Drywall Splitter

Abstract

A drywall or similar planar material cutting tool is provided that aids in the achieving of clean and square cuts with minimal debris and/or breakage to the drywall material edge. The apparatus defines a generally J-shaped engagement channel, or combinations of J-shaped channels, to engage the edge of a drywall sheet, and a centrally affixed handle located perpendicular to the bottom surface of the J-channel and generally in a parallel plane to the drywall sheet being cut. The unique configuration allows pressure applied to the handle to be uniformly transferred to the J-channel which, in turn, applies a uniformly distributed shear force. The applied force is perpendicular to the plane of the drywall sheet and, at all times, parallel to the pre-applied score mark thereby resulting in a clean snap break of the board with an improved edge quality.

Claims

1. An apparatus for splitting a sheet of stock planar material having opposed planar side surfaces and a guiding planar material edge surface joining each of said planar side surfaces, the stock planar material having been pre-scored on one side by conventional means in a straight line parallel to the material edge, the apparatus comprising: a) at least one structural channel defining an interior cavity wherein the interior cavity engages the planar material edge surface; and b) at least one structure member handle approximately centrally located on the overall length of the structural channel, substantially perpendicular to the structural channel and fixed in a direction substantially opposite of the structural channel interior cavity.

2. The splitter apparatus of claim 1 wherein the structural channel interior cavity further comprises: a) an interior cavity longitudinal length; b) a substantially flat middle holding segment intended to sit normal on the edge of the planar material and comprising a middle holding segment longitudinal length approximately equal to the interior cavity longitudinal length; and c) two flanges positioned substantially perpendicular to-the middle holding segment and substantially parallel to each other and comprising a flange longitudinal length approximately equal to the interior cavity longitudinal length.

3. The splitter apparatus of claim 2 wherein the two flanges comprise a front plane flange and a back plane flange, the front plane flange defines a front plane flange height relative to the middle holding segment, the back plane flange defines a back plane flange height relative to the middle holding segment, and the back plane flange height is greater than the front plane flange height.

4. The splitter apparatus of claim 2 wherein the two flanges comprise a front plane flange and a back plane flange, the front plane flange defines a front plane flange height relative to the middle holding segment, the back plane flange defines a back plane flange height relative to the middle holding segment, and the back plane flange height is substantially greater than the front plane flange height.

5. The splitter apparatus of claim 3 wherein said back plane flange and front plane flange have interiorly tapered, draft angled or rounded leading edge portions.

6. The splitter apparatus of claim 1 wherein the handle is substantially perpendicular to and permanently affixed to or structurally integral with the structural channel.

7. The splitter apparatus of claim 6 wherein the handle is circumferentially attached to the outer surface of the flat middle holding segment.

8. The splitter apparatus of claim 7 wherein the handle is structurally affixed to or structurally integral with at least one of the front plane flange or the back plane flange.

9. The splitter apparatus of claim 1 wherein the handle is attachable and removable from the structural channel by any one of several common fastening techniques.

10. The splitter apparatus of claim 1 wherein the handle is collapsible relative to the structural channel by any one of several common fastening techniques for ease of storage and transport.

11. The splitter apparatus of claim 1 wherein the handle is hollow or tubular in structure to facilitate the insertion of an extension pole or other extension device.

12. The splitter apparatus of claim 1 wherein an extension pole or other device is fastened to the handle by any one of several common fastening techniques.

13. The splitter apparatus of claim 1 wherein the extreme longitudinal corner edges of at least one of the front plane flange or the back plane flange defines a rounded geometry, a radius, or other geometry to prevent inadvertent personal injury or damage to the stock planar material.

14. The splitter apparatus of claim 1 wherein at least two structural channels are incorporated in a substantially parallel fashion.

15. The splitter apparatus of claim 14 further comprising: a) a first structural channel defining a first interior cavity having a first interior cavity longitudinal length; b) a second structural channel defining a second interior cavity having a second interior cavity longitudinal length; c) a substantially flat first middle holding segment comprising a first middle holding segment longitudinal length approximately equal to the first interior cavity longitudinal length; d) a substantially flat second middle holding segment comprising a second middle holding segment longitudinal length approximately equal to the second interior cavity longitudinal length; and e) at least one structure member handle approximately centrally located on the overall length of the first structural channel or the second structural channel, substantially perpendicular to the first structural channel or the second structural channel, and fixed in a direction substantially opposite of the first structural channel or the second structural channel respective interior cavity.

16. The splitter apparatus of claim 15 wherein the first structural channel and the second structural channel comprise a common structural bottom or middle holding segment.

17. The splitter apparatus of claim 16 wherein the first interior cavity and the second interior cavity further comprise: a) a common central structural back plane flange positioned substantially perpendicular to the middle holding segment defining a back plane flange height relative to the middle holding segment; b) a first interior cavity front plane flange defining a first interior cavity front plane flange height relative to the middle holding segment; c) a second interior cavity front plane flange defining a second interior cavity front plane flange height relative to the middle holding segment; and d) wherein the back plane flange height is greater than the first interior cavity front plane flange height and the second interior cavity front plane flange height.

18. The splitter apparatus of claim 17 wherein the back plane flange height is greater than the first interior cavity front plane flange height and the second interior cavity front plane flange height.

Description

BRIEF DESCRIPTION OF THE DRAWINGS:

[0012] FIG. 1A is a side elevation view of the single J-shaped Splitter showing the J-shaped channel and the centrally located Handle.

[0013] FIG. 1B is a top planar view of the single J-shaped Splitter showing the J-shaped channel and the centrally located Handle.

[0014] FIG. 2A is a cross-sectional view of the single J-shaped Splitter showing the J-shaped channel and the centrally located Handle at Section A-A from FIG. 1.

[0015] FIG. 2B is a perspective view of the single J-shaped Splitter showing the J-shaped channel and the centrally located Handle.

[0016] FIG. 3 is a side elevation view of the Splitter engaged on the edge of a typical sheet of Drywall board in which the solid line represents the scored cut and the dotted line represents an alternative scored cut on the reverse side of the Drywall board. The Splitter is shown in each the horizontal cut and the vertical cut orientations.

[0017] FIG. 4 is a side elevation view of the single J-shaped Splitter engaged on a sheet of Drywall for each a horizontal and a vertical cut respectively.

[0018] FIG. 5 is a top planar view of the single J-shaped Splitter engaged on a sheet of Drywall for each a horizontal and a vertical cut respectively.

[0019] FIG. 6 provides two side elevation views of the single J-shaped Splitter engaged on a sheet of Drywall after applying a force to the handle and performing a horizontal cut snap of the board.

[0020] FIG. 7 provides a perspective view and a side elevation view of the single J-shaped Splitter engaged on a sheet of Drywall after applying a force to the handle and performing a cut snap of the board.

[0021] FIG. 8A is a side elevation view of the double J-shaped Splitter showing the double J-shaped channel and the centrally located Handle.

[0022] FIG. 8B is a top planar view of the double J-shaped Splitter showing the double J-shaped channel and the centrally located Handle.

[0023] FIG. 9A is a cross-sectional view of the double J-shaped Splitter showing the double J-shaped channel and the centrally located Handle at Section B-B from FIG. 8A.

[0024] FIG. 9B is a perspective view of the double J-shaped Splitter showing the double J-shaped channel and the centrally located Handle.

DESCRIPTION OF THE PREFERRED EMBODIMENT

[0025] Although the disclosure hereof is detailed and exact to enable those skilled in the art to practice the invention, the physical embodiments therein disclosed merely exemplify the invention which may be embodied in other specific structure. While the disclosed preferred embodiments have been described, the details may be changed without departing from the invention, which is defined by the claims.

[0026] Referring to the drawings, wherein like referenced characters designate corresponding parts throughout the several figures, a preferred embodiment of the invention 10 is shown in FIGS. 1 through 7.

[0027] As shown in FIGS. 1A and 1B, the drywall splitter 10 comprises a J-shaped holding fixture 12 and a handle 14. As shown in FIGS. 2A and 2B, holding head fixture 12 defines a back plate surface 16, a frontal plate surface 18, and a middle holding segment 20. The middle holding segment 20 defines the gap formed between the back plate 16 interior surface and the frontal plate 18 interior surface; and may be fabricated to accommodate the splitting of a broad range of board 30 (shown in FIG. 3) thicknesses but most typically a thickness ranging from about inch in thickness to approximately 1 inch or more in thickness.

[0028] In a preferred embodiment, the back plate 16 is taller than the frontal plate 18 in order to apply and distribute the snapping force over a large area of the board. The middle holding segment 20 ensures that the splitter 10 is always normal to the edge of the board being cut and parallel to the score line while the shorter frontal plate 18 imposes a clamping force which locks the splitter 10 tool onto the board 30 when a force is applied to the handle 14. The interior surfaces of the back plate 16 and frontal plate 18 may be tapered, draft angled or rounded 19 to aid in guiding the engagement of the device 10 onto the board 30. Further, in the preferred embodiment, the top corners at each extreme end of the back plate 16 and frontal plate 18 have been rounded 17 or incorporate other geometry to guard against inadvertent personal injury and/or scaring or damaging of the board 30 while engaging or manipulating the device 10.

[0029] FIG. 1B illustrates a top view of the drywall splitter 10 looking down the axis of the handle 14. Together with FIG. 2B the handle 14 is shown offset from the center of the middle holding segment 20 outer surface 22 and attached at location 26. While the handle 14 may be circumferentially affixed perpendicular or at a skewed angle to the middle holding segment 20 outer surface 22, the preferred embodiment provides for increase structural integrity by also affixing the handle 14 to the back plate 16 outer surface 24. This configuration represents the preferred embodiment when the splitter 10 is manufactured from either a welded, glued or molded process, likewise, the J-shaped holding head channel 12 may be manufactured by any number of traditional methods such as machining, welding, gluing, injection molding and extrusion.

[0030] In alternative embodiments, the handle 14 may be removeably joined to the bottom surface 22 of the J-shaped holding head channel 12 by any number of known conventional means such as, for example, a nut and bolt, male/female receptacles, twist lock mechanism, spring locks, etc. to form a hand-tool sized device or simply for ease of packing and transport including inside toolboxes and tool buckets, etc.

[0031] The handle 14 configuration is not limited to the depicted hollow tube 21; however, the tube facilitates the easy insertion of and extension pole if desired. Such optional handle 14 extensions can also be accomplished in any number of the traditional methods such as being threaded like a broom handle, pinned, sleeved, keyed or sprung loaded detent button to facilitate extended reach or use of the device. The handle 14 may also incorporate a machined, molded or slip-on style hand-grip such as is used on bicycle handlebars.

[0032] FIGS. 3, 4 and 5 show the splitter device 10 engaged on the edge of a board 30 such that the middle holding segment 20 ensures that the splitter 10 is always normal to the edge of the board being cut and parallel to the score line 32. The splitter 10 is further oriented such that the longer back plate 16 is positioned on the same plane of the board 30 which has been scored 32 while the shorter frontal plate 18 is positioned on the side of the board 30 opposite of the score line 32. The dotted line 33 in FIG. 3 represents an alternative score line if the desired cut was less than the height L2 of engagement of the longer back plate 16.

[0033] When a slight force is applied to the centrally located handle 14, this force is transmitted over the entire square area defined by the length L1 and the height L2 of the back plate 16 of the J-shaped holding fixture 12 to ensure that a uniform breaking force is applied perpendicular to the plane of the drywall sheet 30. As shown in FIG. 6, the force applied to the handle 14 also causes a bending moment which is at all times parallel to the score cut 32, further causing the drywall 30 to snap with a clean cut 31 with minimal debris and/or breakage to the existing drywall material. FIGS. 6 and 7 depict the orientation of the splitter device 10 and the board 30 immediately following the snap of the board 30 along the scored line 32. The worker would then use the V 34 opposite the clean cut 31 formed on the back side of the board 30 created by the non-scored second laminate wall board paper 35 serving as a temporary hinge connecting the two severed board 30 segments, to guide a utility knife or other cutter to sever the second paper laminate 35 and complete the cut. The worker has the option of either pushing or pulling on the handle 14 and thus has the flexibility as the case warrants to be positioned on either side of the board 30 being cut.

[0034] An alternative embodiment is shown in FIGS. 8A, 8B, 9A and 9B, in which the drywall splitter 41 comprises a double J-shaped holding fixture 42 and a handle 14A. As shown in FIGS. 9A and 9B, holding head fixture 42 defines a back plate surface 43, a first frontal plate surface 44, a second frontal plate surface 46 and a middle holding segment 45 that spans all three vertical segments. The middle holding segment 45 defines the gap formed between the back plate 43 corresponding interior surfaces and each respective first frontal plate 44 interior surface and the second frontal plate 46 interior surface; and may be fabricated to accommodate the splitting of a broad range of board 30 thicknesses but most typically ranging from about inch in thickness to approximately 1 inch or more in thickness.

[0035] The principal advantage of the double J-shaped holding fixture 42 is that each L4 and L5 can be optimised for two different size board 30 thicknesses or range of thicknesses. In the preferred embodiment, the back plate 43 is longer than both the first frontal plate 44 and the second frontal plate 46 in order to apply and distribute the snapping force over a large area of the board 30. Further, first frontal plate 44 length L3 and the second frontal plate 46 length L6 can likewise be varied in length to correspond to their particular board 30 gap width L4 and L5 respectively. The middle holding segment 45 ensures that the splitter 41 is always normal to the edge of the board being cut and parallel to the score line, while the shorter frontal plate 44 or 46 imposes a clamping force which locks the splitter 41 onto the board when a force is applied to the handle 14A.

[0036] FIG. 8B illustrates a top view of the drywall splitter 41 looking down the axis of the handle 14A. FIGS. 8A, 8B, 9A and 9B depict the handle 14A (as previously described above for handle 14) centrally located on the center of the middle holding segment 45 outer surface 47. The double J-shaped holding fixture 42 extra-wide double J-channel middle holding segment 45 provides for a larger outer surface 47 than is practical for the single J-shaped holding fixture middle holding segment 20 outer surface 22. Therefore, the handle is more readily circumferentially affixed to the middle holding segment 45 outer surface 47. The worker merely selects the optimum double J-shaped holding fixture 42 pocket and then uses the tool as described for the single J-shaped splitter device 10.

[0037] A preferred embodiment of the device is fabricated from metal, preferably light weight aluminum; however, any suitably rigid material will suffice. A device fabricated from metal may be formed by any number of known means such as by machining, stamping, forming, shaping, casting, extrusion and the like. The device also may be fabricated from suitably hard plastic or resin and formed by any number of known means such as by mold injection, extrusion, and the like.