RU185485U1 - Auto-dimmable LED luminaire - Google Patents

Abstract

The proposed utility model relates to the field of lighting technology and can be used to install and automatically maintain the required level of lighting. Declared LED lamp with automatic maintenance of the level of illumination, comprising a housing with a driver located in it: a driver connected to an external power supply network, at least one light-emitting element connected to the driver, as well as a voltage converter, a ripple current compensation unit and a control unit made with the ability to transmit a control signal to the driver. At the same time, the luminaire further comprises a photocell connected to the control unit, for measuring the level of reflected light, placed in the housing so as to prevent direct illumination of the photocell by the light emitting element of the lamp with its direction in the direction of measuring the level of reflected light. The utility model allows for more accurate automatic maintenance of illumination at a given level regardless of the type of room while maintaining the control function via the power supply wires of the lamp. 1 s.p. f-ly.

Description

Technical field

The proposed utility model relates to the field of lighting technology and can be used to install and automatically maintain the required level of lighting.

State of the art

The prior art knows the means of controlling the illumination of a room (RU 80295 U1, 01/27/2009), which allows for remote control of the level of illumination over a local area network. The known tool only allows you to install a pre-selected level of illumination, but does not automatically maintain the level of illumination at a given level under changing conditions.

It is also known a means (RU 2523067 C2, 07.20.2014) of lighting control aimed at maintaining a constant intensity of the lighting device, taking into account the degradation of light-emitting elements over time. The specified tool operates according to a predetermined program, theoretically suggesting exactly how degradation occurs, depending on the current level and operating time. However, the known solution is based on theoretical assumptions and does not take into account the real level of radiation provided by the lighting device, i.e. it also does not automatically maintain the illumination at a given level under changing indoor conditions.

As the closest analogue, you can specify a light-emitting element control tool (RU 2016136722 A, 03/14/2018) containing a driver connected to an external power supply, a light-emitting element connected to the driver, and a dimmer connected to the driver and an external power supply, when this driver is configured to receive a control signal from a dimmer and with the ability to power the light-emitting element. In a known solution, the dimmer comprises a voltage converter, a current ripple compensation unit, a control unit configured to transmit a control signal to the driver of the light-emitting element by pulse-width modulation and with the possibility of presetting a stepwise dependence of the control signal on the voltage of the external power supply network.

The closest analogue is aimed at providing the ability to control the LED light-emitting element by changing the input voltage supplying the lamp in a given range. However, the known solution also has the disadvantages of the prior art, since it does not automatically maintain the illumination at a given level under changing indoor conditions.

Thus, the claimed utility model is aimed at eliminating the aforementioned drawbacks of the prior art and allows achieving a technical result, which can be formulated as providing the possibility of more accurate automatic maintenance of illumination at a given level regardless of the type of room while maintaining the control function via the lamp power wires.

Utility Model Disclosure

To achieve the above technical result, an LED lamp is proposed with automatic maintenance of the illumination level, comprising a housing with a driver located in it: a driver connected to an external power supply network, at least one light-emitting element connected to the driver, as well as a voltage converter, a ripple compensation unit current and a control unit configured to transmit to the driver a control signal, characterized in that it further comprises a photocell, connected a control unit for measuring the reflected light level values arranged in the housing so as to avoid direct blowing out photocell emitting element lamp.

The following description contains information to confirm the feasibility of a useful model by means known from the prior art with the achievement of the above technical result.

Utility Model Implementation

To implement the utility model, it is possible to use widely known (including from the prototype) technical means interconnected by known assembly operations. Significant differences of the utility model is the provision of such a functional-constructive connection, which allows the use of luminaires without making changes to their design in any application conditions, providing a user-specified level of illumination.

The proposed device can be made in the form of a printed circuit board, which is installed in the lamp housing in the immediate vicinity of the lamp driver.

Since the LED is a semiconductor device, the key characteristic that determines the brightness of their glow is not voltage, but current. Drivers of an LED luminaire are essentially current sources, which can provide LEDs with a stabilized current of a given value both from a 220V network and from sources of low-voltage constant voltage.

The claimed device provides a unit for converting voltage into direct current with further compensation by ripple current supplied by the driver to the LED modules.

The control unit is designed to switch the rated output current of the lamp driver depending on the set and / or measured parameters. In the particular case, the control unit can perform the specified switching through the driver switching unit, which is part of the control unit.

In a preferred embodiment, the control unit (which may also be referred to as a data processing and control unit) has three input data channels: a channel for receiving data from a photocell about a measured level; channel setting the value of the required level of reflected light specified by the consumer; channel value of the current flowing through the LEDs.

The output of the control unit has an output with a pulse-width signal, by means of which the output current of the voltage to DC converter is adjusted, at the output of which a current ripple compensation unit is installed to reduce current ripple.

The indicated functions of the control unit can be realized by means of a pulse-width modulation controller included in the control unit, connected with an analog-to-digital converter and configured to transmit a control signal to the light-emitting element of the driver. Additionally, a software (programmable) unit (for example, made on the basis of a microcontroller), which is part of the control unit, allows the user to set the required illumination value.

The lamp equipped with the proposed control unit allows you to change the brightness level through the power wires of the lamp 220V by short-term (from 200ms to 2 seconds) power off.

In particular, when you turn on the lamp is at nominal brightness. After a short-term (from 200 ms to 2 seconds) power off, the control unit responds to this and adjusts the brightness level of the lamp, reducing it. Repeated short-term (from 200 ms to 2 seconds) power off will affect the control unit, forcing it to adjust the brightness level to the nominal value. The loss of power supply for more than 30 seconds will lead to the setting of the nominal brightness level of the lamp, regardless of the previous brightness level.

Thus, the operation of the control unit depends on the level of illumination set by the user and the actually measured level of illumination, and control is carried out through the power supply line.

The use of the photocell in the claimed utility model is due to the following circumstances.

It is well known that non-self-luminous bodies become visible due to the reflection of light from their surfaces. Due to various physical phenomena (for example, absorption, diffuse scattering), the actual level of brightness in a room largely depends on the parameters of the room itself, so the use of luminaires with the same nominal brightness in different rooms does not provide a level of illumination that is comfortable for the user.

The use in a utility model of measuring the level of reflected light by a solar cell with the exception of the effect of direct illumination on the solar cell from a light-emitting element makes it possible to automatically maintain a predetermined user level of illumination, while the proposed circuitry solution simultaneously allows you to save control functions along the lamp power wires.

Ensuring the protection of the solar cell from direct exposure to the light emitting element can be performed by any method known in the art, for example, by outputting the solar cell through an opening in the lamp housing with its direction in the direction of measuring the level of reflected light.

Since the reflection of light also depends on the incident wavelength, to enhance the technical result achieved, the control unit can be configured to change the wavelength of the light emitted by the lamp (for example, by changing the color temperature of one or more light emitting modules, or by connecting / disconnecting the modules emitting with a certain wavelength) based on the measured value of the illumination and the user-specified level of illumination.

Claims (2)

1. LED lamp with automatic maintenance of the level of illumination, comprising a housing with a driver located in it: a driver connected to an external power supply network, at least one light-emitting element connected to the driver, as well as a voltage converter, a current ripple compensation unit and a control unit, made with the possibility of transmitting to the driver a control signal, characterized in that it further comprises a photocell connected to the control unit, for measuring the value of the reflected light level and disposed in the housing so as to avoid direct blowing out photocell emitting element lamp with its measuring direction in the direction of the reflected light level. 2. The LED lamp according to claim 1, characterized in that the control unit is further configured to change the wavelength of the light emitted from the lamp.