ES1068951U - Led lamp - Google Patents

Abstract

LED lamp (9) (1), particularly applicable to be placed on surfaces, comprising a plurality of high power LEDs; a support plate (2) for the leds, provided with at least one electronic controller (7) for controlling and feeding the leds and a heat dissipation plate (3), characterized in that the controller is adapted to modify, in such a way automatic, the supply current of the LEDs limiting or decreasing their lighting intensity, depending on at least one signal generated by an interior or exterior component of the lamp. (Machine-translation by Google Translate, not legally binding)

Description

LED lamp

Technical sector of the invention

The invention relates to a LED lamp for interior lighting such as homes or offices.

Background of the invention

For interior lighting of homes, offices and the like is known to use lamps, of the type recessed or surface to be placed mostly in ceilings, which use incandescent bulbs, of the known as low consumption or fluorescent tubes.

The use of this type of light bulbs results in a low efficiency of energy use, since most of the Energy dissipates in the form of heat.

Similarly, the lifespan of the types of bulb mentioned above is limited, so when melt at the end of its useful life should be replaced with the consequent cost. In addition, this type of lamps is normally installed on ceilings and access to the bulbs is of usual way protected by a crystal, so that the operation of Changing bulb is difficult.

The use of diodes electro-luminescent (leds) of high power for lighting is also known, since it has advantages in regarding its energy efficiency and consumption significantly lower to that of incandescent bulbs, in addition to having a useful life far superior to that of incandescent bulbs, to the point where that replacement is not necessary. However, the high LEDs power are highly sensitive to overheating and require Work at relatively low temperatures. In case of working at a temperature too high, its life time decreases drastically, being able to melt immediately into high temperature situations This causes its use in lamps recessed is not possible because, to achieve a power light equivalent to a recessed lamp commonly known, a plurality of high power LEDs is necessary, fact that aggravates the problem of overheating.

In addition the high power LEDs are usually welded to the lamp, so it is practically impossible to change the LED elements cast by the user and the entire lamp would have to be replaced or call technical service.

Explanation of the invention.

The LED lamp according to the invention is particularly applicable to be placed on surfaces, such as for example on ceilings or walls and comprises a plurality of LEDs high power; a support plate of the LEDs, equipped with less an electronic controller of government and power of the LEDs and a heat dissipation plate.

The lamp is essentially characterized because the electronic controller is adapted to modify, so Automatic, the electric power supply of the LEDs limiting or decreasing its lighting intensity, depending on at least one signal generated by an inner or outer component of the lamp

A variant of interest of the lamp is characterized in that a first signal is generated by a component inside the lamp, which is adapted to generate said signal when the temperature inside the lamp exceeds a certain threshold value.

According to another preferred variant, the lamp is characterized in that a second signal is generated by a component outside of the lamp, which is adapted to generate said signal when a transducer element is actuated.

In a variant of the invention, the elements Transducers are manually operated.

In another variant of the invention, the elements Transducers are automatically operated. More specifically, in a specific variant of the invention, the transducer element is a light intensity sensor.

The lamp according to the invention is also characterized because each of the LEDs has a higher power at 2 watts

According to another feature of the invention, the LED support plate and heat dissipation plate are joined together by a conductive adhesive material of the hot.

In another variant of interest, the support plate of the LEDs and heat dissipation plate are fixed between yes for at least one rivet.

According to a preferred embodiment of the invention, the generated signal is transmitted through a channel of communication, through the intervention of at least one element sender and a corresponding receiving element.

Brief description of the drawings

The attached drawings illustrate, by way of non-limiting example, a variant embodiment of the invention. In these drawings:

Fig. 1 represents a plan view of a lamp according to the invention;

Fig. 2 represents a view section in elevation of a lamp according to the invention; Y

Fig. 3 represents a scheme of the system electronic control of light power in an installation.

Detailed description of the drawings

In view of the figures it can be seen that The lamp object of the invention is a lamp 9 containing a plurality of high power LEDs 1, plus 7 controllers electronic for ignition and protection against possible Overheating situations that could damage the LEDs 1.

Fig. 1 shows a plan view of a lamp 9 composed of high power LEDs 1, mounted on a electronic support plate 2 that is solidly fixed to a dissipation plate 3 preferably by a layer of heat conductive adhesive material 4 and a rivet 5. The rivet 5 can be substituted in other embodiments of the invention by union elements whose purpose is the same, such as a screw. The dissipation plate 3 consists of a material High thermal conductivity, which helps heat dissipation generated by LEDs 1 during operation. Plate dissipation 3 may further comprise dissipating elements also consisting of a high conductivity material thermal to increase the heat dissipation effect of the dissipation plate 3, these dissipating elements can be of type of heat sinks known in the state of the art. The dissipation plate 3 is coated on its inner face with a reflective layer 6 to improve the projection of the light emitted by LEDs 1 outside the lamp 9. They are also incorporated 7 electronic controllers of the LEDs 1, which allow regulate the light output emitted by LEDs 1 through a Square pulse train with variable duty cycle, at one frequency high enough to vary the efficient light output emitted by LEDs 1, without said pulses are perceptible to the human eye, so that when the controller 7 increase the duty cycle of the pulse train is perceive an increase in the light power generated by the LEDs 1 and, when controller 7 decreases the train's duty cycle of square pulses, a decrease in power is perceived light generated by the LEDs 1. The electronic controllers 7 they also comprise a temperature sensor through which they can detect if the safety temperature for the proper functioning of the LEDs 1. This can happen when the dissipation plate 3 fails to dissipate enough heat to maintain the working temperature of the support plate 2 of the LEDs 1 below safety limits for good LED operation 1.

The controllers 7 are mounted on it support plate 2 of the LEDs 1. Naturally the invention also contemplates the possibility that the controllers 7 are located outside the lamp housing 11, being equally connected to leds 1.

LEDs 1 are designed to not have to be spare parts never over the life of the lamp 9, given the longevity of these components, and for this reason they are welded on the support plate 2. However, LEDs 1 are very sensitive to temperature increases and if they worked above the safety temperature, its lifespan would be drastically reduced, reaching the point of melting instantly, so would have to replace the entire lamp 9. To avoid this overheating situation, the controllers 7 monitor the temperature sensors and, if it exceeds the temperature of operating safety of LEDs 1, is temporarily reduced The duty cycle of the LEDs for feeding the LEDs 1, so that the temperature rise is stopped and the cooling of the support plate 2 and therefore of the LEDs 1. Al get the desired temperature levels restored of the support plate 2, the duty cycle of the pulses of LED power 1 is restored again. In other Embodiment of the invention, electronic controllers 7 generate an eminently continuous signal to power LEDs 1, so that the intensity of the light emitted by the LEDs 1 can be set by the user through the value of said signal keep going. Similarly, in another variant of the invention no represented, it is possible to set a maximum intensity value that It can be delivered to LEDs 1, so that it does not reach exceed the safety temperature for the operation of leds 1.

Fig. 2 shows an elevation section of the lamp 9, in which the way in which the support plate 2 is solidly attached to the dissipation plate 3 by means of the heat conductive adhesive material layer 4 and rivet 5. This favors that all the heat generated by the LEDs 1 can be efficiently transmitted to the dissipation plate 3 to maintain a safe working temperature for the proper functioning of the LEDs 1. The dissipation plate 3 further forms the focus director of the light emitted by the LEDs 1, in the same way as in the known recessed lamps, being covered by its inner face by a reflective layer 6. In this way a light director focus is not necessary in addition to the dissipation plate 3 , since it acts as such. The dissipation plate 3 is covered by the housing 11, which in addition to acting as a beautifying element by the lower part of the lamp 9, can serve as a support for conventional fastening means for installation in ceilings. In the same way as in the recessed lamps known in the state of the art, the support plate 2 and, therefore, the LEDs 1, are protected from the outside through a removable glass 10, attached to the ends of the housing 11 by means of tweezers 12, which can act as a diffuser of the light emitted by the different LEDs 1 and that can be used to access the support plate 2 by the technical service in case of failure. The crystal 10 can also be used to direct the light beam by means of optical elements, as is known in the state of the art, such as by means of lenses of
fresnel

So that the user can modify the levels of brightness of the room, a control system is available as the one shown in Fig. 3 by way of example, since the Control system components will vary depending on the number of 9 lamps installed and the options that the client decides to communicate with them. The desired level of brightness is configure through the information collected by the elements transducers 22, which can be manual such as switches, potentiometers or remote controls, or automatic controls such as ambient or presence light sensors and is transmitted by sending elements 23 to the receiving elements 24 by means of a communication channel 25.

The emitting elements 23 and receivers 24 are designed so that they can communicate using a protocol digital preset through communication channel 25, such as for example the EIA-485.

It is also possible to transmit the desired level of brightness remotely by remote elements 26 which they integrate transducers 22 and emitters 23, such as computers or telephones, using as communication network 28, networks such as switched telephone network or an IP network (LAN, Internet ...). The information collected and sent by remote elements 26 is received and processed by adapter elements 27, which convert the incoming signal in a signal that can be interpreted by receiving elements 24 and injecting said signal into the channel of communication 25.

Using the control system described, the brightness level of the lamps 9 can be selected from local or remote way. The receiving elements 24 decode the received signal and act on the controllers 7 establishing, According to the data received, the level of brightness of the LEDs one.

Claims (10)

1. LED lamp (9) (1), particularly applicable to be placed on surfaces, comprising a plurality of high power LEDs; a support plate (2) of the LEDs, equipped with at least one electronic control and power controller (7) of the LEDs and a heat dissipation plate (3), characterized in that the controller is adapted to modify, so automatic, the power supply of the LEDs limiting or decreasing their lighting intensity, depending on at least one signal generated by an interior or exterior lamp component. 2. Lamp (9) according to claim 1 characterized in that a first signal is generated by an interior component of the lamp, which is adapted to generate said signal when the temperature inside the lamp exceeds a certain threshold value. 3. Lamp (9) according to any one of the preceding claims characterized in that a second signal is generated by an external component of the lamp, which is adapted to generate said signal when a transducer element (22) is actuated. 4. Lamp (9) according to claim 3 characterized in that the transducer elements (22) are manually operated. 5. Lamp (9) according to claim 3 characterized in that the transducer elements (22) are automatically operated. 6. Lamp (9) according to claim 5 characterized in that the transducer (22) is a light intensity sensor. 7. Lamp (9) according to any one of the preceding claims, characterized in that each of the LEDs (1) has a power greater than 2 watts. Lamp (9) according to any one of the preceding claims, characterized in that the support plate (2) of the LEDs (1) and the heat dissipation plate (3) are joined together by a heat conductive adhesive material (4). 9. Lamp (9) according to claim 8, characterized in that the support plate (2) of the LEDs (1) and the heat dissipation plate (3) are fixed together by at least one rivet (5). 10. Lamp (9) according to any one of the preceding claims characterized in that the generated signal is transmitted through a communication channel (25), by means of the intervention of at least one emitting element (23) and a corresponding receiving element (24 ).