JP3065394U - Battery device for illuminated signboard - Google Patents

Abstract

(57) [Summary] [Problem] To prevent a discharge state caused by forgetting to turn off a lighting switch, eliminate maintenance of battery fluid, prevent forgetting to turn on a power switch at the time of charging, and prevent overcurrent to the circuit at the time of recharging. To prevent. SOLUTION: A charging device 6 having an overcharge protection circuit configured to supply a sufficient current to the battery 1 when the voltage of the battery 1 is low and to stop charging the battery 1 when the battery 1 reaches a specified voltage. While the lighting switch SW1 is turned on, the battery 1 voltage is monitored,
A battery monitoring device 5 having an over-discharge protection circuit for interrupting power to the lighting device Q by generating an over-discharge cutoff signal so as to prevent a discharge state of the battery 1 exceeding a specified value, and the lighting switch SW1 The timer device 2 includes an automatic light-off circuit that turns off the lighting device Q by generating a time-up output when a predetermined time that is selected in advance is reached when the electronic switch circuit SW2 that is operated is turned on. Is provided.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention mainly relates to a battery unit such as a street lighting signboard with a built-in lighting device, and particularly has a battery protection function by overcharging and overdischarging, and is a power saving type and portable lighting signboard. The present invention relates to a battery device.

[0002]

[Prior art]

 Conventionally, depending on the specifications of buildings and the like, there are many places where a power supply for a signboard on the street is not installed, and a signboard on the street which cannot be illuminated by placing a signboard alone is inevitable. Also, in the conventional signboards for illuminations, a lead storage battery requiring an electrolytic solution was used as it is in a commercially available 12V lighting FL20W.

[0003]

[Problems to be solved by the invention]

 However, the conventional signboards for electric decorations had the following various causes of trouble. That is, firstly, the battery is left unnecessarily due to the weight of the battery (currently 18 kg), and secondly, the battery is damaged due to being left while the lighting switch is turned on. Damage to the battery (frequently required to check the battery fluid), fourth, damage to the battery due to reuse without being charged due to forgetting to turn on the power switch during charging, and fifth, recharging of the damaged battery There were various problems such as breakage of the charger due to overcurrent that sometimes occurred.

Therefore, the present invention has been made in view of the above-mentioned problems that existed in the past. The first problem is that the charger is lightened by a power saving design, and the second is that the lighting switch is forgotten to be turned off. The third is to prevent the discharge state beforehand, the third is to eliminate the maintenance of the battery fluid and the damage of the battery due to the decrease or leakage of the battery fluid, and the fourth is to prevent forgetting to turn on the power switch at the time of charging. 5 The purpose is to prevent overcurrent to the circuit at the time of recharging, etc. In addition, depending on the installation conditions, the lighting device can be turned on with AC power supply or DC power supply, and optional equipment etc. Automatically turns on when it becomes darker and turns off after a specified time, or turns on and off at a specified time by incorporating a clock It is an object of the present invention to provide a battery device for an electric signboard which is a power saving type and is portable.

[0005]

[Means for Solving the Problems]

 For this reason, in the present invention, the built-in battery 1 is charged by an external power supply via the built-in charging device 6 at the time of charging, and the lighting device Q built in the illuminated sign itself when the illuminated sign is lit. In the battery device P for an illuminated signboard, which is connected to the battery 1 to light the lighting device Q by the battery 1, the charging device 6 supplies a sufficient current to the battery 1 when the voltage of the battery 1 is low, and The above-mentioned problem has been solved by providing the overcharge protection circuit 35 so as to stop charging the battery 1 when the specified voltage is reached. Further, while the lighting switch SW1 is turned on, the voltage of the battery 1 is monitored, and an overdischarge cutoff signal is generated so as to prevent a discharge state of the battery 1 exceeding a specified value, thereby cutting off the power to the lighting device Q. By providing the battery monitoring device 5 having a discharge protection circuit, the above-described problem was solved. In addition, an electronic switch circuit SW2 for generating a timer start / stop signal in conjunction with the operation of the illumination switch SW1 is provided. The time is counted from the time when the timer start / stop signal of the electronic switch circuit SW2 is turned on, and is selected in advance. The above-mentioned problem has also been solved by providing the timer device 2 having an automatic light-off circuit for turning off the lighting device Q by generating a time-up output when the predetermined time has been reached. The charging device 6 has a transformer 33 and a rectifier 34 for obtaining electric power from an external power source and converting the electric power into DC power sufficient to charge the battery 1. By introducing the battery 1 while monitoring the charging voltage and current of the battery 1, the above-mentioned problem was also solved. The battery monitoring device 5 has a display device 24 for displaying the remaining power of the battery 1, and introduces an overdischarge cutoff signal from the overdischarge protection circuit 21 to the relay circuit 4 to reduce the power of the lighting device Q. The above-mentioned problem was also solved by shutting off. Further, the timer device 2 includes an oscillator 11, a frequency divider 12 that generates a predetermined frequency division pulse in synchronization with an input signal of the oscillator 11, and a frequency division pulse generated by the frequency divider 12. And a time selector 3 for performing a time-up output when a predetermined time that has been selected in advance is reached. By turning off the LED, the above-mentioned problem was solved. In addition, the above-mentioned problem has been solved by using the battery 1 as a small sealed storage battery.

In the illuminated signboard battery device P according to the present invention, the charging device 6 obtains electric power from a commercial power source, passes through a transformer 33 and a rectifier 34, and supplies a sufficient direct current to charge the battery 1. The power is converted into a power supply, and the power is introduced into the battery 1 while the charging voltage and current of the battery 1 are monitored by the overcharge protection circuit 35. At this time, the overcharge protection circuit 35 operates so that a sufficient current is supplied to the battery 1 when the voltage of the battery 1 is low, and when the battery 1 reaches a specified charging voltage, the overcharge protection circuit 35 operates. Stop charging to prevent overcharging. When the timer start / stop signal is input to the timer device 2 by the electronic switch circuit SW2 which operates in conjunction with the illumination switch SW1, the automatic light-off circuit constituting the timer device 2 starts counting from the time. Is counted, and when the time selected by the time selector 3 is reached, a time-up output signal is introduced into the relay circuit 4, and the lighting device Q is operated so as to be turned off. Make it possible. Then, the battery monitoring device 5 constantly monitors the voltage of the battery 1 while the lighting switch SW1 is turned on, displays the remaining power of the battery 1 on the display device 24, and at the same time, the charging state of the battery 1 is incomplete. In this case, the overdischarge protection circuit 21 introduces an overdischarge cutoff signal into the relay circuit 4 to automatically and forcibly shut off the power to the lighting device Q. Further, the battery P, which is a small sealed storage battery, reduces the weight of the device P itself and frees the user from troublesome maintenance such as checking and replenishing the battery liquid as in the related art.

[0007]

[Embodiment of the invention]

 Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the present invention, as shown in FIG. 4, a lighting device Q in which a lighting device such as an FL20W inverter fluorescent lamp is installed as a roadside illumination signboard is connected to a connector 42 through an insertion plug 41. The present invention relates to a configuration of a unit-type battery device P for an illuminated signboard, which is installed in the illuminated signboard body to turn on an illuminator at, for example, about 12 V. As shown in FIG. 1, the illuminated signboard battery device P includes a battery 1 such as a small sealed lead-acid battery, a timer device 2 for turning off an illuminating device Q when a predetermined time selected in advance is reached, A time selector 3 for performing a time-up output when a predetermined time is reached, a so-called relay circuit 4 which is a relay for opening and closing circuit contacts, and a voltage for monitoring the voltage of the battery 1 only while the lighting switch SW1 is turned on. It comprises a monitoring device 5 and a charging device 6 for charging the battery 1 with an external power supply.

As shown in FIG. 2A, the timer device 2 includes an oscillator 11 for generating an oscillating voltage having a frequency specified by a DC power supply, and a predetermined signal synchronized with an input signal of the oscillator 11. A frequency divider 12 for generating a frequency-divided pulse, and a time-up output for counting the frequency-divided pulses generated by the frequency divider 12 and outputting a time-up output when the counted number is integrated for a predetermined time selected in advance, for example, 1 hour A time selector 3 which can freely set the switching of the terminal from the output terminal 3A to the 10-hour output terminal 3J every one hour by operating the dial D shown in FIG. An electronic switch circuit SW2 that operates in conjunction with the ON / OFF operation of the illumination switch SW1 is connected to the input terminal side of the timer device 2, whereby the electronic switch circuit SW2 (see FIG. 1, see FIG. 3), a timer start / stop signal interlocked with the lighting switch SW1 is input to the timer device 2 and the time is counted from that time, and when a predetermined time which has been selected in advance is reached. A so-called automatic light-off circuit for turning off the lighting device Q by generating a time-up output from the time selector 3 and introducing it to the relay circuit 4 is configured.

As shown in FIG. 2 (b), the battery monitoring device 5 monitors the voltage of the battery 1 while the lighting switch SW1 is turned on, and prevents the battery 1 from discharging more than a specified state. The overdischarge protection circuit 21 that generates an overdischarge cutoff signal and introduces the overdischarge cutoff signal into the relay circuit 4 to cut off the power supply to the lighting device Q is compared with the battery voltage up to a charged state of 50%. It has a 50% voltage comparator 22 and a 100% voltage comparator 23 for comparing the battery voltage up to 100% state of charge. Further, display devices 24 such as red, yellow, and green LEDs for displaying the remaining power of the battery are connected to the overdischarge protection circuit 21, the 50% voltage comparator 22, and the 100% voltage comparator 23, respectively. It is.

As shown in FIG. 2C, the charging device 6 obtains power from an external power supply via a fuse 32 by an AC power supply cord 31 to generate DC power sufficient to charge the battery 1. The transformer 33 and the rectifier 34 for conversion and the sufficient current are supplied to the battery 1 when the voltage of the battery 1 is low, and the charging of the battery 1 is stopped when the battery 1 reaches the specified voltage. An overcharge protection circuit 35 for preventing charging is connected via a transistor 36 and a resistor 37, and the overcharge protection circuit 35 monitors the charging voltage and current of the battery 1 through an output terminal 38. DC power is introduced into the battery 1. In order to prevent an overcurrent to the circuit at the time of recharging, a constant current is applied to the battery 1 so that a constant current always flows by using an IC and a power transistor.

Next, an example of use of the present embodiment will be described. First, as shown in FIGS. 3 and 4, at the start of charging, the lighting switch SW1 on the front panel of the illuminated signboard battery device P is turned off, and the AC power cord on the side panel is turned on. Charging is automatically started by plugging 31 into an outlet. At this time, the display device 24 such as an LED on the front panel confirms charging. To check the amount of charge, turn on the illumination switch SW1 on the front panel, and any of red, yellow, and green on the display device 24 will be lit. It is confirmed that the yellow state indicates a usable state of 50% and the green state indicates a usable state of 100%. Further, when carrying the device to the illuminated signboard side during use, the AC power cord 31 on the side panel may be removed from the outlet and then moved.

Next, as to the lighting method, as shown in FIG. 3 and FIG. 4, the lighting switch SW1 on the front panel of the battery device P for an illuminated signboard is turned off, and the connector 42 on the right side of the front panel is connected to the connector 42. The insertion plug 41 of the lighting device Q is inserted and connected. When setting the lighting time, the dial shown in FIG. 3 is used to switch from the one-hour output terminal 3A to the ten-hour output terminal 3J of the time selector 3 of the illuminated signboard battery device P. If the lighting switch SW1 is turned on after setting the desired position by the operation of D, the electronic switch circuit SW2 is turned on in conjunction with this, and the lighting device Q keeps lighting for a predetermined time. If left in this state, the light is automatically turned off after the time set by the automatic light-off circuit of the timer device 2. When the light is turned off halfway, the illumination switch SW1 may be turned off as it is, and at this time, the electronic switch circuit SW2 is turned off in conjunction with this, and the timer device 2 is reset. If the charging of the battery 1 is incomplete even within the set time, the overdischarge protection circuit 21 of the battery monitoring device 5 works to forcibly turn off the lighting of the lighting device Q. Recharging of the battery 1 which has been forcibly turned off after use and by the operation of the overdischarge protection circuit 21 is performed by moving the illuminated signboard battery device P together with the illuminated signboard to a place having an outlet, and turning on the lighting switch SW1. Turn OFF and charge again. On the other hand, when the illuminated signboard is stationary, after the lighting switch SW1 is turned off, the insertion plug 41 of the illuminating device Q is removed from the connector 42, and the illuminated signboard battery device P is removed from the illuminated signboard. Just bring it to the outlet and recharge it. The battery 1 such as a small sealed lead storage battery may be replaced once every three to four years.

[0013]

[Effect of the invention]

 The present invention is configured as described above. In particular, the power saving design can reduce the weight of the illuminated signage battery device P by, for example, about 30% as compared with the conventional one, and the light switch SW1 is turned off. Prevents the discharge state associated with forgetting, eliminates maintenance of the battery fluid, prevents damage to the battery 1 due to a decrease or leakage of the battery fluid, prevents forgetting to turn on the power switch during charging, and prevents recharging during recharging. Prevent inrush of current into the circuit. In addition, the lighting device Q can be turned on by AC power or DC power depending on the installation conditions. In addition, it automatically turns on when it becomes dark due to optional equipment, etc., and can be turned off after the specified time elapses, and since it has a built-in clock, it can be turned on and off at the specified time, and it is a power saving type and portable It can be.

In addition, the use of the automatic light-off circuit makes it possible to automatically turn off the light after a designated time elapses, thereby preventing a discharge state caused by forgetting to turn off the switch. The use of the overdischarge protection circuit 21, the overcharge protection circuit 35, and the small sealed storage battery can eliminate the maintenance of the battery solution and prevent the battery from being damaged. Furthermore, since charging is started only by plugging the AC power cord 31 into the outlet, it is possible to prevent forgetting to turn on the power switch at the time of charging, and depending on the installation conditions, the battery can be used even with a general outlet (AC power supply). (DC power supply). In addition, it is a power saving type that automatically turns on when it becomes dark due to optional equipment, etc., and can be turned off after a specified time elapses, or can be turned on and off at a specified time by incorporating a clock and It can be portable.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing an embodiment of the present invention.

FIGS. 2A and 2B show circuit elements of the circuit configuration, wherein FIG. 2A is a circuit diagram of a timer device, FIG. 2B is a circuit diagram of a battery monitoring device, and FIG.

3A and 3B show a battery device for an illuminated signboard according to an embodiment of the present invention, wherein FIG. 3A is a front view and FIG. 3B is a side view.

FIG. 4 is a perspective view showing a use state of the present invention.

[Explanation of symbols]

P ... Battery device for illuminated signboard Q ... Lighting device 1 ... Battery 2 ... Timer device 3 ... Time selector 4 ... Relay circuit 5 ... Battery monitoring device 6 ... Charging device 11 ... Oscillator 12 ... Divider 21 ... Over discharge protection Circuit 22 50% voltage comparator 23 100% voltage comparator 24 Display device 31 AC power cord 32 Fuse 33 Transformer 34 Rectifier 35 Overcharge protection circuit 36 Transistor 37 Resistor 38 Output terminal 41 ... Plug plug 42 ... Connector

Claims (8)

[Utility model registration claims] At the time of charging, a built-in battery is charged by an external power supply via a built-in charging device, and when the illuminated signboard is lit, the battery is connected to a lighting device incorporated in the illuminated signboard itself and illuminated by the battery. In a battery device for an illuminated signboard that turns on the device, the charging device includes:
A battery device for an illuminated signboard, comprising: an overcharge protection circuit that supplies a sufficient current to the battery when the battery voltage is low and stops charging the battery when the battery reaches a specified voltage. . 2. A battery built in is charged by an external power supply via a built-in charging device during charging, and is illuminated by the battery when the illuminated signboard is lit by being connected to a lighting device incorporated in the illuminated signboard itself. In the illuminated signage battery device that turns on the device, while the battery is connected to the lighting device, the battery voltage is monitored while the lighting switch is turned on, and a discharge state of the battery exceeding a specified level is prevented. A battery device for an illuminated signboard, comprising: a battery monitoring device having an overdischarge protection circuit that shuts off power to the lighting device by generating an overdischarge cutoff signal. 3. A charging device, wherein a built-in battery is charged by an external power supply via a built-in charging device, and a lighting device built in the lighting device itself is connected to the lighting device when the lighting device is turned on. In a battery device for an illuminated signboard that turns on the device, the illuminated signboard battery device has an electronic switch circuit that generates a timer start / stop signal in conjunction with the operation of an illumination switch. A timer device comprising an automatic extinguishing circuit that turns off the lighting device by counting the time from the time of inputting the timer start / stop signal and generating a time-up output when reaching a predetermined time selected in advance. A battery device for an illuminated signboard. 4. The charging device has a transformer / rectifier that obtains power from an external power source and converts the power into DC power sufficient to charge the battery, and the DC power is supplied to the battery by the overcharge protection circuit. The battery device for an illuminated signboard according to claim 1, wherein the battery device is introduced into the battery while monitoring the charging voltage / current. 5. The battery monitoring device according to claim 1, further comprising a display device for displaying a remaining power of the battery, wherein the power of the lighting device is cut off by introducing an overdischarge cutoff signal from the overdischarge protection circuit to a relay circuit. The battery device for an illuminated signboard according to claim 2, wherein: 6. The timer device includes an oscillator, a frequency divider that generates a predetermined frequency-divided pulse in synchronization with an input signal of the oscillator, and a frequency-divided pulse generated by the frequency divider. And a time selector for performing a time-up output when a predetermined time has been reached, wherein the time-out output by the automatic light-off circuit is introduced into a relay circuit to turn off the lighting device. The battery device for an illuminated signboard according to claim 3. 7. The battery device for an illuminated signboard according to claim 1, wherein the battery is a small sealed storage battery. 8. When charging, the built-in battery is charged by an external power supply via a built-in charging device, and when the illuminated signboard is lit, it is connected to a lighting device incorporated in the illuminated signboard itself and illuminated by the battery. In a battery device for an illuminated signboard that lights up the device, the charging device is overcharged so that sufficient current is supplied to the battery when the battery voltage is low and charging of the battery is stopped when the battery reaches a specified voltage. A protection circuit that monitors the battery voltage while the lighting switch is turned on and generates an overdischarge cutoff signal to prevent the battery from discharging beyond a specified level. A battery monitoring device with a protection circuit and a timer for the electronic switch circuit linked to the operation of the lighting switch A timer device configured with an automatic light-off circuit that turns off the lighting device by generating a time-up output when the time is counted from the start / stop signal input time and reaches a predetermined time selected in advance. A battery device for an illuminated signboard.