Patent Application
20100074700
The invention relates to electric drills with a quasi-circumferential workpiece lighting structure for lighting visible portions of the work area.
Not applicable.
Not applicable.
Electrically powered drills remain one of the mainstays of every tool box, whether it be that of the homeowner or construction professional. Even going back to the 1950s, electrical drills were in very common use in the home, with companies like Sears Roebuck & Co. and others turning out high quality products at modest prices in what was then a very old technology.
Indeed, the most modern form of the electric drill, that is a pistol shaped device with a multi-fingered chuck that could be tightened using a conical gear key, followed closely the development of these chucks by the Jacobs Manufacturing Company in or about 1902. Except for the introduction of a switch to reverse drive direction and the introduction of rechargeable batteries in recent years, the technology remains essentially static.
While they have been available on the market for many years, about 20 years ago, electric powered drills and other tools came into prominence. Because the structural aspects of these tools which performed directly the work for which they are intended differed from earlier tools only by the substitution of battery power, designs largely emulated conventional tools powered by house current.
While the completion of battery power is a primary issue in battery powered drills, workpiece illumination lights have been employed in battery powered drills. In the case of tools, such as soldering irons, lights are also employed. Because these devices are always attached to house current, the lighting mechanism can consume relatively high power and deliver large amounts of light. Because of the nature of light sources, this light tends to be somewhat randomly spread about and results in somewhat effective illumination of the workpiece. Generally, such lights are positioned at a point around the circumference of the chuck aligned with the handle of the drill.
Prior art electric drills, such as the electric drill illustrated in U.S. Pat. No. RE 38,729 also use light sources. In the case of U.S. Pat. No. RE 38,729, two light sources are located on the sides of the drill, in other words, at ninety degrees to the handle of the drill.
In accordance with the invention, it has been recognized that drills often lose their charge for reasons unrelated to the amount of work being done. For example, it has been recognized that in many circumstances, drills are operated to perform a task but are positioned improperly, requiring that the work be repeated. Worst than that, sometimes a new workpiece needs to be obtained and this involves waste of workpieces and the materials from which they are made with consequent loss of any labor which has been expended to make the same. Added to this is associated environmental damage.
In an effort to address these problems, prior art electrical drills may be provided with a light. Generally, this has involved the use of a light emitting diode which may extend from the body of the electrical drill. Alternatively, the prior art shows the use of a light emitting diode which is recessed inside the drill. Typically, the light emitting diode is aimed at the place where the drilling or other operation, such as tightening or unscrewing of a screw, is done.
In accordance with the invention, high efficiency in lighting is provided by illuminating principally those areas of the workpiece which are likely to be visible to the user of the tool and/or likely to need illumination.
Importantly, as has been recognized in accordance with the invention, the positioning of lights aligned with the bottom of the drill and its handle suffers from the inefficiency of not illuminating that portion of the workpiece adjacent the top of the drill, i.e. that portion of the workpiece opposite the handle. Since the most visible part of the workpiece is that portion of the workpiece adjacent the left side of the drill in the case of a right-handed user and adjacent the right side of the drill in the case of a left-handed user, and the second most visible part is that portion of the workpiece opposite the handle, maximum efficiency of illumination and provision of the tool which will work well for both right-handed and left-handed users is served by the provision of lighting on opposite sides of the drill and adjacent the top of the drill.
This approach will also accommodate both right-handed and left-handed use of the inventive drill by a single individual, something which particular jobs may require.
Still further efficiency can be provided by the provision of switches associated with each of the lights, so that illumination may be tailored to a particular user's style or a particular job's requirements.
In accordance with the invention, a drill comprises a drill housing with a handle portion and a driver portion. An electrical drill motor is located in the driver portion. The drill motor has an output shaft for coupling output rotary power. An electrical switch controls the operation of the drill motor. The electrical switch is located on the handle portion of the drill housing. A chuck is coupled to the output shaft of the drill motor.
A light is positioned to principally illuminate those areas of the workpiece which are likely to be visible to the user of the tool.
The inventive drill also comprises charge state measuring circuitry having a plurality of output terminals. Actuation of the output terminals or a combination of output terminals each corresponds to a particular state of charge. A red indicator light is coupled to one of the output terminals. One of the output terminals indicates a relatively poor state of charge. A green indicator light is coupled to an other one of the output terminals. The other one of the output terminals indicates a relatively good state of charge. A charge test switch actuates the charge state measuring circuitry.
The charge state measuring circuitry further comprises an output terminal for driving a yellow light. The charge state measuring circuitry actuates the yellow light to indicate a condition which is neither good nor poor. It also actuates the green light and the yellow light simultaneously to indicate a battery charge condition that is better than that indicated by the yellow light but not as good as that indicated by the green light. The measuring circuitry also actuates the red light and the yellow light simultaneously to indicate a battery charge condition that is worse than that indicated by the yellow light but not as bad as that indicated by the red light. The indicator lights may be located on the left side of the handle portion of the drill housing.
In accordance with the invention, a green directional indicator and a red directional indicator are included to indicate movement of the drill chuck, with the green indicator indicating movement in a clockwise direction and the red indicator indicating movement in a counterclockwise direction.
The indicator lights may be located on the top of the driver portion of the drill housing. The red and green indicator lights and the charge test switch may be located adjacent the left side of the drill in the case of a drill primarily intended for a right-handed user.
A first workpiece illuminating light may be provided on the left-hand side of the drill, and a second workpiece illuminating light may be positioned on the top of driver portion of the drill. A light may be positioned to principally illuminate those areas of the workpiece which are likely to be visible to the user of the tool and may comprise a plurality of light sources positioned circumferentially about a forward end of the driver portion. A workpiece illumination light may be positioned on the top of driver portion of the drill to illuminate more visible portions of the workpiece. Another workpiece illumination light may be positioned adjacent the bottom of driver portion of the drill housing to illuminate remaining more visible portions of the workpiece not likely to be covered by the hand of the user and the handle portion of the drill housing.
The operation of the invention will become apparent from the following description taken in conjunction with the drawings, in which:
As illustrated in
Drill 10 includes a handle portion 12 and a driver portion 14. Driver portion 14 comprises a neck 16. A chuck 18, of conventional design, is mounted on a spindle 20. In accordance with the preferred embodiment, it is contemplated that chuck 18 may be any conventional hex socket chuck, as a wide variety of tool bits having mountings suitable for such chucks are readily available on the market.
Alternatively, a multi-fingered chuck, for example one of the type using a serrated sleeve may be employed. Alternatively, a multi-fingered chuck employing a conical gear pin key (such as that sold by Jacobs Manufacturing) may also be advantageously employed in accordance with the present invention. Spindle 20 is coupled to a motor, not illustrated, but of conventional design, housed within driver portion 14. In accordance with the invention, drill 10 is capable of both forward and reverse movement. The same is achieved using conventional circuitry.
Driving direction is selected by an on/off switch 22. Switch 22 includes a lever operator 24 mounted for rotation about a pivot bar 26, illustrated in hidden lines in
Upon the application of pressure to the upper portion 28 of lever operator 24, in the direction of arrow 30, spindle 20 is caused rotate in the clockwise direction, thus causing drill bit 32 to rotate clockwise and drill into a workpiece, for example creating a hole or driving a screw into a workpiece. It is noted that a drill bit 32 is shown for purposes of illustration, but that drill 10 may be used to rotate a wide variety of tools, such as bits with conventional slot and Philips screwdriver tips of all types and sizes, hex wrench bits and specialized tools such as star drivers and four sided drivers.
Upon the application of pressure to the lower portion 34 of lever operator 24, in the direction of arrow 36, spindle 20 is caused rotate in the counter-clockwise direction, thus causing drill 32 to rotate counter-clockwise and withdrawn from the workpiece, leaving behind the hole. In accordance with a preferred embodiment of the invention, a three position switch 38 with a slider selection member 40 changes the state of inventive drill 10 from a first position illustrated in dashed lines, where it is operable and lights illuminate the workpiece, to, when slider member 40 is in the position illustrated at 40a, an “on” position where the drill will operate but no illumination is provided, when slider member 40 is illustrated in solid lines.
Slider member 40 may also be put in the locked position shown in dashed lines as indicated by reference numeral 40b, in which position neither tool operation nor illumination is provided. Such locking and turning on of lights using a slider switch is conventional and three position switch 38 may be of any conventional design.
Light 44 is oriented in a direction which causes it to illuminate the workpiece as illustrated in
The inventive drill 10 further comprises a battery testing switch 54. Adjacent battery testing switch 54 is a red light 56 which is positioned beside a yellow light 58, which in turn, is positioned beside a green light 60. Lights 56-60 are connected to a battery testing circuit, with actuation of a red light indicating a very weak battery, and a weak battery indicated by simultaneous lighting of red light 56 and yellow light 58. Actuation of only yellow light 58 indicates a weakening battery. Actuation of yellow light 58 and green light 60 indicates a relatively strong battery condition. Finally, actuation of green light 60 indicates a battery which is substantially fully charged. These various actuation combinations may be obtained from a conventional voltage measuring circuit and a suitable gating arrangement driving the lights as are within the design capability of one of ordinary skill in the art.
The presence of state of charge indication circuitry is as indicated by an indicia 61 of conventional configuration. The position of switch 54 is particularly advantageous, being on the left side of the drill handle 12 because a right handed user is relatively unlikely to accidentally actuate switch 54. The result is a very accessible state of charge indicator. On the other hand, because the indicator lights 56-60 are also visible when the drill is held in the right hand, access is particularly easy. Likewise, switch 54 is easily accessible to the left hand when the drill is held in the normal position by the right-hand, which also promotes ease-of-use.
In accordance with a preferred embodiment of the invention, lights, for example light emitting diodes, are provided to illuminate the workpiece. Generally, that portion of the workpiece, which lies adjacent to the handle, is not easily visible or commonly visible to the user. Accordingly, the provision of lights in such a position, for example as illustrated by light 62 in
Likewise, light 66 positioned on the top of driver portion 14 of drill 10 illuminates relatively visible portions of the workpiece. Finally, light 68 illuminates the remaining portion of the workpiece not likely to be covered by the hand of the user and handle portion 12 of drill 10.
An alternative embodiment of the inventive drill 110 is illustrated in
In accordance with the invention, as illustrated in
As an alternative to the state of charge indicator illustrated in the embodiment of
Referring to
Lights 356-360 are connected to a battery testing circuit, with actuation of a red light indicating a very weak battery. A weak battery is indicated by simultaneous lighting of the red light 356 and yellow light 358. Actuation of only yellow light 358 indicates a weakening battery. Actuation of yellow light 358 and green light 360, simultaneously, indicates a relatively strong battery condition. Finally, actuation of green light 360 indicates a battery which is substantially fully charged. These various actuation combinations may be obtained from a conventional voltage measuring circuit and a suitable gating arrangement driving the lights. The presence of state of charge indication circuitry is indicated by an indicia 361 of conventional configuration.
The position of switch 354 is particularly advantageous, being on the top of the drill driver portion 314 because it is not likely to be accidentally actuated. The result is a very accessible state of charge indicator. On the other hand, because the indicator lights 356-360 are also visible when the drill is held in either hand, access is particularly easy. This promotes ease-of-use.
Indicator 370 also includes green indicator lights 372 which is actuated when the inventive drill 310 is turned on in the forward or clockwise direction. Similarly, red lights 374 is actuated when drill 310 is turned on in the reverse or counterclockwise direction.
In accordance with a preferred embodiment of the invention, indicator lights 372 and 356 are different colors, in order to avoid potential misinterpretation of the signal associated with light actuation. Likewise, indicator lights 374 and 360 are different colors, also in order to avoid potential misinterpretation of the signal associated with light actuation.
