JP3184341U6 - lamp - Google Patents

Abstract

An energy saving lamp capable of sensing environmental conditions and controlling on / off according to the environmental conditions is provided.
An AC adapter 32 connected to a power source, an optoelectronic module 33, and a control circuit 34 electrically connected between the AC adapter 32 and the optoelectronic module 33 are installed on the lamp main body 31. At least a wireless transmission / reception module 341, a power amplifier module 342, and an environmental signal processing module 343 are provided. The sensing / measurement signal of the environmental detector 10 to which it corresponds is received by the signal processing module 343, and after being identified and confirmed, it is sent out through the wireless transmission / reception module 341 and received by the corresponding remote controller 20 Thus, the environmental conditions around the lamp 30 are monitored / controlled.
[Selection] Figure 2

Description

  The present invention relates to an illumination lamp, and more particularly to a lamp capable of transmitting environmental sensing / measurement signals.

  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. Since similar street light installation points may include a fully open outdoor environment and a closed or semi-blocked environment at the same time, various operating modes need to be set. Above all, the tunnel belongs to a kind of semi-enclosed environment. Unlike the roads at both ends of the tunnel entrance, the inside of the tunnel is generally not exposed to sunshine, so the lamps in the tunnel are set almost on all day, thus maintaining the safety of traffic for people and vehicles.

  However, many of the illumination lamps such as the street lamps described above are installed in relatively inconvenient places, 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. However, in a specific section, the vehicle does not travel in the tunnel all day. Therefore, keeping the tunnel bright throughout the day is a waste of energy.

Furthermore, in general, lighting equipment is installed inside the tunnel, and an environmental condition control device such as an exhaust device is installed in order to maintain the air quality in the tunnel. Similarly, in a similar environmental condition control device, if the operation is controlled by the method of scheduled automatic on and scheduled automatic off, energy is wasted in a time zone with a small amount of traffic. But if you control your driving by hand, you have to pay more labor costs. In addition, due to human error, the environmental conditions at the lamp placement point tend to fall into a state where it cannot be monitored / controlled as expected.
The present invention has been made in view of the above-described drawbacks of conventional lamps.

None

  The problem to be solved by the present invention is to receive the sensing / measurement signal of the corresponding environmental detector through the wireless transmission method, send it out by the wireless transmission / reception module, and receive it by the corresponding remote controller Thus, it is to provide a lamp capable of monitoring / controlling environmental conditions around the lamp by a remote controller.

In order to solve the above problems, the present invention provides the following lamps.
The lamp has an AC adapter connected to the power supply, an optoelectronic module, and a control circuit electrically connected between the AC adapter and the optoelectronic module on the lamp main body.
The control circuit further includes a wireless transmission / reception module, a power amplifier module, and a signal processing module,
The wireless transmission / reception module is electrically connected to the AC adapter, and transmits / receives signals to / from at least one corresponding external remote controller.
The power amplifier module is electrically connected to the wireless transmission / reception module, expands a signal wave sent out by the wireless transmission / reception module, and thereby obtains an appropriate transmission distance;
The signal processing module is electrically connected to the wireless transmission / reception module, receives a sensing / measurement signal of an environmental detector corresponding to the module, and transmits a signal after identification confirmation to the wireless transmission / reception module. , Ship out,
When the lamp of the present invention is used, the signal processing module normally receives the sensing / measurement signal of the corresponding environmental detector, and after identification, confirmation, it is sent out through the wireless transmission / reception module. It can be received by the corresponding remote controller and achieve the purpose of transmitting environmental sensing / measurement signal around the lamp to the remote controller, which can further monitor / control the environmental conditions around the lamp ,
The control circuit further comprises a dimming module, a current / voltage stabilization module, a current / voltage detection module,
The dimming module is electrically connected to the optoelectronic module and controls a voltage / current 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 voltage / current to the optoelectronic module;
The current / voltage detection module is electrically connected between the wireless transmission / reception module and the current / voltage stabilization module to detect voltage / current information output to the optoelectronic module. , Send out the voltage / current information detected through the wireless transmission / reception module,
The signal processing module further determines and executes a signal received by the wireless transmission / reception module,
The dimming module contains a transistor that controls the magnitude of the input voltage / current.
The dimming module contains a variable resistor that controls the magnitude of the input voltage / current.
The current / voltage stabilization module includes an OVP voltage stabilization circuit and an OVP current stabilization circuit,
The current / voltage stabilization module incorporates an OVP voltage stabilization circuit, an OVP current stabilization circuit, and a PFC power compensation circuit.
The current / voltage stabilization module incorporates an OVP voltage stabilization circuit, an OVP current stabilization circuit, and an OHP heating protection circuit.
The current / voltage stabilization module incorporates an OVP voltage stabilization circuit, an OVP current stabilization circuit, a PFC power compensation circuit, and an OHP heating protection circuit.
The lamp is electrically connected to a lightning protection module at the front end of the C 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,
The wireless transmission / reception module has a built-in IEEE interface to transmit / receive signals to / from a remote controller that it supports,
The power amplifier module includes an amplifier that expands a signal transmitted to the wireless transmission / reception module.

The lamp of the present invention has the following effects.
(1) The environmental conditions of the lamp installation point can be grasped by more aggressive means.
(2) The remote controller can monitor / control the environmental conditions around the lamp.
(3) The operating state of the lamp can be grasped by a more aggressive means.
(4) It is possible to maintain / repair the normal operation of the lamp by more aggressive means.
(5) The remote controller can be turned on / off or receive a dimming signal to achieve the purpose of remote control.

It is an arrangement reference diagram when using the inventive lamp. It is a block chart of the lamp | ramp basic composition structure of Example 1 of this invention. It is a block chart of the basic composition structure of the lamp of Example 2 of the present invention. It is a block chart of the basic composition structure of the lamp of Example 3 of the present invention.

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

  As shown in FIG. 1, which is a layout reference diagram when using the lamp of the present invention, the present invention utilizes a wireless transmission system and uses at least one corresponding environmental detector 10 (for example, a carbon dioxide concentration detector, an object proximity detector, Provided is a lamp 30 that normally receives a sensing / measurement signal emitted by a vehicle speed detector or the like, and that transmits / receives a signal to a corresponding remote controller 20. As a result, the sensing / measurement signal of the environment around the lamp 30 installation point is transmitted to the remote controller 20. Or dimming the lamp).

  As shown in FIG. 2 which is a block chart of the basic structure of the lamp according to the first embodiment of the present invention, the lamp 30 of the present invention has an AC adapter 32, an optoelectronic module 33, an AC connected to a power source on a lamp main body 31. A control circuit 34 that is electrically connected is installed between the adapter 32 and the optoelectronic module 33.

  The control circuit 34 further includes a wireless transmission / reception module 341, a power amplifier module 342, and a signal processing module 343.

  The wireless transmission / reception module 341 is electrically connected to the AC adapter 32 and transmits / receives signals to / from at least one corresponding external remote controller 20. At the time of implementation, the wireless transmission / reception module 341 has a built-in IEEE interface, and transmits / receives signals to / from the remote controller 20 to which it corresponds.

  The power amplifier module 342 is connected to the wireless transmission / reception module electrical unit 341, and expands the signal wave that the wireless transmission / reception module 341 sends out, thereby obtaining a proper transmission distance. In implementation, the power amplifier module 342 incorporates an amplifier that expands the signal transmitted to the wireless transmission / reception module 341 and obtains the transmission distance that should be.

  The signal processing module 343 is electrically connected to the wireless transmission / reception module 341, receives the sensing / measurement signal of the environmental detector 10 to which it corresponds, and transmits the signal after identification confirmation to the wireless transmission / reception module 341. And ship outside.

  In principle, when the lamp 30 of the present invention is used, the optoelectronic module 33 is electrically connected to a predetermined number of light-emitting diodes, fluorescent tubes, or mercury bulbs, and is connected to an external power source through an AC adapter 32. The AC adapter 32 provides power necessary for the operation of the optoelectronic module 33 and the control circuit 34. After starting the operation of the optoelectronic module 33, the optoelectronic module 33 can achieve a predetermined lighting effect.

  In particular, the signal processing module 343 normally receives the sensing / measurement signal sent out by the corresponding environmental detector 10 and, after the identification check, the sensing / measurement signal is transmitted to the wireless transmission / reception module 341. Are transmitted to the outside through the wireless transmission / reception module 341 and further received by the corresponding remote controller 20. Accordingly, the remote controller 20 at a remote position can receive an immediate environment sensing / measurement signal, and the purpose of transmitting the environment sensing / measuring signal around the lamp 30 to the remote controller 20 can be achieved. Moreover, the remote controller 20 can further monitor / control the environmental conditions around the lamp 30.

  For example, when a lamp is installed in a tunnel and the corresponding environmental detector is a carbon dioxide concentration detector that senses / measures the carbon dioxide concentration in the air, the environmental detector senses / measures through the lamp. The carbon dioxide concentration signal can be transmitted to a remote controller at a remote location, and the remote controller can immediately sense / measure the carbon dioxide concentration in the tunnel. Moreover, when the carbon dioxide concentration reaches the set value, the remote controller controls the operation of the exhaust system in the tunnel, accelerates the air convection effect in the tunnel, thus reducing the carbon dioxide concentration in the tunnel, The purpose of controlling the environmental conditions around the lamp can be achieved.

  When the installation point of the lamp is in the tunnel or near the tunnel entrance, and the corresponding environmental detector is an object proximity detector, the remote sensing signal that is detected / measured by the environmental detector through the lamp Transmitting to the controller, the remote controller can instantly sense / measure whether the vehicle has entered the tunnel. Moreover, the remote controller can turn on the lamp in the tunnel or dimm the lamp in the tunnel while the vehicle is in the tunnel. In addition, the remote controller receives detection / measurement signals from other lamps in the tunnel, or environmental detectors (object approach detectors) around the lamp near the tunnel exit position, and judges whether the vehicle has passed through the tunnel, Thus, after confirming that the vehicle has passed through the tunnel, the lamp in the tunnel is turned off, or the lamp in the tunnel is dimmed to achieve the purpose of energy saving.

  The remote controller discovers that the environment detector (object approach detector) in the tunnel or the environment detector (object approach detector) signal on a general road is not connected, and the vehicle has issued a triangular display board or an accident has occurred. If it is determined that it has been done, it is possible to avoid the expansion of danger by going to the site for confirmation or notifying the relevant organizations to provide cooperation.

  When the ramp is installed in a tunnel or on a general road and the environmental detector to which it corresponds is an automobile speed detector, the remote controller is supported and the vehicle is not overspeeding or is driving dangerously. Detecting / measuring whether there is a problem, the remote controller can also check the site and notify the relevant agencies to crack down, avoiding the spread of danger.

  Further, as shown in FIG. 3 which is a block configuration structure block chart of Embodiment 2 of the present invention, the control circuit 34 further includes a dimming module 344, a current / voltage stabilization module 345, and a current / voltage detection module 346. .

  The dimming module 344 is in electrical communication with the optoelectronic module 33, which basically uses a transistor to control the magnitude of the input voltage / current, or the magnitude of the input voltage / current. The voltage / current output to the optoelectronic module 33 is controlled by a system incorporating a variable register to be controlled, and thus the optoelectronic module 33 achieves a dimming function that generates various luminances.

  The current / voltage stabilization module 345 is electrically connected between the AC adapter 32 and the dimming module 344, which basically incorporates an OVP voltage stabilization circuit and an OVP current stabilization circuit, for optoelectronic modules. Provide a stable output voltage / current. At the time of implementation, the current / voltage stabilization module 345 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, thereby stabilizing the optoelectronic module 33. Provide operating power.

  The current / voltage detection module 346 is electrically connected between the wireless transmission / reception module 341 and the current / voltage stabilization module 345 to detect voltage / current information output to the optoelectronic module 33. The voltage / current information detected through the wireless transmission / reception module 341 is sent out.

  The signal processing module 343 further determines and executes a signal received by the wireless transmission / reception module 341. Thus, the voltage / current information output to the optoelectronic module 33 is normally detected by the current / voltage detection module 346, and the voltage / current information detected through the wireless transmission / reception module 341 is detected. Ships out to the corresponding remote controller 20. As a result, the on / off state of the optoelectronic module 33 of the lamp 30 can be known from the voltage / current information received by the remote controller 20, and it is determined whether the optoelectronic module 33 of the lamp 30 is operating normally. In addition, the number of hours of optoelectronic module 33 operation can be converted.

  Furthermore, the remote controller 20 can send related control signals to the lamps 30, thereby achieving the purpose of remotely monitoring / controlling the lamps 30. Therefore, the present invention can be applied to an illumination lamp (street lamp or the like) having a large installation range and a distance between the installation point and the management department, or an illumination lamp installed in an environment where the conditions are relatively dangerous.

  In addition, the lamp usage point of the present invention may be a vast area that is unobstructed. Therefore, as shown in FIG. 4, the lightning protection module 35 is further electrically connected to the front end of the AC adapter 32 and is connected to an external power source through the lightning protection module 35. At the time of implementation, the lightning protection module 35 has a built-in discharge protection component that discharges a large current that generates a positive lightning, and if a lightning strike is encountered, it draws a large current directly to the ground, which makes it effective Can be absorbed, and damage to the lamp due to lightning can be avoided.

  Compared with the conventional structure, the lamp of the present invention grasps the environmental condition of the lamp installation point by a more active means, so that the remote controller can monitor / control the environmental condition around the lamp and more actively It is possible to grasp the operating state of the lamp by simple means, and to maintain / repair the normal operation of the lamp by more aggressive means. In particular, the on / off or dimming signal from the remote controller can be received to achieve the purpose of remote control, and the practicality, applicability, and convenience of operation of the lamp can be greatly enhanced.

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

  The present invention has the novelty that is a requirement for utility model registration, has sufficient progress compared to similar products of the past, has high practicality, meets the needs of society, and has a very high industrial utility value. large.

10: Environmental detector
20: Remote controller
30: Lamp
31: Lamp main
32: AC adapter
33: Optoelectronic module
34: Control circuit
341: Wireless transmission / reception module
342: Power amplifier module
343: Signal processing module
344: Light control module
345: Current / voltage stabilization module
346: Current / voltage detection module
35: Lightning protection module

Claims (12)

The 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 main body,
The control circuit further includes a wireless transmission / reception module, a power amplifier module, a signal processing module,
The wireless transmission / reception module is electrically connected to the AC adapter, and transmits / receives signals to / from at least one corresponding external remote controller.
The power amplifier module is electrically connected to the wireless transmission / reception module, expands a signal wave that the wireless transmission / reception module sends out, and thereby obtains an appropriate transmission distance;
The signal processing module is electrically connected to the wireless transmission / reception module, receives a sensing / measurement signal of an environmental detector corresponding to the module, and transmits a signal after identification confirmation to the wireless transmission / reception module. A lamp characterized by being shipped out. The control circuit further includes a dimming module, a current / voltage stabilization module, a current / voltage detection module,
The dimming module is electrically connected to the optoelectronic module and controls a voltage / current 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 voltage / current to the optoelectronic module;
The current / voltage detection module is electrically connected between the wireless transmission / reception module and the current / voltage stabilization module, and detects voltage / current information output to the optoelectronic module. , Send out the voltage / current information detected through the wireless transmission / reception module,
The lamp of claim 1, wherein the signal processing module further determines and executes a signal received by the wireless transmission / reception module.   The lamp according to claim 2, wherein the dimming module includes a transistor for controlling a magnitude of an input voltage / current.   The lamp according to claim 2, wherein the dimming module includes a variable resistor that controls a magnitude of an input voltage / current.   The lamp according to claim 2, wherein the current / voltage stabilization module includes an OVP voltage stabilization circuit and an OVP current stabilization circuit.   The lamp of claim 2, wherein the current / voltage stabilization module includes an OVP voltage stabilization circuit, an OVP current stabilization circuit, and a PFC power compensation circuit.   The lamp according to claim 2, wherein the current / voltage stabilization module includes an OVP voltage stabilization circuit, an OVP current stabilization circuit, and an OHP heating protection circuit.   The lamp according to claim 2, wherein the current / voltage stabilization module includes an OVP voltage stabilization circuit, an OVP current stabilization circuit, a PFC power compensation circuit, and an OHP heating protection circuit. The lamp is electrically connected to a lightning protection module at the front end of the C adapter,
The lamp according to claim 1, wherein the lamp is connected to an external power source through the lightning protection module.   The lamp according to claim 9, wherein the lightning protection module includes a discharge protection component that discharges a large current in which a positive lightning occurs.   The lamp according to claim 1, wherein the wireless transmission / reception module includes an IEEE interface and transmits / receives a signal to / from a remote controller corresponding to the IEEE interface.   The lamp according to claim 1, wherein the power amplifier module includes an amplifier that expands a signal transmitted to the wireless transmission / reception module.