KR102041691B1 - Low power dc lighting device with open ended sensor - Google Patents

Abstract

An object of the present invention is to provide a low-power DC lighting device that can be extended using a sensor that operates using a DC power supplied from the outside, the sensor can be installed in a variety of functions according to the user's needs. To this end, the present invention includes a connection unit having a plurality of connection terminals so that any sensor module is selectively installed or separated, and detects connection information and operation information of the sensor module connected to the connection unit and connects the POE to a network. Power over Ethernet) to the management unit, characterized in that for controlling the amount of light in the light source unit in accordance with the control information transmitted from the POE management unit. Therefore, the present invention operates by using an externally supplied DC power supply, so that it is possible to provide lighting by low power and to install sensors having various functions according to user needs.

Description

LOW POWER DC LIGHTING DEVICE WITH OPEN ENDED SENSOR}

The present invention relates to a low-power DC lighting device that can be extended to the sensor, and more particularly, to operate using a DC power supplied from the outside, and to expand the sensor that can be installed in the sensor of various functions according to the user's needs It relates to a low power DC lighting device.

In general, various lighting devices are used to be installed in indoor or outdoor advertisements or signs to identify images at day or night.

These lighting devices use filament bulbs, fluorescent lamps, neon signs or LEDs (Light Emitting Diodes). Especially, LED lighting devices have the advantages of semi-permanent LEDs, low cost, and low power consumption. Its use is gradually increasing.

The LED device is composed of p-type and n-type semiconductors, and when voltage is applied, electrons and holes are combined to emit energy corresponding to the bandgap of the semiconductor in the form of light. It is a kind of optoelectronic device.

Recently, various colors of LED have been developed to enable a natural color display, and are being applied to various places such as outdoor large billboards, traffic lights, automobile dashboards, home appliances, neon signs, medical equipment, warnings and induction lamps.

In addition, the LED lighting device is in the spotlight as a luminaire because it has a power consumption of about 10% to 15% lower than a conventional incandescent lamp or a fluorescent lamp, a semi-permanent life of more than 100,000 hours, and an environment-friendly characteristic.

1 is a view showing the configuration of a general LED lighting fixture, as shown in Figure 1, the lighting fixture 10 is a SMPS (11) for supplying power and a control unit for outputting a signal for controlling the on / off operation ( 12) and a light source unit 13 including a plurality of LEDs for outputting light according to the control signal output from the control unit 12.

However, the conventional lighting fixture 10 has a problem of wasting unnecessary power simply by the on / off function.

Korean Patent Publication No. 10-2012-0087396 (name of the invention: LED lighting device) to detect the human body in the absence of people, some lights are turned on, the remaining lights 50% dimming LED lighting to reduce power consumption The device has been proposed.

 That is, as shown in FIG. 2, the lighting device 20 has a SMPS 21 for supplying power, a controller 22 for outputting a signal for controlling on / off operation, and a control signal output from the controller 22. It comprises a light source unit 23 consisting of a plurality of LEDs for outputting light, and a sensor unit 24 for detecting whether there is a person in the room, according to the signal output from the sensor unit 24, the control unit ( 22 is configured to output an on / off signal to the light source unit 23 and to perform dimming control according to the output of the sensor unit 24.

However, such a conventional luminaire has a problem in that the luminaire having a sensor installed therein cannot be dimmed.

In addition, the conventional sensor-integrated lighting fixture has a problem that can be different from the actual brightness desired by the user because the dimming control is made according to a predetermined control value, there is a problem that the user can not set the dimming control value to the desired brightness. .

Korean Patent Publication No. 10-2012-0087396 (Invention name: LED lighting device)

In order to solve this problem, an object of the present invention is to provide a low-power DC lighting device that can be extended using a sensor that operates using a DC power supplied from the outside, the sensor can be installed in a variety of functions according to the user's needs. .

In order to achieve the above object, the present invention includes a connection unit having a plurality of connection terminals to selectively install or detach an arbitrary sensor module, and detects the connection information and the operation information of the sensor module connected to the connection network. It is transmitted to the POE (Power Over Ethernet) management unit connected to, characterized in that for controlling the amount of light in the light source unit according to the control information transmitted from the POE management unit.

In addition, the lighting apparatus according to the present invention includes a base part; A DC-DC driver installed in the base unit to convert DC power supplied from the POE management unit into driving power; A control unit installed in the base unit to control the amount of light of the light source unit according to the control information transmitted from the POE management unit, and transmit the connection information of the sensor module connected to the connection unit and the measurement information detected by the sensor module to the POE management unit; A light source unit configured to output light according to the operation of the controller; A plurality of connection terminals provided at the base to electrically connect the sensor module; And a sensor module connected through the connection unit to detect and output arbitrary measurement information.

In addition, the lighting device according to the invention is characterized in that it further comprises a closing cap of a transparent material or an opaque material to protect the sensor module connected to the connection.

In addition, the connection portion according to the invention is characterized in that it is made of at least one of the USB connection terminal, RJ connection terminal.

In addition, the sensor module according to the invention is characterized in that any one of the room sensor, illuminance sensor, CO ₂ sensor, gas sensor.

In addition, the sensor module according to the present invention includes a sensor unit for detecting any measurement information; And it characterized in that it comprises a connecting connector for connecting so that the sensor unit is connected to the connecting portion.

The present invention operates by using an externally supplied DC power source, which provides an advantage of providing illumination that operates by low power.

In addition, the present invention has the advantage that the sensor can be installed in a variety of functions according to the needs of the user.

1 is a block diagram showing the configuration of a typical LED lighting fixture.
Figure 2 is a block diagram showing the configuration of a sensor integrated lighting fixture according to the prior art.
Figure 3 is a perspective view of a low power DC lighting device that can be extended to the sensor according to the present invention.
Figure 4 is an exploded perspective view showing the structure of a low-power DC lighting device that can be extended to the sensor according to the present invention.
Figure 5 is a block diagram showing the electrical configuration of a low-power DC lighting apparatus capable of extending the sensor according to the present invention.
6 is an exemplary view showing a state of use of a low-power DC lighting device capable of extending the sensor.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a low-power DC lighting apparatus capable of extending the sensor according to the present invention.

In this specification, the expression "comprising" a certain component means that it may further include other components rather than exclude other components.

In addition, the terms "... part", "... group", "... module" and the like refer to a unit for processing at least one function or operation, which may be divided into hardware, software, or a combination of the two.

3 is a perspective view showing a low-power DC lighting device that can be extended to the sensor according to the present invention, Figure 4 is an exploded perspective view showing the structure of a low-power DC lighting device that can be extended to the sensor according to the present invention, Figure 5 FIG. 6 is a block diagram illustrating an electrical configuration of a low power DC lighting device capable of extending a sensor, and FIG. 6 is an exemplary view illustrating a state of use of the low power DC lighting device capable of expanding a sensor.

As shown in Figures 3 to 6, Figure 3 according to the present invention is a low-power DC lighting apparatus 100, the expansion of the sensor according to the present invention is a plurality of sensors so that any sensor module 160 is selectively installed or separated It is provided with a connection unit 150 having a connection terminal, and detects the connection information and operation information of the sensor module 160 connected to the connection unit 150 and transmits to the POE (Power Over Ethernet) management unit 200 connected to the network The base unit 110, the DC-DC driver 120, the controller 130, and the light source unit may control the amount of light of the light source unit 140 according to the control information transmitted from the POE manager 200. 140, the connection part 150, and the sensor module 160, and preferably comprises a DC lighting device.

In addition, the lighting device 100 is a light-transmitting portion 111 made of an opaque material made of a diffusion member so that the light output from the light source unit 140, and the connection portion 150 is selectively exposed to the connection portion 150 The sensor module 160 may be connected, and further includes a closing cap 112 of a transparent material or an opaque material to protect the connected sensor module 160.

The closing cap 112 is detachably coupled to the base unit 110, may be configured integrally with the sensor module 160, and if the sensor module 160 is not installed, it functions as a dummy cap.

The base unit 110 is a plate-shaped member, and the DC-DC driver 120, the controller 130, the light source unit 140, and the connection unit 150 are installed and fixed.

The DC-DC driver 120 is installed in the base unit 110 and connected to the POE management unit 200 installed at a remote location through an Ethernet cable to convert the DC power supplied from the POE management unit 200 to a drive power output do.

That is, the DC-DC driver 120 allows the operating power of the light source unit 140 to be supplied using a low power power of about 50 W supplied through an Ethernet cable.

In addition, the DC-DC driver 120 receives the control information transmitted from the POE management unit 200 and outputs the control information to the control unit 130, and outputs the measurement information output from the control unit 130 to the POE management unit 200. To send.

The control unit 130 is installed in the base unit 110 to control the amount of light of the light source unit 140 according to the control information of the light source unit 140 transmitted from the POE management unit 200.

In addition, the controller 130 detects connection information (eg, a type of sensor) of the sensor module 160 connected to the connection unit 150 and transmits the detected information to the POE management unit 200.

In addition, the controller 130 transmits the measurement information detected by the sensor module 160 to the POE management unit 200.

The light source unit 140 is installed in the base unit 110 and outputs light according to the operation of the controller 130. The light source unit 140 includes light having a predetermined wavelength range (for example, white light). To output.

The connection part 150 is provided with a first connection terminal 151, a second connection terminal 152 ‥ n-th connection terminal 153 along the edge or periphery of the base unit 110 to be electrically connected to the sensor module 160. To be connected.

In addition, the connection unit 150 may be composed of a USB connection terminal, RJ connection terminal, etc. to facilitate the connection and separation of the sensor module 160.

The sensor module 160 is connected to the lighting device 100 through the connection unit 150, and detects and outputs arbitrary measurement information in the space where the lighting device 100 is installed. And a connecting connector 162.

The sensor unit 161 is configured to detect arbitrary measurement information, the occupancy sensor for detecting the presence / absence of people, the illumination sensor for detecting the illumination information of the indoor space, the CO ₂ sensor for detecting the carbon dioxide concentration of the indoor space, It may be configured as a gas sensor for detecting specific preset harmful gas information.

However, it will be apparent to those skilled in the art that the sensor unit 161 may be replaced with various sensors according to the needs of the indoor space in which the lighting device 100 is installed in addition to the above sensors.

In addition, the sensor unit 161 is preset unique information so that the control unit 130 can check the type of the sensor unit 161, such as the occupancy sensor, illuminance sensor, CO ₂ sensor, gas sensor, etc. together with the detected measurement information. Outputs

The connection connector 162 is configured to connect the sensor unit 161 to be connected to the connection unit 150, and may be configured as a USB connection connector, an RJ connection connector, and the like.

The following describes the operation of the low-power DC lighting apparatus that can be extended to the sensor according to the present invention.

The first lighting device 100a, the second lighting device 100b, and the n-th lighting device 100c are installed in an arbitrary space, and the first to n-th lighting devices 100a, 100b, and 100c use Ethernet cables. Is connected to the POE management unit 200 installed at a remote location through, the POE management unit 200 is configured to include a SMPS 210 for supplying DC power to the first to n-th lighting devices (100a, 100b, 100c). .

Subsequently, when the user installs the sensor module 160 in the space where the lighting device is installed, the connection cap 150 is exposed by removing the closing cap 112 and detecting arbitrary information on the exposed connection 150. After the sensor module 160 is installed, the closing cap 112 is attached to complete the installation of the sensor module 160.

When DC power is supplied to the first to nth lighting devices 100a, 100b, and 100c through the POE management unit 200, the individual lighting devices search for the sensor modules 160 and 160a installed in the respective lighting devices. The POE manager 200 provides measurement information detected by the sensor modules 160 and 160a together with the information of the sensor modules 160 and 160a.

The POE management unit 200 is a management server 300 connected through a network and the measurement information detected by the sensor modules 160 and 160a together with the information of the detected sensor modules 160 and 160a. Provide by setting.

Subsequently, the POE manager 200 analyzes individual lighting device specific information transmitted from the management server 300 and transmits control information to the lighting device so that the light source of the lighting device is dimmed.

Therefore, by operating using a DC power source supplied from the outside, it is possible to provide lighting to operate by a low power, it is possible to install a sensor of various functions according to the needs of the user.

As described above, it has been described with reference to a preferred embodiment of the present invention, but those skilled in the art various modifications and changes of the present invention without departing from the spirit and scope of the invention described in the claims below I can understand that you can.

In addition, the reference numerals described in the claims of the present invention are not limited to the above described for clarity and convenience of the description, but are not limited thereto, the thickness of the lines shown in the drawings, the size of the components, etc. May be exaggerated for clarity and convenience of the description, and the above terms are terms defined in consideration of functions in the present invention, and may vary according to the intention or custom of the user or operator, and thus the interpretation of these terms Will be made based on the contents throughout the specification.

100: lighting device 100a: first lighting device
100b: second lighting device 100c: n-th lighting device
110: base portion 111: light transmitting portion
112: closing cap 120: DC-DC driver
130: control unit 140: light source unit
150: connecting portion 151: first connecting terminal
152: second connection terminal 153: n-th connection terminal
160, 160a: sensor module 161: sensor unit
162: connector 200: POE management unit
210: SMPS 300: Management Server

Claims (6)

The base unit 110 and detachably coupled to the base unit 110, functions as a closing member when the sensor module 160 is not installed, and when the sensor module 160 is installed in the connection unit 150 A closing cap 112 for protecting the sensor module 160 and a DC-DC driver installed in the base 110 to convert DC power supplied from a POE (Power Over Ethernet) management unit 200 into driving power ( 120 and the unique information of the sensor module 160 installed in the base unit 110 and connected to the connection unit 150 and the measurement information detected by the sensor module 160 are transmitted to the POE management unit 200. The control unit 130 controls the amount of light of the light source unit 140 according to the control information transmitted from the POE management unit 200, the light source unit 140 which outputs light according to the operation of the control unit 130, and the base unit. Along the corners or circumference of the 110, a plurality of connection terminals consisting of a USB connection terminal, RJ connection terminal A value is the sensor module 160 and the electrical connection portion 150 and, to be connected to the connection portion 150 is connected with the connection connector 162, and the occupancy sensor, brightness sensor, CO ₂ sensor, a gas sensor connected to At least one lighting device having a sensor module 160 for outputting the information measured from the sensor unit 161 made together with the unique information of the sensor module set for each room sensor, illuminance sensor, CO ₂ sensor, gas sensor; And
Connected via the Ethernet device and the lighting device is controlled so that the DC power supplied from the SMPS 210 is supplied to the lighting device, and when the power is supplied, the sensor module 160 installed in the lighting device is searched for the lighting device. Unique information of the installed sensor module 160 and the measurement information measured by the sensor module 160 is transmitted to the management server 300 together with the unique information of the lighting device, the lighting device transmitted from the management server 300 Low power DC lighting device that can be extended to the sensor including a POE management unit 200 which operates to analyze the unique information of the light source unit 140 of the lighting device. delete delete delete delete delete

Images