KR20070099262A - Rechargable romote controller - Google Patents

Abstract

A rechargeable remote controller is provided to be semi-permanently used by enabling a user to charge easily a Lithium ion polymer battery without other special charging device, to solve inconvenience caused by frequent exchanges, and to prevent environmental pollution caused by wasted batteries. A rechargeable remote controller comprises an inputting terminal(10), a current controller(20) and a Lithium ion polymer battery(30). The inputting terminal(10), formed at a lower side of a case(3), receives current from a power charging jack of an electronic device through a cable. The current controller(20) controls the current supplied through the inputting terminal(10). The Lithium ion polymer battery(30) includes Lithium ion polymer(31) which is charged with the current controlled by the current controller(20) and covers a silver foil pouch around the surface of the Lithium ion polymer.

Description

Rechargeable Remote Controller {Rechargable romote controller}

1 is a front view of the rechargeable remote control of the present invention.

Figure 2 is a side cross-sectional view of the rechargeable remote control of the present invention.

Figure 3 is a state of charge of the rechargeable remote control an embodiment of the present invention.

Figure 4 is a flow chart of the operation of the rechargeable remote control of the present invention.

* Description of Symbols for Major Symbols in Drawings *

1: Keypad 2: Charging Indicator

3: case 4: circuit board

5: infrared ray transmitting part 6, 6 ': electric wire

7: cable 8: power charging jack

9: electronic device 10: input terminal

20: current control unit 30: lithium ion polymer battery

31 lithium ion polymer 32 silver foil pouch

33: epoxy 50: rechargeable remote control

The present invention relates to a rechargeable remote control, and more particularly, to a built-in rechargeable lithium-ion polymer battery and to form an input terminal for charging, to the inconvenience caused by damage caused by shock and frequent replacement of batteries and waste batteries The present invention relates to a rechargeable remote controller that not only prevents environmental pollution caused by the product, but also miniaturizes a product and creates various designs.

In general, a remote control used to remotely control various electronic devices has been used by inserting a battery, but such a remote control has caused inconvenience in purchasing cost and replacement due to battery consumption, and a power supply unit for accommodating the battery Not only has a problem that must be provided separately, there is a problem that corrosion occurs in the power unit when the battery is used for a long time and the cap formed in the power unit is damaged when an impact occurs.

Therefore, in recent years, a remote controller using solar cells as a power has been developed. However, since a remote controller using the solar cells as described above has a small solar panel compared to a rechargeable battery inserted therein, the remote control is virtually impossible to charge indoors. Even though the power conversion efficiency is low as an average of 8%, there was a problem that the battery should be left outside for a long time when charging, which was not actually used.

Due to the problems as described above, the situation is required to develop a rechargeable remote control easy to charge.

The rechargeable remote control according to the present invention can be easily charged without a separate charging device by connecting a cable to a power charging jack formed on various electronic devices and an input terminal formed on a remote control to charge a battery built in the remote control, and is a secondary battery lithium. By using the ion polymer, not only the economic effect of the semi-permanent use can be seen, but also the purpose of preventing the inconvenience caused by frequent replacement and environmental pollution by the waste battery in advance.

In another object of the present invention, by adopting a method in which a lithium ion polymer, which is a secondary battery, is built in a remote controller, a compact and diverse design of a product can be created, and a rechargeable remote controller has an advantage of reducing damage caused by an impact. It is.

 Rechargeable remote control of the present invention for achieving the above object is formed on the lower side of the case and the input terminal to receive the current through the cable from the power charging jack of the electronic device, to control the current supplied through the input terminal A lithium ion polymer is formed of a current control unit and a lithium ion polymer in which a current controlled by the current control unit is charged, and the outside of the lithium ion polymer is silver pouched.

Looking at the configuration of the rechargeable remote control of the present invention for solving the above problems are as follows.

1 is a front view of the rechargeable remote control of the present invention, Figure 2 is a side cross-sectional view of the rechargeable remote control of the present invention, Figure 3 is a state of charge of the rechargeable remote control of an embodiment of the present invention, Figure 4 is a rechargeable remote control of the present invention The operation flow chart will be described together.

The rechargeable remote controller 50 according to the present invention includes a case 3 having a keypad 1 and a charging indicator 2, a circuit board 4 connected to the keypad 1, and the keypad 1. Infrared transmission unit 5 for transmitting a signal stored in the microcomputer to the infrared through the circuit board 4 by pressing the button of (), and an input terminal 10 formed at the lower side of the case 3 to receive the current; A current control unit 20 is connected to the input terminal 10 and the wire 6 to control a supplied current, and a lithium ion polymer battery 30 receives and charges a controlled current from the current control unit 20. It is composed of

The input terminal 10 is formed on the lower side of the case 3 to receive the current transmitted from the power charging jack 8 formed in the electronic device 9 through the cable (7).

The electronic device 9 may be a computer, an SVR (Satellite Video Receiver), a cable box, a mobile phone charger, an air conditioner, a fan, or the like.

In addition, the current control unit 20 is connected to the input terminal 10 and the wire 6 is to stably control the current delivered from the electronic device (9).

The current control unit 20 only accepts 2.4 to 4.3V so as not to adversely affect the rechargeable remote control 50, it is preferable to block other low current and over current.

In addition, the lithium ion polymer battery 30 is attached to the back of the circuit board 4, the lithium ion secondary battery to charge the controlled current through the current control unit 20 is connected to the wire (6 '). A polymer 31 is formed, and the outside is stacked with a silver foil pouch 32 so that the lithium ion polymer 31 is not leaked.

In addition, the lithium ion polymer battery 30 is preferably molded with epoxy 33 which is a rubber material for complete fixing and leakage prevention.

Looking at the operation according to the configuration as described above are as follows.

The operation method of the rechargeable remote controller is the same as the remote controller generally used, and the matters regarding the lithium ion polymer battery are described below.

First, when the lithium ion polymer battery 30 is discharged and needs to be charged, the charging indicator 2 formed in the case 3 of the rechargeable remote controller 50 blinks in red.

When the charging indicator 2 blinks in red as described above, the pre-equipped cable 7 is connected to the input terminal 10 formed under the case 3, and the opposite side of the cable 7 is connected to the electronic device 9. By connecting to the power charging jack 8 formed in the), it is possible to transmit the current from the electronic device 9 to the input terminal 10 through the cable (7).

As described above, the electric current transmitted from the electronic device 9 to the input terminal 10 through the cable 7 is transmitted in an inconsistent state. As described above, the inconsistent current is transmitted to the input terminal 10 and the wire. By controlling the current control unit 20 connected by the (6) stably the lithium ion polymer battery (2.4) through only the electric wire (6 ') that is a current that can be stably charged the lithium ion polymer battery (30) (6') 30) and other low currents and overcurrents can be blocked to prevent damage to the lithium ion polymer battery 30.

Thereafter, the current delivered to the current control unit 20 is transferred to the lithium ion polymer 31 in which an electrolytic material is in a polymer state, so that the lithium ion polymer battery 30 is charged, and the case is completed. The charging indicator (2) formed in the (3) is a blue light is turned on to inform the completion of the charge by the user confirms the state of charge and by removing the cable (7) connected to the electronic device (9) and the input terminal (10) The rechargeable remote controller 50 can be easily used.

In addition, since the rechargeable remote controller 50 has a small power consumption of about 20 mA per use, the capacity of the lithium ion polymer battery 30 used in the rechargeable remote controller 50 can be used in a small size of 120 mAh. Therefore, the charging time is very short as 15 minutes and has a long service life of about 6 months, so it is easy to charge, and it is easy to use during charging because it can be connected by a cable (7). Since it can be used up to 1000 times, it can be used semi-permanently, thus preventing the occurrence of expenses due to battery purchase or environmental pollution by waste batteries.

In addition, the outer surface of the lithium ion polymer battery 30 is surrounded by a silver foil pouch 32 to prevent leakage of the lithium ion polymer 31 in an electrolyte polymer state, and the lithium ion polymer battery 30 is circuited. By attaching to the back of the substrate 4 and molding with a rubber epoxy 33, not only a complete sealing process is possible, but also a method of embedding a light and small lithium ion polymer battery 30 into the rechargeable remote controller 50 is used. As a result, the product can be miniaturized, and accordingly, various designs can be made, and since a separate battery storage unit is not required, less damage occurs when an impact such as dropping occurs.

As described above, the rechargeable remote controller 50 of the present invention can provide an excellent remote controller in various aspects by using the lithium ion polymer battery 30, and is particularly efficiently used for an air conditioner or a fan, which is a seasonal product. Can lose.

The rechargeable remote controller according to the present invention can be easily charged without a separate charging device by connecting a cable to a power charging jack formed on various electronic devices and an input terminal formed on the remote controller and charging a battery built in the remote controller, and is a rechargeable battery lithium ion. By using the polymer, not only the economic effect of the semi-permanent use can be seen, but also there is an advantage of preventing the inconvenience caused by frequent replacement and environmental pollution by the waste battery in advance.

In addition, since the lithium ion polymer, which is a secondary battery, is adopted in a remote controller, it is possible to reduce the size and various designs of the product and to reduce damage caused by impact.

Claims (2)

In the remote control for remote control of various electronic devices by transmitting a signal stored in the microcomputer to the infrared transmitter through a button press of the keypad combined with the case, An input terminal 10 formed at a lower side of the case 3 to receive a current from the power charging jack 8 of the electronic device 9 through the cable 7; A current controller 20 for controlling a current supplied through the input terminal 10; The lithium ion polymer 31 is configured to charge the current controlled by the current control unit 20, and the lithium ion polymer battery 30 is formed by treating the outside of the lithium ion polymer 31 with silver foil pouches 32. Rechargeable remote control featuring features. The method of claim 1, The lithium ion polymer battery 30 is a rechargeable remote control, characterized in that molded with epoxy (33).

Images