KR20140099085A - Charge apparatus of tire pressure monitoring system - Google Patents

Abstract

The present invention relates to a battery charging device for a tire pressure monitoring system (TPMS), including a tire pressure sensor module equipped with a rechargeable battery therein and installed on a tire rim, the tire pressure sensor being driven by the battery to detect a tire pressure and output it to an external device; a charging power converting unit for receiving a charging signal from the outside to generate an induction current in an electromagnetic induction manner; and a voltage and current regulating circuit for performing voltage and current regulation on the induction current generated by the charging power converting unit and providing it to the battery built in the tire pressure sensor module, so that the battery is charged. The sensor module for monitoring the tire pressure is equipped with the rechargeable battery and the charging device, and the rechargeable battery of the sensor module is wirelessly charged by a portable charging signal supply device supplying the charging signal.

Description

TECHNICAL FIELD [0001] The present invention relates to a battery charging apparatus for a tire pressure monitoring system,

The present invention relates to a battery charging apparatus for a tire pressure monitoring system, and more particularly, to a battery charging apparatus for a tire pressure monitoring system, in which a rechargeable battery and a charging apparatus are built in a sensor module for monitoring tire pressure, Thereby enabling the rechargeable battery of the sensor module to be charged wirelessly.

Recently, a tire pressure monitoring system (TPMS) has been developed to check the condition of a tire directly related to the safety of the vehicle and to measure the pressure of the tire in advance to prepare for a serious situation. TPMS is a system that detects the pressure and temperature by a sensor attached to a tire and sends the data to the front of the driver in real time so that the driver can check the pressure of the tire in real time.

This TPMS is designed to enable the driver to check the pressure of the tire in real time by wirelessly transmitting the information to the driver's seat after sensing the pressure and temperature of the tire with an RFID sensor attached to the tire.

However, due to the structural problem that the tire keeps rotating during driving, the battery of the TPMS is manufactured integrally with the transmission module, and it is not easy to charge the battery when charging the battery. Accordingly, there is a problem that the life of the tire pressure monitoring system is determined according to the battery life.

Korean Patent Laid-Open No. 10-2008-0018507: Battery charging device of tire pressure monitoring system

The present invention has been conceived in order to solve the above-mentioned problems, and it is an object of the present invention to provide a rechargeable battery of a sensor module by using a portable rechargeable signal supplying device for incorporating a rechargeable battery and a recharging device into a sensor module for monitoring tire pressure, There is a technical problem to provide a battery charging apparatus of a tire pressure monitoring system which enables charging by radio.

According to an aspect of the present invention, there is provided a tire pressure sensor module comprising: a tire pressure sensor module installed in a tire rim to incorporate a rechargeable battery therein and to detect tire pressure and provide the tire pressure to an external device; A charging power converter for receiving a charging signal from the outside and generating an induction current by an electromagnetic induction method; And a static pressure and rectifying circuit unit for supplying the rechargeable battery built in the tire pressure sensor module with the induction current generated in the rechargeable power conversion unit by static pressure and rectification and thereby charging the rechargeable battery, A battery charging device of the system is provided.

Here, the mobile communication terminal may further include a loop coil antenna for receiving the charging signal and transmitting the charging signal to the charging power converter.

According to another aspect of the present invention, there is provided a tire pressure sensor module installed in a tire rim, the tire pressure sensor module being installed in a tire rim so as to be able to be charged by a rechargeable battery, The tire pressure monitoring system according to claim 1, further comprising: a charge signal generator for receiving a power from the outside to generate a charge signal of a frequency band capable of charging the battery; a charge signal amplifier for amplifying the charge signal; A charging signal supply device including a loop coil antenna for outputting a charged signal; And a charging power source converting unit for generating an induction current by an electromagnetic induction method for receiving the charging signal outputted from the loop coil antenna, And a charging device having a static pressure and rectifying circuit part for supplying the rechargeable battery with the rechargeable battery built in the rechargeable battery, thereby allowing the rechargeable battery to be charged.

The sensor module may include a power source control unit for controlling the power source supplied to the rechargeable battery to charge the rechargeable battery and supplying the power from the rechargeable battery to each unit configuration of the sensor module.

The charging signal supply device may include a battery for supplying power to the charging signal generating unit.

According to another aspect of the present invention, there is provided a charging apparatus comprising: a charging signal generator for generating a charging signal of a frequency band from which an external power source can be charged to charge the battery; A charge signal amplifying unit for amplifying the charge signal; And a loop coil (Loop Coil) antenna for outputting the amplified charge signal so that an induction current is generated in a reception side loop coil (Loop Coil).

As described above, the battery charging device of the tire pressure monitoring system of the present invention includes a rechargeable battery and a charging device in a sensor module for monitoring the tire pressure, and can charge the battery wirelessly using a charging signal generated from the outside .

In addition, the battery charging device of the tire pressure monitoring system of the present invention can provide convenience of use by wirelessly charging the battery of the sensor module for monitoring the tire pressure.

In addition, the battery charging apparatus of the tire pressure monitoring system of the present invention can extend the service life of the tire pressure monitoring system by allowing the battery of the sensor module for monitoring the tire pressure to be repeatedly charged.

1 is a block diagram of a tire pressure monitoring system,
2 is a control block diagram of a battery charging apparatus of a tire pressure monitoring system according to an embodiment of the present invention,
3 is a schematic circuit configuration diagram of a battery charging apparatus of a tire pressure monitoring system according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description with reference to the accompanying drawings, the same or corresponding components will be denoted by the same reference numerals, and redundant description thereof will be omitted.

1 is a block diagram of a tire pressure monitoring system (TPMS).

1, the tire pressure monitoring system includes a sensor module 200 mounted on inner rings of four tires for sensing a state of a tire, an initiator 140 for waking up each sensor module 200, A receiver 120 for receiving data from the sensor module 200, and a display device 100 for displaying the status of each tire through information received by the receiver 120.

The receiver 120 controls the respective initiators 140 to wake up the sensor module 200 mounted in each tire to receive the internal pressure / temperature information of each tire from each sensor module 200 And displays the state of each tire through the display device 100 through the received information to inform the driver.

The sensor module 200 includes sensing means for sensing pressure, temperature, and acceleration of the tire, transmission means for wirelessly transmitting sensor information such as tire pressure, temperature, and acceleration sensed through the sensing means, And a battery 220 for supplying power necessary for operation of the battery 200.

The sensor module 200 according to an embodiment of the present invention includes a battery 220 for driving the sensing means and the transmitting means and a charging device 210 for charging the battery 220. The battery 220 Can be semi-permanently supplied with driving power by wirelessly charging using a charging signal supplied from the outside.

2 is a control block diagram of a battery charging apparatus of a tire pressure monitoring system according to an embodiment of the present invention.

2, the battery charging apparatus of the tire pressure monitoring system includes a charging signal supply device 300 for supplying a charging signal for charging the battery 220, and a sensor module 300 for charging the battery power by receiving a charging signal 200).

The charging signal supply apparatus 300 includes a power input unit 310, a charging signal generator 312 for receiving power from the power input unit 310 to generate a signal of a chargeable frequency band, And a charge signal transmitter 316 for transmitting the amplified charge signal to the sensor module 200. [ The charge signal transmitter 316 is implemented by a loop coil type antenna and supplies a charge signal to the sensor module 200 side.

According to this configuration, the charging signal supply apparatus 300 receives power from the power input unit 310 and outputs a charging signal through a loop coil type antenna to generate an electromagnetic field, So that the charging power can be generated.

The charging signal supply device 300 may be configured to be portable, and may be configured to receive a commercial power source, a power source of the vehicle, or a built-in battery to transmit a charging signal. Therefore, it is not necessary to move the vehicle to a specific position for charging, and the user can carry the charge signal supply device 300 directly to charge the battery 220 of the tire pressure monitoring system when necessary.

The sensor module 200 includes a power supply control unit 230 for supplying driving power of the battery 220 to the TPMS control circuit 240 and a power supply control unit 230 for receiving a charging signal from the charging signal supply device 300, And a charging device 210 for supplying charging power of the battery 220. [

The charging apparatus 210 includes a charging signal receiving unit 212 for receiving a charging signal from the charging signal supplying apparatus 300, a charging power converting unit 214 for converting the charging signal into electric power, and a rectifying unit 216 .

The charging signal receiving unit 212 may include a loop coil antenna that forms a magnetic field based on a charging signal generated in the charging signal supplying apparatus 300.

The charging power conversion unit 214 may include an induction coil for generating an induction current in response to a change in the magnetic field generated by the charging signal receiving unit 212. The rectifying unit 216 may include an induction coil And rectifies the current to direct current to supply the charging power of the battery 220. [

3 is a schematic circuit configuration diagram of the charging device 210 in the embodiment of the present invention.

3, the recharging power conversion unit 214 includes a magnetic field generating coil C1 that forms a magnetic field in response to the charging signal received by the charging signal receiving unit 212 and a magnetic field generating coil C1 that is generated by the magnetic field generating coil C1. And an induction coil C2 for generating an induction current according to the change.

The induced current is rectified to a DC having a constant voltage by the rectifying part 216 and is output to the power control part 230. [ The rectifier 216 includes a rectifier diode D1 for rectifying the induction current generated in the induction coil C2 and a rectifier diode D1 for rectifying the induction current generated in the induction coil C2 through the induction coil C2, A zener diode D2 for interrupting the overvoltage and a capacitor C0 for smoothing the current rectified by the rectifier diode D1.

As described above, the charging signal supply device 300 operates as an AC radio wave generator that outputs a charging signal through the loop antenna when the power is supplied to supply the charging signal to the sensor module 200, and the sensor module 200 charges The battery 220 is charged using a loop coil that generates an induced current according to a signal.

Accordingly, the present invention can provide a simple configuration to charge a battery of a tire pressure monitoring system wirelessly, thereby providing convenience in implementation and use of the system. In addition, the present invention can extend the service life of the tire pressure monitoring system by allowing the battery of the sensor module for monitoring tire pressure to be charged repeatedly.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Display device 200: Sensor module
210: Charging device 212: Charging signal receiver
214: charging power converting section 216: rectifying section
220: Battery 230: Power control unit
240: TPMS control circuit 300: Charging signal supply device
310: Power input unit 312: Charge signal generator
314: Charging signal amplifying unit 316: Charging signal transmitting unit

Claims (6)

A tire pressure sensor module installed in the tire rim so as to be able to charge the inside of the rechargeable battery and to be driven by the rechargeable battery to detect the tire pressure and provide it to an external device;
A charging power converter for receiving a charging signal from the outside and generating an induction current by an electromagnetic induction method; And
A tire pressure monitoring system including a static pressure and rectification circuit unit for supplying the rechargeable battery built in the tire pressure sensor module and for charging the rechargeable battery by static pressure and rectification of the induction current generated by the rechargeable power conversion unit, Of the battery charger.
The method according to claim 1,
And a loop coil antenna for receiving the charging signal and transmitting the charging signal to the charging power conversion unit.
A tire pressure monitoring system, comprising: a rechargeable rechargeable battery; a tire pressure sensor module mounted on the tire rim, the tire pressure sensor being driven by the rechargeable battery to detect a tire pressure and provide the detected tire pressure to an external device,
A charging signal generator for receiving a power from the outside and generating a charging signal of a frequency band capable of charging the battery, a charging signal amplifier for amplifying the charging signal, and a loop coil for outputting the amplified charging signal Loop Coil) antenna; And
A charging power converter for generating an induction current by an electromagnetic induction method for receiving the charging signal outputted from the loop coil antenna; and a control unit for controlling the induction current generated by the charging power converter, And a charging device that is provided with the built-in rechargeable battery and thereby has a static pressure and rectifying circuit portion for charging the rechargeable battery.
The method of claim 3,
The sensor module includes:
And a power controller for controlling the power supplied to the rechargeable battery to charge the rechargeable battery and supplying the power from the rechargeable battery to each sub component of the sensor module.
The method of claim 3,
The charging signal supply device includes:
And a battery for supplying power to the charge signal generating unit.
A charge signal generator for generating a charge signal in a frequency band from which an external power source can be charged to charge the battery;
A charge signal amplifying unit for amplifying the charge signal; And
And a loop coil (Loop Coil) antenna for outputting the amplified charge signal so that an induction current is generated in a reception side loop coil (Loop Coil)

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