Claims
- 1. A positioning device for positioning a reinforcement bar within a masonry block having a top surface, an inner cavity and an inner surface, said positioning device comprising:a core having a central opening and a seam; a support structure connected to said core and said support structure being disposed on the top surface of the masonry block and arranged and configured for holding said positioning device aligned with an inner cavity of the block; and wherein said core is arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed.
- 2. The positioning device of claim 1, wherein said core is a cylindrical tube.
- 3. The positioning device of claim 1, wherein said core is a square tube.
- 4. The positioning device of claim 1, wherein said core further comprises a flex joint, said flex joint being arranged and configured to facilitate forming said gap.
- 5. The positioning device of claim 1, wherein said support structure further comprises:a plurality of support arms, each of said plurality of support arms having a proximal end and a distal end, said proximal end being adjacent to said core and said distal end extending radially from said core.
- 6. The positioning of claim 5, wherein said distal end of each of said support arms further comprises a flex tip, each of said flex tips being arranged and configured such that said flex tips bendably engage the inner surface, thereby maintaining said device in said desired position.
- 7. A positioning device for positioning a reinforcement bar within a masonry block , with the block having a top surface, an inner cavity and an inner surface, comprising:a core having a central opening and a seam; a support structure connected to said core including a plurality of support arms, each of said support arms having a proximal end and a distal end, said proximal end being adjacent said core and said distal end extending radially from said core and arranged and configured for holding said positioning device in a desired position on the block; said core arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed; said distal end of each of said support arms comprising a flex tip; each of said flex tips including a plurality of segments with an indentation formed between adjacent ones of said segments; and each of said flex tips being arranged and configured such that said flex tips bendably engage the inner surface of the block, thereby maintaining said device in a desired position with respect to the block.
- 8. A positioning device for positioning a reinforcement bar within a masonry block having a top surface and an inner cavity, said positioning device comprising:a core having a central opening and a seam; said core arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed; a support structure connected to said core; said support structure including a plurality of support arms, each of said support arms having a proximal end and a distal end, said proximal end being adjacent said core and said distal end extending radially from said core and arranged and configured for holding said positioning device in a desired position in an inner cavity of the block; at least one of said plurality of support arms further comprising a mounting flange disposed at said distal end, said mounting flange including a support surface and an alignment surface; and wherein said support surface is arranged and configured to abut the top surface of the block, and said alignment surface is arranged and configured to abut the cavity of the block.
- 9. The device of claim 8, wherein said plurality of support arms further comprises four radially extending support arms, and each of said support arms is spaced equidistant about said core and includes said mounting flange.
- 10. The device of claim 8, wherein said plurality of support arms is formed integrally with said core.
- 11. The device of claim 10, wherein said device is constructed of plastic.
- 12. A positioning device for positioning a reinforcement bar within a masonry block having a top surface, an inner cavity and an inner surface, said positioning device comprising:a core having a central opening and a seam; a support structure connected to said core and arranged and configured for holding said positioning device in a desired position; said core arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed; a plurality of support arms, each of said plurality of support arms having a proximal end and a distal end, said proximal end being adjacent said core and said distal end extending radially from said core; each of said plurality of support arms being detachably connected to said core.
- 13. The device of claim 12, further comprising:a mounting pin formed on said proximal end of each of said plurality of support arms; a plurality of mounting slots formed on said core; and wherein each of said plurality of support arms is secured to said core by slidably engaging one of said plurality of mounting slots with said mounting pin.
- 14. A positioning device for positioning a reinforcement bar within a masonry block having a top surface, an inner cavity and an inner surface, said positioning device comprising:a core having a central opening and a seam; a support structure connected to said core and arranged and configured for holding said positioning device in a desired position; said core arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed; a plurality of support arms, each of said plurality of support arms having a proximal end and a distal end, said proximal end being adjacent said core and said distal end extending radially from said core; a pair of opposed tabs formed on said proximal end of each of said plurality of support arms; and wherein each of said plurality of support arms is secured to said core by engaging a pair of support recesses disposed on said core with said pair of opposed tabs.
- 15. A positioning device for positioning a reinforcement bar within a masonry block having a top surface, an inner cavity and an inner surface, said positioning device comprising:a core having a central opening and a seam; a support structure connected to said core and arranged and configured for holding said positioning device in a desired position; said core arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed; a plurality of support arms, each of said support arms having a proximal end and a distal end, said proximal end being adjacent said core and said distal end extending radially from said core; a plurality of mounting cylinders disposed on said core, each of said plurality of mounting cylinders having a central bore and extending radially outward from said core; and wherein said central bore is arranged and configured to slidably receive said proximal end of one of said plurality of support arms.
- 16. The device of claim 15, wherein each of said plurality of mounting cylinders further includes a spring disposed within said central bore, said spring being arranged and configured to urge an associated one of said plurality of support arms away from said core.
- 17. A positioning device for positioning a reinforcement bar within a masonry block having a top surface, an inner cavity and an inner surface, said positioning device comprising:a core having a central opening and a seam; said core arranged and configured such that a gap can be formed along said seam, said gap being configured to receive the reinforcement bar, said core enclosing the reinforcement bar within said central opening when said gap is closed; a support structure connected to said core and arranged and configured for holding said positioning device in a desired position; said support structure further comprising: at least one vertical support member; at least one horizontal alignment member; and wherein said at least one vertical support member and said at least one horizontal alignment member are each releasably connected to said core by a support hook such that each of said at least one vertical support members is perpendicular to each of said at least one horizontal alignment members.
- 18. The device of claim 17, further comprising two vertical support members and two horizontal alignment members.
- 19. A method of positioning a reinforcement bar within a masonry block during the construction of a wall using a positioning device having a core defining a cylindrical opening, the masonry block having a top surface, an inner cavity, and an inner surface, the method comprising the steps of:placing the cavity of a masonry block and a reinforcement bar of a partially completed wall in positions so that the cavity of the masonry block surrounds the reinforcement bar; creating a gap in a core of a positioning device to open the central opening of the positioning device; placing the central opening of the core of the positioning device around the reinforcement bar by passing the gap of the core of the positioning device about the reinforcement bar; closing said gap of the core, thereby closing the core of the reinforcement bar about the bar; supporting the positioning device with the top surface of the masonry block; and inserting at least a portion of said positioning device into the inner cavity of the masonry block.
- 20. The method of claim 19, wherein said step of creating said gap further includes bending said core along a flex joint.
- 21. The method of claim 20, further including the step of frictionally engaging the inner surface of a cavity of the masonry block with said positioning device.
- 22. The method of claim 20, wherein the step of supporting the positioning device with the top surface of the masonry block comprises:placing a plurality of support surfaces of the positioning device adjacent the top surface of the masonry block, each of said plurality of support surfaces being disposed on a support arm extending radially from said core.
- 23. The method of claim 22, further comprising the step of:limiting the range of horizontal motion of said positioning device within the inner cavity.
CROSS REFERENCE TO RELATED APPLICATION
This application claims the benefit and priority of U.S. Provisional Application Serial No. 60/270,394, filed on Feb. 21, 2001, which is incorporated herein by reference.
US Referenced Citations (11)
Provisional Applications (1)
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Number |
Date |
Country |
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60/270394 |
Feb 2001 |
US |