The present invention relates to a tool chuck. More particularly, a preferred embodiment of the present invention relates to a quick change chuck that incorporates a light emitting diode (LED) to provide illumination of the work piece.
It is desirable to have good lighting conditions when working with power tools such as battery operated drills both to ensure accurate use of the tool and also for safety reasons. However, there remains room for improvements to help the users of such devices. For example, not all battery operated drills incorporate a light source. Also, to obtain good lighting conditions, the light source must be able to provide sufficient illumination to the work area. This requires that the light source either be relatively bright or that the light source be located close to the work area and that the light source be focused on the work area to maximize the amount of light reaching the work area.
It is typical for users to require a flashlight or drop light while working in tight, confined, low-light, night time, or power-out conditions. It would be desirable to have a tool which itself incorporated a light source which enabled users to see their work piece in low light conditions.
Several currently commercially available battery operated drills have an LED located on the body of the drill, but they only illuminate when the motor of the drill is operating. Thus, if the user wants to illuminate the work piece, the motor must be operated which not be desirable in many situations and may be a waste of battery power. It would be desirable to have a light source which could be switched on independently of the drill motor. Thus, it would be desirable to have an LED light which was incorporated into a part of the drill but which could be controlled independently of the drill motor.
Furthermore, most battery operated drills do not have a quick change chuck and changing drill or screw driver bits in such drills requires more time and is somewhat more difficult than would be the case with a quick change chuck. While so called quick change chucks are known, there is room for improvement in their ease of manipulation. Conventional quick change chucks generally require the user to use one hand to move a collar to position the chuck mechanism to receive a bit while simultaneously using another hand to insert a bit into the chuck mechanism. While such quick change chucks are easier to manipulate than conventional chucks, it would be desirable to have a quick change chuck which is even easier to manipulate.
Accordingly, a preferred embodiment of the present invention provides a quick change chuck with an LED light which has an independent power switch enabling the user to illuminate the work piece at any time. The chuck also incorporates a novel quick change mechanism which allows the user to quickly and easily change bits such as screw driver type bits. Further understanding of the present invention will be had from the accompanying drawings taken in conjunction with the following specification and claims.
In one preferred embodiment of this invention, a tool chuck has a housing with at least one LED light source incorporated therein, the housing being coaxially located about a quick change driver bit chuck. In another preferred embodiment, the housing has two LED lights which are aimed at the end of an associated driver bit.
Now referring to the Figures, a preferred embodiment of a quick change LED chuck of the present invention is shown and indicated generally by the numeral 10. Generally speaking quick change LED chuck 10 comprises chuck housing 12, light assemblies 14 and 16 and quick change chuck mechanism 18.
Housing 12 is somewhat cylindrical in form having body 20 with flutes 22 for easier manipulation thereof and a round cap 24 which somewhat seals the hollow interior of housing 12 and can be rotated by the user to switch light assemblies 14 and 16 on or off. Light assemblies 14 and 16 fit closely into corresponding apertures 26 and 28 in body 20 of chuck housing 12. As is best shown in
LEDs 30 and 46 are located in apertures 26 and 28 in chuck body 20 and are aimed to point in the direction of the end of a typical screw driver type bit 50. Preferably the focus of the LEDs is at the end point of a bit which has been inserted into the quick change chuck. It has been found that the LEDs are so focused when they are focused inwardly about 5 degrees from the being parallel to the shaft of the bit. Of course, a multitude of bits can be used with the present invention including screw driver bits of various types such as phillips, flat, and the like. Preferably, LEDs 30 and 46 are focused in a binocular manner so that their beams cross at the point of the work piece surface where the drill bit or screw driver bit is to contact.
Quick change chuck 18 has a shaft 52, one end of which is intended for operative attachment to a suitable chuck or the like of a power drill or other suitable tool. The opposite end portion 56 of shaft 52 has a bore 58 for selectively receiving and retaining interchangeable bits 50. First spring 60 is coaxial about the shaft 52 and is positioned to be in compression between spring clip 62 and shoulder 64 of housing 20. First spring 60 functions to urge housing 12 to the left as viewed in
Located inside bore 58 is second spring 66 which is positioned to be in compression between bottom surface 68 of bore 58 and sliding plunger 70. Sliding plunger 70 held in bore 58 carries magnet 72 at its forward end for attracting bits thereagainst. Sliding plunger 70 has laterally extending keys 74 which slidingly fit into corresponding keyways in bore 58 of shaft 52. Sliding plunger 70 is held in bore 58 by ball bearings 76 and 78 which abut against keys 74. Ball bearings 76 and 78 are located in somewhat conically tapered holes 80 and 82 respectively.
In operation, the user inserts the end of a bit 50 into the open end of bore 58 and continues to apply pressure against magnet 72 and hence plunger 70 to move plunger 70 upwardly against second spring 66 until ball bearings 76 and 78 are proximate to indentation 84 in bit 50. The bit will automatically lock in place. To release the bit, the user simply pulls back on housing 12 and the bit will release. The bit will be held by magnet 72 to ensure the bit does not fall to the ground after being released. Thus, the user does not need to pull a collar or other mechanism to set the quick change chuck mechanism 18 to a “ready” or “unloaded” configuration in order to insert a bit therein but can readily insert a bit into quick change chuck 10 using only one hand, which feature will be appreciated by those skilled in the art.
The LED Quick Change Chuck has many desired features which will be useful to end users in low light situations. It does not require the user to carry an additional outside power source and creates a brightly lit work area. These and other advantages of the present invention will be apparent to those skilled in the art.
The present invention is subject to variation and modification and such variations and modifications are intended to be within the broad scope of the present invention which is to be limited only by the appended claims.
Number | Date | Country | |
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61123447 | Apr 2008 | US |