KR20060022980A - Mobile phone with function of length measurement - Google Patents

Abstract

The present invention relates to a portable terminal, and more particularly to a portable terminal having a length measurement function.

In the present invention, the portable terminal is attached to the antenna of the portable terminal to perform the calculation for the actual length of the measurement path by using the pulse measuring signal from the length measuring means and the length measuring means for generating a pulse signal corresponding to the length of the measuring path. And a display means for displaying the calculation result from the calculation means on the liquid crystal of the portable terminal.

Portable terminals, infrared diodes, phototransistors, length measurement

Description

MOBILE PHONE WITH FUNCTION OF LENGTH MEASUREMENT}

1 is a view showing a portable terminal having a length measurement function proposed in the present invention.

FIG. 2 is a cross-sectional view of a length measuring device positioned at an edge of the portable terminal antenna of FIG. 1.

3 is a side view of the length measuring apparatus of FIG. 2.

4 is a circuit diagram of the length measuring apparatus shown in FIGS. 2 and 3 and a diagram illustrating a connection relationship between an operation unit and a display unit.

5 is a flowchart showing a length measuring method using a portable terminal having a length measuring means in the present invention.

The present invention relates to a mobile phone, and more particularly to a mobile terminal having a length measurement function.

As a general length measuring means, a straight bar ruler is used, and when measuring the length of a curved or curved surface that is difficult to measure with a straight bar ruler, the length is measured by an object bent along the curved surface. And, if you want to measure the length over a certain distance to measure the length using a tape measure made of a bending material. Not only can the tape measure be long enough to measure long distances, but it is also easy to carry.

On the other hand, there are several length units for expressing length, and the most commonly used standard length unit is meter. In addition to metric units, there are inches, fits, yards, miles, chucks, and the like. Therefore, in order to indicate the length in a specific unit, it is troublesome to calculate it by using a ruler expressed in the corresponding length unit or by using a relationship between each length unit. In addition, it is difficult to accurately measure the path of the curve in order to obtain the length on the map, and the trouble of having to perform a separate calculation process using the accumulation of the map in order to convert the measured length into the actual distance. Follow. However, most of all, to measure the length should always carry a tape measure, even if there is a tape measure that is easy to carry, it is rarely common people carry it all the time.

On the other hand, with the rapid spread of portable terminals in the modern society, almost all of them have portable terminals, and the competition in the portable terminal market is getting fierce, so that each portable terminal manufacturer is trying to differentiate themselves from other terminals. There is a trend to include additional functions in addition to inherent communication functions.

An object of the present invention is to provide a portable terminal having a length measuring function and a length measuring method using the same.

According to an embodiment of the present invention, a portable terminal may be attached to an antenna of a portable terminal to generate a pulse signal corresponding to a length of a measurement path, and a pulse signal from the length measurement means may be used for the actual length of the measurement path. Computing means for performing the calculation and display means for displaying the calculation result from the computing means on the liquid crystal of the portable terminal.

In the present invention, the step of selecting the length measurement function in the portable terminal using the portable terminal having the length measuring means as described above, the step of moving the length measuring means of the portable terminal along the path to be measured, and the portable terminal Counting the number of pulse signals inputted from the length measuring means of the apparatus and performing an operation on the actual length using the counted number of pulse signals, and displaying the same on the liquid crystal of the portable terminal. Suggest.

Hereinafter, the present invention will be described in more detail with reference to the drawings showing examples.

(Example)

1 is a view showing a portable terminal having a length measurement function proposed in the present invention. Referring to FIG. 1, the portable terminal 100 of the present invention includes a length measuring device 130 positioned at an edge of the antenna 110. The length measuring device 130 is configured inside the antenna 110, and only the wheel 132 moving along the measuring path protrudes outward. The length measurement switch 140 attached to the side of the portable terminal 100 is used to start / end the distance measurement or reset the previous measurement data. In addition, the measured length information is calculated by an arithmetic unit provided in the portable terminal 100 and displayed on the external liquid crystal 120 of the portable terminal 100 in various length units.

FIG. 2 is a cross-sectional view of a length measuring device positioned at an edge of the portable terminal antenna of FIG. 1. As shown in FIG. 2, the length measuring device 130 forms a groove in the edge of the antenna 110 and positions the wheel 132 in the groove by using the fixing bar 133. Then, both sides of the groove are provided with rotation amount detectors 134 and 135 capable of detecting the amount of rotation of the wheel 132. The rotation amount detectors 134 and 135 receive power through the power lines 136 and 136-1, and detect the amount of rotation of the wheel 132 when the wheel 132 rotates in close contact with the measurement path. . Then, the detected amount of rotation of the wheel 132 is transmitted to the computing device inside the portable terminal 100 through the signal line 137 to perform a calculation on the actual measured path length. The computing device may be equipped with a separate calculator inside the portable terminal, or may use the internal processor core provided in the portable terminal as it is. Meanwhile, although the rotation amount detector may be implemented in various ways, the present invention implements the rotation amount detector using an infrared ray light emitting diode and a photo transistor. That is, in FIG. 2, an infrared diode 134 is provided on one side of the groove and a photo transistor 135 is provided on the other side of the groove, and holes 138 are provided at regular intervals to allow light to pass through the side of the wheel 132. ).

3 is a side view of the length measuring apparatus of FIG. 2. As mentioned above, the side of the wheel 132 is formed with holes 138 at regular intervals through which light can pass. In addition, an infrared diode 134 and a photo transistor 135 are provided at both sides of the hole 138 of the wheel 132. The infrared diode 134 emits infrared rays by the operation of the length measuring switch 140, and the emitted infrared rays pass through the hole 138 formed in the wheel 132 and are detected by the photo transistor 135. On the other hand, the emitted infrared light is a photo transistor only when the hole 138 formed on the side of the wheel 132 passes between the infrared diode 134 and the photo transistor 135 when the wheel 132 rotates along the measurement path. Is detected by 135. That is, the photo transistor 135 generates one pulse signal only when an infrared signal is detected according to the rotation of the wheel 132.

4 is a diagram illustrating a circuit diagram of the above-described length measuring device and a connection relationship between the calculation unit and the display unit. Referring to FIG. 4, the operation of the length measuring apparatus of the present invention will be described in more detail. First, infrared rays emitted from the infrared diodes D1 and 134 are detected by the photo transistors Q1 and 135, which are photo transistors 135. Is converted into an electrical signal. The converted electrical signal is amplified by the transistor Q2 at the final stage and input to the operation unit 410. At this time, the electrical signal converted by the photo transistor Q1 has the form of a pulse signal. This is because, as mentioned above, the infrared signal passing through the hole 138 is discontinuous due to the rotation of the wheel 132 located between the infrared diode D1 and the photo transistor Q1. Accordingly, in the photo transistor Q1, one pulse signal is generated each time the infrared signal is detected and input to the transistor Q2 of the final stage. The transistor Q2 of the final stage amplifies the input pulse signal and inputs it to the operation unit 410.

The calculation unit 410 calculates the actual distance of the measurement path rotated by the actual wheel 132 by performing a predetermined operation using the number of input pulse signals. That is, the calculation unit 410 may calculate the actual distance through the operation as shown in Equation 1 below.

Actual distance = (wheel circumference ÷ total odd) × number of pulses measured

In Equation 1 above, (wheel circumference ÷ total odd number) corresponds to an actual distance per unit pulse, which may be calculated in advance and stored in the operation unit 410. Accordingly, the calculation unit 410 can easily calculate the actual distance if only the number of pulses input from the length measuring device is known. In addition, the operation unit 410 may convert the length information measured in units of length desired by the user. That is, the calculation unit 410 stores the correlation for each length unit and selects the desired length unit, and converts the measured length information into the desired length unit.

The actual distance calculated by the above operation is displayed on the display unit 420 so that the user can visually check the actually measured distance. The display unit 420 may use either the external liquid crystal 120 or the internal liquid crystal of the portable terminal 100.

5 is a flowchart illustrating a length measuring method using a portable terminal having the above-described length measuring device. Referring to FIG. 5, first, a length measurement mode is selected in a portable terminal (step S502). Although the length measurement mode may be selected through a menu selection of the portable terminal, the length measurement mode may be selected by operating a length measurement switch separately provided externally, such as the portable terminal of the present invention shown in FIG. 1.

If the length measurement mode is selected in step S502, the wheel of the portable terminal is moved in close contact with the measurement path to be measured, and at this time, the number of pulse signals generated by the length measurement circuit as shown in FIG. 4 is measured (step S504). . The actual length is displayed on the display unit through calculation using the number of measured pulse signals (step S510). If a reset signal is input while measuring the number of pulse signals (step S506), the previously measured results are initialized, and only the number of newly input pulse signals is then measured. In addition, if a magnification is input from the user before displaying the calculated result on the display unit (step S508), the magnification operation is performed (step S512) to display the final result on the display unit (step S510). This magnification function can be useful when measuring the distance on the map and converting it to the actual distance. Of course, in step S512, not only the magnification operation but also the conversion operation to the desired length unit may be performed.

In the above, the portable terminal of the present invention having a length measuring function has been described in detail with reference to the drawings, but this is merely exemplary and various applications and modifications can be made without departing from the spirit of the present invention.

The portable terminal of the present invention provides a length measuring means that is always portable. In addition, the portable terminal of the present invention can easily measure not only a straight line but also the length of a curve or curved surface. In addition, the measured length may be converted into various length units and displayed, and the magnification operation to the actual length may be easily performed with respect to the measured distance on the map.

Claims (10)

In a portable terminal, Length measuring means attached to the antenna of the portable terminal to generate a pulse signal corresponding to the length of the measurement path; Calculating means for calculating a length of the measurement path in response to the pulse signal; And display means for displaying the result of the calculation from said computing means on the liquid crystal of said portable terminal. The method of claim 1, The length measuring means may be located at an edge groove of the antenna to rotate along the measuring path; And a detector for detecting the amount of rotation of the wheel to generate the pulse signal. The method of claim 2, The wheel is a portable terminal, characterized in that it comprises holes arranged at a predetermined interval on the side. The method of claim 3, wherein The detector is fixed to one side of the groove bordering the wheel, the infrared diode emitting an infrared signal; And And a photo transistor fixed to the other side of the groove bordering the wheel and generating the pulse signal when the infrared signal is detected through the hole. The method of claim 4, wherein And said calculating means counts the number of said pulse signals and performs an actual length operation by calculating using the counted number of pulse signals. The method of claim 1, The calculating means is a portable terminal, characterized in that for performing a calculation for converting the measured length in various length units according to the user's setting. The method of claim 1, The external side of the portable terminal further comprises a switch connected to the length measuring means and the calculating means, and for generating a reset signal for resetting the start / end signal of the length measurement and the previous measurement data. In the length measuring method using a portable terminal having a length measuring means, Selecting a length measurement function in the portable terminal; Moving the length measuring means of the portable terminal along a path to be measured; Counting the number of pulse signals inputted from the length measuring means of the portable terminal; Performing an operation on an actual length using the counted number of pulse signals and displaying the same on a liquid crystal of the portable terminal, And the pulse signal is generated by the length measuring means corresponding to the length of the measuring path. The method of claim 8, And a magnification calculation step using the input magnification when a magnification is input by a user during an operation operation using the counted number of pulse signals. The method of claim 8, If the reset signal is input from the outside in the counting step of counting the number of the pulse signal, the length measurement method using a portable terminal, characterized in that to restart the count of the pulse signal.

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