High speed safety block assembly

Information

  • Patent Grant
  • 6651962
  • Patent Number
    6,651,962
  • Date Filed
    Thursday, January 23, 2003
    21 years ago
  • Date Issued
    Tuesday, November 25, 2003
    21 years ago
  • Inventors
  • Examiners
    • Matecki; Kathy
    • Kim; Sang
    Agents
    • Law Offices of Thomas J. Brindisi
Abstract
A high speed safety block assembly includes a first and second cheek plates with a sheave and axle installed between the cheek plates. The cheek plates each have a recessed area on their inner surfaces and have interlocking ears which increase the safety of the block assembly by preventing the block assembly from coming apart in the event of a screw failure. The sheave of the high speed safety block assembly includes a needle bearing which rolls on the bearing surface of the axle, permitting much higher loads and speeds when the high speed safety block assembly is used.
Description




BACKGROUND OF THE INVENTION




The field of the invention is block assemblies for suspending equipment and things with cables and the like.




Block assemblies have long been used to provide a mechanical advantage to reduce the pulling force required to support the load being suspended. For example, when a pair of block assemblies are used together, a 2:1 mechanical advantage is gained. When two pairs of block assemblies are used together, a 4:1 mechanical advantage is provided. Additional mechanical advantage is achieved by increasing the number of block assemblies used. Alternatively, a single block assembly can be used as a pulley to support a load without any mechanical advantage.




In the motion picture industry, especially in the stunt business, equipment and other items are frequently suspended from above with cables or ropes over block assemblies. Typically, the block assembly is high overhead and is not easily seen or inspected. Stunt persons and other actors are also frequently supported by cables using block assemblies. Thus, safety is a great concern, particularly with the reliability of the block assemblies.




When block assemblies are used in the stunt business, there are frequently high performance, reliability and safety demands placed on the equipment used. Thus, there is a need for a block assembly that is capable of supporting very high loads at high rates of speed, while maximizing the safety and reliability of the device.




SUMMARY OF THE INVENTION




To these ends, there is provided a high speed safety block assembly having first and second cheek plates with a sheave and axle located therebetween. The cheek plates each have a recessed area on their inner surfaces and have interlocking ears that increase the safety of the block assembly. The sheave of the high speed safety block assembly includes a needle bearing that rolls on the bearing surface of the axle. Other and further objects and advantages will appear hereinafter.











BRIEF DESCRIPTION OF THE DRAWINGS




In the drawings, wherein similar reference characters denote similar elements throughout the several views:





FIG. 1

is an exploded perspective view of a high speed safety block assembly.





FIG. 2

is a perspective view of a high speed safety block assembly in a closed position.





FIG. 3

is a perspective view of a high speed safety block assembly in an open position.





FIG. 4

depicts the combination of block assemblies to gain a mechanical advantage.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS




Turning in detail to the drawings,

FIG. 1

depicts a preferred embodiment of high speed safety block assembly


10


. Block assembly


10


is comprised of a first cheek plate


12


and a second cheek plate


14


. Held between cheek plates


12


and


14


is sheave


16


which is supported between cheek plates


12


and


14


by an axle


18


. Block assembly


10


is held together with screw


20


and nylon washer


24


and steel washer


22


.




In a preferred embodiment, first cheek plate


12


and second cheek plate


14


are machined from aluminum and each have a top end


58


and a bottom end


60


and an inner surface


56


and an outer surface


57


. Machined into inner surface


56


of cheek plates


12


and


14


is a recessed area


28


. Recessed area


28


is slightly larger in diameter than sheave


16


and also has a through hole


36


centrally located. Recessed area


28


preferably also includes a raised shoulder


30


surrounding hole


36


. Recessed area


28


, into which sheave


16


fits, provides an additional measure of safety when block assembly


10


is in use as shown in FIG.


4


. Recessed area


28


prevents cable


62


from slipping down onto axle


18


in the event cable


62


comes off of sheave


16


.




Also machined into first cheek plate


12


and second cheek plate


14


are raised ear sections


46


. Ear sections


46


are located at top end


58


and bottom end


60


of cheek plates


12


and


14


. Ear sections


46


extend from inner surface


56


and define slots


44


between inner surface


56


and ear sections


46


. Slot


44


is open at end


45


of each ear section


46


. As shown in

FIG. 1

, ear sections


46


are arranged in opposite directions such that slot


44


and end


45


of ear section


46


at top end


58


of cheek plates


12


and


14


face the opposite direction of slot


44


and end


45


of ear section


46


at bottom end


60


of cheek plates


12


and


14


. When block assembly


10


is assembled, as shown in

FIG. 2

, ear sections


46


on first cheek plate


12


fit into slots


44


on second cheek plate


14


, and vice versa. The interlocking of ear sections


46


on cheek plates


12


and


14


provides and extra measure of safety by holding block assembly


10


together should screw


20


fail.




Cheek plates


12


and


14


also include a through hole


32


at top end


58


at ear section


46


. Hole


32


serves as a point of attachment for block assembly


10


, as shown in FIG.


4


.




In a preferred embodiment of block assembly


10


, cheek plates


12


and


14


are also provided with a slotted hole


34


through the plates at bottom end


60


. Slotted hole


34


serves as a point of attachment when block assemblies


10


are combined to provide a mechanical advantage, as shown in FIG.


4


. Slotted hole


34


advantageously allows for some tolerance when block assembly


10


is being rigged for use. Typically, a caribeener or shackle


64


is placed through slotted hole


34


which also provides an extra measure of safety in keeping block assembly


10


closed.




In a preferred embodiment of block assembly


10


, sheave


16


is a single circular piece of machined aluminum. Sheave


16


includes a groove


42


around the periphery of its rim


43


. Groove


42


supports cable


62


when block assembly


10


is in use, as shown in FIG.


4


. Sheave


16


has a through hole


38


located through the center of sheave


16


. Sheave


16


also includes a needle bearing


26


installed into hole


38


. In a preferred embodiment, needle bearing


26


is press fit into hole


38


.




Axle


18


is preferably machined from hardened steel and includes a bearing surface


51


, a first end


50


, and a second end


52


. Axle


18


preferably has a threaded hole


54


through the longitudinal axis of axle


18


. The outside diameter of bearing surface


51


of axle


18


is matched to the inside diameter of needle bearing


26


such that when block assembly


10


is in use, needle bearing


26


of sheave


16


rolls on bearing surface


51


of axle


18


. Axle


18


also advantageously includes a small transverse lubrication hole


48


through one side of bearing surface


51


to the center space defined by threaded hole


54


. When block assembly


10


is in use, a lubricant is preferably put into threaded hole


54


whereby the lubricant will self lubricate roller bearing


26


through lubrication hole


48


.




In a preferred embodiment, first end


50


of axle


18


has a larger outside diameter than second end


52


. In this configuration, first end


50


of axle


18


is press fit into hole


36


on first cheek plate


12


. With axle


18


press fit into hole


36


on first cheek plate


12


, sheave


16


, with needle bearing


26


already installed, can then be fitted onto axle


18


such that needle bearing


26


rolls on bearing surface


51


of axle


18


. Second cheek plate


14


is then placed onto axle


18


with second end


52


of axle


18


fitting within hole


36


on second cheek plate


14


. When block assembly


10


is in a closed position, such as shown in

FIG. 2

, block assembly


10


will hold together despite the absence of screw


20


. To securely hold together block assembly


10


, screw


20


is installed through hole


36


on second cheek plate


14


and into threaded hole


54


on second end


52


of axle


18


. Preferably, nylon washer


24


and steel washer


22


are also used. Additionally, a second screw


20


(not shown) can be installed into threaded hole


54


at first end


50


of axle


18


. This screw is not essential to hold block assembly


10


together, however, because first end


50


of axle


18


is press fit into hole


36


on first cheek plate


12


.





FIG. 4

depicts the use of a combination of two pairs of block assemblies


10


to gain a 4:1 mechanical advantage. When block assemblies


10


are used side by side, as shown in

FIG. 4

, it is advantageous to arrange the block assemblies


10


such that first plate


12


of one block assembly


10


is set face to face with first cheek plate


12


of another block assembly


10


. In this configuration, screw


20


is not installed into threaded hole


54


at first end


50


of axle


18


of either block assembly


10


so that the two block assemblies


10


may flush against each other, as shown in FIG.


4


. Thus, when block assemblies


10


are combined or “ganged” together, no separate spacer (not shown) is required between the block assemblies


10


.




Once assembled, block assembly


10


can be opened as shown in FIG.


3


. When cheek plates


12


and


14


are counter rotated, as shown in

FIG. 3

, access to sheave


16


is gained. In this fashion, a cable


62


or rope can be placed onto groove


42


of sheave


16


without having to disassemble block assembly


10


. When rotated back to the closed position shown in

FIGS. 2 and 4

, block assembly


10


is ready for use.




When in use, block assembly


10


is capable of supporting greater loads and much higher rates of speed than prior devices. Prototypes of block assembly


10


have safely supported 5000 pound loads up to 2000 RPM (revolutions per minute) as well as 3000 pound loads up to 5000 RPM.




Lastly, while the features shown and described above exemplify the present invention, various modifications may be made without departing from the spirit and scope of the invention.



Claims
  • 1. A high speed safety block assembly, comprising:a first cheek plate and second cheek plate, the cheek plates each having a top end and a bottom end, the cheek plates also each having an outer surface, and an inner surface with a recessed area, the first and second cheek plates each also having a pair of raised sections at top and bottom ends, the raised sections each including a hole, two or more of the raised sections each including at least one abutment, the outer surface of each cheek plate having a substantially planar surface; an axle positioned between the first and second cheek plates, and rotatably connecting the first and second cheek plates; and a sheave positioned between the first and second cheek plates, the periphery of the sheave fitting closely within the recessed area of each cheek plate.
  • 2. The high speed safety block assembly of claim 1, wherein the axle is press fit into the first cheek plate.
  • 3. The high speed safety block assembly of claim 2, wherein the axle is hollow and has a bearing surface that includes a lubrication hole.
  • 4. The high speed safety block assembly of claim 3, wherein the sheave has a central hole with a needle bearing fixed within the central hole, the needle bearing of the sheave fitting onto the bearing surface of the axle.
  • 5. The high speed safety block assembly of claim 4, wherein the needle bearing is press fit into the sheave.
  • 6. The high speed safety block assembly of claim 5, wherein one or more of the holes through the raised section is a slotted hole.
  • 7. The assembly of claim 1, wherein the abutments prevent rotation of the raised sections of opposing cheek plates past each other.
  • 8. The assembly a claim 7, wherein each raised section of each cheek plate includes at least one abutment.
  • 9. The assembly of claim 8, wherein each raised section of each cheek plate includes at least two abutments.
  • 10. The assembly of claim 8, wherein at least one abutment is male and at least one abutment is female.
  • 11. The assembly of claim 10, wherein at least one raised section of each cheek plate includes an ear and at least one raised section of each cheek plate includes a slot, wherein the ear includes a male abutment and the slot includes a female abutment.
  • 12. A high speed safety block assembly, comprising:a first cheek plate and second cheek plate, the cheek plates each having a top end and a bottom end, the cheek plates also each having an outer surface, and an inner surface with a recessed area, the first and second cheek plates each also having a pair of raised sections at top and bottom ends, the cheek plates also each having a hole through the top and bottom ends and an abutment on at least one end, the outer surface of each cheek plate having a substantially planar surface; an axle with a bearing surface, the axle being positioned between and rotatably connecting the first and second cheek plates; and a sheave positioned between the first and second cheek plates, the periphery of the sheave fitting closely within the recessed area of each cheek plate.
  • 13. The assembly of claim 12, wherein the axle is hollow and has a bearing surface that includes a lubrication hole.
  • 14. The assembly of claim 13, wherein the sheave has a central hole with a needle bearing fixed within the central hole, the needle bearing of the sheave fitting onto the bearing surface of the axle.
  • 15. The assembly of claim 14, wherein the needle bearing is press fit into the sheave.
  • 16. The assembly of claim 15, wherein one or more of the holes through the raised section is a slotted hole.
  • 17. The assembly of claim 12, wherein the abutments prevent rotation of the ends of opposing cheek plates past each other.
  • 18. The assembly of claim 17, wherein each end of each cheek plate includes at least one abutment.
  • 19. The assembly of claim 18, wherein at least one abutment is male and at least one abutment is female.
  • 20. The assembly of claim 19, wherein at least one end of each cheek plate includes an ear and at least one end of each cheek plate includes a slot, and wherein the ear includes a male abutment and the slot includes a female abutment.
Parent Case Info

This is a continuation of co-pending application Ser. No. 09/879,860, filed Jun. 11, 2001, now abandoned, which is a continuation application of Ser. No. 09/166,835, filed Oct. 5, 1998, now U.S. Pat. No. 6,244,570.

US Referenced Citations (7)
Number Name Date Kind
811191 Whiteside Jan 1906 A
973177 Davis et al. Oct 1910 A
1662320 McKissick Mar 1928 A
2762607 Anderson Sep 1956 A
5056760 Jorgensen Oct 1991 A
5154401 Schramm et al. Oct 1992 A
5538224 Powell et al. Jul 1996 A
Continuations (2)
Number Date Country
Parent 09/879860 Jun 2001 US
Child 10/351624 US
Parent 09/166835 Oct 1998 US
Child 09/879860 US