SLEEVE FOR COUPLING REINFORCING BAR AND A METHOD OF USING THE SAME
A rebar coupling sleeve is provided. The rebar coupling sleeve includes a first tubular member and a second tubular member interconnected by a reinforced spine member disposed along a common longitudinal length of each elongated tubular member. Each tubular member provides an interior space dimensioned to slidably receive a portion of rebar therein, the interior space extending between a closed end and an opposing open end, defining an entry point for a rebar. The open end of the first tubular member opposes the open end of the second tubular member such that they are positioned on opposing sides of the rebar coupling sleeve. The rebar coupling sleeve receives a pair of rebar therein via opposing ends thereof such that distal ends of two rebars are now secured in an overlapping condition relative to each other, removing any need to tie them together via traditional means.
This application claims the benefit of priority of U.S. provisional application No. 62/597,553, filed 12 Dec. 2017, the contents of which are herein incorporated by reference.
BACKGROUND OF THE INVENTIONThe present invention relates to structural building components and, more particularly, to a sleeve for coupling reinforcing bars used in reinforcing concrete.
Reinforcing bar (or “rebar”) is a steel bar or mesh of steel wires used as a tension device in reinforced concrete and reinforced masonry structures to strengthen and aid the concrete under tension. The spacing and thus positioning of the rebars is critical in providing the specified reinforcement and so tensile strength that a given project demands. When using rebar to reinforce concrete, many times it is necessary to connect overlapping rebars together in order to provide enough steel coverage throughout the concrete structure. Rebars are typically tied together at the intersection of overlapping rebars in order that the rebars maintain their position during work performed by other trades as well as in order to avoid displacement during concrete placement. Many times, contractors will connect rebar pieces by tying them together with wire to secure them to one another. As a result, tying rebars requires a tool and wire that must be tied in a certain way, and so is both time and labor intensive. Furthermore, rebar may be needed to be tied in areas which may be difficult to reach, and if done improperly may result in rebar displacement that can undermine the structural integrity of the resulting reinforced concrete.
As can be seen, there is a need for a sleeve for coupling reinforcing bars without the use of tools. The coupling sleeve may be two spaced apart tubular elements joined along a spine. Each tubular element slidably receives a portion of one of two side by side, overlapping rebars for a given length so as to couple the two overlapping rebars without the need to tie them together at multiple locations. The coupling sleeve may be made from a variety of material amendable to both concrete work and convenient forms of manufacture, such as extrusion or additive manufacture. The coupling sleeve may have a predetermined length and diameter according to the various diameters of rebars. The couple sleeve may also be coated to be used with coated reinforcing bars.
SUMMARY OF THE INVENTIONIn one aspect of the present invention a rebar coupling sleeve includes the following: an elongated first tubular member; an elongated second tubular member; a spine member interconnecting said tubular members along a common longitudinal length of each tubular member; and each tubular member providing an interior spaced dimensioned to slidably receive a distal end of a reinforcing bar.
In another aspect of the present invention the rebar coupling sleeve includes the following: an elongated first tubular member; an elongated second tubular member; a spine member interconnecting said tubular members along a common longitudinal length of each tubular member; each tubular member extending between a closed end and an open end communicating to an interior space, the interior spaced dimensioned to slidably receive a reinforcing bar, and wherein the first open end is facing in an opposite direction as the second open end; a first reinforcing bar disposed in the first tubular member; a second reinforcing bar disposed in the second tubular member, wherein the first and second reinforcing bars are secured relative to each other in an overlapping condition; and a predetermined color for indicating the size of the rebar coupling sleeve, the predetermined color disposed along the rebar coupling sleeve.
In yet another aspect of the present invention, method of securing two side by side reinforcing bars relative to each other in an overlapping condition without using tying includes the following: providing the rebar coupling sleeve mentioned above; sliding a distal end of a first of the two side by side reinforcing bars through the first open end until is abuts the first closed end; and sliding a distal end of a second of the two side by side reinforcing bars through the second open end until is abuts the second closed end.
These and other features, aspects and advantages of the present invention will become better understood with reference to the following drawings, description and claims.
The following detailed description is of the best currently contemplated modes of carrying out exemplary embodiments of the invention. The description is not to be taken in a limiting sense, but is made merely for the purpose of illustrating the general principles of the invention, since the scope of the invention is best defined by the appended claims.
Broadly, an embodiment of the present invention provides a rebar coupling sleeve having a first tubular member and a second tubular member interconnected by a reinforced spine member disposed along a common longitudinal length of each elongated tubular member. Each tubular member provides an interior space dimensioned to slidably receive a portion of rebar therein, the interior space extending between a closed end and an opposing open end, defining an entry point for a rebar. The open end of the first tubular member opposes the open end of the second tubular member such that they are positioned on opposing sides of the rebar coupling sleeve. The rebar coupling sleeve receives a pair of rebar therein via opposing ends thereof such that distal ends of two rebars are now secured in an overlapping condition relative to each other, removing any need to tie them together via traditional means.
Referring to
The rebar coupling sleeve 100 is constructed from a durable material, such as various plasticized or metallic materials, such that it can sustain the weight of the rebar pieces 40. The rebar coupling sleeve 100 may also comprise various colors, slotted features or identification patterns for indicating a predetermined size of the sleeve related to the rebar. The rebar coupling sleeve 100 may be molded as two separate pieces with a weld in between, amounting to the spine 30, or as one continuous piece.
A method of using the present invention may include the following. The rebar coupling sleeve 100 disclosed above may be provided. A person that is in the construction industry, such as a construction worker, will use the rebar coupling sleeve 100 to secure two overlapping rebars 40 maintain their relative position in the field during work performed by other trades and during concrete placement without conventional rebar ties.
It should be understood, of course, that the foregoing relates to exemplary embodiments of the invention and that modifications may be made without departing from the spirit and scope of the invention as set forth in the following claims.
Claims
1. A rebar coupling sleeve, comprising:
- an elongated first tubular member;
- an elongated second tubular member;
- a spine member interconnecting said tubular members along a common longitudinal length of each tubular member; and
- each tubular member providing an interior spaced dimensioned to slidably receive a distal end of a reinforcing bar.
2. The rebar coupling sleeve of claim 1, wherein each tubular member extends between a closed end and an open end communicating to the interior space, wherein the first open end is facing in an opposite direction as the second open end.
3. The rebar coupling sleeve of claim 1, further comprising a first reinforcing bar disposed in the first tubular member; and a second reinforcing bar disposed in the second tubular member, wherein the first and second reinforcing bars are secured relative to each other in an overlapping condition.
4. The rebar coupling sleeve of claim 1, further comprising a predetermined color for indicating the size of the rebar coupling sleeve, the predetermined color disposed along the rebar coupling sleeve.
5. A rebar coupling sleeve, comprising:
- an elongated first tubular member;
- an elongated second tubular member;
- a spine member interconnecting said tubular members along a common longitudinal length of each tubular member;
- each tubular member extending between a closed end and an open end communicating to an interior space, the interior spaced dimensioned to slidably receive a reinforcing bar, and wherein the first open end is facing in an opposite direction as the second open end;
- a first reinforcing bar disposed in the first tubular member;
- a second reinforcing bar disposed in the second tubular member, wherein the first and second reinforcing bars are secured relative to each other in an overlapping condition; and
- a predetermined color for indicating the size of the rebar coupling sleeve, the predetermined color disposed along the rebar coupling sleeve.
6. A method of securing two side by side reinforcing bars relative to each other in an overlapping condition without using tying, comprising:
- providing the rebar coupling sleeve of claim 1;
- sliding a distal end of a first of the two side by side reinforcing bars through the first open end until is abuts the first closed end; and
- sliding a distal end of a second of the two side by side reinforcing bars through the second open end until is abuts the second closed end.
Type: Application
Filed: Dec 6, 2018
Publication Date: Jun 13, 2019
Inventor: Jason M. Miller (Fairmont, WV)
Application Number: 16/211,732