KR200388984Y1 - Power supply of the collecting relay - Google Patents

Abstract

The present invention relates to a solar power supply device configured to supply power to a collection repeater while charging power to a battery using a solar cell.

The solar power supply device of the present invention has a self-supporting structure, and a fixed support 4 has a solar cell 2 and a battery case 3 having a battery 11 and a charging circuit 15 built therein. It is made, but it is possible to mount the collection repeater (1) on top of the fixed support (4). The lower part of the fixed support 4 is composed of a large-area plate 17 so as not to fall by an impact such as wind, the battery case 3 is mounted under the solar cell 2, the built-in battery 11 And the charging circuit 15 are protected from direct sunlight 16.

According to the solar power device of the present invention configured as described above, the power generated by the solar cell 2 is charged to the battery 11 through the charging circuit 15 during the day, the power charged to the battery 11 at night It is supposed to use. The capacity of the solar cell 2 and the battery 11 is selected in consideration of the power consumption of the collection repeater 1 and the amount of seasonal sunlight.

Description

Power Supply Unit of Collecting Repeater {POWER SUPPLY OF THE COLLECTING RELAY}

The present invention relates to a solar power supply device configured to supply power to a collection repeater while charging power to a battery using a solar cell.

In general, a collection meter for remote meter reading collects meter data of a meter terminal attached to each generation meter to a small output wireless module or a wired / wireless communication network and transmits the data to a meter reader center remotely through a wireless terminal such as CDMA or TRS. Refers to a transmitting device.

1 is a conceptual basic diagram for explaining the principle of the remote meter reading.

As shown in FIG. 1, the collection repeater 1 includes a low power wireless module 7 capable of communicating with the metering terminal 6 attached to the meter 5 of each generation, and a control unit for system control (not shown). ), A wireless terminal 8 for transmitting meter reading data to the meter reading center 9, and a power supply unit (not shown) for power supply.

The remote metering collection repeater 1 configured as described above collects the metering data of the metering terminal 6 attached to the meter 5 of each generation through the low power wireless device 7 and the communication network 10 and collects the data. The wireless terminal 8 such as CDMA, TRS, etc. and the commercial communication network 10 are used for transmission to a remote meter reading center 9. In this case, the collection repeater 1 is to be installed in an open space such as a rooftop or a steel tower having the best radio wave environment in order to secure the maximum area for reading.

However, since there is no facility to use power in open spaces such as rooftops or steel towers, new wiring work must be carried out for power supply, and additional facilities for short-circuit and wiring protection must be carried out during the wiring work. Construction costs are high and installation is limited or reluctant due to fear of interference with other electrical facilities such as elevator power in buildings.

In addition, as the main communication module 8 applied to the remote meter reading system, a low power communication technology used for a mobile phone or a PDA is used, and a communication cycle is performed once a day or once a month to reduce communication charges. Since the power required for the operation of the collection repeater 1 is very small, the power generated by the small capacity solar cell 2 can be used.

The present invention has been made in view of such a point, and its purpose is to collect power by charging the battery with its own power from a solar cell in an open space such as a rooftop or a steel tower, which is a suitable place for installing a remote metering repeater. It is to provide a solar power supply that can be supplied to.

In order to achieve the above object, the present invention is a solar power supply device for supplying charged power to a remote meter reading repeater while charging power to the battery using a solar cell, installation of a remote meter reading collector It can be configured to perform power generation and charging on its own regardless of the place, so that power can be used independently.

Specifically, the power supply device according to the present invention is a power supply device of the collection repeater used in the remote meter reading system,

The self-supporting structure is constructed by attaching and fixing a solar cell, a battery case incorporating a battery and a charging circuit to a fixed support, and allowing a collection repeater to be mounted on an upper portion of the fixed support.

In addition, the lower portion of the fixed support is composed of a large area of the plate so as not to fall by the wind, it is preferable to attach the battery case under the solar cell to protect the battery from direct sunlight.

That is, the power supply device of the present invention, the power generated by the solar cell during the week to charge the battery through the charging circuit, and at night to supply the power charged in the battery to the collection repeater.

(Example)

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a perspective view of the solar power supply of the remote meter reading repeater according to the present invention.

The remote meter reading collection repeater 1 of the present invention collects the metering data of the metering terminal 6 attached to the meter 5 of each generation through the low power wireless device 7 and the communication network 10 to collect this data. A device for transmitting to a meter reading center 9 far away through a wireless terminal 8, such as CDMA, TRS, and a commercial backbone network 10, which charges power to a battery 11 using a solar cell 2. It is intended to receive power from the power supply.

The photovoltaic power supply device for supplying power to the collection repeater 1 has a self-supporting structure and includes a solar cell 2, a battery 11, and a charging circuit 15 in a fixed support 4. The battery case (3) is made of a fixed attachment, but the collection repeater (1) is to be mounted on top of the fixed support (4). The lower part of the fixed support 4 is composed of a large-area plate 17 so as not to fall by an impact such as wind, the battery case 3 is mounted under the solar cell 2, the built-in battery 11 And the charging circuit 15 are protected from direct sunlight 16.

According to the solar power supply device of the present embodiment configured as described above, the power generated by the solar cell 2 is charged to the battery 11 through the charging circuit 15 during the day, and the power charged to the battery 11 at night. It is supposed to use.

The charging circuit 15 charges in a PWM manner by using a pulse width modulation (PWM) circuit 12 so as to sense a state of the battery 11 and to be charged in an optimal condition, and overcharge / over-discharge prevention circuit 14 ) And a protection circuit 13 such as a temperature compensation circuit and a temperature rise detection circuit.

In addition, the capacity of the solar cell 2 and the battery 11 is selected in consideration of the power consumption and sunshine time of the collection repeater (1). Typically, the capacity of the solar cell 2 and the battery 11 is 6V, 15Ah or more having a capacity of approximately 30 times as compared to the capacity of the cell used in the mobile phone is 3.7V, 400-800mAh have. By using the battery 11 having such a capacity, it is possible to secure the meter reading ability for about one week even when sunlight is not irradiated during the rainy season.

According to the present invention, it is possible to secure the optimal communication environment because the solar cell 2 can be supplied with its own power from the rooftop or the steel tower of a building having the best communication environment of the remote metering collection repeater 1, There is no burden of electric charges, so the operation and maintenance costs can be reduced, and the fixed support 4 is fixed to the fixed support 4 by using wheels of waste tires, rather than the lower portion of the plate 17 having a large area. Waste resources can also be utilized.

As described above, according to the present invention, there is provided a power supply device that can supply power to the collection repeater by charging the battery with its own power from a solar cell in an open space such as a rooftop or a steel tower, which is a suitable place for installing a remote metering collection repeater. Can provide.

1 is a conceptual basic configuration for explaining the principle of the remote meter reading,

Figure 2 is a perspective view of the solar power supply of the remote meter reading repeater according to the present invention,

Figure 3 is a circuit diagram of a solar power supply of the remote meter reading repeater according to the present invention,

4 is an internal configuration diagram of the battery case 3 shown in FIGS. 1 and 3.

* Explanation of symbols for main parts of the drawings

1 --- collection repeater, 2 --- solar cell,

3 --- battery case, 4 --- fixed support,

5 --- meter, 6 --- meter terminal,

7 --- Low power wireless module (wireless equipment), 8 --- Wireless terminal,

9 --- meter reading center, 10 --- network,

11 --- battery, 12 --- pulse width modulation circuit,

13 --- protection circuit, 14 --- overcharge / over-discharge protection circuit,

15 --- charging circuit, 16 --- direct sunlight.

17 --- plate of large area.

Claims (3)

As a power supply unit of the collection repeater (1) used in the remote meter reading system, The self-supporting structure is constructed by attaching and fixing a solar cell 2 and a battery case 3 having a battery 11 and a charging circuit 15 built therein, the fixed support 4. Power supply characterized in that the mounting repeater (1) can be mounted on the top. According to claim 1, wherein the lower portion of the fixed support (4) consists of a large-area plate 17 so as not to fall by the wind, and attaching the battery case 3 under the solar cell (2) To protect the battery (11) from direct sunlight (16). According to claim 1 or 2, during the day the power generated by the solar cell 2 is charged to the battery 11 through the charging circuit 15, the power collected in the battery 11 at night collecting repeater (1) A power supply, characterized in that to be supplied.