Powered counterweight system

Abstract

A power assisted counterweight-balanced rigging device for raising and lowering a load including a sealed arbor, a sprocket driven by a driven gear and laterally adjacent first and second idler gears.

Claims

1. A power assisted counterweight-balanced rigging device for raising and lowering a load of predetermined weight, comprising: a sealed arbor having counterweights thereon, wherein the sealed arbor includes an upper end and a lower end; a housing; a sprocket mounted in the housing; a driven gear mounted in the housing and engaged with the sprocket, wherein the sprocket is driven to rotational motion by the engagement with the driven gear; first and second idler gears mounted in the housing, a first idler gear of the first and second idler gears being mounted in the housing at a first laterally adjacent position relative to a first side of the sprocket, a second idler gear of the first and second idler gears being mounted at a second laterally adjacent position relative to a second side of the sprocket, the first side of the sprocket laterally opposing the second side of the sprocket, wherein the first idler gear mounted at the first laterally adjacent position relative to the first side of the sprocket and the second idler gear mounted at the second laterally adjacent position relative to the second side of the sprocket are each mounted on laterally opposing sides of the sprocket, the mounting of the first and second idler gears defining a first idler gear proximal side laterally adjacent to the first side of the sprocket, a first idler gear distal side laterally opposing the first idler gear proximal side, a second idler gear proximal side laterally adjacent to the second side of the sprocket and a second idler gear distal side laterally opposing the second idler gear proximal side; a drive chain extending through the housing defining first and second opposing portions of the drive chain extending from the housing and a portion of the drive chain positioned between the first and second opposing portions, the portion of the drive chain positioned between the first and second opposing portions including an engaged portion within the housing, the first and second opposing portions of the drive chain extending from the housing, wherein the engaged portion of the drive chain within the housing is engaged by each of the sprocket and the first and second idler gears, the engaged portion including the first and second opposing sides of the sprocket, the first idler gear proximal side, the first idler gear distal side, the second idler gear proximal side and the second idler gear distal side, the first and second opposing portions of the drive chain extending from the housing having first and second ends, respectively, wherein the first and second idler gears mounted in the housing are mounted in the first and second laterally adjacent positions on the laterally opposing first and second sides of the sprocket and respectively from the first idler gear distal side and the second idler gear distal side whereby the first and second opposing portions of the drive chain extending longitudinally from the housing are routed from an exterior wall of the housing in parallel and vertical paths from the first idler gear distal side and the second idler gear distal side of the first and second idler gears, the parallel and vertical paths of the first and second opposing portions being laterally separated from one another by about the same distance as the distance between the first idler gear distal side and the second idler gear distal side; first and second spring-biased connectors mounted on the first and second ends of the drive chain, wherein the first and second spring biased connectors are mounted on the upper end of the sealed arbor and the lower end of the sealed arbor respectively; and first and second elongated guard rails mounted on the exterior wall of the housing and extending vertically from the exterior wall of the housing, the first and second elongated guard rails being positioned parallel to one another and adjacent the paths of the first and second opposing portions of the drive chain.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) While the disclosure concludes with claims particularly pointing out and distinctly claiming specific embodiments, various features and advantages of embodiments within the scope of this disclosure may be more readily ascertained from the following description when read in conjunction with the accompanying drawings, in which:

(2) FIG. 1 is a schematic of an embodiment of the invention installed in a theater;

(3) FIG. 2 is a detailed side view of the winch module of the invention in which the housing cover is removed;

(4) FIG. 3 is a detailed top view of the module shown in FIG. 2;

(5) FIG. 4 is a front view of the module shown in FIG. 2 with the housing;

(6) FIG. 5 is a side view of the module shown in FIG. 2 with the housing; and

(7) FIG. 6 is an elevation view of the drive chain and certain gears of the embodiment of the invention shown in FIG. 1.

DETAILED DESCRIPTION OF SOME EMBODIMENTS OF THE INVENTION

(8) In the following description of the preferred embodiment, reference is made to the accompanying drawing that form a part hereof, and in which is shown by way of illustration specific embodiments in which the invention may be practiced. It is to be understood that other embodiments may be utilized and that changes may be made without departing from the scope of the invention. It should be further understood that components in the figures are not necessarily to scale, and certain components are included, displayed and made part of this disclosure, but not specifically discussed herein with reference to the drawings, emphasis instead being placed upon illustrating the principles of the invention. Reference will now be made in detail to the presently preferred embodiments of the invention, examples of which are illustrated in the accompanying drawing.

(9) FIGS. 1-6 illustrates an exemplary embodiment of a counterweight rigging system of the invention referred to herein by the reference numeral 10. System 10 is a closed loop counter-weight assist winch which generally comprises one or more modules that, among other things, add power assist and electronic position control to the typical manual counterweight sets found in theater stages.

(10) System 10, also referred to herein as CounterMate, includes an electro-mechanical power module (EMPM) 12 mounted on a base 14. Likewise, module 12, including housing 16, may be dimensioned to fit within the space accommodations of existing counterweight systems.

(11) For example, module 12 may be compact and sized to fit within the space that remains after selected components of a prior counterweight rigging system are removed. In a typical installation a plurality of counterweight rigging systems is installed in parallel fashion to allow the raising and lowering of a plurality of battens. Normally, such systems are installed compactly, with approximately six to eight inches between adjacent systems. EMPM 12 is dimensioned such that base 14 can fit within a preset footprint, such as for example, the aforementioned eight inch space. Though EMPM 12 is described herein as being located on the floor it should be understood that system 10 and any of its components, such as EMPM 12, could be located at other possible locations.

(12) With housing 16 removed, the interior components of module 12 can be viewed as including a drive gear 15 driven by motor 17 connected by a drive chain 18 with a driven gear 20. The opposing side of driven gear 20 includes sprocket 24 which is mounted on a unitary axle 32 with driven gear 20. A drive chain 26 is engaged with sprocket 24 and is routed around idler gears 28a and 28b which are mounted in laterally adjacent to sprocket 24.

(13) Idler gears 28a, 28b position drive chain 26 so that each opposing end 30a, 30b thereof is routed from the module 12 in parallel and generally vertical paths, laterally separated by a distance approximately equal to the diameter of a head block or pulley wheel (not shown) used to connect with arbor 40. Opposing ends 30a, 30b of drive chain 26 each includes a spring-loaded tensioner 34a,b with linking members 36a,b. This embodiment includes safety guard rails 37 adjacent to the exposed portions of drive chain 26, that is, the portions of drive chain 26 that extend outside of housing 16. Guard rails 37 are substantially elongated vertical extensions mounted on housing 16.

(14) Linking members 36a,b may connect with existing lines (not shown) or drive chain 26 routed about a head block or pulley (not shown) and engaged with a counterweight arbor 40 at upper and lower ends to raise and lower arbor 40 responsive to rotational motion of the drive gear 15, drive chain 18, driven gear 20, sprocket 24 and idler gears 28a,b.

(15) Motor 17 may include a motor, gear reducer, and mechanism to drive drive gear 15 (serpentine rollers, sprocket wheel, etc.), a limit switch 41 to control the limits of travel and a starter or variable speed drive. In this embodiment, motor 17 may incorporate multiple speeds and include a bidirectional overspeed braking or speed reduction mechanism. An overspeed brake bar 43 is positioned to pivot or otherwise move into a position by which brake bar 43 interlocks with driven gear 20 and sprocket 24 to reduce and stop rotational motion responsive to rotational motion indicative of potentially dangerously fast movement of the load.

(16) Drive chain 26 may be formed of rope or a roller chain or any flexible medium with the ability to be positively driven by system 10. In some embodiments, drive chain 26 is formed of a roller chain with linking members 36a,b being connected to existing lines, which may be rope, routed about the head block. Tensioners 34a,b help to facilitate a positive and smooth drive of existing lines without slipping.

(17) In some embodiments, arbor 40 is sealed, whereas in other embodiments system 10 is used to replace existing manual, automated or power assist counterweight systems. It should be understood that arbor 40 may be a predetermined weight, such as a percentage of the maximum weight capacity of otherwise related to the load (such as scenery, lighting, curtains, sound equipment, and the like, which may be connected by lift lines 38 to arbor 40) to be raised and lowered.

(18) Systems of the invention can be constructed and configured as retro-fitting systems to existing manual counterweight system. An exemplary installation of a CounterMate system comprising the one or more modules according to the invention may involve replacing the floor block with the CounterMate Electro-Mechanical Power Module (EMPM) 12 and replacing the manual operating line with a cable and roller chain assembly as disclosed herein, such that a first end of drive chain 26 is routed through the head block or pulley and attached to the arbor on the upper end while the second end of drive chain is connected to the arbor on the lower end. The rope lock would be removed and replaced by the Operator Control Module (OCM) 42. The third module, the Electrical Power Module (EPM) 44, normally mounts to the electro-mechanical power module below the operating rail 46. It is physically possible to combine the EPM 44 and the OCM 42 in situations where having just two modules is advantageous. The EMPM module 12 may also be configured to fit within a desired space to accommodate different configurations of manual set systems.

(19) An exemplary electro-mechanical power module 12 of the invention may contain various components, such as the motor that powers the set, brake, absolute or incremental position sensor, load sensors, and ultimate limits. In the embodiment shown, an ultimate limit actuator or spike 48 is disposed on drive chain 26 adjacent to tensioner 34b, which may facilitate preset positioning of the load, among other things. After installation of the electro-mechanical power module and the roller chain assembly, weights are added to the counterweight arbor equaling about half the power unit's capacity. The weights may be secured, permanently or otherwise, so they cannot be dislodged, additionally, the arbor would be made to, among other things, prevent additional weights from being added to the arbor. This allows the power unit to move any scenery or lighting load attached to the batten up to the maximum rated load capacity.

(20) The invention may also include an interface or HMI (Human Machine Interface) in communication with various system components to enable an operator of the system of the invention to apply power, run the set up or down or to select one of a plurality of position presets (which may be three) programmed by the operator, among other things. The HMI may be part of OCM 42 and include a display or touchscreen, and may be operative from a remote device or through a downloadable app.

(21) Electrical power module or EPM 44 contains the Programmable Logic Controller (PLC) which receives commands from the HMI operator's module, the ultimate limits, instantaneous load information, and position data. The EPM then outputs control signals to the Variable Frequency Drive (VFD) while also monitoring everything to ensure safe operation. Faults, overloads, and similar issues are displayed on the HMI screen so that the operator may take appropriate action. In some embodiments, the VFD connects to normal, single or multi-phase, 120, 240, 230 or 480 volt power and outputs controlled three phase power to the motor while ensuring the motor operates within safe limits.

(22) Those skilled in the art will readily appreciate that the OCM 42 and HMI described herein may include various computer and network related software and hardware, such as programs, operating systems, memory storage devices, data input/output devices, data processors, servers with links to data communication systems, data communication devices, Bluetooth, wireless or otherwise, which may be specific and specialized for the purposes described herein and for other purposes, such as maintaining a secure operating environment or for facilitating a theatrical production.

(23) In addition, the system of the invention may include sensing or monitoring systems which provide load cell detection of overload on winch and load cell monitoring on both chains connected to counterweight top and bottom. The system of the invention may be configured to monitor for dangerous system overload and correct tension in the drive chain.

(24) Embodiments of the invention may include one or more position sensors, such as absolute or incremental sensors, to provide greater reliability and fault tolerance, and specialized spikes attached to the roller chain for ultimate limits.

(25) In some embodiments, the system advantageously distributes controls by including self-contained modules and units, in which a failure of one unit does not prevent other units from operating. Control modules may be configured to be interchangeable between mechanical and/or motorized components so that electronics failures are correctable quickly by substituting a like module from spares or another set.

(26) Among the benefits of the invention, systems of the invention mitigate the disadvantages of the manual counterweight set in at least the following example ways: a single operator can do the work of the 4 or 5 person crew required to safely load or unload a manual set. For the first time being a flyman and operating the counterweight sets as they were intended to be is now an ADA compliant operation; the operator no longer must have the physical strength required of the manual crew members; there is no intensive labor of moving tons of steel weights that would often be required when using manual set; safety is greatly improved, as sensors and monitoring devices of the invention detect unsafe conditions and prevent operation while alerting the operator; and the requirement for rigorous training and strict observance of safety protocols and manual checks is greatly reduced at least because human error or omission of a safety check is unlikely to result in a run-away set.

(27) Theatrical rigging counterweight systems of the invention, such as CounterMate, thus provide great advantages over the state of the art.

(28) While exemplary apparatus, systems and methods of the invention have been described herein, it should also be understood that the foregoing is only illustrative of a few particular embodiments with exemplary and/or preferred features, as well as principles of the invention, and that various modifications can be made by those skilled in the art without departing from the scope and spirit of the invention. Therefore, the described embodiments should not be considered as limiting of the scope of the invention in any way. Accordingly, the invention embraces alternatives, modifications and variations which fall within the spirit and scope of the invention as set forth herein, and in the claims, and any equivalents thereto.