KR101396025B1 - Apparatuf and method for controlling portable lamp using inclination sensing - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable lamp for leisure which is attached to a user's head through a hat or a band during fishing, climbing, and the like. More particularly, To a portable lamp using tilt detection that can be automatically controlled.
A portable lamp using tilt detection according to the present invention includes a power supply unit; A light emitting unit connected to the power supply unit; A sensor unit for detecting a tilting of a portable lamp attached to a head of a user and outputting a detection signal thereof; And a control block for controlling on / off of the light emitting unit according to a sensing signal of the sensor unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable lamp using tilt detection,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a portable lamp which is attached to a head or a pocket of a user through a hat or a band during fishing or climbing, and more particularly to a portable lamp which is attached to a user's head or pocket, To a portable lamp using tilt detection capable of automatically controlling the lighting of the lamp.

Generally, nighttime walking, night work, night fishing, nighttime climbing, etc. may be performed. If the user carries a lamp or a light by hand, it is not possible to use the hand holding the lamp or the light. There were many inconveniences to do.

Therefore, a portable lamp for freeing both hands of a user is widely used, and such a portable lamp can be detachably worn to a user's head or a pocket through a cap or a band of a cap to ensure its activity.

However, the conventional portable lamp has a disadvantage in that it is very troublesome to operate the power switch at night when the user operates the power switch directly to turn on or off the lamp.

In particular, in the case of night fishing, when the user tilts the head of the user to the front side and inserts the bait into the needle or performs other preparation work, the portable lamp is turned on for the convenience of operation. The lamp should be turned off. This is because if the light of the portable lamp is reflected on the water, the fish will be alerted to the fish, and it will interfere with the fishing. Accordingly, the inconvenience was very large as the power switch of the portable lamp was operated several tens to hundreds of times during the night fishing, and when the power switch was touched with the hand touching the bait, the portable lamp easily became dirty There were disadvantages.

KR 20-0396903 Y1 (2005.09.28)

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a portable lamp which can detect a tilt of a portable lamp without tilting a user's head without operating a power switch directly by a user's hand at nighttime activities such as night fishing, And a portable lamp using tilt detection capable of automatically controlling lighting.

It is another object of the present invention to provide a portable lamp using tilt detection that can automatically adjust brightness of light or change various modes through detection of tilt of a portable lamp.

According to an aspect of the present invention, there is provided a portable lamp using tilt detection, which is automatically controlled through tilt detection, comprising: a power supply; A light emitting portion connected to the power supply portion; A sensor unit for detecting a tilting of the portable lamp and outputting the detection signal; And a control block for controlling on / off of the light emitting unit according to a sensing signal of the sensor unit.

The sensor unit is a triaxial sensor that senses the movement of the three axes intersecting with each other in the space, that is, the tilt with respect to the X, Y, and Z axes.

The control block is connected to a voltage sensing unit, and the control block generates a PWM signal. The voltage sensing unit measures the voltage of the power supply unit to adjust the duty cycle of the PWM signal generated in the control block, Is controlled.

The control block includes a CPU for performing various control operations, a PWM signal generating unit for generating a PWM signal according to a control signal of the CPU, and an ADC for analog-to-digital converting the voltage sensed by the voltage sensing unit do.

A mode switch for locking and unlocking a mode implemented in a portable lamp is connected to the CPU, and the mode switch is a tact switch.

According to another aspect of the present invention, there is provided a control method of a portable lamp using a tilt sensing method, comprising: a tilt sensing step of sensing a tilt of a portable lamp with respect to an X axis by a sensor unit; And a step of automatically turning on and off the light emitting unit for automatically controlling the light emitting unit to turn on and off through the tilt sensing step.

When the sensor unit senses a slope based on the X axis of the portable lamp and outputs the sensed signal to the control block, the control block calculates an inclination angle of the slope based on the X axis corresponding to the sensed signal The tilt angle of the tilt with respect to the X axis is compared with the set angle, and when the tilt angle of the tilt with respect to the X axis exceeds the set angle, the light emitting portion is automatically turned on or off.

A tilt sensing step of sensing a tilt of the portable lamp with respect to the Y axis by the sensor unit, a 'mode switching' and a 'brightness control of the light emitting unit' And performing a mode switching and a brightness adjusting step for selectively performing a brightness control operation.

The control block includes an 'automatic mode' for automatically turning on and off the light emitting portion corresponding to the 'inclination based on the X axis' of the portable lamp, and a 'normal mode' for keeping the lighting state of the light emitting portion always on. Lt; RTI ID = 0.0 >

When the sensor unit senses the 'slope based on the Y axis' of the portable lamp and outputs the slope to the control block, the control block calculates the time of the slope based on the Y axis and then calculates the slope of the slope based on the Y axis Mode switching between the 'automatic mode' and the 'always-on mode' and the 'brightness control of the light-emitting portion' according to the case in which the time of the slope based on the Y- Is selectively performed.

According to the present invention, the lighting and the lighting of the light emitting portion can be automatically controlled as the portable lamp is inclined around the X-axis (tilted in the front-rear direction), thereby improving the usability thereof.

Further, since the present invention can easily control the 'mode switching' or the 'brightness control of the light emitting portion' according to the inclination of the user's head and the portable lamp around the Y-axis (tilts in the left and right direction) .

1A is an exemplary view showing a state in which a portable lamp is attached to a user's head via a hat.
1B is an exemplary view showing a state in which a portable lamp is attached to a user's head via a band.
2 is a schematic diagram showing a portable lamp using tilt detection according to the present invention.
3 is a block diagram illustrating a portable lamp using tilt detection according to an exemplary embodiment of the present invention.
Fig. 4 is a view showing a modified embodiment of Fig. 3. Fig.
FIG. 5 is a perspective view showing the inclination of the portable lamp attached to the head of the user through the cap, in the three axial direction. FIG.
FIG. 6 is a view illustrating an inclination of the portable lamp attached to the head of the user in the longitudinal direction.
FIG. 7 is a view illustrating a lateral tilting of a portable lamp attached to a user's head. FIG.
FIG. 8 is a schematic flowchart showing a lighting control method of a portable lamp using tilt detection according to the present invention.
FIG. 9 is a flowchart illustrating the operation of turning on and off the light emitting portion according to the forward and backward inclination of the portable lamp in the lighting control method of the portable lamp using the tilt detection according to the present invention.
FIG. 10 is a flowchart showing a control operation for 'mode switching' and 'brightness control of a light emitting portion' according to the tilt of the portable lamp in the left and right direction in the lighting control method of the portable lamp using the tilt detection according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For the sake of convenience, the size, line thickness, and the like of the components shown in the drawings referenced in the description of the present invention may be exaggerated somewhat. The terms used in the description of the present invention are defined in consideration of the functions of the present invention, and thus may be changed depending on the user, the intention of the operator, customs, and the like. Therefore, the definition of this term should be based on the contents of this specification as a whole.

The portable lamp 10 to which the present invention is applied is mounted on the tongue portion of the cap 2 as shown in Fig. 1A and when the user wears the cap 2, the portable lamp 10 is attached to the head portion of the user So that the user's hands are free so that the user's activity is guaranteed at night fishing, night climbing, and other night work. On the other hand, the portable lamp 10 may be set to be inclined at an angle of 45 degrees downward from the front to illuminate the user's foot portion.

The portable lamp 10 to which the present invention is applied is mounted on one side of the band 3 as shown in Fig. 1B, and when the user wears the band 3, So that both hands of the user are freed.

In addition, the portable lamp 10 to which the present invention is applied can be mounted on a pocket or the like in the user's image through a clip, a magnet, or the like, thereby freeing both hands of the user.

Thus, in a state where the portable lamp 10 is attached to the user's head or a pocket or the like through the cap 2, the band 3, the clip or the like, the present invention can be applied to a portable lamp 10 of the portable lamp 10 is detected and the lighting of the portable lamp 10 can be automatically controlled in response to the tilting of the portable lamp 10. [

Hereinafter, it will be described that the portable lamp 10 is controlled through the inclination detection in a state where the portable lamp 10 is attached to the head of the user through the cap 2 or the like as illustrated in Figs. In addition, it should be understood that the same principle can be applied to that the portable lamp 10 is controlled through its inclination detection in the state where it is attached to the user's head or a user's pocket, etc. through the band 3 or a clip or the like. It will be true.

2, the portable lamp 10 using tilt sensing according to the present invention includes a light emitting unit 20 having at least one light emitting unit, a sensor 20 for sensing the tilt of the portable lamp 10 and outputting the detection signal, A control block 40 for controlling the lighting of the light emitting unit 20 in response to a sensing signal of the sensor unit 30 and a power supply unit 50 for supplying power to the light emitting unit 20 .

2, the light emitting unit 20, the sensor unit 30, the control block 40, the power supply unit 50, and the like can be installed in the case of the portable lamp 10, The components may be provided outside the case of the portable lamp 10.

The light emitting unit 20 may include a plurality of light emitting units such as an LED, a light bulb, and the like.

5 and 6), the sensor unit 30 is tilted with respect to the Y-axis (tilting in the left-right direction, see Figs. 5 and 6), the portable lamp 10 is tilted with respect to the X- 7, and 7), and other motions. The sensor unit 30 may include various sensors such as a tilt switch, an acceleration sensor, and a gyro sensor. Axis, that is, a triaxial sensor that detects the tilt with respect to the X, Y, and Z axes. 5 to 7 illustrate that the X axis, the Y axis, and the Z axis are located on the user's head side, the positions of the X axis, the Y axis, and the Z axis may be variously changed according to the setting of the sensor unit 30. [ Which is a fact which is obvious to a person skilled in the art.

Such three-axis sensors may be various kinds of three-axis sensors such as an acceleration sensor for measuring the gravity generated when the user's head moves, a gyro sensor for measuring the variation with respect to three axes, etc. . Accordingly, the sensor unit 30 accurately senses the inclination of the portable lamp 10 with respect to the X-axis and the Y-axis, and particularly the inclination of the portable lamp 10 with respect to the X-axis (inclination in the forward and backward directions, (See Fig. 6 and Fig. 6), tilting with respect to the Y axis (tilting in the left and right direction, see Figs. 5 and 7), and the like, and output the detection signal to the control block 40 .

The control block 40 is configured to automatically control the lighting of the light emitting unit 20 in response to the sensing signal of the sensor unit 30. [

6, when the portable lamp 10 is tilted with respect to the X-axis (i.e., tilted back and forth) by the sensor portion 30, When the portable lamp 10 is tilted forward (that is, when the user's head is forced toward the front side in Figs. 5 and 6), the light emitting portion 20 is controlled to be automatically turned on, and when the portable lamp 10 is tilted forward, (That is, the portable lamp 10 attached to the user's head in Figs. 5 and 6 is in a front view state), the light emitting portion 20 is automatically turned off.

In this way, the sensor unit 30 and the control block 40 detect the inclination of the user's head in the fore and aft direction and automatically operate the lighting unit 20 to turn on and off, which is particularly useful for night fishing . For example, in the case of putting a bait on a needle or other treatments during night fishing, if the user's head is leaned (i.e., the user's head is tilted forward), the sensor unit 30 senses the bait, To the block 40, and the control block 40 controls the light emitting unit 20 to be automatically turned on. When the user's head is restored to its original position after the lure or other preparation of the dough is finished (that is, when the user's head is tilted backward in a state of leaning forward), the sensor unit 30 senses this and controls the detection signal To the block 40, and the control block 40 controls the light emitting unit 20 to be automatically idled. When the sensor unit 30 detects that the sensor unit 30 is tilted with respect to the X axis of the portable lamp 10 (the user's head is inclined in the front and rear direction) and transmits the detection signal to the control block 40 side, The control unit 40 automatically controls the lighting unit 20 to turn on and off according to the sensing signal of the sensor unit 30 so that the user can automatically turn on and off the portable lamp 10 without having to directly operate the power switch Can be operated.

On the other hand, the control block 40 controls the 'on-mode' mode in which the lighting state of the light-emitting unit 20 is kept in the on state at all times, Can be implemented as an 'automatic mode' that is automatically operated.

The sensor unit 30 can detect that the portable lamp 10 is inclined with respect to the Y axis (that is, the user's head is inclined in the left and right direction), and the portable lamp 10 When the sensor unit 30 measures the inclination (i.e., the user's head is inclined in the left-right direction) with respect to the Y-axis of the control block 40 and transmits the detection signal to the control block 40 side, Mode switching between an 'always-on mode' and an 'automatic mode' and 'brightness control of the light-emitting unit 20'.

For example, in order to perform 'mode switching', when the user's head is tilted in a short left to right direction, the mode may be switched from the 'automatic mode' to the 'always on mode' or may be switched from the 'always on mode' to the 'automatic mode'. In addition, in order to adjust the brightness of the light emitting unit 20, the brightness of the light emitting unit 20 may be gradually increased when the user's head is tilted to the right direction. On the contrary, when the user's head is tilted to the left The brightness of the light emitting portion 20 may gradually become dark.

3 is a block diagram illustrating a portable lamp using tilt detection according to an embodiment of the present invention.

3, a power switch 70 may be provided between the power supply unit 50 and the light emitting unit 20, and the light emitting unit 20 may be connected to the power supply unit 70 through the on / And the above-described 'automatic mode' can be performed in a state in which the power switch 70 is always on.

A voltage sensing unit 60 is provided between the power supply unit 50 and the light emitting unit 20 to sense the voltage of the power supply unit 50. The voltage sensing unit 60 is connected to the control block 40 And transmits the voltage state of the power supply unit 50 sensed in real time by the voltage sensing unit 60 to the control block 40 side. Particularly, according to the present invention, for convenience of carrying, the power supply unit 50 of the portable lamp 10 is constituted by a battery that supplies DC power, and the voltage of the battery decreases as time elapses. 60 in real time and transmit the sensed voltage state to the control block 40 side. The control block 40 includes a CPU 41 for performing various control operations, a PWM signal generating section 42 for generating a PWM signal in accordance with a control signal of the CPU 41, And an ADC 43 for analog-to-digital conversion of the applied voltage. The sensor unit 20 is connected to the CPU 41 and the CPU 41 implements control operations such as the above-described 'automatic mode' or 'always-on mode' according to the detection signal of the sensor unit 20, The CPU 41 receives the voltage state sensed by the voltage sensing unit 60 from the ADC 43 and senses that the voltage of the power supply unit 50 is lowered to output the PWM signal generated by the PWM signal generating unit 42 A constant current is always supplied to the light emitting portion 20 side by increasing the duty cycle so that the brightness of the light emitting portion 20 can be always kept constant even if the battery voltage of the power supply portion 50 is reduced.

FIG. 4 is an alternative embodiment of FIG. 3, in which a current sensing unit 63 is used in place of the voltage sensing unit 60 to sense the current flowing through the light emitting unit 20 in real time.

4, a current sensing unit 63 is provided on the rear side of the light emitting unit 20 to sense the current flowing to the light emitting unit 20 in real time. The current sensing unit 63 is controlled by the control unit And transmits a current flowing to the light emitting unit 20 side sensed in real time by the current sensing unit 63 to the control block 40 side. Particularly, according to the present invention, for convenience of carrying, the power supply unit 50 of the portable lamp 10 is constituted by a battery supplying DC power, and the current of the battery is lowered with time, 63 in real time and transmit the sensed current state to the control block 40 side. The control block 40 includes a CPU 41 for performing various control operations, a PWM signal generating section 42 for generating a PWM signal in accordance with a control signal of the CPU 41, And an ADC 43 for analog-to-digital conversion of the current. The sensor unit 20 is connected to the CPU 41 and the CPU 41 implements control operations such as the above-described 'automatic mode' or 'always-on mode' according to the detection signal of the sensor unit 20, When the CPU 41 receives the current state sensed by the current sensing unit 63 from the ADC 43 and senses that the current flowing to the light emitting unit 20 is lowered, the PWM signal generating unit 42 generates the PWM signal A constant current is always supplied to the light emitting portion 20 side by increasing the duty cycle of the light emitting portion 20 so that the brightness of the light emitting portion 20 can be always kept constant even if the current flowing to the light emitting portion 20 is reduced . When the brightness of the light emitting part 20 is controlled by sensing the current flowing to the light emitting part 20, the error can be further reduced and the control can be more precise.

A mode switch 65 such as a tact switch or the like can be connected to the GP IO (general purpose input / output) of the CPU 41 and the CPU 41 can be connected via the on- Can be controlled to lock and unlock the above-described 'automatic mode', 'always-on mode', 'brightness adjusted state of the light emitting unit 20', and the like. For example, when the mode switch 65 is short-pressed once, the mode is locked and the 'mode switching' and the 'brightness adjustment of the light emitting unit 20' become impossible. When the mode switch 65 is short- Mode switching ',' erection control of the light emitting unit 20 ', and the like.

Meanwhile, the light emitting unit 20 may be connected to the control block 40 through a transistor (not shown) if it is composed of a plurality of LEDs or a plurality of light bulbs.

With this configuration, the sensor unit 30 senses the inclination of the portable lamp 10 about the X-axis (inclination in the back and forth direction, see Figs. 5 and 6) and outputs the detection signal to the control block 40 The CPU 41 of the control block 40 automatically controls the lighting unit 20 to turn on and off according to the sensing signal of the sensor unit 30 so that the user can directly operate the power switch It is possible to automatically turn on and off the portable lamp 10 without having to perform the operation.

The sensor unit 30 can sense the tilting of the portable lamp 10 with respect to the Y axis (tilted in the left and right direction, see Figs. 5 and 7), and the portable lamp 10 can sense When the sensor unit 30 measures the inclination (tilted in the left and right direction) and transmits the detection signal to the control block 40 side, the control block 40 determines whether the ' Mode switching " of the light emitting unit 20 and " brightness control of the light emitting unit 20 "

For example, in order to perform 'mode switching', when the user's head is tilted in a short left to right direction, the mode may be switched from the 'automatic mode' to the 'always on mode' or may be switched from the 'always on mode' to the 'automatic mode'. In addition, in order to adjust the brightness of the light emitting unit 20, when the user's head is tilted to the right or to the left, the brightness of the light emitting unit 20 may gradually increase and the user's head The brightness of the light emitting portion 20 may gradually become dark. The CPU 41 of the control block 40 controls the duty cycle of the PWM signal generated by the PWM signal generating unit 42. That is, when the brightness of the light emitting unit 20 is low, The CPU 41 of the control block 40 controls the PWM signal generating unit (not shown) so that the brightness of the light emitting unit 20 can be made brighter by increasing the DUTY CYCLE, The duty cycle (DUTY CYCLE) of the PWM signal generated in the light emitting portion (42) may be reduced so that the brightness of the light emitting portion (20) may gradually become darker.

The portable lamp using the tilt sensing according to the present invention configured as described above can automatically control the light emitting unit 20 to be turned on and off according to the tilting of the user's head or waist with respect to the X axis When the user's head or waist is tilted (tilted in the left-right direction) with respect to the Y-axis, the brightness of the light emitting unit 20 can be automatically adjusted or the 'mode switching' can be automatically adjusted. Off, brightness control, mode switching, and the like can be very easily performed.

8 to 10 are flowcharts illustrating a method of controlling a portable lamp using tilt detection according to the present invention.

8 to 10, a method of controlling a portable lamp using tilt sensing according to the present invention is characterized in that the portable lamp 10 is tilted with respect to a virtual X-axis by the sensor unit 20 (S1), which detects the inclination of the light emitting portion (S1), and the tilt sensing step (S1), which is based on the X-axis, automatically turns on and off the light emitting portion Step S2.

As shown in FIG. 6, when the portable lamp 10 is tilted (i.e., tilted back and forth) with respect to the X-axis of the user's head or waist, the sensor unit 20 detects that the portable lamp 10 is inclined with respect to the X- The sensor unit 20 detects that the portable lamp 10 is orthogonal to the X axis, that is, when the user's head or waist is inclined with respect to the virtual X axis, The inclination based on the X axis can be detected by detecting the position on the YZ plane.

9, when the sensor unit 20 senses the inclination (forward and backward inclination) with respect to the X axis and outputs the detection signal to the CPU 41 of the control block 40, The CPU 41 of the block 40 calculates an inclination angle (inclination angle in forward and backward directions) of the inclination with respect to the X-axis and then compares the inclination angle with the set angle (S1-2). At this time, the setting angle for lighting the light emitting unit 20 and the setting angle for lighting the light emitting unit 20 may be different from each other.

Then, when the inclination angle of the inclination with respect to the X axis (inclination angle of the forward and backward inclination) exceeds the set angle, the light emitting unit 20 is automatically turned on or off (that is, the above-described 'automatic mode' (S2).

For example, when the user tilts the head of the user for bait fitting or other preparation during night fishing, that is, when the user's head or waist is tilted forward, the sensor unit 20 detects the forward tilting of the portable lamp 10 The control block 40 automatically turns on the light emitting portion 20 of the portable lamp 10 to facilitate the work such as bait fitting or other preparation and lifts the user's head back to its original position That is, when the head of the user is tilted backward in a state of being forwardly tilted, the sensor unit 20 senses the inclination of the rear side of the portable lamp 10, and the control block 40 detects the tilting of the portable lamp 10, The light emitting unit 20 is automatically turned off so that the light does not shine.

 In this way, the portable lamp 10 can sense the tilting of the portable lamp 10 with respect to the X-axis (tilts in the forward and backward direction) and automatically turn on and off the light emitting unit 20, Since there is no need to manually operate the power switch, its usability is greatly improved.

The present invention also includes a tilting detection step S3 for detecting the inclination of the portable lamp 10 with respect to the virtual Y-axis by the sensor unit 20 (that is, tilting in the forward and backward directions) Mode switching and brightness adjustment of the light emitting unit 20 are performed through a tilt sensing step S3 based on the Y axis and a brightness adjusting step S4.

7, when the head or waist of the user is tilted with respect to the imaginary Y-axis (i.e., tilted in the left-right direction), the sensor unit 20 detects that the portable lamp 10 is tilted with respect to the Y- Y-axis ") of the Y-axis. Here, as the user's head or waist tilts with respect to the imaginary Y axis, the sensor unit 20 detects the position on the XZ plane where the portable lamp 10 is orthogonal to the Y axis, Can be detected.

The sensor unit 30 senses the slope of the portable lamp 10 with respect to the Y axis as shown in FIG. 10 (S3) and outputs it to the CPU 41 of the control block 40 , The CPU 41 of the control block 40 calculates the time of the slope with respect to the Y-axis (the slope in the left-right direction) and the time of the slope with respect to the Y-axis (Approximately 2 seconds or less) (S3-1). If the time of the slope (lateral slope) with respect to the Y axis does not exceed the set time (i.e., the tilting in the left / right direction is performed for a short time (S4-1). If the time of the slope (the slope in the left-right direction) exceeds the set time (S4-1), the mode switching is performed between the 'automatic mode' and the ' (I.e., tilting in the left-right direction is performed for a relatively long period of time), the 'brightness adjustment of the light emitting unit 20' may be performed (S4-2).

For example, 'mode switching' can be switched from 'automatic mode' to 'always-on mode' if the user's head or waist is tilted to the left or right side, and vice versa. Quot; to " automatic mode ".

When the brightness of the light emitting unit 20 is dark, the CPU 41 of the control block 40 controls the brightness of the light emitting unit 20 when the user's head or waist is tilted to the left or right, The brightness of the light emitting unit 20 can be made brighter by increasing the duty cycle DUTY CYCLE of the PWM signal generated in the generating unit 42. If the user's head is tilted in the opposite direction again, The brightness of the light emitting portion 20 can be made gradually darker by reducing the duty cycle (DUTY CYCLE) of the PWM signal generated in the PWM signal generating portion 42 by the CPU 41 of the CPU 40. [

Alternatively, the control block 40 may perform the 'mode switching' when the time of the 'slope based on the Y axis' (slope in the left and right direction) exceeds the set time, and the 'slope based on the Y axis' The luminance adjustment of the light emitting portion may be performed when the time of the light emitting portion does not exceed the set time.

Thus, it is possible to easily control the 'mode switching' or the 'brightness control of the light emitting unit 20' by comparing the time of the user's head and the tilt of the portable lamp 10 with respect to the Y axis, It is advantageous that the usability is greatly improved.

 While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: Portable lamp 20:
30: sensor unit 40: control block
41: CPU 42: PWM signal generating unit
43: ADC 50: Power supply
60: voltage sensing unit 63: current sensing unit
65: Mode switch 70: Power switch

Claims (11)

delete delete Power supply;
A light emitting unit connected to the power supply unit;
A sensor unit for detecting a tilting of a portable lamp attached to a head of a user and outputting a detection signal thereof; And
And a control block for controlling the light emitting unit to be turned on and off according to a sensing signal of the sensor unit,
Wherein the control block is connected to a voltage sensing unit for sensing a voltage of a power supply in real time and the control block generates a PWM signal and the control block controls the PWM according to the voltage state of the power supply unit sensed by the voltage sensing unit, Wherein the controller controls the duty of the signal to maintain the brightness of the light emitting unit at a constant level. The method of claim 3,
The control block includes a CPU for performing various control operations, a PWM signal generating unit for generating a PWM signal according to a control signal of the CPU, and an ADC for analog-to-digital converting the voltage sensed by the voltage sensing unit,
Wherein the CPU is connected to a mode switch for locking and unlocking a mode implemented in a portable lamp. Power supply;
A light emitting unit connected to the power supply unit;
A sensor unit for detecting a tilting of a portable lamp attached to a head of a user and outputting a detection signal thereof; And
And a control block for controlling on / off of the light emitting unit according to a sensing signal of the sensor unit,
Wherein the control block is connected to a current sensing unit for sensing a current flowing to the light emitting unit in real time, the control block generates a PWM signal, and the control block controls the current sensing unit according to the current state of the light emitting unit. Wherein the control unit controls the brightness of the light emitting unit to be kept constant by adjusting the duty cycle. The method of claim 5,
The control block includes a CPU for performing various control operations, a PWM signal generating unit for generating a PWM signal according to a control signal of the CPU, and an ADC for analog-to-digital converting the current sensed by the current sensing unit,
Wherein the CPU is connected to a mode switch for locking and unlocking a mode implemented in a portable lamp. delete A control method of a portable lamp according to any one of claims 3 to 6,
A tilt sensing step based on an X-axis sensing a tilt of the portable lamp with respect to the X-axis by the sensor unit, and
And controlling the light emitting unit to automatically turn on and off through a tilt sensing step with respect to the X axis. The method of claim 8,
When the sensor unit senses the 'tilt with respect to the X axis' of the portable lamp and outputs the sensing signal to the control block, the control block calculates the tilt angle of the 'slope based on the X axis' corresponding to the sensing signal The tilt angle of the tilt with respect to the X axis is compared with the set angle, and when the tilt angle of the tilt with respect to the X axis exceeds the set angle, the light emitting portion is automatically turned on or off. A method of controlling a portable lamp. The method of claim 8,
A tilt sensing step of sensing a tilt of the portable lamp with respect to the Y axis by the sensor unit, a 'mode switching' and a 'brightness control of the light emitting unit' selectively through a tilt sensing step with respect to the Y axis And controlling the brightness of the portable lamp based on the tilt detection. The method of claim 10,
The control block includes an 'automatic mode' for automatically turning on and off the light emitting portion corresponding to 'the inclination based on the X axis' of the portable RAM, and an 'always on mode' for keeping the lighting state of the light emitting portion always on. Lt; RTI ID = 0.0 >
When the sensor unit senses the 'slope based on the Y axis' of the portable lamp and outputs the slope to the control block, the control block calculates the time of the slope based on the Y axis and then calculates the slope of the slope based on the Y axis The mode is switched between the 'automatic mode' and the 'always-on mode' and the 'brightness control of the light-emitting part' according to 'the time of the inclination based on the Y axis' And controlling the tilt of the portable lamp.

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