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1. (WO1998049518) TAPE MEASURE WITH MANUAL ENTRY ELECTRONIC MEASUREMENT RECORDING FEATURE
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TAPE MEASURE WITH MANUAL ENTRY ELECTRONIC
MEASUREMENT RECORDING FEATURE
Field of the Invention
The present invention relates generally to flexible tape measures, and more particularly, to a tape measure having means for recording measurements.
Background of the Invention
Carpenters frequently take measurements with a tape measure, recording the measurements with a pencil on scraps of paper, lumber, or any convenient surface. Recorded measurements may be misplaced, covered up, illegible, or left in an inconvenient location. Carpenters may have difficulty recording the measurements. For example, the pencil may break or be lost, or the carpenter may be wearing heavy gloves that make writing difficult.
It is desirable to have a self-contained measurement recording device that is an integral part of the tape measure and does not require a separate recording instrument, such as a pencil. It is also desirable that the recording device be easy to use, preferably with one hand, even when the carpenter is wearing heavy gloves.
Summary of the Invention
The present invention provides a tape measure for measuring distances and including an electronic mechanism for recording the resultant measurements. A tape measure having a conventional spiral-wrapped, flexible, metal measuring tape coiled within a housing includes a display and a keypad on the side of the housing for entering and viewing measurements taken with the tape. After using the extendible tape to measure distance, a user enters the measurements by using the keypad on the side of the tape measure. Numeric values are entered using "up" and "down" keys that increment and decrement the numeric values, which appear on a display. "Save" and "recall" buttons are used to save measurements and recall them. A measurement can consist of multiple fields, each field corresponding to a unit of measurement, such as feet, inches, and sixteenths of an inch. When entering a measurement, a "set" button is used to move between numeric fields. The measurement is viewed on an LCD-type display, and can be in either English units or metric units.
Brief Description of the Drawings
The foregoing aspects and many of the attendant advantages of this invention will become more readily appreciated as the same becomes better understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, wherein:
FIGURES 1 A-B are a perspective view and a side elevation view of a tape measure having an electronic recording device in accordance with the invention;
FIGURE 2 is a block diagram illustrating the input and output components of the invention; and
FIGURE 3 is a perspective view of the tape measure depicted in FIGURE 1 A, showing the reverse side.
Detailed Description of the Preferred Embodiment
FIGURE 1A illustrates a tape measure 10 in accordance with the present invention. The tape measure includes a conventional spiral wrapped, flexible metal measuring tape 14 coiled within a housing 12. A spring-loaded reel (not shown) automatically retracts the flexible measuring tape 14 into the housing 12. A lock 15 mounted on the front of the housing selectively locks the flexible metal measuring tape 14 in an extended position relative to the housing 12.
The flexible measuring tape 14 includes a human readable scale (not shown) along both edges thereof. The human readable scales are in English units and in metric units. Preferably, the English units in the tape indicate feet, inches, and sixteenths of an inch. The housing includes a keypad 20 preferably located on one side of the housing 12. The keypad 20 allows a user to manually enter a measurement obtained by using the measuring tape 14. A display 24 mounted on the housing displays the measurement as it is manually entered on the keypad 20. In the preferred embodiment, the display 24 is a liquid crystal display, but other electronic displays, such as a light emitting diode display, may be suitably used.
The display 24 depicted in FIGURE 1 A illustrates a measurement shown in English units. A measurement comprises a plurality of numeric fields, each field corresponding to a unit of measurement. Preferably, the measurement within the display 24 includes a foot units field 26, and an inch units field 28, and a sixteenths of an inch unit field 30. These three fields show the number of feet, the number of inches, and the number of sixteenths of an inch, respectively, in the corresponding measurement.
As depicted in FIGURE 1 A, the display 24 also includes a index value field 32 that indicates an index value corresponding to a current memory location, and a retrieved measurement field 34 that is used to display measurements retrieved from memory. The use of these fields is described in further detail below.
A user manually records a measurement using the keypad 20. The buttons that comprise the keypad are large, and preferably sized to allow a user to enter data while wearing gloves, such that buttons may still be discretely and individually depressed with accuracy. A "clear/on" button 40 turns on the power to the display. When the clear/on button 40 is depressed, all of the fields that comprise the displayed measurement are set to zeros, and the left-most numeric field blinks to indicate that this field has the "focus." The numeric field that has the focus is the field that is modified when a user presses the "down" button 42 or the "up" button 44. In one actual embodiment, depressing the clear/on button 40 for five seconds causes all of the stored measurements, as well as the displayed measurements, to be set to zeros.
When the down button 42 is depressed, the numeric value in the measurement field having the focus is decremented. When the up button 44 is depressed, the numeric value in the measurement field having the focus is incremented. To reach a desired value in the field having the focus, a user presses the up button and down button until the correct value is obtained. Once the desired value is reached, the "set" button 46 is depressed. This changes the focus to the next numeric field. The down and up buttons are then used in the same manner to obtain the desired value in this numeric field. Once the desired value is obtained in this field, the set button is again depressed, changing the focus to the next numeric field. The up and down buttons are again selectively depressed in the same manner as described above, to obtain the desired value for the current numeric field.
A user recording a measurement uses the up button 44 and down button 42 to set the number of feet in a measurement, and presses the set button 46 when the correct numeric value is reached. The user then presses the up and down buttons until the correct numeric value for the number of inches is obtained, then presses the set button 46 again. The user then presses the up and down buttons to obtain the correct value for the number of sixteenths of an inch, and once again presses the set button.
Once the desired values are obtained in the display for all unit fields, the user presses the save button 48, which stores the settings in one of a plurality of memory locations that are used to store measurements. The user may then follow the same process described above to enter a new measurement and save the new measurement. If desired, the clear/on button 40 may be used to reset the numeric values of the current measurement, as displayed in the fields 26, 28, and 30, to zeros. Alternatively, it may be desirable to begin with the previously saved measurement, and use the up and down buttons to modify this measurement for storage. When the save button 48 is pressed, the focus is set to the left-most numeric field in the measurement.
A predetermined number of memory locations are used to store measurements. Each memory location has a corresponding index value. The "current index value" is displayed in the index value field 32. When the save button 48 is pressed, a measurement is stored in the memory location corresponding to the current index value, and the current index value is incremented. If the save button is pressed again, the new measurement is saved in the new memory location corresponding to the new current index value. When the current index value is equal to the maximum number of memory locations used to store measurements, pressing the save button will cause the index value to be set to one. Saving a new measurement erases the measurement saved in the memory location corresponding to the current index value and stores the new measurement in its place.
The recall button 50 is used to read previously saved measurements. When the recall button 50 is pressed, the current index value, as displayed in the index value field 32, is incremented, and the measurement previously saved in the memory location corresponding to the new index value is retrieved and displayed in the retrieved measurement field 34.
As depicted in FIGURE 1 A, the buttons on the keypad 20 are distinct mechanical buttons. As should be readily apparent to one skilled in this art, and others, different mechanisms and technologies may be used to implement the buttons on the keypad 20. For example, two or more buttons may comprise distinct areas on a single control, such that each distinct area on the control is a button. Pressing a distinct area on such a control causes a signal to be sent to the processor, wherein distinct areas have corresponding distinct signals. Additional mechanisms for creating buttons on a keypad are also well known in the art.
An "inch/centimeter" button 52 toggles the display 24 between English units of measurements and metric units. FIGURE IB illustrates a tape measure 10 in accordance with the present invention, having a display 24 that shows a measurement in metric units. Preferably, when displaying metric units, each digit of the measurement makes up one numeric field. The keypad and display function similarly to that described above pertaining to English units. As depicted in FIGURE IB, the measurement comprises four numeric fields 56, 58, 60, and 62 indicating meters, decimeters, centimeters, and millimeters, respectively.
FIGURE 2 illustrates the components that comprise the electronic storage mechanism of the present invention. The keypad 20 is electronically connected to, and provides input to, a processor 70. The processor 70 has an associated memory 72 that can be contained within the processor. The processor 70 controls the contents of the display 24, as described above. The device also includes logic circuitry and a battery power supply (both not shown).
FIGURE 3 illustrates the tape measure's reverse side 80. A belt clip 82 allows the tape measure to be attached to a user's belt or pocket. As depicted, the belt clip 82 is positioned to allow the use of the keypad 20 and viewing of the display 24 while the tape measure 10 is clipped to a user's belt.
While the preferred embodiment of the invention has been illustrated and described, it will be appreciated that various changes can be made therein without departing from the spirit and scope of the invention.