BG2506U1 - Device for temperature defense and operation of a light source - Google Patents

Abstract

The device is applicable to lighting technology, including street lighting, traffic lights and others. The device includes a temperature reader (1), positioned either in proximity to or inside of the light source (2) and connected to operating microcontroller (3), which is in turn connected to a block for governing the charge of the light source (6), whose inlet is connected to powering block (5) and its exit-to the light source (2). Remote transmission of the parameters of the work regime in the surrounding environment to a control center is possible. The advantages of the device are the decrease of the number of defective light units due to work by the light source in an optimal range; the malleable and intelligent control of the light sources; ensuring a capability for quick reaction if defection is present and a capability for collecting additional statistical or other data.

Description

Field of technology

The device for temperature protection and control of a light source is used in lighting technology, including street lighting, traffic lights and others.

BACKGROUND OF THE INVENTION

The light sources usually operate in the optimal mode specified by the manufacturer without reducing the power supply at a higher operating temperature.

Lighting devices are known in which, for the purpose of temperature protection of the light source, the latter operates in a mode of pre-reduced power supply lower than the nominal one.

The disadvantage of the first approach is the reduction of the service life of the product, and the second - the unprofitable use of light sources.

Technical essence of the utility model

The task of the utility model is to create a device for temperature protection and control of light sources, which will optimize their mode of operation in conditions of elevated temperature, reducing operating costs while maintaining the design life of the source.

The problem is solved by creating a device for temperature protection and control of a light source, including a temperature sensor mounted next to or in the light source and connected to a control microcontroller that reads the operating temperature, which in turn is connected to the power control unit of the light source, the input of which is connected to a power supply unit, and its output - to the light source.

A variant of the device has also been developed, in which the microcontroller is connected to a power line modem (also known as a PLM modem, from its English name - Power Line Modem), which in turn is connected to the power supply.

The main advantages of the device are:

- reduction of the number of defective lighting fixtures due to operation of the light source in optimal mode;

- flexible and intelligent control of one or a group of light sources;

- providing an opportunity for quick reaction in case of defects of light sources without additional costs;

Yu - possibility to collect additional data for statistical and other purposes.

Explanation of the attached figure

Figure 1 is a diagram of a device 15 for temperature protection and control of a light source.

Examples of implementation of the utility model

Exemplary embodiments of the 20 devices described below have been developed, without limiting them to the examples presented.

Example 1.

The device for temperature protection and control of a light source (Fig. 1) 25 includes a temperature sensor 1 mounted in an LED lamp 2, representing a powerful LED or consisting of multiple LEDs, and connected to a control microcontroller 3Q 3, reading the operating temperature, which in turn, it is connected to a power supply control unit of the light source 6, the input of which is connected to the power supply unit 5 and its output to the light source 2.

Example 2.

The device for temperature protection and control of the light source (Fig. 1) includes the temperature sensor 1 mounted in the LED lamp 2 and connected to the control microcontroller 3, which detects the operating temperature, and the microcontroller 3 is also connected to a power line modem. ) 4, connected to the power supply unit 5, as well as to the power supply control unit of the light source 6 and the radio unit 7.

The input of the power control unit 6 is connected to the power supply unit 5, and its output - to the LEDs of the light source 2.

Using the utility model

The device for temperature protection and control of a light source works on

2506 UI as follows:

- by means of one or more temperature sensors 1, located in close proximity to the light source or indirectly receiving information about its temperature by a thermal bridge, the temperature of the light source (lamp, powerful LED or group of LEDs) is monitored and a signal is constantly sent to the device , resp. to the microprocessor 3, which according to the magnitude of the received temperature signal generates a control signal, through which the magnitude of the power supply supplied to the light source 2 is regulated.

The following cases are possible:

- if the value of the temperature signal is below a pre-set or currently set optimal value It, a signal is generated to the power supply unit to increase the power supply (by reducing the current and / or frequency modulation of the power supply), supplied to the light source to rated power , if not reached;

- if the value of the temperature signal is It - a signal is made to hold the current mode;

- if the value of the temperature signal is above the preset value To, but below a set critical value Tcr - a control signal is produced to reduce the power supply;

- in case of reaching Tcr - a signal is made for complete termination of the power supply to the light source and after a set time the current temperature of the light source is compared and if it is below It the power supply of the source is switched on, and if it is above time interval. And so on until the temperature reaches or below It.

In the embodiment of the device according to Example 2, in which, in addition to temperature protection and control of a light source, it is possible to remotely transmit the parameters of the operating mode and the environment to a control center, receiving the data from the control center, by means of an operator or automatically, appropriate warning signals and / or corresponding light source or group of source control signals are produced.

The following situations are possible:

a) defect of one or more of the light sources (or of one or a group of LEDs within one source) - in this case the control center issues a warning to the operator, which may be in the form of a light, sound or SMS alarm, or in another suitable form;

b) shutdown due to critical mode (Tcr, overvoltage, voltage under the operating and others) - a warning signal is generated and the data are stored in a database (in order to possibly readjust the operating parameters);

c) external control - by operator or automatically (by means of light sensors, etc.) the intensity of the light radiation of one or more sources is switched on, off or regulated;

d) obtaining information about the environment - in addition to lighting, also for the level of smoke, noise, humidity; temperature and others, by means of appropriate sensors located in or near the controlled light source and connected to the device.

Claims (3)

Claims Device for temperature protection and control of a light source, characterized in that it comprises at least one temperature sensor (1) positioned immediately next to or in the light source (2) and connected to a control microcontroller (3) detecting the operating temperature, which in turn is connected to the power supply control unit of the light source (6), the input of which is connected to the power supply unit (5) and its output to the light source (2). Device according to claim 1, characterized in that the microcontroller (3) is also connected to a power line modem (4), which in turn is connected to the power supply unit (5). Device according to Claim 1 or 2, characterized in that the microcontroller (3) is also connected to a radio unit (7).