Winches can be used to move various objects and scenery, especially in a stage environment.
The present application describes a special winch with cable holding parts and a brake attachment.
In the drawings:
A basic diagram of the winch of an embodiment is shown in
The winch includes an electric motor 110 which rotates via a gearbox 120 to run a chain drive assembly 130. The chain drive assembly includes a sprocket 131 driving a chain 132. The chain connects to a corresponding sprocket 133 on the wire drum 140. The wire drum 140 rotates based on force applied by the sprocket. The outer surface 141 of the wire drum holds the cable thereon. The cable 142 is shown wound on the drum, for example in
The inventors recognize that it is extremely important to maintain the cable tightly pressed against the drum. If the cable on the drum is allowed to get loose on the drum, it may get fouled and tangled. A fouled and/or tangled cable would make the winch unusable.
In an embodiment, a number of eccentrically mounted cams 150151, and 152 are mounted with cylinders that form pressing surfaces that are pressed against the outer surface 141 of the drum. These pressing surfaces are held in a way that makes them stay tight against the drum surface at all “fill levels” of the drum surface, that is for all amounts of cable that the cable is filled on the drum surface. These cams are mounted to have a rotate axis portion that is offset relative to the rest of the cam. Rotation of the axis, e.g., by a rotation that is geared to the rotation of the cable drum, causes that pressing surface to press against the outer surface of the drum. The offset configuration of the pivot point ensures that the drum is pressed in all fill levels.
Analogously, the cam 151 has a pivot 133 that rotates counterclockwise to press against the drum.
Each pair of cams holds a roller such as 211 between the cam pairs. The offset pivot of the rotation, as discussed above, is offset relative to the center of the roller.
The eccentric cam rollers 150 have an outer surface 158 which is formed of a soft plastic such as Delran that rubs against the steel cable rolled on the roller. The eccentric spinning of the cam causes the cam to continually press against the steel cable with a similar amount of force, thereby maintaining pressure against the cable.
In operation, this device can be operated in a number of different configurations.
According to an embodiment, the drum 140 has a rectangular hole 160 which mounts with a corresponding motor brake shown as 400 in
This allows using the winch in two different configurations. In a counterweight configuration, the load carried by the winch is wholly counterweighted. The lifting is less dangerous since there is less force on the lifting. If some malfunction occurs in the winch, the counterweight causes the operation to simply stop.
However, in the dead hauling configuration, the winch hauls the item up or down without any counterweight. A configuration is provided which allows using an external brake 400, which can be a mechanical braking device.
The details of the mounting by clamps as shown in
The winch may be sized in different ways.
A first sizing is as described herein, called a “lineset” or Raptor™ winch. The lineset winch is preferably 37″ in length, 9 inches Width: 9″ (15″ with optional secondary brake). Depth: 12″. Weight: 150 lbs without secondary brake (175 lbs with brake)
Operating parameter targets for the lineset winch are as follows:
Max load speed: 6.1 fps
Max line pull: 230 lbs
Max load travel: 71′
Examples of Winch Applications
Driving counterweight assist line sets
Driving traveler tracks
Driving lighter duty deck tracks
Dead hauling small scenic units or soft goods with secondary brake mounted
Winch Mounting
The lineset winch can mount above/below/beside a surface with the modular steel angle brackets.
The lineset winch can mount above/below/beside a surface or truss with 32 mm pipe clamps attached to the integral 1¼″ handles in the winch frame.
Winch Shipping and Handling
When not permanently mounted to a truss, up to 5 winches can be strapped/shrink wrapped together on a standard wood pallet.
Winch Accessories
The lineset winch has accessory steel mounting brackets that can be welded to venue structure and discarded if necessary.
The lineset winch can include accessory 32 mm pipe clamp brackets for mounting with the 1.25″ knurled handles. A custom absolute encoder mount can be used.
Accessory outrigger sheaves, which can also take steel mounting brackets for drum down/motor vertical applications, can be used as shown in
The Lineset Winch Has an Accessory Secondary Brake That Bolts to the Winch Cheek Plate and Engages With a Square Shaft. Rigging Access and Operation
Cable entrance holes in first full groove both sides of drum.
Cable clamps on drum center plate.
Two openings in one cheek plate allow access to cable clamps, plus two smaller holes in the opposite cheek plate allow for finger/tool access to push cables across the surface.
For rigging individual winches prior to the control system arrival at the venue, a 120 VAC control box can be used to release the dual brakes and spin the drum at half speed max in order to rig the winch. A 120 VAC brake release only can also be used, without a drive. There are preferably no pull pins for this winch.
Maintenance Access
The lineset winch can be disassembled in the field with an Allen key set and components swapped out.
The motor, limit box, secondary brake, gearbox, and IJ box may all be exchanged without de-rigging the winch drum.
Electrical Access
PRG motor/brake cable connects to IJ box panel mount on the back of winch.
PRG universal feedback cable connects to IJ box panel mount on the back of winch.
Limit box and motor are hard wired to fittings on the side of the IJ box. The secondary brake is a plug in.
Disconnect switch in IJ box is located on the back of the winch.
IJ box is fastened between the cheek plates with four small screws. By removing the screws and releasing the tails, the entire electrical assembly can be removed from the winch.
List of purchased mechanical parts (fastening hardware not included)can include Motor-Allen Bradley MPL-A430P, Gearbox-Stober k202 28:1, Gearbox sprocket—50BS20 ⅞″ bore KWSS, Drum sprocket—Martin 50BS24 2″ bore sweated, Drum hub QD- QD-SK 1¼ Drum hub—Martin 60SK30 (machine shop modified), Optional secondary brake—Mayr Roba-stop 250, Drum bearing drive side—50 mm SKF 6010-2RS1-NR, Drum bearing feedback side—1″ General 23216-88, Limit box—TER MF2C 100:1,Limit box driver sprocket—Martin 25B40 1″ bore KWSS, Limit box Driven sprocket—Martin 25B15 ¼″ bore Dual SS, Mounting cheeseboros—Doughty T58800 32 mm
List of CNC Cut and Then Machined Aluminum Parts
½″ cheek plate right
½″ cheek plate left
¾″ gearbox plate
¼″ limit mount plate
½″ gearbox puller tab
1″ drum center plate
⅜″ cable clamps (no machining at WC)
¼″ keeper cam
⅝″ walking sheave blanks
⅜″ outrigger plates
List of CNC cut and Then Machined Steel Parts
½″ Cheeseboro mount
¾″ gearbox tensioner
List of Machined Only Parts
2.125″ od stainless steel drum shaft
1.875″ od stainless steel gearbox shaft
1.25″ od knurled aluminum handles
1″ od stainless steel keeper shafts
1.5″ od black delrin keeper rollers
1.25″ od stainless steel outrigger shafts
Bronze walking sheave bushings
Drum hub (modified purchased part)
List of Automation Shop Parts
Sheet metal IJ box
Local hard wired tails to motor, limit box, and plugged secondary brake
List of Subcontracted Parts or Services
Powder coating of aluminum/steel parts
Target Winch Speed Calculation
4300 rpm motor speed divided by 28:1 gearbox equals 154 rpm gearbox out speed passing through a 20:24 chain stage for a drum speed of 128 rpm multiplied by a 34.2″ drum circumference per revolution equals 4378 inches per minute divided by 12″ inches per foot and 60 second per minute equals a line speed of roughly 6.1 feet per second.
Target Winch Line Pull Calculation
A 40 in-lbs motor into a 28:1 gearbox produces 1120 in-lbs of torque multiplied by 94% gearbox efficiency equals 1053 in-lbs into a 20:24 chain stage that is 98% efficient produces 1238 in-lbs at the drum shaft. The 1238 in-lbs divided by a drum radius of 5.44″ yields 228 lbs of line pull.
Target Winch Travel Calculation
A 10.88″ diameter drum 6.88″ wide with 0.219″ lead for 3/16″ cable has roughly 31 complete wraps minus 6 safety wraps equals 25 active wraps multiplied by 34.2 inches per wrap equals 854 inches divided by 12 inches per foot equals 71′ max load travel.
An accessory brake can also be used with the lineset winch.
When made in a smaller size, this may form a “baby winch” or Bantam™ winch, which has the following characteristics. The baby winch can be in the size of 2 shoe boxes. An embodiment arranges the parts in a special way to reduce the size.
This is a super compact utility winch designed to perform high speed, low line-pull, non life-safety, effects and especially to fit into spaces where no other cable winches can fit.
The baby winch can be of Length: 31″ or 37″ with addition of electrics IJ box, Width: 6.375″, Depth: 9″, Weight: 77 lbs or 85 lbs with addition of electrics IJ box.
Operating Parameter Targets
Max load speed: 5.6 fps
Max load line-pull: 100 lbs
Max load travel: 55′ plus 6 safety wraps
Examples of winch applications include:
Driving lightweight pallets laterally inside decks, turntables, or larger scenic units.
Driving lightweight travelers under truss or inside larger scenic units.
Driving lightweight tabs from trusses, grids, or inside larger scenic units.
Dead hauling very lightweight set electric fixtures, props, or soft goods.
Winch mounting can be carried out in many ways:
Horizontal above/below/beside surface with stock angle brackets.
Vertical (drum up or down) above/below/beside surface with stock angle brackets.
Vertical (drum up or down) above/below/beside truss or pipes with 32 mm pipe clamps.
Horizontal or vertical in any orientation through the use of additional custom mounts.
Ideally the IJ box should be strong enough to connect the suspended winch to structure. The current curved box design, though attractive is missing the second hole needed for this mounting option.
Winch Shipping and Handling
When not built into a larger scenic unit or truss assembly, the baby winch can be boxed for transport like an audio or electric component. Multiple baby winches can travel in custom road boxes to be designed at a later date.
The 1.25″ OD handles on the winch are strong enough to be used as carry handles and lifting points.
Winch Accessories
The Baby winch has steel angle mounts that can bolt to twelve locations on the cheek plates for a variety of mounting positions listed above. The mounts are made of steel and can be welded to structures in the field and then disposed of if necessary.
List of Purchased Mechanical Parts (Fastening Hardware Not Included)
Motor—Allen Bradley MPL-A320P
Gearbox—Alpha VDH 050 28:1
Gearbox sprocket—Martin 40BS22
Drum sprocket—Martin 40BS22 (machined after purchase)
Drum hub—Martin 40SH27 (machined after purchase)
Drum bearings—General S23216-88
Limit box—TER MF2C 50:1
Limit box driver—Martin 30XL037
Limit box driven—Martin 22XL037
Limit box belt—Gates 150XL037
List of CNC Cut and Then Machined Aluminum Parts
⅜″ Limit plate
¼″ Limit tab
¼″ Keeper cans
¼″ Bearings shims
⅜″ Cable keepers (no machining)
1″ Drum center plate
½″ Pusher plate
½″ Gearbox plates
⅜″ Cheek plates
List of Machined Only Parts
Winch drum
Drum hub (modified purchased part)
Mounting feet
1.25″ stainless steel Drum shaft
1.25″ stainless steel Gearbox shaft
1.25″ knurled aluminum rod handles
1.25″ Delrin Keeper rollers
1″ stainless steel Keeper shafts
List of Automation Shop Parts
Sheet metal IJ box
Local hard wired tails to motor and limit box
Target Winch Speed Calculation
4000 rpm motor speed divided by 28:1 gearbox equals 143 rpm gearbox out speed passing through a 22:22 chain stage for a drum speed of 143 rpm multiplied by a 28″ drum circumference per revolution equals 4000 inches per minute divided by 12″ inches per foot and 60 second per minute equals a line speed of roughly 5.6 feet per second.
Target Winch Line Pull Calculation
1 inlbs motor into a 28:1 gearbox produces 644 inlbs of torque multiplied by 83% gearbox efficiency equals 534 inlbs into a 22:22 chain stage that is 95% efficient produces 507 inlbs at the drum shaft divided by a drum radius of 4.44″ yields 104 lbs of line pull. Empirical testing with additional sheave friction has produced only 90 to 95 lbs of consistent line pull.
Target Winch Travel Calculation
A 8.88″ diameter drum 4.63″ wide with 0.156″ lead for ⅛″ cable has roughly 28 complete wraps minus 4 safety wraps equals 24 active wraps multiplied by 27.9 inches per wrap equals 669 inches divided by 12 inches per foot equals 55′ max load travel.
Baby winch suitable for all horizontal loading applications.
Although only a few embodiments have been disclosed in detail above, other embodiments are possible and the inventors intend these to be encompassed within this specification. The specification describes specific examples to accomplish a more general goal that may be accomplished in another way. This disclosure is intended to be exemplary, and the claims are intended to cover any modification or alternative which might be predictable to a person having ordinary skill in the art. For example, other sizes and parts can be used.
This application claims priority from provisional application No. 61/061,403, filed Jun. 13, 2008, the entire contents of which are herewith incorporated by reference.
Number | Date | Country | |
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61061403 | Jun 2008 | US |