The present invention relates to a light assembly, and particularly to devices for shedding light on a workpiece during operation of a power tool, such as a hand-held rotary power tool.
Hand-held power tools have been used by individuals for many decades. Such individuals include craftsman, repairman, hobbyists, and woodworkers to name a few. From the day that the power drill replaced the brace and bit, hand-held tools have greatly simplified most craft and/or repair projects and, perhaps most significantly, brought such projects within the grasp of the non-professional. Throughout its development, the power drill has been adapted to a variety of tasks, nearly all predicated on replacing the drill bit with a specialized tool. For instance, special bits have been developed for creating different types of holes in a workpiece. Other attachments allow a power drill to act as a screwdriver or sander. Still other attachment bits convert the power drill to a router capable of producing intricate patterns and scrollwork in a workpiece.
Power tools have evolved from the bulky pistol grip type drill to a more compact, “pencil” type tool. Smaller hand-held tools are available for performing very intricate cuts in a workpiece. Other hand-held power tools and attachments have been developed to allow a held-held drill to function like a coping saw or jig saw. In all of these applications, the ability to see the workpiece is critical. The development of smaller hand-held tools and streamlined support jigs has helped provide as un-obstructed view of the workpiece as possible. However, a clear view may be insufficient if the workpiece is not adequately illuminated.
A well lighted work area is obviously desirable, but is only half the battle. Even with the best stationary lighting, shadows can plague the home craftsman or repairman. Moreover, not all craft and/or repair operations need to occur at a well-lighted workbench. Consequently, there is a need for a light source that can be associated with a power tool and that eliminates the lighting problems that are present with prior work area lighting solutions. There is also a need for a light source that can be readily associated with a number of tools in the work shop.
The present invention addresses these needs by a light attachment that can be readily mounted on a variety of tools and/or tool support fixtures and/or other support structures. In one embodiment of the invention, the light attachment includes a light portion supported on a mounting portion by a flexible cable or gooseneck-type cable. The flexible cable can be bent to virtually any configuration and hold its shape so that the light portion can be positioned exactly at the location that requires illumination.
The mounting portion includes a housing that defines an attachment element configured to mate with a complementary attachment element formed on the power tool. Alternatively, the attachment element may be formed on a case for a power tool, or other fixture, and may even be formed on a clip device. In a preferred embodiment, the attachment element has a dovetail shape for sliding engagement within a complementary shaped notch in the body of the tool. The attachment element also includes a knob disposed at the end of a resilient arm. The knob is sized to fit within a dimple defined in the notch in the tool body and the resilient arm is arranged to deflect as the attachment element slides into the notch. When the knob is aligned over the dimple, the resilient arm urges the knob into the dimple to help hold the mounting portion, and therefore the light attachment, to the tool or tool support fixture or other support structure.
The housing of the mounting portion is configured to contain a power source for the light portion. In the preferred embodiment, the power source includes a number of flat batteries, such as a lithium ion batteries, coupled to power supply wires housed within the flexible cable.
The light portion of the light attachment incorporates the on-off switch into the light guide. The light portion includes a housing mounted to the flexible cable. The housing supports a printed circuit board to which the power supply wires are attached. The circuit board also carries a spring contact switch element that completes the circuit when it is pressed against the circuit board. Power is supplied through the circuit board and switch to an LED light element. The LED is disposed within the housing. The light guide is in threaded engagement with internal threads of the housing so that the guide can bear against the LED light element as it is threaded into the housing. Pressure on the LED light element causes a terminal thereof to depress the spring contact switch element to energize the LED light element. An O-ring can be engaged between the light guide and the housing to increase the frictional resistance to movement of the light guide.
The LED preferably includes a built-in refraction lens so that a lens is not required on the light guide. The built-in lens, which has a defined angle of refraction, thus focuses the light emitted by the LED onto the workpiece.
One benefit of the present invention is that it provides a light attachment that can be attached to a variety of tools or fixtures or other support structures to provide direct illumination where it is needed most. Another benefit is that the light emitting portion is carried by a flexible cable that allows positioning the light in an infinite number of positions.
A further benefit achieved by the light attachment of the present invention is that certain heavy components of the light attachment are contained at the mounting end of the light attachment so that its weight does not interfere with the ability to position the light source and hold that position. Yet another benefit is that the on-off switch is with the light source, or immediately adjacent the workpiece.
Other benefits and certain objects of the invention will become apparent from the following written description taken together with the accompanying figures.
For the purposes of promoting an understanding of the principles of the present invention, reference will now be made to the embodiments illustrated in the drawings and described in the following written specification. It is understood that no limitation of the scope of the invention is thereby intended. It is further understood that the present invention includes any alterations and modifications to the illustrated embodiments and includes further applications of the principles of the invention as would normally occur to one skilled in the art to which this invention pertains.
The present invention is particularly suited for use with a hand-held tool, such as a rotary hand-held power tool 10 shown in
The light attachment 20 includes a light portion 22, a flexible cable (or conduit) 24 and a mounting portion 26. The flexible cable 24 is a gooseneck cable that can be bent to assume one of an infinite number of positions, and can maintain that position. The gooseneck cable 24 can be constructed in a known manner to exhibit this formable rigidity or stiffness. For instance, a typical gooseneck cable includes a pair of concentrically disposed spiral-wound tubes. The outer radius of the spirals of the inner tube is substantially equal to the inner radius of the spirals of the outer tube so that the static friction force between the inner and outer tubes tends to keep the gooseneck cable in a fixed position when no forces are being applied thereto. The cable 24 is hollow to allow passage of power wires 66 (see
In the preferred embodiment, the mounting portion 26 includes three basic components. In particular, the mounting portion includes a top cover 30, a battery cover 32 that snaps onto the top cover, and a bottom cover 34. The top and bottom covers can snap together or, preferably, are affixed such as by sonic welding or use of an adhesive. Alternatively, screws may be used to affix such parts together. The bottom cover 34 includes an attachment element 36 that is configured to engage a complementary attachment feature 16 located at the distal portion 15 of the body 14 of the tool 10 (see
The top and bottom covers 30, 34 cooperate to define a shackle 45 that surrounds the flexible cable 24 as it extends into the mounting portion 26. A collar 47 surrounds the shackle to press the shackle about the cable to help hold the assembly together. In addition, the interior of the top and bottom covers can define a series of strain relief ridges 50. These ridges 50 press into the exterior of the flexible cable disposed within the mounting portion to hold the cable within the covers. The ridges provide a strain relief function as they resist but don't prevent separation of the flexible cable from the mounting portion under sufficient force.
The bottom cover 34 defines supports 52 (
Referring to
The switch 67 is actuated by rotation of a light guide 75 that is threaded into the mouth of the housing 63. The lower portion of the light guide 75 includes external threads that mate with internal threads 83 defined within the housing. The lower portion of the light guide 75 bears against the base 72 of the LED 70 with the LED projecting into a bore 77 of the light guide. As shown in
As the light guide 75 is threaded into the housing 63, the lower portion pushes down on the LED base 72. As the base slides within the housing it pushes down on the spring switch 67 to close the switch and make the electrical circuit. As the light guide is threaded out of the housing, the pressure on the spring switch is relieved and the natural resilience of the switch causes it to deflect upward.
In one aspect of the invention, the interface between the light guide 75 and the housing 63 is such that the light guide resists unthreading under upward pressure from the spring switch 67. In order to enhance this resistance, the light portion 22 includes an O-ring 84 disposed between the light guide and the housing, as shown in
The light attachment 20 beneficially retains the battery assembly in the mounting portion 26 so that the weight of the battery assembly can be easily borne by the tool itself. This arrangement eliminates the additional weight of the battery assembly in the light portion 22 which can compromise the ability of the flexible gooseneck cable 24 to hold the position of the light portion. On the other hand, the on-off switch is incorporated into the housing and light guide of the light portion 22 so that the light can be easily turned on or off near the location of the workpiece.
The light attachment 20 is configured to be mounted to wide range of tools and tool support fixtures and other support structures, provided they include an appropriate attachment feature, such as the feature 16 of (or on) the tool body 14. For instance, as shown in
The fixture includes several attachment features 98 which are identical to the attachment feature 16 described above. Thus, the fixture 90 provides multiple locations at which the light attachment 20 can be supported on the fixture. The flexible cable 24 can be manipulated so that the light portion 22 is optimally positioned to direct a light beam in a meaningful direction. Moreover, the multiple attachment features 98 can support several light attachments to illuminate the workpiece from multiple directions.
The light attachment tool 20 is also configured to be mounted to a clip device 150 that is shown in
The base 152 further has a pair of spaced apart mounts 156, each having a hole (not shown) defined therein. Similarly, the clip arm 154 has a pair of holes 158 respectively aligned with the holes defined in the pair of spaced apart mounts 156. A rod 160 extends through the aligned holes of the mounts 156 and the clip arm 154 so as to provide a pivotal coupling therebetween as best shown in
The clip device 150 may conveniently be packaged and sold together as a kit with the light attachment 20 and/or the power tool 10. The clip device 150 provides significant benefits since it may be mounted on any appropriate structure in the vicinity of a workpiece to thereby provide a mount for receiving the mounting portion 26 of the light attachment 20. Other benefits of the present invention are derived since both the power tool 10 and the clip device 150 possess a similarly configured dovetail cavity thereby providing the user the option to either mount the light attachment 20 directly to the power tool 10, or alternatively mount the light attachment 20 to the clip device for custom mounting on any appropriate structure in the vicinity of the workpiece (e.g. a work bench).
While the invention has been illustrated and described in detail in the drawings and foregoing description, the same should be considered as illustrative and not restrictive in character. It is understood that only the preferred embodiments have been presented and that all changes, modifications and further applications that come within the spirit of the invention are desired to be protected.
This application is a continuation-in-part of both (i) co-pending application Ser. No. 10/680,513, filed on Oct. 7, 2003, and (ii) co-pending application Ser. No. 10/680,632, filed on Oct. 7, 2003. The disclosure of each of the above-identified utility patent applications is hereby totally incorporated by reference in its entirety. Also, this application claims the benefit of U.S. Provisional Application Ser. No. 60/509,360, filed Oct. 7, 2003. The disclosure of this provisional patent application is hereby totally incorporated by reference in its entirety.
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Number | Date | Country | |
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Number | Date | Country | |
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Number | Date | Country | |
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Parent | 10680632 | Oct 2003 | US |
Child | 10822622 | US | |
Parent | 10680513 | Oct 2003 | US |
Child | 10680632 | US |