KR20200028617A - Power separation type led lighting control system - Google Patents

Abstract

The present invention relates to a power-separated LED lighting control system and, more specifically, to a power-separated LED lighting control system which can be applied to industrial lights such as explosion-proof lights, factory lights, and floodlights, street lights, security lights, landscape lights, and the like, has a lighting unit and a power supply unit physically separated from each other, thereby facilitating maintenance of the power supply unit, which is a main cause of failure, controls power supply while having SMPSs more than ports connected to the lighting unit, thereby having no difficulty in using a light even in case of any SMPS failure, and enables repair of a broken SMPS without turning off the light. According to the present invention, the power-separated LED lighting control system comprises: a light unit having a plurality of LED lamps emitting light by being supplied with power; a plurality of ports dividing the plurality of LED lamps into groups and interconnecting the LED lamps belonging to the groups; a power supply unit supplying power to each of the plurality of ports while being physically separated from the lighting unit, and including a plurality of SMPSs more than the plurality of ports; an SMPS failure detection unit detecting a failure in each of the plurality of SMPSs; and a control unit including a first switch blocking an SMPS, detected as a failure by the SMPS failure detection unit, among the plurality of SMPS, and a second switch matching, to the plurality of ports, the remaining SMPSs except for the SMPS blocked by the first switch.

Description

Power separation LED lighting control system {POWER SEPARATION TYPE LED LIGHTING CONTROL SYSTEM}

The present invention relates to a power separation type LED lighting control system, and more specifically, it can be applied to industrial lighting such as explosion-proof lights, factory lights, floodlights, street lights, security lights, landscape lighting, etc. Separated, it is easy to maintain the power supply, which is the main cause of failure, and it controls the power supply while having more SMPS than the number of ports connected to the lighting, so there is no trouble in using the lighting in case of any SMPS failure. It relates to a separate power LED lighting control system capable of repairing a broken SMPS without turning off the power.

LED lighting is largely classified into indoor, outdoor, and industrial use. Indoor use is lighting used in homes, offices, and gymnasiums. Outdoor use is used in parking lots, roads, and building exteriors. It is used for lighting.

In particular, industrial LED lighting lamps are often used in explosion-proof areas. These LED explosion-proof lighting lamps are made to be used safely in places where there is a high-temperature and high-pressure risk, such as electricity and gas explosions. Hazardous areas dealing with steam must be used in accordance with occupational safety and health laws.

In the registered patent publication No. 10-1280963 (announced on July 2, 2013), "LD explosion-proof lamp" according to the prior art is published.

However, most of the LED lighting according to the prior art is composed of an integral type in which the lighting unit and the power unit are combined.

In addition, the cause of the failure of the LED lighting according to the prior art is mainly due to the failure of the power supply unit (SMPS), and when the integrated LED lighting fails, there is a difficulty in replacing the power supply unit (SMPS) attached to a high ceiling.

In addition, the LED lighting according to the prior art has a disadvantage in that it is impossible to use the corresponding lighting until the repair is completed in the event of a power failure.

The present invention was devised to solve the problems of the prior art as described above, and the object of the present invention is not only to maintain the power supply, which is the main cause of failure, but also to prevent the use of lighting even in the case of some SMPS failures. The aim is to provide a separate power LED lighting control system capable of repairing a broken SMPS without turning off the power.

Another object of the present invention is to provide a separate power supply LED lighting control system capable of preventing overheating due to the continuous use of SMPS.

In order to achieve the above object, the power separation type LED lighting control system according to the present invention includes a lighting unit provided with a plurality of LED lamps that receive power and irradiate light; A plurality of ports for dividing the plurality of LED lamps into groups and interconnecting LED lamps belonging to each group; A power supply unit configured to supply power to each of the plurality of ports in a state of being physically separated from the lighting unit, and including a plurality of SMPSs having a number greater than the number of the plurality of ports; An SMPS failure detection unit detecting a failure of each of the plurality of SMPSs; A first switch for blocking the SMPS detected as a failure in the SMPS failure detection unit among the plurality of SMPS, and a second switch for matching the remaining SMPS except for the SMPS blocked by the first switch to the plurality of ports A configured control unit; It is characterized by including.

Here, the lighting unit is characterized in that the voltage compensation regulator circuit for voltage compensation according to the voltage drop of the DC wire is connected to each LED lamp.

Here, the SMPS failure detection unit is configured to include a current voltmeter that detects the current and voltage flowing through each of the plurality of SMPS, and if the current and voltage are detected as out of the normal operating range, the SMPS is determined as a failure. It is characterized by.

Here, the controller is characterized in that it controls the first switch to operate the plurality of SMPS alternately by a number corresponding to the number of the plurality of ports at predetermined time intervals and block the remaining SMPS.

In addition, the separate power LED lighting control system according to the present invention, the lighting failure detection unit for detecting the failure of the lighting unit by detecting the voltage or current flowing in the lighting unit in each of the plurality of ports; It is characterized by further including.

The power separation type LED lighting control system according to the present invention by the above-described configuration, the lighting unit and the power unit are physically separated from each other, so maintenance of the power unit, which is the main cause of failure, is easy, and when applied to an explosion-proof lamp installed in an explosion-proof area, the lighting unit Even though it is installed in an explosion-proof area, the power supply unit can be installed in a non-explosion-proof area, which has the advantage of lowering the explosion-proof rating of the power supply unit.

In addition, the power separation type LED lighting control system according to the present invention is economical because it can reduce the number of SMPSs compared to the prior art where the LED lamps and SMPSs are matched 1: 1 by connecting a plurality of LED lamps to one port. There is this.

In addition, the power separation type LED lighting control system according to the present invention controls the power supply in a state having more SMPS than the number of ports connected to the lighting unit, so that when the SMPS breaks down, the connection is switched to an extra SMPS to use the lighting. It has the advantage of being able to repair a broken SMPS without disturbing and turning off the lights.

In addition, the power separation type LED lighting control system according to the present invention has the advantage of preventing the failure in advance by detecting the operating state of the power unit or the lighting unit.

In addition, the power separation type LED lighting control system according to the present invention has an advantage of extending the life of the SMPS by preventing overheating due to the continuous use of the SMPS by controlling to alternately use a plurality of SMPS.

In addition, the power separation type LED lighting control system according to the present invention has an advantage in that a voltage compensation regulation circuit is connected to each LED lamp to enable voltage compensation according to a voltage drop of a DC wire.

1 is a block diagram of a power separation type LED lighting control system according to an embodiment of the present invention
Figure 2 is a conceptual diagram of a main part of a separate power LED lighting control system according to an embodiment of the present invention
Figure 3 is a circuit block diagram of a separate power LED lighting control system according to an embodiment of the present invention

Hereinafter, the power separation type LED lighting control system according to the present invention will be described in more detail with reference to an embodiment shown in the drawings.

1 is a configuration diagram of a power separation type LED lighting control system according to an embodiment of the present invention, FIG. 2 is a conceptual diagram of a main part of a power separation type LED lighting control system according to an embodiment of the present invention, and FIG. It is a circuit block diagram of a separate power LED lighting control system according to an embodiment.

1 to 3, the power separation type LED lighting control system according to an embodiment of the present invention includes an lighting unit 10, a plurality of ports 20, a power supply unit 30, and an SMPS failure detection unit 40 And a lighting failure detection unit 50 and a control unit 60.

The lighting unit 10 is configured to be provided with a plurality of LED lamps 11 for irradiating light by receiving power.

The plurality of ports 20 are configured to divide the plurality of LED lamps 11 into groups and interconnect the LED lamps 11 belonging to each group.

LED lamps 11 belonging to each group are connected to each of the ports 21, 22, and 23 in parallel with each other.

In addition, as shown in FIG. 2, a voltage compensation regulating circuit 12 for voltage compensation according to the voltage drop of the DC wire is connected to each LED lamp 11.

It is preferable that the voltage compensation regulating circuit 12 is not a general DC-DC converter, but a circuit is formed without using a condenser that is a main cause of failure.

According to the present invention, a plurality of LED lamps 11 are interconnected to one port 21, 22, and 23, so that the number of SMPSs required can be reduced compared to the prior art where the LED lamps and SMPSs are matched 1: 1. .

The power supply unit 30 is configured to supply power to each of the plurality of ports 20 in a state of being physically separated from the lighting unit 10.

In the present invention, since the lighting unit 10 and the power supply unit 30 are physically separated from each other, maintenance of the power supply unit 30, which is a main cause of failure, is easy, and the lighting unit 10 is installed in the explosion-proof area. 30) can be installed in a non-explosion-proof area, there is an advantage that can lower the explosion-proof rating of the power supply unit 30.

In addition, in one embodiment of the present invention, the power supply unit 30 has a plurality of SMPS (31, 32, 33, 34) consisting of a number (4) more than the number (3) of the plurality of ports (20). It includes.

The SMPS failure detection unit 40 is configured to detect the failure of each of the plurality of SMPS (31, 32, 33, 34).

 In one embodiment of the present invention, the SMPS fault detection unit 40 includes an ammeter that detects the current and voltage flowing through each of the plurality of SMPSs 31, 32, 33, and 34, as shown in FIG. It is configured to determine that the SMPS is a failure when the current and the voltage are detected as out of the normal operating range.

The lighting failure detection unit 50 is configured to detect a failure of the lighting unit 10 by detecting a voltage or a current flowing through the lighting unit 10 in each of the plurality of ports 20 (21, 22, 23). .

If the LED lamp 11 of the lighting unit 10 is not turned on by the configuration of the SMPS failure detection unit 40 and the lighting failure detection unit 50, it is the failure of the lighting unit 10, the power supply unit 30 Is the fault, the user can easily diagnose the cause of the fault.

The control unit 60 includes a first switch 61 to block the SMPS detected as a failure in the SMPS failure detection unit 40 among the plurality of SMPS (31, 32, 33, 34), and the first switch ( 61) is configured to include a second switch 62 that matches the remaining SMPS except the blocked SMPS to the plurality of ports (21, 22, 23).

For example, referring to FIG. 3, the initial state is that SW A, SW B, and SW C of the first switch 61 are on and SW D is off, and # 1 SMPS 31 is the first port 21 ) To supply power to the lighting unit 10 connected to, # 2 SMPS 32 supplies power to the lighting unit 10 connected to the second port 22, and # 3 SMPS 33 to the third port 23 ) Is a state of supplying power to the lighting unit 10 connected to.

In this initial state, when the current of the # 1 SMPS 31 is not detected in the SMPS failure detection unit 40 (ie, A1 = 0), the control unit 60 determines the # 1 SMPS 31 as a failure And turn off SW A of the first switch 61 to turn off the # 1 SMPS 31, turn on SW D, and simultaneously turn on SW a of the second switch 62 to turn on the first port ( The lighting unit 10 connected to 21) is configured to receive power from # 4 SMPS 34.

In other cases, the second switch 62 also uses the plurality of ports 21, 22, and 23 for the remaining SMPS except for the SMPS blocked by the first switch 61 according to the connection state of the first switch 61. ).

Furthermore, the control unit 60 sequentially operates the plurality of SMPSs 31, 32, 33, and 34 at a predetermined time interval as many as the number corresponding to the number of the plurality of ports 20 and blocks the remaining SMPSs. It is configured to control the first switch 61 so as to.

That is, the controller 60 controls the first switch 61 to alternately use three SMPSs among four SMPSs for a predetermined period of time, thereby overheating due to the continuous use of the SMPSs 31, 32, 33, and 34. And prevents the SMPSs 31, 32, 33 and 34 from being used evenly.

For example, after using # 1 SMPS (31), # 2 SMPS (32), and # 3 SMPS (33) for 8 hours, # 1 SMPS (31), # 3 SMPS (32), and # 4 SMPS (34) Power is supplied for 8 hours, and # 2 SMPS 32 is to power off and take a break.

Switch operation sequence is # 1, # 2, # 3 in the initial state. When using SMPS (31, 32, 33) power, SW A, B, C of the first switch 61 are on, and SW D is off. , Sw a, b, and c of the second switch 62 are in an off state.

When switching to the # 1, # 2, # 4 SMPS (31, 32, 34) power after a certain period of time in the initial state, control to be SW a on-> SW D on-> SW C off.

Also, after a certain period of time, # 1, # 3, # 4 SMPS (31, 33, 34) When switching to power SW C on-> SW a off-> SW D off-> SW b on-> SW D on -> Control to be SW B off.

Also, after a certain period of time, # 2, # 3, # 4 SMPS (32, 33, 34) When switching to power SW B on-> SW b off-> SW D off-> SW c on-> SW D on -> Control to be SW A off.

In addition, when switching to the initial state # 1, # 2, # 3 SMPS (31, 32, 33) power after a certain period of time, control to be SW A on-> SW c off-> SW D off.

With the above configuration, it is possible to prevent overheating due to the continuous use of SMPS.

Meanwhile, the control unit 60 may be provided with a communication module (not shown) to transmit status information to a user terminal (not shown), and may be configured to interwork with an IoT system.

The power separation type LED lighting control system described above and illustrated in the drawings is only one embodiment for practicing the present invention and should not be interpreted as limiting the technical spirit of the present invention. The protection scope of the present invention is defined only by the matters described in the following claims, and the improved and modified embodiments without departing from the gist of the present invention are obvious to those skilled in the art to which the present invention pertains. It will be said that it belongs to the protection scope of the present invention.

10 Lighting Department
11 LED lamp
12 Regulating circuit for voltage compensation
20 ports
30 Power supply
40 SMPS Fault Detection Department
50 Lighting Failure Detection Unit
60 Control
61 1st switch
62 second switch

Claims (5)

An illumination unit provided with a plurality of LED lamps that are supplied with power and irradiate light;
A plurality of ports for dividing the plurality of LED lamps into groups and interconnecting LED lamps belonging to each group;
A power supply unit configured to supply power to each of the plurality of ports in a state of being physically separated from the lighting unit, and including a plurality of SMPSs having a number greater than the number of the plurality of ports;
An SMPS failure detection unit detecting a failure of each of the plurality of SMPSs;
A first switch for blocking the SMPS detected as a failure in the SMPS failure detection unit among the plurality of SMPS, and a second switch for matching the remaining SMPS except for the SMPS blocked by the first switch to the plurality of ports A configured control unit; Power separated LED lighting control system comprising a. According to claim 1,
The lighting unit, each LED lamp is a separate power supply LED lighting control system characterized in that the voltage compensation regulator circuit for voltage compensation according to the voltage drop of the DC wire is connected. The method according to claim 1 or 2,
The SMPS failure detection unit is configured to include an ammeter that detects the current and voltage flowing through each of the plurality of SMPSs. Power-off LED lighting control system. The method according to claim 1 or 2,
The control unit operates the plurality of SMPS alternately by a number corresponding to the number of the plurality of ports at predetermined time intervals, and controls the first switch to block the rest of the SMPS. Control system. The method according to claim 1 or 2,
A lighting failure detection unit detecting voltage or current flowing in the lighting unit from each of the plurality of ports to detect a failure of the lighting unit; Power separated LED lighting control system further comprising a.

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