KR101453913B1 - Disributing board control system for bus station shelter - Google Patents

Abstract

Disclosed is a switchboard control system for a bus stop shelter. The disclosed control system includes an electricity distribution board including a switchboard control unit and a power control unit electrically connected to the switchboard control unit, the switchboard being installed in the stop shelter. A plurality of electric devices installed in the station shelter and operated by receiving power from the switchboard; A remote control unit remote from the stop shelter and including a first communication unit; A bus information terminal including a second communication unit for transmitting and receiving a wire signal or a radio signal with the first communication unit and electrically connected to the switchboard control unit; And a temperature sensor and a humidity sensor which are installed in the stop shelter and are electrically connected to the bus information terminal, wherein the bus information terminal receives time information from the remote controller, detects the time information by the temperature sensor and the humidity sensor Temperature information, and humidity information according to a preset program, and controls the power supply unit of the power distribution board to selectively turn on or off the power of the plurality of electric devices by receiving the temperature information and the humidity information, And is turned off.

Description

DISCHARGE BOARD CONTROL SYSTEM FOR BUS STATION SHELTER

The present invention relates to a control panel system, and more particularly, it relates to a control panel for controlling a power source of various electric devices installed in a stop shelter through information transmitted from a remote place and temperature and humidity information detected by itself, The present invention relates to a control panel for a bus stop shelter, which can directly shut off the power of each electric device of a stop shelter by a remote operator.

In general, a bus information terminal (BIT) is installed in a shelter of each bus stop, constitutes a dedicated network for providing bus operation information, and provides bus users with various services according to the bus operation .

Such a bus information terminal is equipped with a bus information system (not shown) for transmitting operation information (average traveling speed from the previous stop to the current stop) and informing the passenger of the guide information (estimated arrival time of the next stop, route information, transfer information) (BIS: Bus Information System) terminal, and provides bus operation information (estimated time of bus arrival, route information) to bus users waiting at the bus stop via the guide information indicator.

On the other hand, in the shelter shelter, besides the bus information terminal, shelter facilities such as security lighting, advertising panel, and backlighting lamps serving as a backlight in the bus route map, and users waiting in a bus stop can be safely used in winter Chairs, and floor heaters buried at the bottom of the station to melt snow on the floor. In addition, an electric distribution panel for distributing electric power to the shelter auxiliary equipment is installed in the station shelter.

However, the conventional switchboards installed in each of the bus stop shelters operate the shelter auxiliary equipment at a preset time through a timer. In this case, it is troublesome for a worker to visit the stop shelter and inspect it in order to determine whether or not each of the shelter auxiliary facilities is malfunctioning. Because of this problem, it is not possible to actively control the heating chair and the floor heating part according to the season or the weather change, so the electric consumption can not be effectively controlled.

In addition, when the power is restored after the power failure, the timer provided in the switchboard of the stop shelter is initialized, so that there is a fatal problem that the shelter substation can not operate according to the preset time.

The present invention can control the power of various electric devices installed in the stop shelter through the information transmitted from the remote place and the temperature and humidity information detected by itself and monitors the power supply control information of the electric device from a remote location, The present invention is directed to a control system for a bus stop shelter that can directly shut off the power of each electric device of a stop shelter.

According to an aspect of the present invention, there is provided a switchboard comprising: a switchboard installed in a stop shelter and including a switchboard control unit and a power control unit electrically connected to the switchboard control unit; A plurality of electric devices installed in the station shelter and operated by receiving power from the switchboard; A remote control unit remote from the stop shelter and including a first communication unit; A bus information terminal including a second communication unit for transmitting and receiving a wire signal or a radio signal with the first communication unit and electrically connected to the switchboard control unit; And a temperature sensor and a humidity sensor which are installed in the stop shelter and are electrically connected to the bus information terminal, wherein the bus information terminal receives time information from the remote controller, detects the time information by the temperature sensor and the humidity sensor Temperature information, and humidity information according to a preset program, and controls the power supply unit of the power distribution board to selectively turn on or off the power of the plurality of electric devices by receiving the temperature information and the humidity information, Off of the bus stop shelter.

The plurality of electric devices may include a security lighting unit, an advertising lighting unit, and a lighting unit for a route map.

The bus information terminal receives the time information transmitted from the remote controller at a predetermined cycle and controls the power of the plurality of electric devices based on the time information when the power is restored after the power failure to initialize the time information by the power failure Can be prevented.

The plurality of electric devices further include a heating chair including a heating wire inside, and the heating chair can be controlled by the bus information terminal through temperature information detected by the temperature sensor.

The plurality of electric apparatuses further include a bottom heat transfer unit including a heat line embedded in the bottom of the stop shelter, and the bottom heat transfer unit is connected to the bus information terminal through the temperature information and the humidity information detected by the temperature sensor and the humidity sensor, The power can be controlled.

And a control unit installed in the stop shelter for manually controlling the power control unit of the switchboard.

And may further include a plurality of current transformers each connected to the plurality of electric devices.

Wherein the remote control unit receives power control information of the plurality of electric devices from the bus information terminal and transmits a power shutdown signal of the plurality of electric devices to the bus information terminal, Can be directly controlled.

The switchboard control unit has a program for controlling the power of the plurality of electric devices, and can control power of the plurality of electric devices.

As described above, according to the present invention, it is possible to remotely control and monitor the switchboards of the respective stop shelter, so that it is possible to actively control the shelter substation facilities for seasonal and weather changes, Accurate control of shelter facilities at the required time without any accidents.

1 is a block diagram showing a control system for a bus stop shelter according to an embodiment of the present invention.
2 is a block diagram showing the structure of the switchboard shown in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the embodiments described below are provided for illustrative purposes only, and that the present invention may be embodied with various modifications and alterations. In the following description, well-known functions or constructions are not described in detail to avoid obscuring the subject matter of the present invention. In addition, the attached drawings are not drawn to scale in order to facilitate understanding of the invention, but the dimensions of some of the components may be exaggerated.

1, a configuration of a control system for a bus stop shelter according to an embodiment of the present invention will be described.

The switchboard control system for the stop shelter includes the switchboard 10, the shelter unit 30, the bus information terminal 50 and the remote control unit 70.

Referring to FIG. 2, the switchboard 10 is installed in the stop shelter 90 and supplies power to the shelter auxiliary equipment 30. The switchboard (10) includes a switchboard control unit (11) and a power control unit (13). The switchboard control unit 11 is electrically connected to the power control unit 13 and is electrically connected to the bus information terminal 50 at the same time. The power supply control unit 13 includes a relay 13a and a breaker 13b connected to respective electric devices of the shelter auxiliary equipment 30 to be described later (the state of being connected to the security lighting unit 31 in FIG. 2 is illustrated) .

Accordingly, each electric device can be individually turned on or off via a plurality of relays 13a. Also, since the breaker 13b is also connected to the relays 13a, it is possible to individually cut off the power supplied to the relays 13a in case of power failure.

The shelter auxiliary facility 30 includes a plurality of auxiliary facilities including a security lighting unit 31, an advertising lighting unit 32, a route lighting unit 33, a heating chair including a heating wire inside, And a bottom heat transfer portion 35 including a heat line embedded in the bottom of the stop shelter 90 and the bottom heat transfer portion 34.

The security lighting section 31 includes a lighting lamp for illuminating the vicinity of the stop shelter 90 at night and the advertising lighting section 32 includes a backlight disposed behind the translucent advertisement panel and the lighting section 33 ) Includes a backlight disposed behind the translucent bus line.

The heating chair 34 operates mainly in the winter when the temperature is low and the floor heating unit 35 is provided to prevent the safety accident by heating and melting snow on the bottom of the stop shelter 90. [

The bus information terminal 50 is installed in the stop shelter 90 and guides the traffic information of the bus to stop at the stop. In the present invention, the bus information terminal 50 is connected to the switchboard control part 11 of the switchboard 10, Respectively.

The bus information terminal 50 also includes a second communication unit 51 for transmitting and receiving signals to and from the first communication unit 71 of the remote control unit 70, which will be described later. The second communication unit 51 can receive traffic information transmitted from a bus information system (BIS) at a remote place. In this case, the remote controller 70 may be disposed at the traffic information center or at a remote location separate from the traffic information center.

On the other hand, the bus information terminal 50 is electrically connected to the temperature sensor 91 and the humidity sensor 93 provided in the stop shelter 90, respectively. The bus information terminal 50 detects the temperature and humidity around the stop shelter 90 by the temperature sensor 91 and the humidity sensor 93. [

The bus information terminal 50 further includes a memory (RAM) (not shown) for storing temperature information and humidity information detected by the temperature sensor 91 and the humidity sensor 93. In addition, the bus information terminal 50 analyzes the temperature information and the humidity information by a program stored in advance in a memory (ROM) (not shown) and controls the security lighting unit 31, the advertisement lighting unit 32, the route lighting unit 33, The heating chair 34, and the floor heating unit 35 to the control board control unit 11, respectively. Accordingly, the control panel 11 controls the security lighting unit 31, the advertising lighting unit 32, the route lighting unit 33, the heating chair 34, and the floor heating system 34 according to the control signal received from the bus information terminal 50 The power of the unit 35 is turned on or off.

The bus information terminal 50 also receives the ON / OFF time information of the shelter unit 30 transmitted from the remote control unit 70 and controls the illumination units 31-33 .

The bus information terminal 50 can also transmit power information to the remote control unit 70 as to whether the electric devices 31-35 of the shelter unit 30 are powered on or off.

The remote control unit 70 may be located remotely from the stop shelter 10 and preferably be included in a bus information system (BIS).

Furthermore, the remote control unit 70 may include a display device 75 that displays a signal received from the bus information terminal 50. [

The remote control unit 70 stores power information for each electric device 31-35 of the bus stop shelter from the bus information terminal 50 in a predetermined memory and transmits the power information to the remote control unit 70 And can be displayed through the display unit 75. The administrator can monitor the power information of each auxiliary facility 31-35 of the shelter auxiliary facility 30 through the display unit 75. [ The remote control unit 70 also transmits a power cutoff signal for each of the subsidiary facilities 31-35 to the switchboard control unit 11 through the bus information terminal 50 to directly shut off the power of the subsidiary facilities 31-35 Of course it is possible.

Each of the auxiliary facilities 31-35 of the above-mentioned shelter auxiliary facility 30 is connected to a plurality of the current transformers 37 respectively. The plurality of current transformers 37 are provided for monitoring the success or failure of the power supply control of the respective auxiliary facilities 31-35 through the power supply control unit 13 and output a detection signal generated from each current transformer 37 to a remote control unit (31-35) is electrically connected to the bus information terminal (50) so that the auxiliary equipment (31-35) can be transmitted to the auxiliary equipment (70). Accordingly, the administrator can easily grasp the power control state of each auxiliary facility (31-35) of the stop shelter in real time through the display device (75).

The present invention can also be provided with an operation unit 94 in the stop shelter and can manually control the power supply control unit 13 of the switchboard 10 through the operation unit 94. [

However, the present invention is not limited to this, and it is possible to generate the power control signals of the respective subsidiary facilities 31-35 in the switchboard control unit 11, It is also possible to control the power source of the facility 31-35. In this case, the bus information terminal 50 is used as a communication means for communicating with the remote control unit 70.

As described above, the present invention has been described by reference to the preferred embodiments and drawings, but it should be understood that the present invention is not limited to these embodiments, and various changes and modifications may be made without departing from the spirit and scope of the present invention by those skilled in the art. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the appended claims.

10: Switchboard 11: Switchboard control unit
13: Power control unit 13a: Relay
13b: Breaker 30: Shelter auxiliary equipment
31: security lighting unit 32: advertising lighting unit
33: Route lighting section 34: Heated chair
35: floor heating part 37: current transformer
50: bus information terminal 51: second communication section
70: remote control unit 71: first communication unit
75: Display device 90: Stop shelter
91: Temperature sensor 93: Humidity sensor
94:

Claims (9)

An electricity distribution control panel installed in the station shelter and including a power distribution control unit and a power supply control unit electrically connected to the switchboard control unit;
A plurality of electric devices installed in the station shelter and operated by receiving power from the switchboard;
A remote control unit remote from the stop shelter and including a first communication unit;
A bus information terminal including a second communication unit for transmitting and receiving a wire signal or a radio signal with the first communication unit and electrically connected to the switchboard control unit; And
And a temperature sensor and a humidity sensor installed in the stop shelter and electrically connected to the bus information terminal,
The bus information terminal receives time information from the remote controller, receives the temperature information and the humidity information detected through the temperature sensor and the humidity sensor, and determines the time information, the temperature information, and the humidity information according to a preset program Wherein the control unit controls the power unit of the switchboard to selectively turn on or off the power of the plurality of electric devices. The method according to claim 1,
Wherein the plurality of electric devices includes a security lighting unit, an advertising lighting unit, and a lighting unit for a route map. 3. The method of claim 2,
The bus information terminal receives the time information transmitted from the remote controller at a predetermined cycle and controls the power of the plurality of electric devices based on the time information when the power is restored after the power failure to initialize the time information by the power failure A bus stop shelter control system for a bus stop. 3. The method of claim 2,
Wherein the plurality of electric devices further include a heating chair including a heating wire inside and a power source of the heating chair is controlled by the bus information terminal through temperature information detected by the temperature sensor. Control system for switchboard for shelter. 3. The method of claim 2,
Wherein the plurality of electric devices further include a bottom heat transfer portion including a heat line buried in the bottom of the stop shelter,
Wherein the bottom heat transfer unit is controlled by the bus information terminal through temperature information and humidity information detected by the temperature sensor and the humidity sensor. The method according to claim 1,
Further comprising an operating unit installed in the stop shelter for manually controlling the power control unit of the switchboard. The method according to claim 1,
Further comprising a plurality of current transformers connected to the plurality of electric devices, respectively. The method according to claim 1,
Wherein the remote control unit receives power control information of the plurality of electric devices from the bus information terminal and transmits a power shutdown signal of the plurality of electric devices to the bus information terminal, To the bus stop shelter. The method according to claim 1,
Wherein the switchboard control unit includes a program for controlling power of the plurality of electric devices and controls power of the plurality of electric devices.

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