RU84160U1 - LED RADIATOR DEVICE - Google Patents

Abstract

1. The device of the LED emitter, comprising a housing, a radiator associated with it, on the surface of which an LED radiation module is installed, consisting of LEDs located on a printed circuit board, while an electronic unit is installed inside the housing, containing a control system with a control element, a voltage converter, systems control the supply current and limit the maximum voltage, a reference voltage source, a contact system that connects an external voltage source through an electronic unit to the muzzle of the LED radiation, a thermosensitive element associated with a power current control system, characterized in that the power current control system comprises a reference current driver connected to a reference voltage source, a thermosensitive element, an external control element and a comparator associated with the LED emitter current sensor and regulator interacting with the regulatory element of the control system. ! 2. The device according to claim 1, characterized in that the driver of the reference current comprises, for example, a driver of a given current associated with the source of the reference voltage and an external control element, a driver of a signal of a temperature of limitation associated with the source of the reference voltage, a device for comparing temperature signals received from a thermosensitive element and a driver of a temperature limiting signal, a shaper of the current reduction law associated with a shaper of a given current and a temp comparison device -temperature signals, wherein the output driver current reduction law

Description

The alleged useful models relates to the field of electronic technology, in particular to semiconductor devices, in particular, to LED devices and can find application in lighting, signaling and other devices based on the action of LEDs.

Known LED lamp (RF, p. No. 80225, MPK H01L 33/00, dated September 26, 2008, published on January 27, 2009).

The specified device contains a LED emitter module made in the form of LEDs mounted on a printed circuit board, a radiator, a hollow cylindrical body with an electronic control unit containing a control system with a control element, a voltage converter and elements that stabilize the current, a contact system that connects an external source through the electronic block voltage with a printed circuit board with LEDs. On the printed circuit board, between the diodes, a temperature sensor is connected associated with the control element of the control system. A transparent diffuser is installed on the radiator, covering the printed circuit board with LEDs on top.

The disadvantage of this device is that due to the change in the power supply current of the LEDs, the temperature of the board with LEDs is maintained within 80 °. Forced constant temperature maintenance at such a high level for LEDs, reduces their service life. And maintaining the specified temperature at low ambient temperatures is only possible with an increase in the power supply current of the LEDs, which can lead to their burnout.

Thus, it is impossible to regulate the supply current of the emitter LEDs to ensure a smooth decrease in temperature load and at the same time maintain uniformity of light emission.

In addition, the placement of the temperature sensor directly on the board limits the technological capabilities of the device for various LED connection schemes, in addition, the light flux and heat dissipation of the LEDs

it is localized within the board, which makes it impossible to change the configuration of the LEDs on without changing the board design.

The specified device is selected by the applicant as the closest analogue (prototype).

The technical task of the proposed utility model, solved by the authors, is to increase the reliability of the device by limiting the power supply current of the LEDs when a certain temperature level of their radiating surface is exceeded and maintaining the current at a given level if the temperature does not exceed the permissible level, as well as due to reliable heat dissipation.

The tasks are achieved in that in the device of the LED emitter comprising a housing, a radiator connected to it, on the surface of which an LED emission module is installed, consisting of LEDs located on a printed circuit board, while an electronic unit containing a control system with a control element is installed inside the housing , voltage converter, power current control systems and maximum voltage limits, reference voltage source, contact system, communicating via electronic nth unit is an external voltage source with a LED radiation module, a heat-sensitive element connected to a power current control system, according to a utility model, the power current control system comprises a reference current driver connected to a reference voltage source, a heat-sensitive element, an external control element and a comparator connected with a current sensor of the LED emitter and a regulator interacting with the regulatory element of the control system

The reference current driver includes, for example, a predetermined current driver connected to a reference voltage source and an external control element, a limiting temperature signal generator, a reference voltage generator, a temperature signal comparison device from a temperature-sensitive element and a limiting temperature signal generator, a reduction law generator current associated with the shaper of a given current and a device for comparing temperature signals, while s reduce the current law is connected with a comparator.

The housing is made in the form of, for example, a hollow rectangular parallelepiped.

The radiator matches the shape of the base of the case.

The radiator has several LED modules.

LED modules are evenly distributed over the surface of the radiator.

One or more temperature-sensitive elements are mounted on a radiator.

The number of thermally sensitive elements corresponds and / or does not correspond to the number of LED modules.

The presence of a reference current driver in the current control system connected to the reference voltage source, a thermosensitive element, and an external control element allows you to change its output signal under the action of an external control and a signal from a thermosensitive element, and the presence of a comparison device allows you to compare the output signal of the reference current driver signal of the current sensor and the generated mismatch signal to the controller to change the operating mode of the regulatory element, when The reference current is generated from the reference voltage or external control signal only in the range to the boundary temperature controlled by the signal from the temperature sensor, after which the value of the reference current decreases with increasing temperature to a minimally safe level. Thus, with increasing temperature, the presence of the reference current driver allows you to smoothly reduce the generated reference current and, therefore, limit the temperature of the LED emitter and carry out its constant monitoring, as well as maintain the current at a given level if the temperature does not exceed the permissible level, which ensures the stability of light emission and eliminates premature destruction of the emitter.

The implementation of the driver of the reference current in the form of one of the variants of the structural diagram, which contains, for example, the driver of the specified current associated with the source of the reference voltage and an external control element, the driver of the signal of the temperature of the limitation associated with the source of the reference voltage, a device for comparing temperature signals received from

a thermosensitive element and a driver of a temperature limiting signal, a shaper of the current reduction law associated with a shaper of a given current and a device for comparing temperature signals, while the output of the shaper of the law of reduction of current is connected to a comparison device, it allows you to limit the supply current when the temperature of the emitting surface of the LEDs is higher and maintain set level, if the temperature does not exceed the permissible.

The implementation of the device body in the form of, for example, a hollow rectangular parallelepiped, as well as matching its shape with the associated radiator, expands the technological and operational capabilities of the device by increasing the number of radiation modules installed on the radiator, which increases the radiation surface and at the same time provides a reliable and uniform tap heat from them, which, in turn, ensures stability and increases the service life.

The installation of several LED radiation modules on the radiator increases the light emission intensity of the device as a whole.

Installing radiation modules evenly over the surface of the radiator provides a uniform, stable intensity of light radiation and heat sink.

The installation of one or more temperature-sensitive elements on the radiator expands the range of LEDs used in the device with various schemes for their connection, which is technologically advanced. In addition, a uniform distribution of heat and light emission over the surface of the radiator is ensured, which, on the one hand, facilitates heat dissipation, and on the other, allows the formation of a uniform light flux.

The presence of heat-sensitive elements, the number of which matches and / or does not match the number of LED modules, allows you to control the temperature of each LED module, regardless of the location on the radiator.

As a result of the patent research, no similar technical solutions known from the prior art characterized by the claimed combination of features have been identified, which allows us to conclude that

utility model patentability condition "novelty", the device may find application in the production of LED emitters, i.e. "Industrially applicable."

The essence of the utility model is illustrated by drawings, where in Fig. 1 is a general view of the device of an LED emitter, a top view in Fig. 2 is a side view in Fig. 1, Fig. 3 is a structural diagram of a power supply control system of an LED emitter; figure 4 is a structural diagram of a current driver.

The LED emitter device comprises a housing 1, a radiator 2 connected to it, with a finned outer surface, LED radiation modules 3 made in the form of LEDs 5 mounted on a printed circuit board 4, an electronic control unit 6, a control element 7, a voltage converter 8, a voltage sensor 9 , a current sensor 10, a heat-sensitive element 11, a reference current driver 12, comparing devices 13 and 14, a reference voltage source 15, a control system controller 16, an external control source (not shown in Fig.) .

The device operates as follows.

The supply voltage through the control element 7 and the voltage converter 8 is supplied to the LED radiation module 3. The parameters of the electric signal in it are controlled by the voltage sensor 9 and the current sensor 10. The signal from the reference voltage source 15 is supplied to the reference current driver 12 The reference current driver 12 changes its output the signal under the action of external control and the signal from the temperature-sensitive element 11. The signal of the driver of the reference current 12 is compared by the comparing device 13 with the signal sensor current 10, generating a mismatch signal that is supplied to the regulator 16 to change the operating mode of the regulating element 7. The signal of the voltage sensor 9 is compared with the signal of the reference voltage source 15 by the comparator 14, the output signal from which is also supplied to the regulator 16. The regulator 16 selects from two signals the most significant and on the basis of this forms the control of the regulatory element 7.

One of the embodiments of the reference current driver proposed by the authors may be its structural diagram, which contains, for example, a driver of a given current 17, a driver of a temperature signal of limitation

18, a device for comparing temperature signals 19, a shaper of the law of decreasing current 20.

With the claimed embodiment, the structural diagram of the driver of the reference current, it works as follows.

The signals from the source of the reference voltage 15 and external control (not shown in Fig.) Are supplied to the set current driver 17, which generates the set current at the maximum allowable level determined by the reference voltage source 15 in the absence of an external control signal. If an external control signal is present, then the set current is generated in accordance with the external control in the range from the minimum permissible value to the maximum. The signal from the reference voltage source 15, fed to the driver of the temperature limiter 18, generates a corresponding signal, which, together with the signal of the thermosensitive element 11, is fed to the input of the temperature signal comparison device 19, which generates a zero output signal if the temperature controlled by the thermosensitive element 11 is lower than the temperature of the limit and generates an output signal that increases with increasing temperature rise controlled by the temperature-sensitive element 11, by limitation temperature. The signal from the driver of the given current 17 and the signal from the output of the temperature signal comparison device 19 are supplied to the driver of the law of decreasing current 20, which generates a reference current corresponding to the given one, if there is no signal from the output of the temperature signal comparison device 19, or the reference current decreases compared to the specified if there is a signal at the output of the device for comparing temperature signals 19, and the amount of reduction depends on the value of the signal at the output of the device for comparing temperature signals 19 and ends when the reference current reaches the minimum acceptable level.

Thus, the claimed device of the LED emitter is reliable and durable due to the fact that the presence in the control system of the supply current of the driver of the reference current allows you to limit the supply current of the LEDs of the emitter when the temperature of their radiating surface exceeds the set value and maintain it at a given level if the temperature does not exceed the permissible that ensures the maintenance of the efficiency of light emission and eliminates premature destruction of the emitter. The life of such devices

complies with regulatory indicators for devices based on the action of LEDs, i.e. more than 50,000-100,000 hours.

In addition, the claimed design features of the LED emitter, in particular, the shape of the housing and the radiator, the placement and number of radiation modules, as well as the installation of the heat-sensitive element in the claimed manner, i.e. on a radiator, allow you to create a technological, multifunctional, reliable device that can find application in lighting, signaling and other devices based on the action of LEDs.

Claims (8)

1. The device of the LED emitter, comprising a housing, a radiator associated with it, on the surface of which an LED radiation module is installed, consisting of LEDs located on a printed circuit board, while an electronic unit is installed inside the housing, containing a control system with a control element, a voltage converter, systems control the supply current and limit the maximum voltage, a reference voltage source, a contact system that connects an external voltage source through an electronic unit to the muzzle of the LED radiation, a thermosensitive element associated with a power current control system, characterized in that the power current control system comprises a reference current driver connected to a reference voltage source, a thermosensitive element, an external control element and a comparator associated with the LED emitter current sensor and regulator interacting with the regulatory element of the control system. 2. The device according to claim 1, characterized in that the driver of the reference current comprises, for example, a driver of a given current associated with the source of the reference voltage and an external control element, a driver of a signal of a temperature of limitation associated with the source of the reference voltage, a device for comparing temperature signals received from a thermosensitive element and a driver of a temperature limiting signal, a shaper of the current reduction law associated with a shaper of a given current and a temp comparison device -temperature signals, wherein the output driver current reduction law associated with the comparing device. 3. The device according to claim 1, characterized in that the housing is made in the form, for example, of a hollow rectangular parallelepiped. 4. The device according to claim 1, characterized in that the radiator corresponds to the shape of the base of the housing. 5. The device according to claim 1, characterized in that the radiator has several modules of LED radiation. 6. The device according to claim 1, characterized in that the LED radiation modules are evenly distributed over the surface of the radiator. 7. The device according to claim 1, characterized in that one or more temperature-sensitive elements are mounted on a radiator. 8. The device according to claim 1, characterized in that the number of heat-sensitive elements corresponds and / or does not correspond to the number of modules of LED radiation.