Hammer drill adapter for driving cleats onto sheet metal edges

Abstract

An improved hammer drill adapter, that is to be inserted into the variable-diameter, chuck end of a hammer drill for driving forward any one of a plurality of different types of sheet metal cleats to join the opposing ends of two sheet metal, duct sections, includes: (a) an elongated shaft having a drive end and a working end and a centerline between said ends, (b) the drive end configured to be releasably held in the hammer drill's chuck, (c) the working end having an elongated flat, front face that has top and bottom surfaces, two ends and with the front face oriented so that a perpendicular to the front face is parallel to the shaft's centerline, (d) the front face has an elongated cavity and a front face channel that are oriented approximately perpendicular to each other, and (e) wherein this cavity is configured to accommodate within it the end of a flat drive cleat, and the cavity and front face channel together are configured to accommodate within them the end of a standing drive cleat.

Claims

1. A hammer drill adapter that is inserted into the variable-diameter, chuck end of a hammer drill for driving forward any one of a plurality of different types of sheet metal cleats to join the opposing ends of two sheet metal, duct sections, and wherein each type of said cleat having two ends and opposing sides and a uniform, cross sectional shape, said hammer drill adapter comprising: an elongated shaft having a drive end and a working end and a shaft centerline between said ends, wherein said drive end sized so as to be releasably held in said chuck end of said hammer drill, wherein said working end having an elongated flat, front face, a top and bottom surfaces and two ends, and said front face is oriented with respect to said shaft so that a perpendicular to said flat, front face is parallel to said centerline of said shaft, wherein said flat, front face having a fixed, elongated cavity that has two cavity ends which are separated by a cavity width, cavity top and bottom sides and a cavity centerline that extends between said cavity ends, wherein said flat, front face also having at least two front face channels each of which extends perpendicularly from said bottom side of said cavity and to said bottom surface of said working end, and has two sidewalls that are spaced apart a specified front face channel width, and also has a rear end and a front end that is located in said front face and has a front face channel centerline that extends between said ends and wherein said front face channel is oriented so that said front face channel centerline is parallel to said centerline of said shaft, wherein said cavity width sized to accommodate the end of a flat drive cleat within said cavity, and wherein said front face channel width of each of said front face channels is sized to accommodate the standing portion of the end of a standing drive cleat within said front face channel.

2. The hammer drill adapter as recited in claim 1, wherein: said cavity further configured to provide a prescribed gap between said cleat and said ends and sides of said cavity.

3. The hammer drill adapter as recited in claim 1, wherein: said flat, front face further having an elongated end-to-end channel that extends between said cavity ends, and said end-to-end channel configured to accommodate a portion of the side of a flat, S-cleat within said end-to-end channel.

4. The hammer drill adapter as recited in claim 2, wherein: said flat, front face further having an elongated end-to-end channel that extends between said cavity ends, and said end-to-end channel configured to accommodate a portion of the side of a flat, S-cleat within said end-to-end channel.

5. The hammer drill adapter as recited in claim 1, wherein: said top and bottom surfaces of said front face are separated by a prescribed height that is set so as to allow said front face of said adapter to be used to push forward the open side of a standing S cleat from which said standing portion extends onto the edge of one of two duct sections that are to be joined together.

6. The hammer drill adapter as recited in claim 2, wherein: said top and bottom surfaces of said front face are separated by a prescribed height that is set so as to allow said front face of said adapter to be used to push forward the open side of a standing S cleat from which said standing portion extends onto the edge of one of two duct sections that are to be joined together.

7. The hammer drill adapter as recited in claim 3, wherein: said top and bottom surfaces of said front face are separated by a prescribed height that is set so as to allow said front face of said adapter to be used to push forward the open side of a standing S cleat from which said standing portion extends onto the edge of one of two duct sections that are to be joined together.

8. The hammer drill adapter as recited in claim 4, wherein: said top and bottom surfaces of said front face are separated by a prescribed height that is set so as to allow said front face of said adapter to be used to push forward the open side of a standing S cleat from which said standing portion extends onto the edge of one of two duct sections that are to be joined together.

9. The hammer drill adapter as recited in claim 1, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

10. The hammer drill adapter as recited in claim 2, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

11. The hammer drill adapter as recited in claim 3, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

12. The hammer drill adapter as recited in claim 4, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

13. The hammer drill adapter as recited in claim 5, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

14. The hammer drill adapter as recited in claim 6, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

15. The hammer drill adapter as recited in claim 7, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

16. The hammer drill adapter as recited in claim 8, wherein: said front face has dimensions in the range of 1.75-2.5 inches in length between said ends, and 0.8-1.25 inches in height between said top and bottom surfaces.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a perspective view of a preferred embodiment of the present invention that is about to be inserted into the chuck end of a hammer drill.

(2) FIGS. 2A-2D show examples of the end views of some of the types of cleats that are inserted into the opening in the front face of the present invention whose rear end is held by the chuck end of a hammer drill that is used to drive the cleats onto the adjoining ends of two sections of sheet metal ducting that are to be joined together by the cleats.

(3) FIG. 3 is a perspective view of a flat drive cleat that has been inserted into an opening or elongated cavity in the front face of the present invention whose drive or rear end is held by the chuck end of a hammer drill that is about to be used to drive this cleat onto the adjoining or opposing ends of two sections of sheet metal ducting that are to be joined together by the cleat.

(4) FIG. 4 is an enlarged, perspective view of a preferred embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

(5) Before explaining at least one embodiment of the present invention in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangements of the components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting.

(6) Referring to FIG. 1, there is illustrated a perspective view of a preferred embodiment of the present invention 10. In this embodiment, the present invention takes the form of a hammer drill adapter 10 that is-to-be inserted into the chuck end 1 of a hammer drill 2 and used for driving any one of a plurality of different types of cleats (e.g., flat drive 3, flat S-cleat 4, standing drive 5, standing S-cleat 6) onto the is opposing ends of two sheet metal, duct sections that are to be joined together using such a cleat.

(7) All such types of sheet metal, duct-section-joining cleats share, because of their intended use, some common characteristics, i.e., they all are elongated members that have two ends and each type has a differing, uniform, cross sectional shape. Thus, the end views of each of such cleats gives us a relatively complete description of the geometries of such cleats. See FIGS. 2A-2C for examples of the end views of the following types of cleats: (a) a flat drive 3 that is being used to join two duct sections that have non-overlapping ends which have been bent backwards onto themselves so that they form a quasi, U-shaped end, (b) a flat S 4 that is being used to join two duct sections that have overlapping, straight edge ends, and (c) a standing S 6 that is also being used to join two duct sections that have overlapping, straight edge ends.

(8) FIG. 3 shows a perspective view of a flat drive cleat 3 that has been inserted into an opening or elongated cavity 26 in the front face 20 of the present invention whose drive or rear end 14 is held by the chuck end 1 of a hammer drill 2 that is about to be used to drive this cleat onto the adjoining or opposing ends of two sections of sheet metal ducting that are to be joined together by the cleat.

(9) FIG. 4 shows an enlarged, perspective view of a preferred embodiment of the present invention. This adapter 10 is seen to have an elongated shaft 12 that has a drive end 14 and a working end 16 and a centerline 18 that extends between these ends. The drive end is in the shape of an elongated, tube that has a round, cross-sectional shape in order to allow this drive end to be releasably held in the variable-diameter, chuck or chuck end of a hammer drill 2. Typical dimensions for this elongated shaft are in the range of 3-5 inches in length, and a diameter of - inches.

(10) Such a hammer drill derives its name from the fact that its chuck moves forward and backward on the centerline 18 of the drill in order to apply a series of relatively small amplitude, but high frequency hammering motions that help to allow anything that is being held by and is protruding forward from the drill's chuck to be moved forward when pressure is applied to the hammer drill's grip 2a in this same, forward direction.

(11) The forward or working end 16 of this drill has an elongated or rectangular flat, front face 20 that has two ends 22a, 22b and top 24a and bottom 24b surfaces. This front face is oriented with respect to the adapter's shaft so that a perpendicular to this front face that lies in the middle of it is parallel to or coincides with the centerline of the shaft 12. The height between the face's top and bottom surfaces is carefully prescribed so that the adapter's front face can be used to push forward an open side of a standing S cleat from which said standing portion extends onto the edge of one of two duct sections that are to be joined together. Since the height of the combined, oppositely-faced openings in a S cleat is in the range of - inches, this sets the minimum height of the adapter's front face. Typical dimensions for this front face are in the range of 1.75-2.5 inches in length, 13/16- 5/4 inches in height. The width of this working end from its rear to its front face is in the range of 1-1.75 inches. Preferred dimensions for this working end are 2 inches in length, 1 inch in height, and 1.25 inches in width.

(12) An elongated cavity 26 extends between the ends 22a, 22b of the adapter. This cavity is seen to be configured to hold the end of one of the to-be-used cleats; see for example FIG. 3. This cavity is generally seen to have two, opposing cavity ends 28a, 28b and two, parallel cavity sides 30a, 30b, a cavity centerline 32 that extends between its ends, and a prescribed depth. This cavity is typically configured to allow the end of a flat drive cleat 3 or other such similar cleat to fit within it and have a prescribed play or gap between the cleat and the adjoining ends and sides of the cavity such that there is sufficient additional room that the cleat will not be held so tightly that a misalignment in the ends of the sheet metal sections that are to be joined together will result in the bending of the cleat. Gap or clearance dimensions on the order of 1/32- 1/16 inches have been found to be sufficient to avoid such cleat bending. Typical dimensions for the overall cavity are in the range of 1.25-1.75 inches in length, - inches in width, and - inches in depth.

(13) Between each end of this cavity and the adjoining end of the front face, there is exists another shallower cavity or end channel 34a, 34b that is configured to hold other cleats (e.g., a flat S-cleat 4) that are to be pushed forward by the drive hammer when they are held on a portion of one of their elongated edges rather than on their ends. Since the front face's cavity has a void space between the ends from which each of these channels extend, these channels and the cavity combine to essentially a single, end-to-end channel that extends between the front face's ends. Typical dimensions for each of these end channels are in the range - inches in width, and 3/16- 5/16 inches in depth.

(14) This front face also has a pair of front face channels 36a, 36b, each of which extends perpendicularly between the bottom of the front face and the adjoining side 30b of its cavity 26 and each of which is located proximate one of the cavity's ends. Each of these channels also has a rear end and a front end that is located in the front face and a front face channel centerline 38a, 38b that extends between these ends and and each of these is oriented so that the front face channel centerline is approximately parallel to the shaft's centerline 18. These front face channels 36a, 36b are provided for those instances when the adapter is tasked with pushing forward from an end a cleat that has a standing element (e.g., a standing drive 5, or a standing S-cleat 6) and this standing element is situated in one of these front face channels 36a, 36b. Typical dimensions for each of these front channels are in the range - inches in width, and - inches in depth.

(15) The foregoing is considered as illustrative only of the principles of the present invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described herein. Accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention that is hereinafter set forth in the claims to the invention.