The present invention relates generally to lift assemblies, such as those used to raise and lower scenery, props, and lighting on a stage.
In one embodiment, the invention provides a lift assembly that includes a base having a first side and a second side opposite the first side. The base defines an outlet positioned closer to the first side than to the second side. The lift assembly further includes a take-up mechanism mounted to the base, and a cable having a stored portion on the take-up mechanism and a free portion extending from the take-up mechanism through the outlet.
In another embodiment the invention provides a group of lift assemblies that includes a first lift assembly having a base including a first side and a second side opposite the first side, the base having an end defining an outlet positioned closer to the first side than to the second side, a take-up mechanism mounted to the base, and a cable having a stored portion on the take-up mechanism and a free portion extending from the take-up mechanism through the outlet. The group further includes a second lift assembly including a base having a first side and a second side opposite the first side, the base having an end defining an outlet positioned closer to the first side than to the second side, a take-up mechanism mounted to the base, and a cable having a stored portion on the take-up mechanism and a free portion extending from the take-up mechanism through the outlet. The first side of the first lift assembly is positioned adjacent the second side of the second lift assembly, such that the cable exiting the outlet of the first lift assembly is spaced from the cable exiting the outlet of the second lift assembly. The group further includes a third lift assembly including a base having a first side and a second side opposite the first side, the base having a first end defining an outlet positioned closer to the first side than to the second side, and the base further having a second end opposite the first end, a take-up mechanism mounted to the base, and a cable having a stored portion on the take-up mechanism and a free portion extending from the take-up mechanism through the outlet. The second end of the base of the third lift assembly abuts the ends of the first and second lift assemblies, and the cable exiting the outlet of the third lift assembly is positioned between the cables exiting the first and second lift assemblies.
In another embodiment, the invention provides a group of lift assemblies that includes a first lift assembly including a first base having a longitudinal extent terminating at a first end defining a first outlet, and a first cable exiting through the first outlet. The group further includes a second lift assembly including a second base having a longitudinal extent terminating at a second end defining a second outlet, and a second cable exiting through the second outlet. The first and second bases abut each other along the longitudinal extent with the first and second ends facing in the same direction such that the first and second cables extend from the respective first and second bases in substantially the same direction. The group further includes a third lift assembly including a third base having a longitudinal extent terminating at a third end defining a third outlet, the third base further including a fourth end opposite the third end and abutting at least one of the first and second ends. The first, second, and third cables extend from the group of lift assemblies in substantially the same direction.
Other aspects of the invention will become apparent by consideration of the detailed description and accompanying drawings.
Before any embodiments of the invention are explained in detail, it is to be understood that the invention is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The invention is capable of other embodiments and of being practiced or of being carried out in various ways.
The base 12 further includes a first side 22, a second side 24, a first end 26, and a second end 28 that are defined by the frame 18 and the panels 20. The first side 22 and the second side 24 are parallel and face opposite directions and the first end 26 and the second end 28 are parallel and face opposite directions. The first and second sides 22, 24 extend along the length of the assembly 10 and a longitudinal axis or centerline 30 of the assembly 10 extends midway between the sides 22, 24 and bisecting the ends 26, 28. A length or longitudinal extent of the assembly 10 is the distance from the first end 26 to the second end 28 along the axis 30.
The base 12 further includes a first outlet 34 and a second outlet 36, the purpose of which will be discussed in more detail below. The first outlet 34 is located through the first end 26 of the base 12 and is positioned closer to the first side 22 than to the second side 24. Alternatively stated, the first outlet 34 is offset from the centerline 30 toward the first side 22 of the base 12. The second outlet 36 is located through the second end 28 of the base 12 and is positioned closer to the first side 22 of the base 12 than the second side 24. Similar to the first outlet 34, the second outlet 36 is offset from the centerline 30 toward the first side 22 of the base 12.
Referring to
As illustrated in
Referring to
Referring to
The drum segments 60A-60H are coupled to the drive shaft 58 as best seen in
The drum segments 60A-60H all includes grooves 76A-76H, respectively, that extend circumferentially around the drum segments 60A-60H. The grooves 76A-76H receive the respective flexible drive elements 40A-40H to facilitate winding the flexible drive elements 40A-40H around the drum assembly 52.
Referring to
With continued reference to
In operation, the motor 54 rotates the drive shaft 58 to wind and unwind the flexible drive elements 40A-40H around the drum assembly 52 to raise and lower the free portions 44A-44H of the flexible drive elements 40A-40H, which raises and lowers an article, such as scenery, props, lighting, and the like that are attached to the free portions 44A-44H. As best seen in
The flexible drive element 40B is wrapped onto the small diameter portion 72B of the drum segment 60B to define an outer profile or outer diameter that is substantially flush with the large diameter portion 70A of the drum segment 60A. As the flexible drive element 40A continues to wind onto the drum segment 60A, the additional stored portion 42A moves in a direction toward the drum segment 60B because the drum assembly 52 moves relative to the frame 18 along the longitudinal axis 30. Eventually, the flexible drive element 40A wraps around the drum segment 60A until it reaches the second end 64A of the drum segment 60A, and as the flexible drive element 40A continues to wind around the drum assembly 52, the flexible drive element 40A overlaps onto the outer profile created by the flexible drive element 40B. As discussed above, the outer profile of the drive element 40B is flush with the second end 64A of the drum segment 60A, and therefore the drive element 40A smoothly transitions from wrapping around the segment 60A and onto the segment 60B. As illustrated in
As illustrated in
With continued reference to
The second end 228 of the base 212 of the third lift assembly 210 abuts the first end 26 of the first lift assembly 10 and the first end 126 of the second lift assembly 110 to define a pyramid arrangement with the third lift assembly 210 forming a peak of the pyramid. The third lift assembly 210 is positioned so that the cable path 246 is between in the cable paths 46, 146 and located in the space 100. The cable path 246 extends in the same direction as the cable paths 46, 146 and parallel to the paths 46, 146 and the cable paths 46, 146, 246 are co-planar. Together the cable paths 46, 146, 246 define a total cable path width 102. In the illustrated embodiment that includes three lift assemblies 10, 110, 210, the total cable path width 102 is only about 3.6 times greater than the width 48 of a single cable path 48, 148, 248. In other embodiments, the total cable path width is between about 3.3 to 3.9 times greater than the width of a single cable path. In yet other embodiments, the total cable path width is between about 3.1 to 4.1 times greater than the width of a single cable path.
The base 12 of the first lift assembly 10 and the base 112 of the second lift assembly 110 are side-by-side to define a total width 104 (
The first, second, and third lift assemblies 10, 110, 210 can be coupled using any suitable fastener or method such as bolts, welding, and the like. Also, although the illustrated third lift assembly 210 abuts both ends 26, 126 of the lift assemblies 10, 110, respectively, in other embodiments, the end 226 of the third lift assembly 210 may abut only one of the ends 26, 126.
The nested arrangement of the lift assemblies 10, 110, 210, described above, reduces the total cable path width 102 (compared to positioning the three lift assemblies In a side-by-side orientation). Reducing the total cable path width 102 is desirable because it reduces the distance required between articles lifted by the lift assemblies 10, 110, 210. Or, if the lift assemblies 10, 110, 210 are lifting the same article, the distance between all the flexible drive elements 40, 140, 240 is reduced, which reduces the horizontal spacing required between any loft blocks that redirect the flexible drive elements 40, 140, 240 down to the article being raised and lowered.
Various features and advantages of the invention are set forth in the following claims.
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20150144851 A1 | May 2015 | US |