RU111250U1 - OUTDOOR FROST-RESISTANT LAMP - Google Patents

Abstract

 A lamp including an LED radiation source, an LED power supply, and a control system including at least one heat-sensitive element, at least one control element and an LED power supply circuit, characterized in that the control system includes a heating element installed with the possibility of heating the power supply, as well as the power supply circuit of the heating element, while the heat-sensitive element, the control element, the heating element, the power supply circuit the diodes and the power supply circuit of the heating element are electrically connected to ensure that the power supply circuit of the heating element is closed when the power supply of the LEDs is open at the moment the lamp is turned on, when the ambient temperature is below a predetermined limit, and the circuit of the power supply of the LEDs is closed when the power supply circuit of the heating element is opened in the case of when the temperature in the zone of the power supply exceeds a predetermined limit.

Description

The utility model relates to lighting engineering, namely to street LED lamps designed to operate in low ambient temperatures.

Street LED lamps are known that comprise a LED power supply and a power supply control system, which includes a thermosensitive element, which controls the power of the LEDs depending on the ambient temperature.

For example, a street LED lamp is known [RU 83587], in which the output current of the power supply and, accordingly, the output power of the LEDs are controlled with the temperature-sensitive element included in the control system of the power supply, depending on the temperature of the metal base of the printed circuit board with LEDs . Thus, the LED crystals are protected from overheating.

Known street lamp [RU 95180], selected as the closest analogue

The considered street lamp contains an LED radiation source, an LED power supply unit including a voltage converter and a current stabilizer, as well as a control system. The control system comprises at least one heat-sensitive element mounted on a printed circuit board next to the LEDs, at least one control element and an electric power supply circuit of the LEDs. Moreover, these elements are electrically connected in such a way that the heat-sensitive element generates a signal through which the control element provides current control in the LEDs in order to reduce the overheating of the LED crystals.

However, the luminaire in question, like the luminaires described above, does not have stable operation under conditions of exposure to relatively low ambient temperatures.

Meanwhile, when using street LED lamps at relatively low (below -40 C) ambient temperatures, for example, in the regions of the far north, one of the main problems is the inclusion (start-up) of the power supply at the indicated temperatures.

The objective of the claimed utility model is to increase the resistance of the lamp to low temperatures.

The essence of the utility model is that in a luminaire including an LED radiation source, an LED power supply unit, and also a control system including at least one heat-sensitive element, at least one control element and an LED power supply circuit, according to the utility model the control system includes a heating element installed with the possibility of heating the power supply, as well as the power supply circuit of the heating element, while the heat-sensitive element controlling the electric the element, the heating element, the power supply circuit of the LEDs and the power supply circuit of the heating element are electrically connected to ensure that the power supply circuit of the heating element is closed when the power supply circuit of the LEDs is open when the lamp is turned on when the ambient temperature is below a predetermined limit, and then the power supply circuit of the LEDs is closed at opening the power supply circuit of the heating element in the case when the temperature value in the location zone power supply exceeds a predetermined limit.

The presence in the claimed utility model of the power supply provides a current supply to the LEDs. At the same time, the presence of a control circuit ensures the operation of the lamp, including, depending on the signal of the control element (s), generated on the basis of the signal coming from the thermosensitive element (thermosensitive elements).

The power supply unit may include such elements as a voltage converter, a current stabilizer, as well as an autonomous power source or elements of electrical connection with an input power circuit, through which the lamp is connected to an external power source.

As a temperature-sensitive element, a temperature sensor can be used in particular.

As a control element, in particular, a controlled key element can be used, for example, an electromagnetic relay with switching contacts.

In the inventive device can be, in particular, used a thermal relay (one or more) that performs the functions of a heat-sensitive element and a control element.

The design features of the claimed utility model provide when the lamp is turned on at low (below -40 C) ambient temperature its operation in the heating mode of the power supply (its elements), carried out using a heating element. At the same time, power is not supplied to the LEDs.

In the case when the temperature of the power supply (the temperature in the zone of its location) becomes higher than a predetermined limit (increases to the value at which the power supply is guaranteed to start), the design features of the claimed utility model provide automatic shutdown of the heating element and circuit closure of the power supply circuit of the LEDs. In the future, the temperature regime of the power supply unit (its elements) is maintained due to the thermal energy released during its operation.

As the heating element, in particular, a resistor or a heating panel comprising a group of resistors can be used.

Thus, the technical result achieved by using the claimed utility model is to increase the resistance of the lamp to low temperatures.

Figure 1 and figure 2 presents the functional diagrams of two different embodiments of the inventive lamp.

The lamp (1, 2) contains LEDs 1, which are part of the LED radiation source, a power supply 2, which supplies current to the LEDs 1, as well as a control system including a heating element 3, a heat-sensitive element 4, a control element 5, while element 3 is located with the possibility of heating the power supply 2 (its elements), in particular, is placed in the housing of the power supply ..

The lamp also contains a power supply circuit 6 of the heating element 3, a power supply circuit 7 of the LEDs 1, an input power supply circuit 8 of the power supply 2.

As a heat-sensitive element 4 and a control element 5, in particular (Fig. 1), a bimetallic thermal relay 4 and an electromagnetic relay 9 with switching contacts 10 are used, respectively.

The functions of the heat-sensitive element 4 and the control element 5, in particular (figure 2), perform the first bimetallic thermal relay 11 with contacts 12 and the second bimetallic thermal relay 13 with contacts 14.

The device operates as follows.

In the case when, at the time of the luminaire, the ambient temperature exceeds a predetermined limit, the power supply circuit 7 of the LEDs 1 is closed, and the power supply circuit 6 of the heating element 3 is open.

If the luminaire is turned on at an ambient temperature below a predetermined limit, the initial position of the contacts of the control element 5 is set so that it provides a closure of the power supply circuit 6 of the heating element 3 when the power supply circuit 7 of the LEDs 1 is opened.

So, in particular (Fig. 1), in the indicated initial position, the current in the winding of the electromagnetic relay 9 does not flow, while the contacts 10 are set to the position in which the circuit 6 is closed.

In particular (Fig. 2), in the indicated initial position, the contacts 14 of the thermal relay 13 are closed, and the contacts 12 of the thermal relay 11 are open.

When current flows through circuit 6, the heating element 3 heats the power supply 2 (its elements). As soon as the ambient temperature near the power supply unit (in its case) exceeds a predetermined limit value (exceeds the temperature of the guaranteed start-up of the power supply unit), the temperature-sensitive element 4 provides the opening of the power supply circuit 6 of the heating element 3 when the circuit 8 and, accordingly, the power supply circuit 7 of the LEDs 1 .

In particular (Fig. 1), at a temperature above a predetermined limit, the thermal relay 4 is activated, while a current flows through the winding of the electromagnetic relay 9, which causes the contacts 10 to switch to the position where circuit 6 opens and circuit 8 and, accordingly, circuit 7 closes.

In particular (figure 2), at a temperature above a predetermined limit, the thermal relay 11 is activated, while the contacts 12 are closed, and current flows through the circuit 8 and 7. The temperature value at which the thermal relay 11 is triggered corresponds to the temperature of the guaranteed start-up of the power supply 2. In this case, the temperature value at which the thermal relay 13 is triggered is slightly higher than that of the thermal relay 11. Thus, after closing circuit 8 with a further slight increase temperature inside the power supply unit 2, the thermal relay 13 is triggered, while the contacts 14 open, and, accordingly, the circuit 6 of the heating element 3 opens.

When current flows through circuit 7, the LEDs 1 emit light.

Claims (1)

A lamp including an LED radiation source, an LED power supply, and a control system including at least one heat-sensitive element, at least one control element and an LED power supply circuit, characterized in that the control system includes a heating element installed with the possibility of heating the power supply, as well as the power supply circuit of the heating element, while the heat-sensitive element, the control element, the heating element, the power supply circuit the diodes and the power supply circuit of the heating element are electrically connected to ensure that the power supply circuit of the heating element is closed when the power supply of the LEDs is open at the moment the lamp is turned on, when the ambient temperature is below a predetermined limit, and the circuit of the power supply of the LEDs is closed when the power supply circuit of the heating element is opened in the case of when the temperature in the zone where the power supply is located exceeds a predetermined limit.