KR20070053473A - Automobile tire air pressure and temperature measurement device using no-power RFID tag - Google Patents

Abstract

The present invention relates to an automobile tire air pressure measuring apparatus using a non-powered RFID tag.

A tire pressure measuring device installed inside a tire of the present invention, the RFID tag storing an identification ID and data of the air pressure measuring device; An antenna for transmitting and receiving a signal of the RFID tag; A switch electrically connecting the RFID tag and an antenna; Compressed air for pushing the switch to a constant pressure; A pressure sensor in which air is stored to operate the switch; And a housing including the RFID tag, an antenna, a first connection line, a second connection line, a switch, compressed air, and a pressure sensor therein.

Therefore, the apparatus for measuring a tire pressure of an automobile using the non-powered RFID tag of the present invention is provided with an RFID tag and thus can be manufactured in a compact form without a battery. There is an advantage that can be attached to the air pressure measuring device, it is possible to configure the critical pressure differently by adjusting the amount of compressed air of the tire air pressure measuring device, and different critical temperature according to the material of the elastic material of the tire temperature measuring device Since it can be configured, there is an effect that it can be mounted on tires of different air pressures.

RFID tag, antenna, pressure, temperature, switch, compressed air

Description

An air pressure measurement apparatus of an automobile tire using non-electric power RFID Tag}

1 is a block diagram showing a tire pressure measuring apparatus according to a first embodiment of the present invention,

2 is a block diagram showing a tire temperature measuring apparatus according to a second embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100, 200: RFID tag, 110, 210: antenna,

120, 220: first connection line, 130, 230: second connection line,

140: compressed air, 150, 240: switch,

160: pressure sensor, 170, 260: housing,

180, 270: tire, 250: elastic

The present invention relates to an automobile tire pressure measuring apparatus using a non-powered RFID tag, and more particularly, a switch having an elastic body that changes in pressure sensor and temperature by separating a RFID tag and an antenna and attaching a connection line to each RFID tag and an antenna. It relates to a tire pressure measuring device for transmitting and receiving a signal by the connection of.

The car tire is the only part where the road surface is in contact with the car, and supports the load of the car, transmits the driving force and the braking force of the car to the road surface, and functions to alleviate the impact from the road surface and change or maintain the direction of the car. If the air pressure injected into the tire is higher than the prescribed pressure, a trapping phenomenon occurs during driving, resulting in poor ride comfort and faster tire wear.

In addition, when the air pressure of the tire is lower than the specified pressure, the steering of the vehicle is reduced, the risk of causing a safety accident and the fuel economy is also low, so the tire of the car must always maintain the prescribed pressure.

However, current tire pressure measuring device is equipped with many devices such as temperature sensor, pressure sensor, microcomputer for controlling RF signal, RF transceiver, and battery for measuring tire pressure. Although a transmission method is used, there is a disadvantage in that the conventional technology does not know which tire pressure is abnormal only by generating a warning sound by checking an abnormal tire pressure.

In addition, the tire pressure measuring device installed inside the tire requires a power source for signal generation and processing, but in many applications, such power supply is often difficult and cumbersome.

Accordingly, the present invention is to solve all the disadvantages and problems of the prior art as described above, in the present invention by actively attaching a switch between the antenna circuit, the resonant circuit, the capacitor and the RFID transceiver of the RFID tag to operate the RFID tag actively The purpose is to measure the pressure and temperature inside a car tire.

In addition, the present invention registers the ID of the RFID tag mounted on the car tire to the RFID reader, and when replacing the car tire by registering the identification ID of the RFID tag of the new tire to the RFID reader, abnormality in the car tire air pressure In case of occurrence, the identification ID of each tire is used to determine the position of the abnormality of the tire at which position.

In addition, the present invention is configured by differently configuring the critical pressure of the tire pressure measuring device and the tire temperature measuring device to be mounted on a car tire, the object that can be attached to the tire with a different tire air pressure.

The object of the present invention is a tire pressure measuring device installed inside the tire, RFID tag for storing the identification ID and data of the air pressure measuring device; An antenna for transmitting and receiving a signal of the RFID tag; A switch electrically connecting the RFID tag and an antenna; Compressed air for pushing the switch to a constant pressure; A pressure sensor in which air is stored to operate the switch; And a housing including the RFID tag, an antenna, a first connection line, a second connection line, a switch, compressed air, and a pressure sensor therein.

Details of the above object and technical configuration of the present invention and the effects thereof according to the present invention will be more clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

1 is a block diagram showing a tire pressure measuring apparatus according to a first embodiment of the present invention. Referring to FIG. 1, one side of the housing 170 of the tire 180 pressure measuring device is provided with a passive RFID tag 100 storing an identification ID and data, and the other inside the housing 170. The antenna 110 is provided on the side. The first connection line 120 made of metal is connected to the RFID tag 100, and the second connection line 130 made of metal is connected to the antenna 110.

The housing 170 is made of a flexible material that can be mounted in the tire 180.

In addition, the first connection line 120 and the second connection line 130 are spaced at a predetermined interval, and the lower portion therebetween for electrically connecting the first connection line 120 and the second connection line 130. The switch 150 is provided.

An operating mechanism for connecting the switch 150 with the first connection line 120 and the second connection line 130 is formed as the pressure sensor 160 under the switch 150. The pressure sensor 160 contains a predetermined gas that is sensitive to pressure, so that the gas inside is compressed at a high pressure and the gas inside is expanded at a low pressure.

Accordingly, at the proper pressure in the tire 180, the pressure sensor 160 contracts and the compressed air 140 on the switch 150 pushes the switch 150 so that the switch 150 is connected to the first connection. It is disconnected from the (120) line and the second connection line (130).

However, when the air pressure of the tire 180 is lowered, the gas in the pressure sensor 160 expands with a force greater than the pressure pushed by the compressed air 140 above the switch 150 to open the switch 150. By pushing upwards, the first connection line 120 and the second connection line 130 are electrically connected to each other.

The RFID tag 100 electrically connected to the antenna 110 generates a power by receiving a signal transmitted from an external RFID reader, and generates the power and stores the identification ID and data stored in the RFID tag 100 with the generated power. Informing the RFID reader that the tire air pressure is lowered.

1 is only an embodiment of the present invention, the first connection line 120 and the second connection line 130 may be selectively provided. That is, according to another exemplary embodiment of the present invention, the switch 150 may be directly switched to the RFID tag 100 and the antenna 110 without the first connection line 120 and the second connection line 130. have.

2 is a block diagram showing a tire temperature measuring apparatus according to a second embodiment of the present invention. Referring to FIG. 2, an RFID tag 200, an antenna 210, a first connection line 220, a second connection line 230, and a housing 260 having the same function as that of FIG. 1 are provided. A switch 240 made of a metallic material, which is a conductive material, is provided below the first connection line 220 and the second connection line 220 to switch the first connection line 220 and the second connection line 230. In addition, an elastic material 250 is provided on a contact surface of the lower portion of the switch 240.

The elastic material 250 is a material deformed according to the temperature inside the tire 270, and expands when the temperature inside the tire 270 rises, and is restored when the temperature inside the tire 270 decreases. .

Therefore, when the temperature rises due to the high pressure inside the tire 270, the elastic material 250 is expanded so that the switch 240 on the upper side of the first connection line 220 and the second connection line 230. When the temperature inside the tire 270 decreases, the elastic material 250 is restored so that the switch 240 disconnects the first connection line 220 and the second connection line 230.

2 is only an embodiment of the present invention, the first connection line 220 and the second connection line 230 may be selectively provided. That is, according to another embodiment of the present invention, the switch 240 is not provided with the first connection line 220 and the second connection line 230 to be directly switched to the RFID tag 200 and the antenna 210. Can be.

In addition, according to Figures 1 and 2, even if the lower surface of the tire in contact with the road during the operation of the vehicle is pressured by the load of the vehicle, since the pressure on the lower side and the upper side of the inside of the tire is the same, the pressure due to the vehicle load Does not affect the vehicle tire pressure measurement apparatus using the RFID tag of the present invention.

The present invention has been shown and described with reference to the preferred embodiments as described above, but is not limited to the above embodiments and those skilled in the art without departing from the spirit of the present invention. Various changes and modifications will be possible.

Therefore, the apparatus for measuring a tire pressure of an automobile using the non-powered RFID tag of the present invention is provided with an RFID tag and thus can be manufactured in a compact form without a battery. There is an advantage that can be attached to the air pressure measuring device, it is possible to configure the critical pressure differently by adjusting the amount of compressed air of the tire air pressure measuring device, and different critical temperature according to the material of the elastic material of the tire temperature measuring device Since it can be configured, there is an effect that it can be mounted on tires of different air pressures.

Claims (9)

In the tire pressure measuring device installed inside the tire, An RFID tag storing an identification ID and data of the air pressure measuring device; An antenna for transmitting and receiving a signal of the RFID tag; A switch electrically connecting the RFID tag and an antenna; Compressed air for pushing the switch to a constant pressure; A pressure sensor in which air is stored to operate the switch; And A housing including the RFID tag, antenna, switch, compressed air and pressure sensor therein Automobile tire pressure measuring device configured to include. The method of claim 1, The RFID tag is a vehicle tire pressure measuring apparatus using a passive method. The method of claim 1, The pressure sensor is contracted at the normal pressure of the tire so that the switch does not connect the RFID tag and the antenna of the automobile tire pressure measuring device. The method of claim 1, The pressure sensor is inflated when the low pressure of the tire car tire pressure measuring device for connecting the RFID tag and the antenna. The method of claim 1, The compressed air is a vehicle tire pressure measuring device that can be used for different types of normal pressure of the car tire by adjusting the force to push the switch in accordance with the amount of compressed air. In the tire temperature measuring device installed inside the tire, An RFID tag storing an identification ID and data of the air pressure measuring device; An antenna for transmitting and receiving a signal of the RFID tag; A switch electrically connecting the RFID tag and an antenna; An elastic material which is positioned under the switch and is deformed by a temperature change; And A housing including the RFID tag, an antenna, a switch, and an elastic material therein Automobile tire temperature measuring device configured to include. The method of claim 6, The RFID tag is a vehicle tire temperature measuring apparatus using a passive method. The method of claim 6, The deformation of the elastic material is expanded when the temperature rises to connect the RFID tag and the antenna and restored when the temperature is lowered, the car tire temperature measuring apparatus for releasing the connection between the RFID tag and the antenna. The method of claim 6, The elastic material is a car tire temperature measuring apparatus using a non-powered RFID tag that changes the size of the temperature shrinkage by temperature depending on the material and shape of the configuration.

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