferably comprise a 3.375-inch diameter having an inferior pulley region 43 (as well as a first-pulley, superior-pulley region) measuring about 1.3125 inches. The diameter of central traveling hub aperture 44 further preferably remains constant at about 0.75 inches. Together, the radial measurements of inferior pulley region 43, the first-pulley, superior-pulley region, and central traveling hub aperture 44 thus comprise the 3.375-inch preferred diameter. The preferred width of the 3.625-inch diameter first pulley 42 is about 0.75 inches. The preferred depth of first utility line-accepting groove 45 remains constant at about 0.375 inches. Still further, it will be seen that shock-absorbing core 46 preferably comprises a 0.75-inch diameter for snug insertion in central traveling hub aperture 44.
Stationary pulley assembly 24 preferably comprises a second pulley 49 as illustrated and referenced in
Each pulley-receiving wall 21 preferably further comprises stationary pin receiving structure or a pin-receiving tunnel, which extends from the inner wall surfaces 27 to outer wall surfaces 28 adjacent anterior line outlet end 22. Cassette attachment means 50 may preferably be defined by comprising a stationary pin assembly generally illustrated in
It is further contemplated that second pulley 49 may comprise two different types of pulleys depending on the type of utility line 26 being used with cassette assembly 20 as previously outlined. If utility line 26 is either Saliva Ejector Valve (SEV) type tubing, 3-Way Syringe type tubing, or Hand-Piece type tubing, it is contemplated that second pulley 49 preferably comprise a 2.5-inch diameter having a superior pulley region 51 (as well as a second pulley, inferior pulley region) measuring about 0.875 inches. The diameter of central stationary hub 52 further preferably measures about 0.75 inches. Together, the radial measurements of superior pulley region 51, the second pulley, inferior pulley region, and central stationary hub 52 thus comprise the 2.5-inch preferred diameter. The preferred width of the 2.5-inch diameter second pulley 49 is about 0.75 inches. The preferred depth of second utility line-accepting groove 53 is about 0.375 inches. A pin-length-receiving tunnel extends through central stationary hub 52 as earlier referenced and the preferred diameter of the pin-length receiving tunnel (as well as the pin end-receiving tunnels) measures about 0.203 inches.
If utility line 26 is High Vacuum Evacuator (HVE) type tubing, it is contemplated that second pulley 49 preferably comprise a 3.5-inch diameter having a superior region 51 (as well as a second pulley inferior region) measuring about 1.375 inches. The diameter of central stationary hub 52 further preferably remains constant at about 0.75 inches. Together, the radial measurements of superior region 51, the second pulley inferior region, and central stationary hub 52 thus comprise the 3.5-inch preferred diameter. The preferred width of the 3.5-inch diameter second pulley 49 is about 1 inch. The preferred depth of second utility line-accepting groove 53 remains constant at about 0.375 inches. The preferred diameter of the pin-length receiving tunnel (as well as the pin end-receiving tunnels) remains constant at about 0.203 inches.
Additionally, it will be noted that in the preferred embodiment, second pulley 49 comprises friction-relieving means for relieving friction between second pulley 49 and inner wall surfaces 27. In this regard, it is contemplated that the friction-relieving means may preferably be defined by comprising laterally opposite pulley shoulders 64 adjacent central stationary hub 52 as generally illustrated in
The preferred spacer means are designed to maintain pulley-receiving walls 21 in substantially parallel, laterally spaced relation and generally comprise anterior spacer structure and posterior spacer structure. The anterior spacer structure preferably comprises an anterior-superior spacer element 38 as illustrated and referenced in
Utility line 26 essentially comprises an instrument end 54 as illustrated and referenced in
Instrument-actuating end 55 is spatially located adjacent posterior line inlet end 23 as generally depicted in
When external forces are applied to instrument end 54, such as when a user wishes to utilize instrument 56, added tension is created in utility line 26. This tension causes instrument end 54 to extend into space adjacent anterior line outlet end and further causes the utility line length to rise or ascend as generally depicted or illustrated in
In this regard, the track guide means may be defined by several mechanisms. In the first instance, the track guide means may be defined by a track offset 58 adjacent the pulley guide junction as illustrated and referenced in
Continued tension in utility line 26 causes traveling pulley assembly 25 to ascend in anterior track path 34 to superior track path 36 as further illustrated in
It is contemplated that the traveling pulley shock absorbing means may function to absorb impact of first pulley 42 as traveling pulley assembly 25 travels from pulley guide junction 33 to retracted-state rest stop 57 along inferior track path 31. In other words, the retraction of utility line 26 comprises net gravitational forces that may result in first pulley 42 contacting matter located inferior to cassette assembly 20. To reduce the harmful effects of repeated impact contact with surfaces or matter located in inferior adjacency to cassette assembly 20, it is contemplated that the inferior most portion of cassette assembly 20 may comprise shock-absorbing means, which, it is further contemplated, preferably comprise impact-resistant foam padding. Excellent results have been obtained using 0.25-inch thick closed cell soft white ionomer type padding 70 as illustrated and referenced in
Thus, when instrument end 54 is systematically extended and retracted as described hereinabove, the orderly extension-retraction path comprises a distinct set or series of path steps, the path steps comprising: (1) traveling from retracted-state rest stop 57 to pulley guide junction 33 along inferior track path 31; (2) traveling from pulley guide junction 33 to superior track path 36 along anterior track path 34; (3) traveling from anterior track path 34 to extended-state rest stop 37 along superior track path 36; (4) traveling from extended-state rest stop 37 to posterior track path 35 along superior track path 36; (5) traveling from superior track path 36 to pulley guide junction 33 along posterior track path 35; and (6) traveling from pulley guide junction 33 to retracted-state rest stop 57 along inferior track path 31. It will thus be seen that the orderly extension-retraction path is cyclical in nature and comprises a rest stop at extended-state rest stop 37 while the user utilizes instrument 56. Thus, each utility line cassette 20 enables users thereof to selectively extend utility line 26 for utility line use and selectively retract the utility line 26 for utility line storage.
It is contemplated that the typical installation application of the present invention is in dental practice settings. Traditionally, utility lines for various dental instruments were kept in open view and often became tangled and damaged due to various behaviors characteristic of dental offices. As will be understood, the cassette assembly here defined attempts to address both of the noted shortcomings of traditional dental utility line set-ups. Dental practitioners and others who could benefit from an extendable and retractable utility line apparatus, may further wish to house the cassette assembly or cassette assemblies behind decorative cabinetry so as to enhance the visual appeal of the dental office (or similar other setting). Thus, it is contemplated that the present invention may further comprise a cassette-enclosing cabinet 65 as illustrated in
Cassette-enclosing cabinet 65 essentially comprises an interior cassette-enclosing chamber 66, an exterior cabinet surface 67, cassette-access means, and instrument end outlet means 68 intermediate interior cassette-enclosing chamber 66 and exterior cabinet surface 67 all as further illustrated and referenced in
It is contemplated that the cassette access means may preferably be defined by comprising a swivel type door (not specifically illustrated) so that access may be gained to interior cassette-enclosing chamber 66 and cassette assemblies 20 relatively easily. Cassette access means of this type are believed to be within the ordinary skill of those in the art and thus it is contemplated that no further descriptions are required for the purpose of this specification. However, it should be noted that instrument end outlet means 68 function to channel or allow passage of instrument ends 54 from anterior line outlet end 22 to exterior cabinet surface 67 as generally illustrated in
While the above description contains much specificity, this specificity should not be construed as limitations on the scope of the invention, but rather as an exemplification of the invention. For example, it is contemplated that the present invention may comprise fewer components, yet still enable a user to selectively extend a utility line for utility line use and selectively retract the utility line for utility line storage. In this regard, it is contemplated that the cassette assembly essentially comprises two laterally spaced pulley-receiving walls, an anterior line outlet end, a posterior line inlet end, a traveling pulley assembly, and a utility line extending from the posterior line inlet end to the anterior line outlet end. Each pulley-receiving wall essentially comprises an inner wall surface and pulley-receiving structure, the pulley-receiving structure being formed in the inner wall surfaces for cooperatively forming a pulley-receiving track. The pulley-receiving track essentially comprises a superior track region and a pulley guide junction. The superior track region essentially comprises an ascension track path, a descension track path, and an extended-state rest stop intermediate the ascension track path and the descension track path. The ascension track path and the descension track path intersect at the pulley guide junction.
Further, a utility line, insertable through the utility line cassette essentially comprises a first line end, a second line end, and a line length intermediate the first and second line ends. The line length is thus cooperatively associated with the traveling pulley assembly for imparting motion thereto. The first line end is selectively extendable from the anterior line outlet end for utility line use and selectively retractable into the anterior outlet for utility line storage. When the utility line is systematically extended and retracted, the traveling pulley assembly travels an orderly extension-retraction path. The orderly extension-retraction path comprises a series of path steps, the path steps comprising (1) traveling from the pulley guide junction to the extended-state rest stop along the ascension track path and (2) traveling from the extended-state rest stop to the pulley guide junction along the descension track path. Thus, it will be seen that the cassette assembly as here described also effectively enables a user to selectively extend the utility line for utility line use and selectively retract the utility line for utility line storage.
Additionally, it is contemplated that friction-relieving means may be situated adjacent the anterior line outlet end for relieving friction intermediate the utility line and the anterior line outlet end. In this regard, a stationary pulley assembly would be the preferred structural component to relieve friction, although it is contemplated that other friction-relieving means would fall within the scope of the present invention. Provided a stationary pulley assembly is utilized to relieve friction, the stationary pulley assembly essentially comprises a rotatable pulley and cassette attachment means, substantially as earlier described. It will be recalled that the rotatable pulley may comprise laterally opposite pulley shoulders, the pulley shoulders for further relieving friction between the rotatable pulley and the inner wall surfaces.
Further, it is contemplated that the cassette assembly may comprise traveling pulley shock absorbing means for absorbing impact of the traveling pulley assembly as the traveling pulley assembly travels along the orderly extension-retraction path. In this regard, the traveling pulley shock absorbing means may be defined by select shock absorbing structure, the select shock-absorbing structure being selected from the group consisting of the shock-absorbing core and impact-resistant foam padding, substantially as earlier described. It will be recalled that the shock-absorbing core is designed for absorbing impact of the inner wall surfaces as the traveling pulley assembly travels along the orderly extension-retraction path. Further, the foam padding is designed for absorbing impact of the traveling pulley assembly as the traveling pulley assembly travels from the descension track path through the pulley guide junction.
Accordingly, although the invention has been described by reference to a preferred embodiment, it is not intended that the novel assembly be limited thereby, but that modifications thereof are intended to be included as falling within the broad scope and spirit of the foregoing disclosure, the following claims and the appended drawings.
Number | Name | Date | Kind |
---|---|---|---|
1458115 | Caldwell | Jun 1923 | A |
1518881 | Walker et al. | Dec 1924 | A |
1928173 | Holmgreen | Sep 1933 | A |
2026327 | Sparling | Dec 1935 | A |
2118294 | Cox | May 1938 | A |
2157887 | Davis | May 1939 | A |
2168951 | Caldwell | Aug 1939 | A |
2174099 | Vogler et al. | Sep 1939 | A |
2225859 | Cox | Dec 1940 | A |
2984714 | Kunkle | May 1961 | A |
3180585 | Pusey et al. | Apr 1965 | A |
3372883 | Ota | Mar 1968 | A |
3427719 | Gordon et al. | Feb 1969 | A |
3429516 | Sharp et al. | Feb 1969 | A |
3487850 | Wahler et al. | Jan 1970 | A |
3514171 | McGaha | May 1970 | A |
3793729 | Nyboer | Feb 1974 | A |
3874488 | Wirth | Apr 1975 | A |
4023387 | Gould | May 1977 | A |
4174816 | Olson | Nov 1979 | A |
4235419 | Schuck | Nov 1980 | A |
5117859 | Carlson | Jun 1992 | A |
5450874 | Hamula | Sep 1995 | A |
5775354 | Upton | Jul 1998 | A |
6199579 | Taylor et al. | Mar 2001 | B1 |
Number | Date | Country | |
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20050208451 A1 | Sep 2005 | US |