KR102457716B1 - Hybrid channel signboard using commercial power and solar cell battery power - Google Patents

Abstract

The present invention relates to a channel signboard (1). Power is supplied through a power supply device (10; SMPS), and at the same time, while a general power supply is connected, a solar module (30), a charging device (40) for charging power generated by the solar module (30), and a battery (50) are connected. An illuminance sensor (21) is installed to start lighting by supplying power from the battery (50) to the channel signboard (1) when the illuminance falls below a certain level. The channel signboard (1) includes: a control unit (102) that manages an operation of the channel signboard (1) as a whole; a light receiving unit (104) for detecting ambient light so that the channel signboard (1) can automatically adjust the brightness according to the intensity of ambient light; a location information receiving unit (110) that receives location information where the channel signboard (1) is installed so that brightness can be automatically adjusted during the day and at night; an operation time setting unit (112) for adjusting the time for which light emission of a light source unit (123) is maintained; and a manual operation unit (114) for manually operating the channel signboard (1) whose brightness is automatically adjusted. When the channel signboard (1) is lit, commercial power and the power of the battery (50) charged by a solar cell are flexibly switched to complement each other so that the channel signboard (1) can be turned on. Thus, the channel signboard (1) is automatically lit in hybrid by two power supply means. There is an effect of energy saving by controlling the use of late-night electricity when using commercial power.

Description

Hybrid channel sign that can use commercial power and rechargeable battery power by solar cells {HYBRID CHANNEL SIGNBOARD USING COMMERCIAL POWER AND SOLAR CELL BATTERY POWER}

The present invention relates to an LED channel signboard, which has a tendency to rapidly increase in use in recent years. It relates to a hybrid type channel sign capable of using commercial power and solar cell-based rechargeable battery power that detects and uses this to efficiently convert between general power and solar power.

As is well known, LED channel signboards are designed to individually and three-dimensionally form figures or characters to increase recognition and improve aesthetics. ) and attaching a transparent or translucent cover plate to the opening in the front of the body so that the light of the light source emits light to the front of the cover plate, it is clearly recognized even at night and has a very beautiful appearance.

As described above, since most LED channel signs are connected to a general power source, even if LEDs that use relatively little power are used, overall power usage is still high, so it is a time to take measures to reduce power.

Meanwhile, in recent years, as in Patent Documents 1 and 2 below, solar technology for generating electricity using solar cells has been developed and used for many lighting, decoration, and advertisements. In the case of advertising signs that use power, battery power alone is insufficient to activate their use, and even if general power is connected at the same time, efficient conversion and control is not performed, which increases installation cost and has very low efficiency. Reality.

Laid-open Patent Publication 10-2013-0038739 (2013.4.18) Registered Utility Model Publication 20-0370429 (2004.12.14)

The present invention, devised in view of the above problems, applies a battery power system to a channel signboard, which is being used a lot in recent years, but increases the use of eco-friendly battery power by efficiently supplying and controlling power, and saving general power as much as possible. The purpose is to enable the operation of the channel signboard.

In the present invention according to the above object, in the channel signboard (1), power is supplied through a power supply device (10; SMPS), and at the same time as connecting a general power source, a solar module 30 and a solar module 30 The charging device 40 and the battery 50 for charging the generated power are connected, and when the illuminance is below a certain level, the illuminance to supply the power of the battery 50 to the channel signboard 1 to start lighting. The sensor 21 is installed, and the channel sign 1 has a control unit 102 that manages the operation of the channel sign 1 as a whole, and the channel sign 1 can automatically adjust the brightness according to the intensity of ambient light. A light receiving unit 104 that senses ambient light so as to be able to , the color setting unit 108 for controlling the emission color of the light source unit 123 installed on the channel sign 1 according to the ambient brightness detected by the light receiving unit 104, and the location information where the channel sign 1 is installed. The position information receiving unit 110 so that the brightness can be automatically adjusted during the day and night, the operation time setting unit 112 for adjusting the time that the light emission of the light source unit 123 is maintained, and the brightness is automatically adjusted It is composed of a manual operation unit 114 for manually operating the channel sign 1, and the control unit 102 controls the voltage of the battery 50 charged by the solar cell during the daytime when the channel sign 1 is turned on at night. of the battery 50 in a state in which the charge state of the battery 50 is sensed by the battery remaining capacity measuring unit 70 and the remaining battery capacity measuring unit 70 for detecting the state of charge of the battery 50 by detecting Night time by the discharge detection unit 71 and the discharge detection unit 71, which determine that the channel sign 1 will be turned off due to insufficient capacity of the battery 50 when the channel sign 1 is turned on by power at night When it is determined that it is impossible to turn on the channel sign 1 during the period and the light is expected to be turned off, the commercial power supply control unit 72 for supplying commercial power to charge the battery 50, and the commercial power supply for the battery 50 charging In the process, the buffer detection unit 73 and the buffer detection unit 73 that determine that the lighting of the channel sign 1 will be maintained during the night time by the remaining capacity of the battery 50 by the battery remaining capacity measurement unit 70 ), when it is determined that the lighting of the channel sign 1 is maintained during the night time by the commercial power cut-off control unit 74 to stop the charging of the battery 50 by the commercial power being charged.

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According to the present invention, since the light is completely turned off at a certain time set in the lighting and turning off of the channel sign and the lighting is made by determining the illuminance after a certain time has elapsed, there is no case of lighting at an unnecessary time and power is saved, so efficient power use is required this is provided

In addition, it detects the voltage of the battery at the same time that it is turned on, and when the voltage is insufficient, the battery is charged with the normal power and the battery power is used. do.

In addition, if the set time has elapsed while the light is on, or if it is set to late-night lighting mode, it switches to general power and cuts off the use of battery power to maintain the power required for the first operation the next day. There is a useful effect of being able to protect and function.

1 is a block diagram showing the configuration of a hybrid type channel sign that can use commercial power and rechargeable battery power by solar cells according to an embodiment of the present invention;
2 is a block diagram illustrating the operation configuration of the channel signboard of the present invention;
3 is a block diagram illustrating the detailed configuration of the control unit of the present invention;
4 is a view for explaining the installation structure of the channel signboard of the present invention;
5 is an operation flowchart showing the control method of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail based on the accompanying drawings.

The present invention forms a figure or character individually and three-dimensionally, installs a light source (LED) inside a box-shaped body with an open front, and combines a transparent or translucent cover plate with an opening in the front of the body, so that the light of the light source is emitted. The channel signboard (1) that emits light to the front of the cover plate is targeted.

In the present invention, in supplying power to the channel signboard 1 as described above, the power supply 10 (SMPS) converts the general power, which is alternating current, into a direct current, and then reduces the voltage to the required voltage, and then controls the control device 20. It is configured to supply power to the channel signboard (1) through the.

In addition, according to the present invention, the solar module 30 is installed in a place such as the roof of a building that receives sunlight well, and the power generated by the solar module 30 is connected to the battery 50 through the charging device 40, , the power of the battery 50 is also connected to be supplied to the channel sign 1 through the control device 20 . The general power transformed and rectified through the SMPS is also configured to charge the battery 50 .

The illuminance sensor 21 is installed near the channel sign 1 so that the detected illuminance is input to the control device 20, and the control device 20 automatically turns on the battery when the input illuminance is below a certain level. (50) is controlled to start lighting by supplying power to the channel signboard (1).

In addition, when the voltage sensor 51 for detecting the voltage of the battery 50 is installed and the required level (approximately 10.1V) to light the LED is below a certain level (approximately 10.1V), the control device 20 directly applies the general power to the channel signboard (1). was to supply.

And by adding a timer function to the control device 20, it is possible to set an operation start time and an operation end time, and to implement a late-night lighting mode in which the channel sign 1 is turned on from midnight to dawn.

In addition, at a certain time, for example, at midnight, even if the voltage in the battery 50 remains at a certain level or more, it is controlled to cut off the battery power and supply general power to the channel sign 1 . This is to protect the performance of the battery 50 and to enable stable operation and minimize the use of general power by enabling battery power to be used for the first operation the next day even if the amount of charge is insufficient due to insufficient sunlight the next day.

In addition, the control device 20 has a late-night lighting mode that can be selected so that the lighting can be maintained for advertisements or not turned on for power saving even when midnight has elapsed, so that if the user does not select the late-night lighting mode, the If you end the lighting on and select the late-night lighting mode, it is set to keep lighting up until the set time, and in this case, the power is set to be switched to general power.

Unexplained reference numeral 60 denotes an input device unit for setting and input.

2 is a view for explaining the operation configuration of the channel sign 1 of the present invention, the channel sign 1 of the present invention as a whole, the control unit 102 for managing the operation of the channel sign 1, the channel sign ( 1) a light receiving unit 104 for detecting ambient light so that the brightness can be automatically adjusted according to the intensity of ambient light, and a light source unit installed on the channel sign 1 according to the ambient brightness detected by the light receiving unit 104 A brightness setting unit 106 for controlling the brightness of 123, and a color setting unit for controlling the emission color of the light source unit 123 installed on the channel signboard 1 according to the ambient brightness detected by the light receiving unit 104 ( 108), the location information receiving unit 110 that receives the location information where the channel sign 1 is installed so that the brightness can be automatically adjusted during the day and at night, and the light source unit 123 to adjust the duration of light emission It consists of an operation time setting unit 112 and a manual operation unit 114 for manually operating the channel sign 1 whose brightness is automatically adjusted.

The light receiving unit 104 detects ambient light at the location where the channel sign 1 is installed, measures the illuminance, and sets the brightness of the light source 123 according to the measured illuminance.

As an example, in the daytime, there is a lot of ambient light such as sunlight, so the information of the channel sign 1 can be easily grasped visually by increasing the brightness of the channel sign 1 to brighten it, and at night there is relatively little ambient light. Even if the luminance of 1) is lowered, the information of the channel sign 1 can be easily checked visually.

The brightness of the light source unit 123 is controlled by the brightness setting unit 106 according to the illuminance measured by the light receiving unit 104 .

The brightness setting unit 106 controls the brightness of the light source unit 123 to be automatically adjusted according to the illuminance measured by the light receiving unit 104, and sets the brightness of the light source unit 123 to be automatically adjusted according to the preset illuminance. When the measured illuminance value coincides with the preset illuminance, the brightness of the corresponding light source unit 123 is controlled.

In addition, the color setting unit 108 allows the color of the light source unit 123 to change according to the illuminance measured by the light receiving unit 104, and by combining them in a state where a plurality of light source units 123 having various colors are installed. Various luminous colors are realized.

This causes a large difference in visibility due to the surrounding color due to the characteristics of the channel sign 1 mainly installed outdoors, and adjusts the emission color of the channel sign 1 according to the change of the surrounding environment.

As an example, in the case of the channel sign 1 mainly installed on the roadside, when the leaves of a street tree in summer are green, the light source 123 of the channel sign 1 is controlled to emit red light to increase visibility, and in autumn When the leaves of a street tree change to red due to autumn leaves, the light source 123 of the channel sign 1 is controlled to emit light in green.

That is, by automatically adjusting the light emission color of the light source 123 according to the environment in which the channel sign 1 is installed according to the season, weather, and the color of the surrounding buildings, the information guided to the channel sign 1 is visually displayed. This has the effect of making it easily noticeable.

The location information receiving unit 110 controls the brightness of the light source unit 123 to be automatically adjusted during the day and at night using the location information where the channel sign 1 is installed.

During the daytime, the ambient light such as sunlight is bright so that the light of the channel sign 1 is not easily conspicuous, so that the light of the light source 123 is strongly emitted. ) should be controlled so that the light source unit 123 is relatively weakly luminous as the guide is easily conspicuous.

To this end, the brightness of the light source unit 123 is automatically controlled by determining whether it is daytime or nighttime after setting sunrise and sunset times suitable for the GPS signal received by the location information receiving unit 110 .

The operation time setting unit 112 may control the light source unit 123 to emit light only during a time when a vehicle or a person passes through the channel sign 1 installed on the roadside.

For this purpose, a separate traffic sensor (not shown) may be installed before the location where the channel signboard 1 is installed, and when the passage of a car or a person is detected by the traffic sensor, the light source unit 123 emits light, There is a power saving effect by preventing the light source 123 from emitting light again after a car or a person passes.

The manual operation unit 114 is set to be operated manually when the operation of the channel sign 1 described above does not operate due to an error, etc., and is operated manually by the operator's operation. This can be installed.

In the present invention, when the channel sign 1 is turned on at night, the power of the battery 50 charged by the solar cell is all consumed and the voltage of the battery 50 is sensed to prevent the channel sign 1 from being turned off. Power is supplied and the battery 50 is charged so that it is controlled through the control unit 102 to supply the channel signboard 1 .

In this case, the power supplied to the battery 50 may use late-night electricity, thereby having an energy saving effect.

3, the control unit 102 of the present invention detects the voltage of the battery 50 charged by the solar cell during the daytime when the channel sign 1 is turned on at night, and the charging state of the battery 50 is And the remaining battery capacity measurement unit 70 for detecting

In a state in which the charge state of the battery 50 is detected by the battery remaining capacity measurement unit 70, when the channel sign 1 is turned on at night by the power of the battery 50, the capacity of the battery 50 is insufficient. (1) a discharge detection unit 71 that determines that the light is turned off,

A commercial power supply control unit 72 that supplies commercial power to charge the battery 50 when it is determined by the discharge detection unit 71 that the lighting of the channel sign 1 is not possible during the night time and is expected to be turned off; and ,

In the process of charging the battery 50 by commercial power, the battery remaining capacity measurement unit 70 determines that the lighting of the channel sign 1 will be maintained during the night time by the remaining capacity of the battery 50 by the buffer detection part (73) and

When it is determined by the buffer detection unit 73 that the lighting of the channel sign 1 is maintained during the night time, the commercial power cut-off control unit 74 to stop the charging of the battery 50 by the commercial power being charged. do.

The battery remaining capacity measuring unit 70 checks the state of charge of the battery 50 that supplies power together with commercial power to the channel sign 1 in real time, and during the daytime when the solar cell is charged, the battery ( 50), but the charging state of the battery 50 when the channel sign 1 is lit by the power of the battery 50 at night time when the charging of the battery 50 by the solar cell cannot be achieved will detect

The remaining capacity of the battery 50 by the battery remaining capacity measuring unit 70 may be calculated by the following formula.

Q : Remaining battery capacity

A: Total battery capacity

V : average voltage

I: discharge current

T: discharge time

The remaining capacity of the battery 50 calculated by the battery remaining capacity measuring unit 70 is transmitted to the discharge detecting unit 71 to check whether sufficient battery 50 remains when the channel sign 1 is turned on at night, The discharge detecting unit 71 compares the remaining capacity of the battery 50 with the used capacity of the battery 50 to be used at night, and the remaining capacity of the remaining battery 50 is the use of the battery 50 to be used for the channel sign 1 If it is less than the capacity, it will be detected.

When the discharge detection unit 71 detects that the channel sign 1 is not sufficiently lit with the remaining capacity of the battery 50 during the night time, commercial power is supplied so that the channel sign 1 is turned on while commercial power. The power supply is controlled through the commercial power supply control unit 72 so that the battery 50 can be charged.

The commercial power supply control unit 72 is supplied with commercial power while the channel sign 1 is turned on during the night time so that the channel sign 1 can be turned on while charging the battery 50 to ensure the remaining capacity. let it be

The buffer detection unit 73 confirms the charge capacity of the battery 50 delivered through the battery remaining capacity measurement unit 70 in the process of charging the battery 50 by commercial power, and then It is determined that lighting of the channel sign 1 is possible during the remaining night time with the remaining capacity.

When the battery 50 is charged and it is determined through the buffer detection unit 73 that the lighting of the channel sign 1 will be maintained during the night time with the remaining capacity, the commercial power supplied through the commercial power cutoff control unit 74 is cut off and control so that the channel sign (1) is turned on by the power of the battery (50).

When the commercial power cut-off control unit 74 determines that the remaining capacity of the battery 50 for maintaining the lighting of the channel sign 1 at night time is sufficient by the buffer detection unit 73, the channel sign 1 by commercial power The charging of the battery 50 is stopped together with the power supply of the , and the channel sign 1 is switched to be turned on by the power of the battery 50 .

That is, in the present invention, the channel sign 1 can be turned on while the commercial power and the power of the battery 50 charged by the solar cell are flexibly switched to complement each other so that the channel sign 1 is two power supply means. to automatically turn on as a hybrid by

4 is a view showing a form in which the channel signboard 1 of the present invention is installed on a wall surface or the like.

Channel signboard 1 of the present invention is provided with a cover 120, side walls 122 are installed at both ends of the lower portion of the cover 120, and the upper connection portion of the cover 120 and the side wall 122 is closed. The member 121 is installed to form an inner space, and a plurality of light sources 123 are installed on both upper and lower sides of the base plate 124 in the inner space to be caught in the middle of the space, and the sidewalls 122 on both sides of the inner space. The transparent plate 125 is hooked on the lower end, and the light guide plate 126 installed under the transparent plate 125 is fastened and fixed by the fastening member 129 to fix the side wall 122 , the transparent plate 125 , and the light guide plate 126 . ) is configured to be fixedly installed.

The cover 120 is formed of an opaque material so that the light from the inner light source unit 123 is subtly emitted to the outside, thereby reducing glare at night and increasing visibility.

Sidewalls 122 are installed on both sides of the cover 120 , and a closing member 121 is installed at a connection portion between the cover 120 and the sidewall 122 to cover sharp edges.

Preferably, the closing member 121 is fixed to the cover 120 by a separate fastening pin, and preferably, after the cover 120 and the closing member 121 are fixed and installed, the upper part of the side wall 122 is covered. can be installed.

In the present invention, a space is formed on the inside by the cover 120 , the side wall 122 , and the closing member 121 , and the base plate 124 on which the light source 123 is installed is installed in the space.

A plurality of light source units 123 are installed on both upper and lower sides of the base plate 124 , and the light source unit 123 installed on the upper part is irradiated with light to the outside through the front where the channel signboard 1 is installed, so that the cover 120 . The light source unit 123 , which is illuminated through and installed on the opposite side, is irradiated to the rear of the channel sign 1 so that light can be irradiated to the bottom of the channel sign 1 .

The base plate 124 is installed so as to span the support part 130 protruding from the side wall 122 inside the space portion, so that the upper and lower spaces are preferably installed to be spaced apart. Light can be irradiated forward and backward by the light source units 123 installed on both sides.

A transparent plate 125 is installed in the lower portion of the base plate 124, and the side wall 122 is fixed to the lower portion of the transparent plate 125 to increase the illuminance of the channel sign 1 while installing the channel sign 1 A possible light guide plate 126 may be installed.

Looking at the installation structure by the transparent plate 125 and the light guide plate 126, a pressing part 131 is protruded inside the lower end of the side wall 122, and the transparent plate 125 and the light guide plate 126 are connected to the fastening member ( 129), the pressing part 131 is fixed by pressing the transparent plate 125, and preferably, the base plate 124, the transparent plate 125, and the light guide plate 126 are connected by the fastening member 129. It can be fastened and fixed at one time and installed.

When the fastening member 129 is fastened, the base plate 124 and the light guide plate 126 are fixedly installed, and the transparent plate 125 therebetween also strongly adheres to the light guide plate 126 to be fixedly installed.

To explain this, when the base plate 124, the transparent plate 125, and the light guide plate 126 are fastened by the fastening member 129, the base plate 124 presses the support part 130 while the side wall 122 is connected to the light guide plate 126. ) and the side wall 122 is in close contact, the pressing part 131 presses the transparent plate 125 to be closely fixed to the light guide plate 126 .

That is, in a state in which the light guide plate 126 is fixed to the installation wall, the transparent plate 125 and the light guide plate 126 are also closely fixed while pressing the side wall 122 while the base plate 124 is fixed by the fastening member 129 . By doing so, it is possible to easily install it with one fastening by the fastening member 129 .

The transparent plate 125 is formed of a transparent material so that the light irradiated to the rear of the channel sign 1 can pass through as the light source 123 is installed on both sides of the base plate 124 as described above. The light passing through the plate 125 is illuminated to the rear of the channel sign 1 through the light guide plate 126 , thereby increasing the illuminance of the channel sign 1 .

The light guide plate 126 has a plurality of slits that can increase the illuminance of the channel sign 1 by allowing the light passing through the transparent plate 125 to be irradiated to the rear side of the channel sign 1 by refraction and exposed to the outside. (127) grooves may be formed.

As the slit 127 is formed in the light guide plate 126 , the light from the light source unit 123 illuminating to the rear passes through the light guide plate 126 , is refracted by the slit 127 and radiates to the side. The brightness of the side where the light guide plate 126 is installed as well as the front surface is increased, thereby increasing the visibility of the signboard at night.

In the present invention, a reflecting plate 128 may be installed under the light guide plate 126 to increase the illuminance by reflecting light absorbed by the wall where the channel sign 1 is installed in the front.

The light source unit 123 is refracted to the side by the slit 127 formed in the light guide plate 126 and the brightness of the channel sign 1 is brightened, but it is not refracted laterally and the light is transmitted to the installation surface, which is the rear surface of the channel sign 1 . It is refracted and is unnecessarily consumed.

By reflecting the light refracted to the installation surface of the channel signboard 1 to the front or the side by the reflecting plate 128, it is possible to increase the illuminance of the channel signboard 1 by utilizing the light absorbed by the installation surface.

Hereinafter, an operation sequence of the present invention will be described based on the flowchart of FIG. 5 .

The overall operation is driven by the program of the control device 20 , and necessary information and operation are set by the input device unit 60 .

First, when the time set as the operation start time by setting (for example, 6:00 pm) comes, two control processes are performed simultaneously. When the detected illuminance is greater than or equal to the set illuminance, illuminance detection is repeated again, and when the sensed illuminance is less than the set illuminance, the battery 50 is turned on by turning on the light source 123 in the channel sign 1 to turn on the channel sign (1). ) is lit.

Looking at the voltage-related control process, when the output voltage of the battery 50 is checked at the same time as the operation is below the set voltage, the circuit for charging the battery 50 using the general power is operated.

As described above, time-related control is performed while the lighting state is maintained. If you check the current time while the lighting is maintained, it is determined whether the late-night lighting mode is set when midnight has elapsed, but it is not determined as the late-night lighting mode If not, the lighting ends and the standby state is established, and when it is confirmed that the late-night lighting mode is in operation, the lighting is maintained until the set end time and the battery 50 power is cut off, and general power is supplied to the channel signboard (1).

As described above, the present invention is made by determining the illuminance after the lighting of the channel sign is completely turned off at a set time and after a certain time has elapsed.

In addition, when the voltage of the battery 50 is sensed at the same time as lighting and is below the set voltage, when the battery 50 power is supplied, the battery 50 is charged with normal power at the same time, so that the voltage and function of the battery 50 can be maintained. there will be

In the process of lighting up, the time is checked and, when the late-night lighting mode is set, it is switched to the general power supply at midnight to cut off the use of the battery 50 power to maintain the power required for the first driving the next day.

(1)-- Channel sign
(10)-- Power Supply (20)-- Control Unit
(21)-- Illuminance sensor (30)-- Solar module
(40)-- Charger (50)-- Battery
(51)-- Voltage sensor (60)-- Input device part
(71)-- Discharge detection unit (72)-- Constant power supply control unit
(73)-- Buffer detection unit (74)-- Regular power cut-off control unit
(102)--control part (104)--light-receiving part
(106)-- Brightness setting unit (108)-- Color setting unit
(110)-- Location information receiving unit (112)-- Operation time setting unit
(114)-- Manual operation part
(120)-- Cover (121)-- Finishing member
(122)-- side wall (123)-- light source part
(124)-- Base plate (125)-- Transparent plate
(126)-- light guide plate (127)-- slit
(128)-- Reflector (129)-- Fastening member
(130)-- Support (131)-- Press

Claims (3)

In the channel sign (1),
Power is supplied through the power supply device (10; SMPS), but at the same time as the general power is connected, the solar module 30 and the charging device 40 for charging the power generated by the solar module 30 and the battery ( 50), and when the illuminance is below a certain level, the illuminance sensor 21 is installed to supply power from the battery 50 to the channel sign 1 to start lighting,
The channel sign 1 is a control unit 102 that manages the operation of the channel sign 1 as a whole, and the channel sign 1 detects ambient light so that the brightness can be automatically adjusted according to the intensity of the ambient light. A light receiving unit 104, a brightness setting unit 106 for controlling the brightness of the light source unit 123 installed on the channel signboard 1 according to the ambient brightness sensed by the light receiving unit 104, and the light receiving unit 104 The color setting unit 108 that controls the emission color of the light source unit 123 installed on the channel sign 1 according to the detected ambient brightness, and the location information where the channel sign 1 is installed, the brightness is automatically adjusted during the day and night. The position information receiving unit 110 that can be adjusted to, the operating time setting unit 112 for adjusting the time that the light emission of the light source unit 123 is maintained, and the channel sign 1 whose brightness is automatically adjusted manually Consists of a manual operation unit 114 to operate,
The control unit 102 detects the voltage of the battery 50 charged by the solar cell during the daytime when the channel sign 1 is turned on at night to detect the state of charge of the battery 50, the remaining battery capacity measuring unit 70 Wow,
In a state in which the charge state of the battery 50 is detected by the battery remaining capacity measurement unit 70, when the channel sign 1 is turned on at night by the power of the battery 50, the capacity of the battery 50 is insufficient. (1) a discharge detection unit 71 that determines that the light is turned off,
A commercial power supply control unit 72 that supplies commercial power to charge the battery 50 when it is determined by the discharge detection unit 71 that the lighting of the channel sign 1 is not possible during the night time and is expected to be turned off; and ,
In the process of charging the battery 50 by commercial power, the battery remaining capacity measurement unit 70 determines that the lighting of the channel sign 1 will be maintained during the night time by the remaining capacity of the battery 50 by the buffer detection part (73) and
When it is determined by the buffer detection unit 73 that the lighting of the channel sign 1 is maintained during the night time, the commercial power cut-off control unit 74 is configured to stop the charging of the battery 50 by the commercial power being charged. A hybrid type channel sign that can use commercial power and battery power for charging by solar cells.
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