KR100668422B1 - Amr system using small repeater attached on window glass - Google Patents

Abstract

An AMR(Automatic Meter Reading) system for transmitting meter reading information by using a micro repeater installed on a window glass is provided to remove a small shadow region by transmitting data from a meter through a first antenna installed on the window glass to the micro repeater installed on a balcony chassis. In an AMR system having a micro repeater(203), the micro repeater includes: a first band pass filter receiving data from an interface device(200) through a first antenna(204) for a low frequency band; a first amplifier amplifying a low frequency signal having passed through the first band pass filter at a predetermined gain; an oscillator generating a local signal of the predetermined frequency; a mixer generating a high frequency signal by synthesizing the low frequency signal sent from the first amplifier and the local signal output from the oscillator; a second amplifier amplifying the high frequency signal output from the mixer at a predetermined gain; a second band pass filter filtering the high frequency signal output to the second amplifier; a second antenna(205) for a high frequency band transmitting the high frequency signal output to the second band pass filter to a mobile communication base station(206); and a power unit supplying power to the first and second amplifiers, the mixer, and the oscillator. The micro repeater is inserted into a sill portion formed at a balcony chassis(201) of a customer. The first antenna is formed by disposing a radiation element bent on a thin film at least one time by printing and attached to a window glass.

Description

Automatic remote metering system that sends metering information by micro repeater mounted on window glass {AMR system using small repeater attached on window glass}

Figure 1a is a block diagram showing an example of a remote meter reading system according to the prior art.

1B is a configuration diagram illustrating an example of a meter interface device.

2 is a block diagram of an automatic remote meter reading system for transmitting meter reading information by a micro repeater mounted on a window glass according to the present invention.

Figure 3 is a block diagram showing one embodiment of a micro repeater according to the present invention.

Figure 4 is a block diagram showing another embodiment of a micro repeater according to the present invention.

5 is a view showing a state in which the micro repeater according to the present invention is mounted in a different manner.

6 and 7 show a state in which the first antenna according to the invention is mounted in different ways.

 <Description of Main Parts of Drawings>

200: meter interface unit 201: balcony chassis

201-1: step 202: window glass

203: micro repeater 204: first antenna

204-1: connecting terminal 205: second antenna

206: mobile communication base station 207: film

207-1: Adhesive Side 207-2: Printing Side

301: first band filter 302: first amplifier

303: mixer 304: oscillator

305: second amplifier 306: second band filter

307: power supply unit 308: solar cell

The present invention relates to a remote meter reading system, and more particularly, receiving data including a meter ID, a meter reading, a meter reading date, and the like from a meter reading a usage amount of power, gas, water, and the like, into a window glass of a customer. The present invention relates to an automatic telemetering system for configuring an antenna by a printing method and connecting a micro repeater to transmit the data to a mobile communication base station.

Today, electricity, gas, and water are essential resources for daily living, and metering needs to check the amount of usage regularly for billing purposes. The conventional traditional meter reading method is a manual meter reading (MMR) method in which a meter reader directly visits a customer, reads and records the meter's instructions, calculates the amount of usage by converting the difference from the previous month's guidelines. The labor costs and operating costs of meter reading personnel are enormous, and a considerable amount of time is required for meter reading, and when a user is absent, there is a disadvantage of causing inconvenience such as missing or revisiting the meter.

On the contrary, the Automatic Meter Reading (AMR) method, which connects the meter and the metering device through a specific communication medium and automatically collects instructions and status of each meter, has a low cost due to the recent development of communication technology. As a way to build a reliable system, the interest and demand for this is increasing. Accordingly, discussions about the remote metering technology and its system specifications have been actively conducted by electric power companies, water works, and gas companies. .

An example of a system according to the prior art in the field of such a remote meter reading system is Korean Patent Application No. 10-1999-0045170 as shown in FIG. 1A. The conventional technology connects local wireless transmitters 20a, 20b, 20c, and 20n to a plurality of measuring devices 10a, 10b, 10c, and 10n provided for each household, and is transmitted from these local wireless transmitters. A wireless transmission / reception apparatus 30 having a wireless data reception range of a predetermined area for receiving and collecting all meter reading data for each household is provided. And a certain number of household-specific metering data collected by the wireless transmission / reception device 30 is transmitted to the wireless cellular telephone network 50 through a wireless modem 40 connected to the wireless transmission / reception device 30, This is to be received by the operator system 60 associated with the wireless telephone network 50.

However, the prior art as described above is provided by separately providing local wireless transmitters 20a, 20b, 20c, 20n, wireless transmitter / receiver 30, wireless modem 40, and the like for transmitting only remote reading data. There is a disadvantage that the construction cost of the meter and transmission equipment is expensive, and it is impossible to use or link with other systems.

In particular, when a repeater that transmits data wirelessly is close to the meter, there is a risk of damage due to carelessness or mishandling in the house. Moreover, since the meter is usually installed deep inside the house, a shadow area is inevitably generated. Since the radio wave environment is located in a poor place there is a disadvantage that can not expect a stable data transmission.

As described above, the automatic remote meter reading system according to the present invention receives data including a meter ID, a meter reading, a meter reading date, and the like from a meter reading a usage amount of power, gas, water, and the like, by printing on a window glass of a customer. It is a technical object of the present invention to provide an automatic remote meter reading system that configures an antenna and connects a micro repeater to transmit the data to a mobile communication base station.

In addition, the present invention is to provide an automatic remote meter reading system capable of stable data transmission by configuring the ultra-small repeater for transmitting data wirelessly to be mounted on the balcony chassis of the consumer excellent in the radio wave environment.

In order to achieve the above object, the present invention comprises a first antenna for low frequency band for receiving data from the meter by printing on a window glass, and attaching a second antenna for high frequency band for transmitting the data to the base station to the micro repeater. The micro repeater may be manufactured in a thin form and mounted on a balcony chassis of a customer.

In addition, the present invention as described above, the meter 200 is provided with an interface device attached to a predetermined location in the customer's home and transmits the kind of metering data specified in advance; and in a printing manner to receive the data from the meter. A first antenna 204 for a low frequency band, which is attached to the window glass 202 and connected to a micro repeater described later; and converts the data received by the first antenna into a high frequency signal, and transmits the converted high frequency signal, A miniature repeater 203 mounted to the chassis 201, etc .; and a second antenna 205 for high frequency band connected to the micro repeater and transmitting the data converted by the micro repeater to the mobile communication base station 206; It is configured by.

In addition, the micro repeater 203 that processes the data received by the first antenna 204 and transmits it through the second antenna 205, the first filter for filtering the signal of the low frequency band received by the first antenna A band filter 301; and a first amplifier 302 for amplifying a low frequency signal passing through the first band filter with a predetermined gain; and an oscillator 304 for generating a local signal of a predetermined frequency; and from the first amplifier. A mixer 303 for generating a high frequency signal by synthesizing a low frequency signal and a local signal from an oscillator; and a second amplifier 305 for amplifying a high frequency signal output from the mixer with a predetermined gain; and outputting the second amplifier And a second band filter 306 for filtering the high frequency signal; and a power supply unit 307 for supplying power to the first and second amplifiers, oscillators and mixers.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the automatic remote meter reading system for transmitting the metering information by the micro repeater mounted on the window glass according to the present invention. In the following description, the same reference numerals are given to the same members, and duplicated descriptions thereof will be omitted.

2 is a block diagram of an automatic remote meter reading system for transmitting meter reading information by a micro repeater mounted on a window glass according to the present invention. As shown in the present invention, the meter 200 is attached to a predetermined location in the customer's home, the meter 200 having an interface device for reading the usage amount of power, gas, water, etc. and transmitting the data specified in advance, and the It consists of a small repeater 203 for receiving data from the meter by the first antenna, signal processing, and transmitting the signal to the mobile communication base station through the second antenna, wherein the first antenna is provided to the window glass 202 for the low frequency band. It is configured in a printing manner, the micro repeater including the second antenna is characterized in that it is made thin and mounted on the balcony chassis 201 of the customer.

The meter 200 is a meter reading means for displaying the instructions in proportion to the usage of resources, such as power, gas, water, etc. pre-installed in the customer, the interface device is provided with a predetermined type of data, for example, the meter itself ID, meter reading, meter reading date and time are transmitted. Such a meter interface device may be one capable of generating a signal of a frequency band that can be received by the first antenna. For example, as shown in FIG. 1B, an additional device such as that disclosed in Korean Patent No. 10-306217 may be used. It is available.

FIG. 1B relates to a remote automatic measurement system of a power accumulator, and discloses a technique for converting measurement power into digital data by attaching an additional device without replacing an existing mechanical power accumulator. As shown, each time the hole 103 is drilled in the rotating disk 102 of the mechanical power accumulator and the rotating disk 102 rotates, an IR signal oscillating from the IR transmitter 104 passes through the hole 103 and becomes IR. When received by the receiving unit 105, the counting unit 106 counts them and converts them into digital data. Therefore, the meter of the present invention can transmit the data to the micro repeater by generating the signal of the frequency band which can be received by the first antenna by adding the ID of the meter and the meter reading date and time to the digital data.

The first antenna 204 is a low frequency band for receiving data from the meter, the radiation element bent at least once is configured in a printing method on the thin film is attached to the window glass 202.

The second antenna 205 may be a non-directional antenna composed of a dipole radiation element, which is typically used for a high frequency band for transmitting the data from the meter to a high frequency signal and transmitting the same to a mobile communication base station. In the first antenna is bent at least once, such as the radiating element is configured in a printing method on a thin film and attached to the window glass 202, or is manufactured in a plate-shaped so as to point to the mobile communication base station 206 micro repeater ( Any one of the schemes embedded in 203 is used.

In addition, the low frequency band is a frequency of 219 MHz band or 424 MHz band, which is a frequency of a specific low-power radio device for data transmission of 10 mW or less that does not require radio station permission, or may be allocated by a separate law. It means a relatively low frequency compared to the mobile communication frequency.

3 is a block diagram showing an embodiment of a micro repeater according to the present invention. As illustrated, the micro repeater according to the present invention receives a signal of a low frequency band including data from the meter when the signal is transmitted to the first antenna 204 and is filtered by the first band filter 301 and then the first amplifier. After amplification by the predetermined gain 302, the local frequency signal and the low frequency band signal generated by the oscillator 304 are converted by the mixer 303 into a high frequency signal and amplified by the second amplifier 305. The filter is filtered by the second band filter 306 and transmitted to the mobile communication base station through the second antenna 205. Here, the mobile communication method may be any one of a mobile phone, a personal mobile communication and an IMT-2000 in which a commercial network is constructed.

Figure 4 is a block diagram showing another embodiment of the ultra-small repeater according to the present invention, characterized in that it further comprises a solar cell 308 as a power supply means for the embodiment of FIG. The solar cell as described above may be attached to the window glass like the first antenna, and by such a configuration, it is possible to drive the micro repeater according to the present invention without receiving a separate power supply from the outside.

5 is a view showing a state in which the micro repeater according to the present invention is mounted in a different manner, wherein the stepped portion 201-1 is formed in the balcony chassis 201 of the consumer and the micro repeater 203 is mounted on the stepped portion. It is configured so that it does not protrude outside. In this case, the arrangement of the first and second antennas is preferably spaced apart from each other to exclude interference, and as shown, the first antenna 204 is located below and the second antenna 205 is located above.

6 and 7 are views illustrating a state in which the first antenna according to the present invention is mounted in a different manner, and FIG. 6 is an adhesive surface 207 on one side (back side) of the thin film 207 on which the first antenna is formed. -1), and FIG. 7 is a printing surface 207-2 formed on the other side (front side) of the film in addition to FIG. In this manner, the first antenna is formed by fixing the film to be bonded to the window glass, and the connection terminals 204-1 extending to the outside of the film in FIGS. 6 and 7 are configured to connect with a miniature repeater.

On the other hand, the automatic remote meter reading system for transmitting the metering information by the ultra-small repeater mounted on the window glass according to the present invention is not limited to this embodiment, and those skilled in the art within the technical idea of the present invention. Many variations are possible.

With the above configuration, the remote meter reading system according to the present invention transmits data received from a meter through a first antenna configured in a window glass to a base station by a micro repeater mounted on a balcony chassis, thereby eliminating a small shadow area. It transmits meter reading data through a repeater, so it can be linked with existing telecommunication networks, and can produce and install antennas and repeaters in an environmentally friendly manner. There is an effect.

Claims (10)

A meter that is installed in the customer's house and reads the usage amount of power, gas, water, etc., an interface device connected to the meter, converts the meter reading value into digital data, and wirelessly transmits data of a predetermined type; In the remote meter reading system comprising a micro repeater for receiving data from the interface device and transmitting the data to the mobile communication base station, The micro repeater may include: a first band filter configured to receive data from the interface device by a first antenna for a low frequency band, and to filter a low frequency band signal received by the first antenna; A first amplifier for amplifying the low frequency signal passing through the first band filter with a predetermined gain; An oscillator for generating a local signal of a predetermined frequency; A mixer for synthesizing a low frequency signal from the first amplifier and a local signal from an oscillator to generate a high frequency signal; A second amplifier for amplifying a high frequency signal output from the mixer with a predetermined gain; A second band filter for filtering the high frequency signal output to the second amplifier; A second antenna for a high frequency band which transmits a high frequency signal output from the second band filter to a mobile communication base station; And a power supply unit supplying power to the first and second amplifiers, mixers, and oscillators; Consisting of, The micro repeater is mounted to be inserted into the step portion formed in the balcony chassis of the customer, The first antenna is an automatic telemetering system, characterized in that at least one bent radiation element is configured in a printing method on a thin film and attached to the window glass. delete The method of claim 1, The miniature repeater further comprises a solar cell automatic remote meter reading system. delete delete The method of claim 1, And the first antenna forms an adhesive surface on one side of the thin film on which the radiation element is formed, and forms a printing surface on the other side and attaches to the window glass. The method of claim 1, The second antenna is for a high frequency band for transmitting the data to the mobile communication base station, the automatic telemetering system, characterized in that the radiating element bent at least once is attached to the window glass is configured by the printing method on the thin film. The method of claim 1, The second antenna is for a high frequency band for transmitting the data to the mobile communication base station, the automatic telemetering system, characterized in that the plate is built in a miniature repeater to direct the mobile communication base station. The method of claim 1, And the data includes at least the ID of the meter, the meter reading, and the date and time of the meter reading. The method of claim 1, The mobile communication base station is any one of a mobile phone, personal mobile communication and IMT-2000 automatic remote meter reading system.

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