The present invention relates to a concrete jointer tool.
Control joints are an important part of many masonry projects. As anyone who works with concrete knows. Without the regular placement of a control joint across a span of concrete, the pour—when hardening, may crack due to tensile stress. Normally, control joints are put into hardening concrete by use of a joint groover. While joint groovers are widely known and utilized in the industry, they are prone to wear and tear which over time makes a given groover ineffective for creating sharp control joints.
Accordingly, there exists a need for a means by which control joints may be consistently and efficiently created without repeated wear and tear upon a groover tool. The development of the concrete jointer tool 10 fulfills this need.
The inventor has recognized the aforementioned inherent problems and lack in the art and observed that there is a need for a concrete jointer tool, comprises a float including a planar portion having a top side, a bottom side, a rear edge, a front edge, and a pair of side edges. The float comprises a blade. The blade produces a control joint in a concrete forming process. The blade is fastened to the planar portion along a bisecting axial centerline, traveling from the rear edge to the front edge on the bottom side of the planar portion. The blade is located on the opposing side from the mounting bracket. The tool also comprises a handle pivotally mounted to the float. The tool also comprises a mounting bracket upstanding from a central position on the top side of the planar portion. The mounting bracket is capable of removably mounting the handle. The tool also comprises a handle mounting arm which has a hinge assembly. The hinge assembly is attached to or is integral with an upper end of the handle mounting arm and a slot is formed at a lower end of the handle mounting arm. The slot may be wide enough to permit passage of the mounting bracket therethrough.
The tool also comprises a pair of handle arms which are attached to an outer surface of the closed first end of the handle. The handle arms are hingedly attached to the hinge assembly to enable pivoting radial motion of the handle relative to the handle mounting arm. The mounting bracket and the lower end of the handle mounting arm each have an aperture that when coaligned, permit the passage of a mounting bolt therethrough. The tool also comprises a mounting fastener which is removably attached to said mounting bolt after it engages the mounting bracket and the handle mounting arm that securely fastens the handle to the float.
The float may have a rectangular shape that is particularly suited to enable the concrete jointer tool to be guided by a plurality of form boards with straight edges when the concrete jointer tool is used to produce the control joint in the concrete forming process. The float may be made of an inert material that is resilient and capable of withstanding repeated uses or stainless steel. The blade may have a blade first end that terminates at a position one inch from the front edge of the planar portion. The blade may have a blade second end that terminates coextensive with the rear edge of the planar portion. The blade may be wedge-shaped along its length, with a point of the wedge oriented in the lowermost position and the flat planar upper portion of the wedge abutting the surface of the bottom side of the planar portion when attached thereto.
The blade first end may further have a pair of bevels on either side of the flat planar upper portion of the wedge of the blade that taper to a forwardmost pointed front end. The pair of bevels may enable the blade to slide through the concrete with minimal resistance as it travels therethrough and the wedge-shape of the blade provides the shape of the joint. The forwardmost pointed front end may be a knife edge and rendered perpendicular to the planar portion and depth of the blade is provided as desired during the specific needs of the end user of the adequate depth of the control joint as deemed necessary. The blade may be fastened to the planar portion with a blade fastener selected from the group consisting of a plurality of bolts, a plurality of washers, or a plurality of screws. The handle may be made of an inert material that is resilient and capable of withstanding repeated uses or the handle may be made of resilient synthetic plastic material.
The handle may be a generally hollow cylindrical body having a closed first end and an open second end, defining a receiver that is particularly suited to receive a cylindrical extension pole to enable use of the concrete jointer tool from a distance without a user having direct operation thereof by the handle. The pair of handle arms may be generally ring shaped and oriented in a perpendicular location relative to a longitudinal bisecting centerline passing through the receiver of the handle. The handle may taper from the open second end to the closed first end. The mounting bracket may have a planar body and may be oriented to stand vertically from the top side of the planar portion along a bisecting axial centerline, traveling from the rear edge of the float to the front edge of the float. The mounting bracket may have a curvilinear upper edge. The concrete jointer tool may be two feet in width and eight inches in length.
The advantages and features of the present invention will become better understood with reference to the following more detailed description and claims taken in conjunction with the accompanying drawings, in which like elements are identified with like symbols, and in which:
The best mode for carrying out the invention is presented in terms of its preferred embodiment, herein depicted within
The terms “a” and “an” herein do not denote a limitation of quantity, but rather denote the presence of at least one (1) of the referenced items.
Referring now to
Referring now to
The float 11 includes a planar portion 12 having a top side and a bottom side and is also preferably a rectangular shape. The planar portion 12 has a rear edge. A front edge, and a pair of side edges. The rear edge and front edge are defined as the long sides of the rectangular shape and the pair of side edges are defined as the short edges of the rectangular shape. The rectangular shape is particularly suited to enable the tool 10 to be guided by form boards with straight edges when the tool 10 is used to produce a control joint in a concrete forming process. In a preferred embodiment, the dimension of the tool 10 is approximately two feet (2 ft.) in width and eight inches (8 in.) in length. Upstanding from a central position on the top side of the planar portion 12 is a mounting bracket 17 capable of removably mounting the handle 30 thereto. The mounting bracket 17 has a planar body and oriented to stand vertically from the top side of the planar portion 12 along a bisecting axial centerline, traveling from rear edge to front edge. The mounting bracket 17 has a curvilinear upper edge.
Referring more closely to
Referring now more closely to
A handle mounting arm 33 is generally shaped as a yoke, having a hinge assembly 31 attached to or integral with an upper end thereof, and a slot formed at a lower end thereof, extending upward (i.e., towards the upper end) along a bisecting axial centerline. Attached to the outer surface of the closed first end of the handle 30 is a pair of handle arms 32, generally shaped as rings and oriented in a perpendicular location relative to a longitudinal bisecting centerline passing through the receiver 39 of the handle 30. The handle arms 32 are hingedly attached to the hinge assembly 31 to enable pivoting radial motion of the handle 30 relative to the handle mounting arm 33. The slot is wide enough to permit passage of the mounting bracket 17 therethrough. The mounting bracket 17 and the lower end of the handle mounting arm 33 each have apertures (not shown), that when coaligned, permit the passage of a mounting bolt 36 therethrough. A mounting fastener 35 removably attached to said mounting bolt 36, after it engages the mounting bracket 17 and handle mounting arm 33, securely fastens the handle 30 to the float 11.
The preferred embodiment of the present invention can be utilized by the common user in a simple and effortless manner with little or no training. It is envisioned that the tool 10 would be constructed in general accordance with
Upon a concrete pouring event and prior to complete hardening of the poured concrete, the tool 10 is procured and it is determined if a secondary extension pole is needed to insert into the receiver 39 of the handle 30 in order to manipulate the tool 10 from distance. The proper blade 20 is produced and attached to the planar portion 12 based on desired depth of the to-be-formed control joint. Also, if required or desired, form boards with straight edges are placed over the poured concrete at proper locations in order to provide a guide for travel of the tool 10 on the top of the concrete.
Once the above is determined and the location of the control joint to be formed with the tool 10 is identified, the float 11 of the tool 10 is placed on the leading edge of the poured concrete such that the bevels 23 of the blade 20 are in contact therewith. A linear motion of the tool 10 along the desired path of the to-be-formed control joint is then accomplished. The blade 20 cuts through the poured concrete and the planar portion 12 “floats” on top of the poured concrete to produce the control joint along the desired path.
The foregoing descriptions of specific embodiments of the present invention have been presented for purposes of illustration and description. They are not intended to be exhaustive or to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical application, to thereby enable others skilled in the art to best utilize the invention and various embodiments with various modifications as are suited to the particular use contemplated.
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