KR20200100313A - Rfid tag reader for safety maintenance of water pipe - Google Patents

Abstract

According to the present invention, provided is an RFID tag for safety maintenance of a water pipe, which provides an active RFID tag activated in a standby state and uses internal battery power only when the active RFID tag records detection data received from a sensor in order to minimize the use of internal battery in the RFID tag for safety maintenance of a water pipe. When transmitting information stored in the RFID tag with an RFID reader, the power of the RFID reader is used, so that the power of the RFID tag can be efficiently managed.

Description

RFID tag for safety management of water pipes {RFID TAG READER FOR SAFETY MAINTENANCE OF WATER PIPE}

The present invention relates to an RFID tag for safety management of water supply pipes installed in a manhole, and more specifically, it is possible to periodically detect and store an abnormality in a water supply pipe within the manhole, and then transmit it to an RFID reader. It relates to an RFID tag for safety management of water supply pipes that can be used for a long time by reducing power consumption.

In general, various facilities such as water supply, sewage, electricity, gas, communication, oil supply, cooling and heating are buried underground in urban areas. In addition, manholes are installed for the purpose of entering, withdrawing and connecting these facilities, installing repeaters, and inspecting pipelines.

Since these underground facilities are not exposed to the ground after the facilities, information on facilities such as buried locations and types cannot be confirmed on the ground, so a plan to efficiently repair and manage underground facilities is required.

Recently, technologies have been developed that can be used to prevent road excavation, various disasters, and safety accidents by establishing a DB for underground facilities as a core infrastructure for public life safety.

In the era of the 4th revolution and in order to revitalize ICT and IOT projects, the establishment of a DB for underground facilities has emerged to operate and manage various facilities through RFID (Radio Frequency IDentification) tags or information communication devices.

Korean Patent Registration No. 10-1353614 discloses a technology related to a geodetic survey system for determining the location of underground facilities. An RFID tag is fixedly installed on the upper surface of the underground facility 200 buried underground, and the RFID tag In the memory area of the chip, it stores underground installation information such as the standard of the underground facility 200, the buried date, buried level and coordinate information, the installer, and other matters, and has the same frequency as the frequency transmitted by the RFID antenna. Disclosed is a technology that enables reception by a reader or a scanning device. In addition, the RFID tag uses any one frequency selected from radio frequencies between 125 KHz and 915 MHz, and receives operating power from an RFID reader and an active type that uses its own built-in power according to the operating power supply method. It is disclosed that it can be configured in a passive manner.

However, in the case of an active RFID tag, when transmitting the information of the RFID tag to an RFID reader to read the information of the RFID tag, the built-in power is used and the service life is relatively reduced. When installed for safety management of water pipes in a facility, the power built in the active RFID tag is discharged and when replacement is desired, there is not only the inconvenience of having to remove the active RFID tag from the underground facility and replace the battery, but also when the replacement cycle is accelerated. As such, there was a problem that the inconvenience caused by the replacement was increased.

Korean Registered Patent Publication No. 10-1353614 (announced on January 23, 2014)

The present invention was invented in consideration of the above circumstances, and in order to minimize the use of the internal battery in the RFID tag for water pipe safety management, it is activated in the standby state only when the active RFID tag records the sensing data received from the sensor. RFID tag for safety management of water supply pipes to efficiently manage the power of the RFID tag by using the power of the RFID reader when transmitting the information stored in the RFID tag by the RFID reader while using the battery power built in itself. It is a technical problem to provide

The RFID tag for safety management of a water supply pipe according to the present invention for solving the above technical problem is made by including an RFID module and an MCU module in a box-shaped case, and the RFID module includes an RFID antenna and an RFID IC on a printed circuit board. The MCU module includes a built-in vibration sensor that detects that the RFID tag is shocked from the outside, a power module equipped with a battery that supplies driving power to all electric driving elements inside the RFID tag, and the outside of the RFID tag. A communication interface for receiving data from a vibration sensor and a temperature sensor installed in the printed circuit board, a storage unit for storing vibration sensor data and temperature sensor data received through the communication interface, and a control unit for controlling the overall driving of the RFID tag. When receiving data from the vibration sensor and the temperature sensor, the power module drives the RFID tag with its own built-in battery power, while the information stored in the storage unit of the RFID tag with an RFID reader outside the RFID tag. When transmitting, it is characterized in that it is configured to drive by receiving the power of the RFID reader.

One end of the RFID module is fixed at a predetermined angle on the MCU module by a fastening member so as to reduce radio wave interference when transmitting information stored in the storage unit to the RFID reader.

The fastening member is characterized in that a plurality of electrode pins protrude from both ends of the insulating holder, and the electrode pins on one side are coupled to the RFID module to be electrically connected, while the electrode pins on the other side are coupled to the MCU module to be electrically connected. To do.

In the RFID module, a screw is inserted through the other end of the end to which the fastening member is coupled, and the end of the screw is screwed to the MCU module, so that the inclination of the RFID module can be adjusted according to the degree of fastening of the screw. It characterized in that it was made.

According to the present invention, for safety management of water supply pipes, which is attached to an underground facility such as a manhole, receives and stores data from a vibration sensor or temperature sensor connected to an RFID tag, and then transmits the data stored inside at the request of an RFID reader. The RFID tag uses its own power when receiving data from the vibration sensor or temperature sensor, while the RFID reader uses the power of the RFID reader when transmitting the data stored inside the RFID reader, thereby reducing the life of the battery installed in the RFID tag. It has the advantage of reducing the hassle of replacing the battery by increasing it, and reducing the radio wave interference when transmitting the data stored inside the RFID tag to the RFID reader to reduce read errors.

1 is an exterior perspective view of an RFID tag for safety management of a water supply pipe according to the present invention,
FIG. 2 is a perspective view showing an upper case of the RFID tag shown in FIG. 1 in an open state;
3 is a view for explaining a means for adjusting the inclination of the RFID module shown in FIG. 2;
4 is a block diagram of electric driving devices constituting the RFID module and the MCU module according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and components having the same function are denoted by the same reference numerals throughout the specification.

1 is an external perspective view of an RFID tag for safety management of a water supply pipe according to the present invention, FIG. 2 is a perspective view showing an upper case of the RFID tag shown in FIG. 1 in an open state, and FIG. It shows a diagram for explaining the means for adjusting the inclination of the RFID module.

As shown in Figs. 1 and 2, the RFID tag 10 for safety management of water supply pipes according to the present invention provides safety management of water supply pipes in a box-shaped body case in which the lower case 12 and the upper case 14 are combined. It includes an RFID module 20 and an MCU module 30 for receiving and storing sensor data for and transmitting it to an external RFID reader. The lower case 12 and the upper case 14 are combined to be waterproof considering that the RFID tag 10 is installed in a manhole with a lot of moisture, and a wire for electrically connecting to sensors installed outside the main body case It is desirable to install a waterproof cable clamp at the outlet.

The RFID module 20 is made by mounting an RFID antenna 22 and an RFID IC 24 on a printed circuit board 26. The RFID antenna 22 wirelessly receives power from the RFID reader to drive the RFID IC 24 and receives data from the RFID reader and transmits the data to the RFID IC 24, and the RFID IC 24 Is composed of a wireless signal receiver for receiving a wireless signal through the RFID antenna 22, a modulator, a control circuit, a memory, and a power system for transmitting a response signal according to the request by the RFID reader to the RFID reader.

As shown in FIG. 4, the MCU module 30 includes a built-in vibration sensor 32 that detects that the RFID tag 10 installed in the manhole of the water supply pipe receives an impact from the outside, and the RFID tag 10 For receiving data from the power module 34, the vibration sensor 41 and the temperature sensor 42 installed outside the RFID tag 10, the power module 34 provided with the battery 33 for supplying driving power to all electric driving devices of As means, a communication interface 35 such as RS232, a storage unit 36 for storing vibration sensor data and temperature sensor data received through the communication interface 35, and a control unit 31 for controlling the overall driving of the RFID tag are provided. It is mounted on a printed circuit board (37).

The vibration sensor 41 and the temperature sensor 42 are attached to a water pipe in an underground facility such as a manhole, and this is a vibration generated by water pressure when the water pipe is damaged and leaks. It is installed to enable trend analysis.

The storage unit 36 may use a tag memory provided in the RFID IC 24 when the storage capacity is not large.

In particular, when the power module 34 receives data from the vibration sensor 41 and the temperature sensor 42 through the communication interface 35, the RFID tag is driven by the power of the battery 33 built into itself. When transmitting information stored in the storage unit 36 inside the RFID tag 10 to an RFID reader outside the RFID tag 10, it is configured to receive and drive the power of the RFID reader.

The control unit 31 receives data from the vibration sensor 41 and the temperature sensor 42 on a periodic basis of, for example, an hour, and stores the data in the storage unit 36. At this time, the power module 34 in the standby state By activating, power of the battery 33 is controlled to be supplied to each electric drive element constituting the MCU module 30, and after receiving data, it is controlled to a standby state again to prevent unnecessary battery consumption.

In addition, the controller 31 controls the power module 34 and the RFID module 20 without using power supplied from the battery 33 when a data transmission request is made to an RFID reader outside the RFID tag 10. The radio waves received from the RFID reader are converted into electric power and are controlled to be supplied to each electric drive element constituting the RFID module 20 and the MCU module 30. In addition, by controlling the RFID module 20, data stored in the storage unit 36 is wirelessly transmitted to the RFID reader.

In this way, only when data is periodically received from the vibration sensor 41 or temperature sensor 42 attached to an underground facility such as a manhole and connected to an RFID tag, the power module 34 is controlled from the standby state to the active state, thereby controlling its own battery. (33) While power is used, power consumption of the battery 33 can be reduced by converting radio waves received from the RFID reader to use as power when transmitting data stored therein to the RFID reader. Accordingly, when the power consumption of the battery 33 decreases, the replacement cycle of the battery 33 increases, thereby reducing the hassle of replacing the battery 33.

Meanwhile, the RFID module 20 and the MCU module 30 are efficiently disposed in the inner space of the box-shaped body case where the lower case 12 and the upper case 14 are combined. 26), while the MCU module 30 is provided on the printed circuit board 37 to have a structure separated from each other, one end of the printed circuit board 26 of the RFID module 20 is a fastening member 61 ) By a predetermined angle on the printed circuit board 37 of the MCU module 30.

The fastening member 61 employs a pin connector to electrically connect the electric driving elements mounted on the RFID module 20 and the electric driving elements mounted on the MCU module 30. To this end, in the pin connector employed as the fastening member 61, a plurality of electrode pins 61b and 61c protrude from both ends of the insulating holder 61a, and the electrode pins 61c on one side disposed on the upper side of the drawing are It is coupled to the printed circuit board 26 of the RFID module 20 to be electrically connected to the electric driving elements constituting the RFID module 20, while the electrode pins 61b on the other side disposed at the bottom of the drawing are the MCU It is coupled to the printed circuit board 37 of the module 30 and is electrically connected to the electric drive elements constituting the MCU module 30.

In contrast, in the printed circuit board 26 of the RFID module 20, a screw 62 is penetrated to the other end of the end to which the fastening member 61 is coupled, and the end of the screw 62 is connected to the MCU. It is screwed to the printed circuit board 37 of the module 30.

The fastening member 61 separates the RFID module 20 and the MCU module 30 by a predetermined distance by the height of the insulating body 61a, while a screw (in the printed circuit board 26) of the RFID module 20 Since the portion coupled by 62) is arranged in a structure that almost contacts the printed circuit board 37 of the MCU module 30, the printed circuit board 26 of the RFID module 20 is connected to the fastening member 61 The coupling direction is high and the coupling direction by the screw 62 maintains a low inclined state.

The inclination (A) of the RFID module 20 may be adjusted according to the fastening degree of the screw 62.

Adjusting the slope (A) of the RFID module 20 as described above reduces radio wave interference when wirelessly transmitting information stored in the storage unit 36 inside the RFID 10 at the request of the RFID reader. This is to prevent errors in reading from.

In the above, preferred embodiments of the present invention have been described in detail with reference to the drawings. The description of the present invention is for illustrative purposes only, and those of ordinary skill in the technical field to which the present invention pertains will be able to understand that other specific forms can be easily modified without changing the technical spirit or essential features of the present invention.

Therefore, the scope of the present invention is indicated by the claims to be described later rather than the detailed description described above, and all changes or modified forms derived from the meaning, scope, and equivalent concepts of the claims are included in the scope of the present invention. Should be interpreted as.

10 - RFID tag, 12 - lower case,
14-upper case, 20-RFID module,
22 - RFID antenna, 24 - RFID IC,
26 - Printed circuit board, 30 - MCU module,
31 - control unit, 32 - built-in vibration sensor,
33 - battery, 34 - power module,
35 - communication interface, 36 - storage,
37 - printed circuit board, 41 - external vibration sensor,
42-external temperature sensor, 61-fastening member,
61a - insulated holder, 61b, 61c - electrode pin,
62 - Screw.

Claims (4)

A box-shaped case is provided with an RFID module and an MCU module, and the RFID module is made by mounting an RFID antenna and an RFID IC on a printed circuit board, and the MCU module detects that the RFID tag is impacted from the outside. Built-in vibration sensor and a power module equipped with a battery supplying driving power to all electric driving elements inside the RFID tag, a communication interface for receiving data from a vibration sensor and a temperature sensor installed outside the RFID tag, the communication interface A storage unit for storing vibration sensor data and temperature sensor data received through, and a control unit for controlling the overall driving of the RFID tag are mounted on the printed circuit board, and the power module receives data from the vibration sensor and the temperature sensor. Water supply pipe safety, characterized in that the RFID tag is driven by the battery power built into itself when the RFID tag is operated while receiving the power of the RFID reader when transmitting information stored in the storage unit of the RFID tag to an RFID reader outside the RFID tag. RFID tag for management.
The method of claim 1,
RFID for safety management of water supply pipes, characterized in that one end of the RFID module is fixed at a predetermined angle on the MCU module by a fastening member to reduce radio wave interference when transmitting information stored in the storage unit with an RFID reader. tag.
The method of claim 2,
The fastening member is characterized in that a plurality of electrode pins protrude from both ends of the insulating holder, and the electrode pins on one side are coupled to the RFID module to be electrically connected, while the electrode pins on the other side are coupled to the MCU module to be electrically connected. RFID tag for safety management of water supply pipes.
The method according to claim 1 or 2,
In the RFID module, a screw is penetrated to the other end of the end to which the fastening member is coupled, and the end of the screw is screwed to the MCU module, so that the inclination of the RFID module can be adjusted according to the degree of fastening of the screw. RFID tag for safety management of water supply pipes, characterized in that made.

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