JP2014203673A - Lamp remote control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lamp remote control system.SOLUTION: A lamp remote control system comprises a remote host 10 and a lamp 20. The remote host 10 incorporates a monitoring software 11, and is configured by electrically connecting a first wireless transmission/reception module 12 and a first power amplifier module 13 with each other. In each lamp 20, an AC adapter 22 connected to a power supply, an opto-electronic module 23, and a control circuit 24 electrically connected between the AC adapter 22 and the opto-electronic module 23, are installed respectively on a lamp main body 21. The control circuit 24 comprises a dimming module 241, a current/voltage stabilization module 242, a second wireless transmission/reception module 243, a current/voltage detection module 244, a second power amplifier module 245, and a signal processing module 246. Due to the remote host 10, an operation state of each lamp 20 is grasped, and thereby, the control of operations of each lamp 20 can be achieved.

Description

  The present invention relates to a lamp monitoring / control technique, and more particularly, to a lamp remote control system that receives lamp operation information through a wireless transmission system or sends a control signal to the lamp.

  Electric light is currently the most widely used optoelectronic technology and one of the greatest inventions of mankind. A general lighting lamp is mounted indoors or outdoors in a building, or is used in a portable manner. Moreover, by connecting a suitable power source and arranging the related circuit switches, it is possible to freely control the on / off of the illumination lamp based on actual use needs.

  Currently, administrative agencies usually install street lights on both sides of the road or in outdoor public areas such as parks for the safety of night driving and pedestrians. However, many of the above-mentioned lighting lamps such as street lamps are installed in inconvenient places for comparison, and the installation range is wide. For this reason, a control circuit that automatically controls on / off of the street lamp is often installed to improve the convenience of operation of the street lamp.

  Many of the auto-control circuits used by street lights are set to automatic on-time and auto-off on time, or adopt an automatic on / off control system according to the ambient light irradiation conditions. Moreover, in order to achieve an optimal efficiency rate, all street lamps adopt a parallel wiring arrangement method. Thereby, even when some street lamps are damaged and do not operate normally, other street lamps can provide a certain level of lighting effect.

The conventional street light control method can achieve the expected control effect of automatically controlling the street light on or off, but cannot actually grasp the operating state of each street light. In particular, the installation range of general street lamps is vast, and the management department is often located at a remote location, so the management staff patrols each street light to see if it is operating normally as expected. I can't do it. Thus, most of the streetlight anomalies are found by pedestrians and notified to the administration department, so that it can be found that the streetlights cannot be turned on normally or damaged as expected. There is an indirect risk of accidents occurring at the user.
The present invention has been made in view of the above-mentioned drawbacks of the conventional lamp remote control system.

None

  The problem to be solved by the present invention is to provide a lamp remote control system for receiving lamp operation information through a wireless transmission system or sending a control signal to the lamp.

In order to solve the above problems, the present invention provides the following lamp remote control system.
The lamp remote control system comprises a remote host and at least one lamp,
The remote host includes monitoring software, and is electrically connected to a first wireless transmission / reception module and a first power amplifier module that expands a signal wave sent out by the first wireless transmission / reception module. And
Each lamp has an AC adapter connected to a power source, an optoelectronic module, and a control circuit electrically connected between the AC adapter and the optoelectronic module on the lamp body.
The control circuit of each lamp further includes a dimming module, a current / voltage stabilization module, a second wireless transmission / reception module, a current / voltage detection module, a second power amplifier module, and a signal processing module.
The dimming module is in electrical communication with the optoelectronic module and controls the current / voltage output to the optoelectronic module;
The current / voltage stabilization module is electrically connected between the AC adapter and the dimming module and provides a stable output current / voltage to the optoelectronic module;
The second wireless transmission / reception module is electrically connected to the AC adapter, performs transmission / reception of signals with the first wireless transmission / reception module of the remote host,
The current / voltage detection module is electrically connected between the second wireless transmission / reception module and the current / voltage stabilization module, and outputs current / voltage information output to the optoelectronic module. Detect / observe, send the detected / observed current / voltage information to the outside through the second wireless transmission / reception module,
The second power amplifier module is electrically connected to the second wireless transmission / reception module, and expands a signal wave sent out by the second wireless transmission / reception module, thereby increasing an expected transmission distance. Can earn,
The signal processing module is electrically connected between the second wireless transmission / reception module and the dimming module, and determines and executes a signal received by the second wireless transmission / reception module;
When using a lamp remote monitor / control system, each lamp is connected to an external power source through the AC adapter, and the AC adapter provides the optoelectronic module and the control circuit with power necessary for operation.
In addition, after activation of the optoelectronic module, the optoelectronic module can produce a predetermined lighting effect, and the current / voltage detection module can output a current / voltage output to the optoelectronic module. Voltage information can be normally detected / observed, and current / voltage information detected / observed is sent out through the second wireless transmission / reception module,
Further, the first wireless transmission / reception module of the remote host receives a signal emitted from each lamp, and the monitoring software of the remote host uses the optoelectronic module of each lamp based on the received current / voltage information. To know the on / off status of
It can be determined whether the optoelectronic module of each lamp is operating normally, and the number of operating hours of the optoelectronic module of each lamp can be converted,
Further, the remote host can send a related control signal to the scheduled lamp, and the remote host can grasp the operating state of each lamp and can control the operation of each lamp. Can
Each lamp further electrically connects a lightning protection module to the front end of the AC adapter, and is connected to an external power source through the lightning protection module.
The lightning protection module has a built-in discharge protection component that discharges a large current that generates a positive lightning strike,
Regardless of whether each lightning lamp has a lightning protection module, the dimming module has a built-in transistor that controls the magnitude of the input current / voltage,
Regardless of whether the lightning protection module is installed in each lamp, the dimming module has a variable resistor that controls the magnitude of the input current / voltage,
Each lamp has a lightning / lightning protection module, whether or not the current / voltage stabilization module incorporates an OVP voltage stabilization circuit and an OVP current stabilization circuit,
Each lamp has a lightning / lightning protection module installed, and the current / voltage stabilization module has an OVP voltage stabilization circuit, an OVP current stabilization circuit, and a PFC power compensation circuit.
Each lamp has a lightning / lightning protection module, whether or not the current / voltage stabilization module has an OVP voltage stabilization circuit, an OVP current stabilization circuit, and an OHP heating protection circuit.
Each lamp has a built-in OVP voltage stabilization circuit, OVP current stabilization circuit, PFC power compensation circuit, OHP heating protection circuit, regardless of whether or not a lightning protection module is installed.
The first wireless transmission / reception module of the remote host and the second wireless transmission / reception module of each lamp each incorporate an IEEE interface,
The first power amplifier module of the remote host and the second power amplifier module of each lamp each incorporate an amplifier.

The lamp remote control system of the present invention has the following effects.
(1) The operating state of each lamp can be grasped by more aggressive means.
(2) The normal operation of each lamp can be maintained by more aggressive means.
(3) The operation information of each lamp can be calculated by the remote host.
(4) The on / off or dimming of each lamp can be controlled by the remote host, and the purpose of remotely controlling the operation of the lamp is achieved.

It is a schematic diagram which shows the composition structure of the lamp remote monitor / control system of this invention. It is a block chart of each lamp | ramp basic composition structure of Example 1 of this invention. It is a block chart of the control circuit composition structure of each lamp in the present invention. It is a block chart of each lamp | ramp basic composition structure of Example 2 of this invention.

  The best mode for carrying out the present invention will be described below in detail with reference to the drawings.

  As shown in FIG. 1, which is a schematic diagram showing the composition structure of a lamp remote monitor / control system according to the present invention, the present invention grasps the operating state of each lamp 20 by a remote host 10 through a wireless transmission system, and further each lamp. Provide lamp remote monitor / control system to control 20 operations. The entire lamp remote monitor / control system comprises a remote host 10 and at least one lamp 20.

  The remote host 10 incorporates monitoring software 11, and also electrically connects the first wireless transmission / reception module 12 and the first power amplifier module 13 that expands the signal wave that the first wireless transmission / reception module 12 sends out. Articulate. In implementation, the first wireless transmission / reception module 12 includes an IEEE interface, and the first power amplifier module 13 includes an amplifier that expands a signal transmitted to the first wireless transmission / reception module 12.

  As shown in FIG. 2 which is a block chart of each lamp basic composition structure of Example 1 of the present invention and FIG. 3 which is a block chart of a control circuit composition structure of each lamp in the present invention, the lamp 20 of the present invention includes a lamp On the main body 21, an AC adapter 22, an optoelectronic module 23 connected to the power source, and a control circuit 24 electrically connected between the AC adapter 22 and the optoelectronic module 23 are installed.

  The control circuit 24 for each lamp further includes a dimming module 241, a current / voltage stabilization module 242, a second wireless transmission / reception module 243, a current / voltage detection module 244, a second power amplifier module 245, and a signal processing module 246. Prepare.

  The dimming module 241 is electrically connected to the optoelectronic module 23, basically a transistor that controls the magnitude of the input current / voltage, or a variable that controls the magnitude of the input current / voltage. The current / voltage output to the optoelectronic module 23 is controlled by using a method incorporating a resistor. Thus, the optoelectronic module 23 can achieve dimming functions with various luminances.

  The current / voltage stabilization module 242 is electrically connected between the AC adapter 22 and the dimming module 241. Basically, the OVP voltage stabilization circuit and the OVP current stabilization circuit are built in, and the optoelectronic module Provide stable output current / voltage. At the time of implementation, the current / voltage stabilization module 242 further incorporates a PFC power compensation circuit or an OHP heating protection circuit, or further incorporates a PFC power compensation circuit and an OHP heating protection circuit, so that the optoelectronic module 23 operates stably. Provide power.

  The second wireless transmission / reception module 243 is electrically connected to the AC adapter 22 and transmits / receives signals to / from at least one corresponding external remote host 10. When implemented, the second wireless transmission / reception module 243 incorporates an IEEE interface and transmits / receives signals to / from the corresponding remote host 10.

  The current / voltage detection module 244 is electrically connected between the second wireless transmission / reception module 243 and the current / voltage stabilization module 242 and outputs current / voltage information output to the optoelectronic module 23. The detected / observed current / voltage information is sent out through the second wireless transmission / reception module 243.

  The second power amplifier module 245 is electrically connected to the second wireless transmission / reception module 243, and releases a signal wave that the second wireless transmission / reception module 243 sends out. At the time of implementation, the second power amplifier module 245 incorporates an amplifier that expands a signal transmitted to the second wireless transmission / reception module 243, thereby obtaining an expected transmission distance.

  The signal processing module 246 is electrically connected between the second wireless transmission / reception module 243 and the dimming module 241, and determines and executes a signal received by the second wireless transmission / reception module 243.

  In principle, when implementing the lamp remote monitoring / control system of the present invention, the optoelectronic module 23 of each lamp 20 is electrically connected to a predetermined number of light emitting diodes, fluorescent tubes or mercury bulbs. In use, each lamp 20 is connected to an external power source through an AC adapter 22, and the AC adapter 22 provides power necessary for operation to the optoelectronic module 23 and the control circuit 24. Furthermore, after starting the operation of the optoelectronic module 23, the optoelectronic module 23 can produce a predetermined lighting effect.

  Current / voltage information output to the optoelectronic module 23 is normally detected / observed by the current / voltage detection module 244 of each lamp 20, and detected / observed through the second wireless transmission / reception module 243. Send out the current / voltage information. In addition, the first wireless transmission / reception module 12 of the remote host 10 receives a signal emitted by each lamp 20, and the monitoring software 11 of the remote host 10 receives the opto-electricity of each lamp 20 based on the received current / voltage information. The on / off state of the electronic module 23 can be known.

  Further, it can be determined whether or not the optoelectronic module 23 of each lamp 20 is operating normally, and the number of hours of optoelectronic module 23 operation of each lamp 20 can be converted. Further, the remote host 10 sends an associated control signal to the scheduled lamp 20, thereby achieving the operation status control of each lamp 20 by the remote host 10, and also controls the operation of each lamp 20. The purpose can be achieved.

  In particular, the remote host 10 can be the network server host 10, which can be connected to the administrative personnel's smartphone 30 through the Internet. In this way, the user logs in to the monitoring software 11 of the remote host 10 using the existing smartphone 30 at hand or another device having an Internet function, and grasps the operating state of each lamp 20 in real time. The operation of the lamp 20 can be controlled in real time.

  In addition, the lamp usage point of the present invention may be an unobstructed wide area. Therefore, in the lamp of the present invention, as shown in FIG. 4, a lightning protection module 25 is electrically connected to the front end of the AC adapter 22, and is connected to an external power source through the lightning protection module 25. At the time of implementation, the lightning protection module 25 incorporates a discharge protection component capable of discharging against a large current that generates a positive lightning. When a lightning strike occurs, a large current is directly drawn into the ground terminal, thereby effectively sucking in the large current generated by the lightning strike and avoiding damage to the lamp due to the lightning strike.

  Compared with the conventional structure, the lamp remote monitor / control system of the present invention can grasp the operating state of each lamp 20 by more aggressive means, and maintain the normal operation of each lamp 20 by more aggressive means. In addition, the operation information of each lamp 20 can be calculated by the remote host 10, the on / off or dimming of each lamp 20 can be controlled by the remote host 10, and the purpose of remotely controlling the operation of the lamp can be achieved.

  The above-mentioned names and contents of the present invention are only used for explaining the technical contents of the present invention, and do not limit the present invention. All equivalent applications or parts (structures) conversion, replacement and increase / decrease in quantity based on the spirit of the present invention shall be included in the protection scope of the present invention.

  The present invention has novelty that is a patent requirement, has sufficient progress compared to conventional similar products, has high practicality, meets social needs, and has a great industrial utility value.

10: Remote host
11: Monitoring software
12: First wireless transmission / reception module
13: First power amplifier module
20: Lamp
21: Lamp body
22: AC adapter
23: Optoelectronic module
24: Control circuit
241: Light control module
242: Current / voltage stabilization module
243: Second wireless transmission / reception module
244: Current / voltage detection module
245: Second power amplifier module
246: Signal processing module
25: Lightning protection module
30: Smartphone

Claims (11)

The lamp remote control system comprises a remote host and at least one lamp,
The remote host includes monitoring software, and is electrically connected to a first wireless transmission / reception module and a first power amplifier module that expands a signal wave sent out by the first wireless transmission / reception module. And
Each lamp has an AC adapter connected to a power source, an optoelectronic module, and a control circuit electrically connected between the AC adapter and the optoelectronic module on the lamp body,
The control circuit of each lamp further includes a dimming module, a current / voltage stabilization module, a second wireless transmission / reception module, a current / voltage detection module, a second power amplifier module, and a signal processing module.
The dimming module is electrically connected to the optoelectronic module and controls a current / voltage output to the optoelectronic module;
The current / voltage stabilization module is electrically connected between the AC adapter and the dimming module, and provides a stable output current / voltage to the optoelectronic module;
The second wireless transmission / reception module is electrically connected to the AC adapter and transmits / receives a signal to / from at least one corresponding external remote host.
The current / voltage detection module is electrically connected between the second wireless transmission / reception module and the current / voltage stabilization module, and outputs current / voltage information output to the optoelectronic module. Detect / observe, send the detected / observed current / voltage information to the outside through the second wireless transmission / reception module,
The second power amplifier module is electrically connected to the second wireless transmission / reception module, and expands a signal wave sent out by the second wireless transmission / reception module, thereby increasing an expected transmission distance. Can earn,
The signal processing module is electrically connected between the second wireless transmission / reception module and the dimming module, and determines and executes a signal received by the second wireless transmission / reception module. And lamp remote control system. Each lamp is electrically connected to a lightning protection module at the front end of the AC adapter,
The lamp remote control system according to claim 1, wherein the lamp remote control system is connected to an external power source through the lightning protection module.   3. The lamp remote control system according to claim 2, wherein the lightning strike protection module includes a discharge protection component that discharges a large current that generates a positive lightning strike.   3. The lamp remote control system according to claim 1, wherein the dimming module of each lamp includes a transistor for controlling the magnitude of the input current / voltage.   3. The lamp remote control system according to claim 1, wherein the dimming module of each lamp includes a variable resistor for controlling a magnitude of an input current / voltage. 4.   The lamp remote control system according to claim 1 or 2, wherein the current / voltage stabilization module of each lamp includes an OVP voltage stabilization circuit and an OVP current stabilization circuit.   3. The lamp remote control system according to claim 1, wherein the current / voltage stabilization module of each lamp includes an OVP voltage stabilization circuit, an OVP current stabilization circuit, and a PFC power compensation circuit.   3. The lamp remote control system according to claim 1, wherein the current / voltage stabilization module of each lamp includes an OVP voltage stabilization circuit, an OVP current stabilization circuit, and an OHP heating protection circuit.   3. The lamp remote control system according to claim 1, wherein the current / voltage stabilization module of each lamp includes an OVP voltage stabilization circuit, an OVP current stabilization circuit, a PFC power compensation circuit, and an OHP heating protection circuit. .   3. The lamp remote control system according to claim 1, wherein the first wireless transmission / reception module of the remote host and the second wireless transmission / reception module of each lamp each incorporate an IEEE interface.   3. The lamp remote control system according to claim 1, wherein the first power amplifier module of the remote host and the second power amplifier module of each lamp each include an amplifier.