ES2265747A1 - Controlled traffic light has each independent group of light emitting diodes (LEDs) further divided into two sub groups, each sub group intermingled and operable with sub groups of other LED groups - Google Patents

Abstract

The traffic light includes a box with a luminous transparent wall, and independent groups of several LEDs disposed within the box and facing the transparent wall. A control system, preferably a microprocessor, operates lighting ON and OFF of the LEDs in each group. Furthermore, each group of LEDs is divided into two sub groups containing equal number of LEDs. One sub group in one LED group is intermingled and operable with the sub groups of other LED groups. The combined sub groups can be alternately turned ON/OFF.

Description

Traffic light to regulate circulation.

Technical sector of the invention

The invention relates to a traffic light for regulate the circulation of those comprising a box in whose Inside are arranged multiple LEDs (light emitting diodes), faced by its luminous part to a transparent wall or translucent of the box and distributed in so many luminous groups Independent as indicator lights has the traffic light. The groups of LEDs are connected to a governing body, formed by a microprocessor connected to as many switches as lights Indicators has the traffic light, whose function lies in timing the On and off of the groups of LEDs.

Background of the invention

Basically, LEDs or light emitting diodes they are solid state lamps, that is, without filament or gas inert that surrounds them or glass capsule that covers them. The led It is formed by a semiconductor connected to two cathode terminals and anode, coated by a transparent epoxy resin. When a Electric current flows through the LED, an effect of Electroluminescence, that is, the LED emits monochromatic light in frequencies that go from infrared through all the visible light spectrum until reaching the ultraviolet.

Today, LEDs are being used every again in outdoor signage and lighting, replacing the incandescent lamps, thanks to the light efficiency that these present Other applications are variable message posters, traffic signs, brakes and interior lighting in cars and traffic lights.

Listed below are some of the advantages of LED-based traffic lights, compared to traditional traffic lights of incandescent lamps. The duration Maximum of the LEDs is estimated at ten years, compared to six months of a light bulb; in addition, these accuse a great loss of luminosity after 5000 hours, while the LEDs do After 10,000 hours. LED traffic lights allow a uniform light signaling and high contrast with light solar, so visibility is improved at greater distances. Another advantage is that with the LED traffic lights the effect is eliminated "ghost" presented by traditional traffic lights because of the reflection of sunlight in his parable through the lens. In traditional traffic lights, a bulb is placed for each light traffic light indicator (red, green, and orange), so if one of the bulbs burns, the corresponding traffic light is turn off until replacing the bulb with a new one. In change, at the LED traffic lights, each traffic light indicator light It consists of several LEDs, so a broken LED only It would represent an approximate loss of 0.5% in brightness. Another advantage of LEDs compared to incandescent lamps is their low response time, usually on the order of 0.1 microseconds compared to more than 20 milliseconds for incandescent lamp.

An exemplary embodiment of an optics for traffic lights and signaling devices by leds is described in ES 1040567U, in which the optics comprises a housing inside of which a power supply card is mounted internal, an intermediate LED holder plate and a disc Colorless transparent closure closure. The plate intermediate LED holder includes multiple LEDs, distributed to reproduce the figure corresponding to the traffic light or  traffic signal and divided into groups with power independent from the power supply card.

At traffic lights and signaling devices LED-based energy savings are attributed to reduced energy consumption of the LEDs themselves and the increase in useful life that these present compared to the lamps of glow. It is noted therefore the lack of a traffic light for regulate the circulation to reduce consumption further of energy

Explanation of the invention.

The traffic light to regulate the object circulation of the invention is one of those comprising a box in whose interior multiple leds are arranged, distributed in so many groups independent lights as indicator lights have the traffic light. The independent light groups are connected to an organ of government, based on a microprocessor, connected to so many switches as indicator lights have the traffic light, which Timed on and off the groups of LEDs, being said LEDs facing a luminous part against a wall transparent or translucent box.

In essence, the traffic light to regulate the circulation is characterized in that each independent group of LEDs is divided into at least two subgroups of LEDs, each of which has an equal or similar number of LEDs, the LEDs of the subgroups being intermingled with the of the other subgroups and the aforementioned governing body acting so that, when a group of LEDs is in an operational situation, corresponding to the lighting of the respective traffic light, only the LEDs of one of the subgroups are lit, the rest being of LEDs turned off, and alternating subgroups of LEDs that light up more than 25 cycles per
second.

According to another feature of the invention, the microprocessor of the governing body is connected to a ambient lighting detector device based on a photodiode, which ignoring the light emitted by the LEDs, measures ambient light and sends a signal to the microprocessor, so that depending on this signal the microprocessor varies the intensity luminous of the LEDs modifying the work cycle of these last, keeping constant the working frequency of the LEDs and varying the relationship between ignition times and times of off.

According to another aspect of the invention, the microprocessor of the governing body is connected to a device for monitoring the operation of each of the subgroups of LEDs, so that, in case the device  surveillance detects the failure of some subgroup of LEDs, the microprocessor increases the light intensity of the remaining subgroups of LEDs to compensate for the loss of visibility, while generating an alert signal capable of be sent to a traffic control center or center maintenance to which the traffic light is associated.

According to another feature of the invention, the microprocessor of the governing body, the switches and LED independent light groups are electrically connected to a power system.

Brief description of the drawings

The attached drawings illustrate, by way of non-limiting example, a preferred embodiment of the traffic light to regulate the circulation object of the invention. In said drawings:

Fig. 1, is an elevation view of a distribution of LED subgroups of one of the light groups independent of the traffic light to regulate the traffic subject to the invention;

Fig. 2, is a block diagram of the arrangement of the electronic and electrical components of the traffic light to regulate circulation;

Fig. 3, is a schematic of the sequence of switching on and off the LED subgroups of Fig. 1 in intense ambient light conditions;

Fig. 4, is a schematic of the sequence of switching on and off the LED subgroups of Fig. 1 in weak ambient light conditions;

Fig. 5, is a schematic of the sequence of switching on and off the LED subgroups of Fig. 1 in failure conditions of one of them (subgroup 2); Y

Fig. 6, is a perspective view of the traffic light to regulate circulation.

Detailed description of the drawings

Nowadays it is usual to use LEDs (light emitting diodes) on variable message signs, signals of traffic, brakes and interior lighting in cars, as well as also at traffic lights, replacing lamps incandescent, due to its reduced energy consumption and its long useful life.

Traffic light 1 to regulate the object circulation of the invention is one comprising a box in whose interior Multiple LEDs distributed in so many G1 groups are arranged, G2, G3 independent lights as indicator lights has the traffic light, said LEDs facing their luminous part to a transparent or translucent wall of the box, as seen in Fig. 6. Thus, at traffic light 1 for the regulation of the traffic, group G1 is associated, for example, with light red indicator, group G2 in amber light and group G3 in light green. Thus, each of the LEDs LG1, LG2, LG3, which are part of A group G1, G2, G3 independent luminous, emits the light monochromatic characteristic of the luminous group to which it belongs.

According to the invention, each group G1, G2, G3 of independent leds is divided into at least two subgroups SG1, SG2, each of which has an equal or similar number of LEDs, being the LG1 and LG2 LEDs of their respective subgroups SG1 and SG2, intermingled with the LEDs of the other subgroups.

Fig. 1 shows one of the possible LED subgroup distributions SG1, SG2, SG3, of one of the light groups independent of traffic light 1 to regulate the circulation. In the aforementioned drawing they have been shaded so different LEDs LG1, LG2, LG3, according to the subgroup of LEDs SG1, SG2, SG3 to which they belong, to facilitate the understanding of the distribution represented, since in reality all LG1 LEDs, LG2, LG3, which are part of the same independent light group G1, G2 or G3, emit the monochromatic light with the same color as the associated traffic light indicator light (red, amber, green).

As shown in Fig. 2, groups G1, G2, independent luminous G3 are connected to an organ of government, based on an MP microprocessor connected to so many CG1, CG2, CG3 switches, as indicator lights has the traffic light 1. These switches CG1, CG2 and CG3 constitute solid state switches of low internal resistance, in order to minimize losses and increase system performance. So much the MP microprocessor, such as switches CG1, CG2, CG3 and independent luminous groups G1, G2, G3, are connected electrically to an SA power system.

The MP microprocessor timing the ignition and the shutdown of groups G1, G2, G3 of leds. The aforementioned organ of government acts so that when a group G1, G2 or G3 of LEDs It is in an operational situation, which corresponds to the ignition of the respective traffic light, only the LEDs are on LG1, LG2, LG3 of one of the subgroups of LEDs SG1, SG2 or SG3, The rest of the LEDs are off. The subgroups of LEDs are alternately turn on with a frequency greater than 25 cycles per second.

As an example, the following is adopted criterion of associating the indicator lights to groups G1, G2 and G3 Red, amber and green. When traffic light 1 is "red", only the group of LEDs G1 is operational, while the groups G2 and G3 They are inoperative. The group of LEDs G1 is divided into three subgroups of LEDs SG1, SG2 and SG3, each of which has a equal or similar number of leds. By way of illustration, the distribution of the subgroups of the group of LEDs G1 corresponds with the one represented in Fig. 1, where all the LG1, LG2 and LG3 belong to subgroups SG1, SG2 and SG3 respectively. To the be only the group of LEDs G1 in operational situation, the subgroups SG1, SG2 and SG3 alternate in their ignition with a frequency greater than 25 cycles per second.

The alternation of the ignition of the subgroups SG1, SG2 and SG3 to reproduce the traffic light 1 produces considerable energy savings compared to others LED traffic lights. The ignition frequency, greater than 25 cycles per second, added to the intermingled distribution of the subgroups of LEDs SG1, SG2 and SG3, guarantees that the user of the traffic light clearly perceive the indicator light on, without noticing that actually the "on" of the red, amber or green light, depending on the case, it is an alternation of on and off LEDs that belong to different subgroups of the same luminous group Independent.

The phenomenon produced is similar to the one occurs when a light shines intermittently, whose perception depends largely on how often you make. If you consider a light that emits flashes of short duration at a frequency of N flashes per second, when N is small, the flashes of light are appreciated separately. On the other hand, if increase the frequency N, the phenomenon called "flickering" or Flicker, a visual sensation that usually results Very annoying to the human eye. If you increase the frequency of the flashes, the Flicker becomes less and less annoying, until a certain frequency is reached for which the eye observes the flashes of light as if it were a continuous light. This frequency is known by the name of the frequency of fusion or critical flicker frequency.

In Fig. 2 it can be seen that the microprocessor MP of the governing body of traffic light 1 is connected to a DIA ambient lighting detector device, based on a photodiode, which measures ambient light, ignoring that emitted by own leds. The DIA ambient lighting detector device sends a signal to the microprocessor MP, so that, depending on of said signal, the microprocessor MP varies the light intensity of the LEDs, reducing or increasing, depending on the ambient light, the work cycle of the latter, keeping constant the LED working frequency and varying the relationship between on times Te and off times Ta.

To determine the light intensity of the LEDs, the MP microprocessor takes the signal from the detector of ambient lighting DIA and calculates the necessary cycle so that at all times the luminosity is that required by the regulations valid, being able to be reprogrammed according to the possible changes that occur in said regulations.

Figs. 3 and 4 show the sequences of on and off of the subgroups of LEDs SG1, SG2 and SG3 in conditions of intense ambient light and weak ambient light respectively. In these drawings, P is the fixed period of work, sum of the on time Te variable and the off time Ta. From the drawings it follows that in ambient light conditions intense, the ignition time of the subgroups is longer than in the case of weak ambient light, since to perceive clearly lighting of the traffic light 1 is necessary greater intensity to counteract the effect of light environmental.

In short, when the lighting device ambient DIA detects a situation of intense ambient light, the MP microprocessor increases the light intensity of the LEDs extending the work cycle of the latter, increasing the on time Te with respect to the off time Ta, such and as seen in Fig. 3. Instead, when the light situation environmental is weak, the MP microprocessor decreases the luminous intensity reducing the duty cycle of the LEDs, decreasing the relationship between the ignition times Te and times off Ta, as seen in Fig. 4. It should be mentioned that both in situations of intense and weak ambient light, the working frequency remains constant, greater than 25 cycles per second. Thanks to the detection of ambient lighting is possible to reduce light intensity in dark conditions or at night

As seen in Fig. 2, in addition to be connected to the ambient lighting detector device DAY, the MP microprocessor is also connected to a device DV surveillance of the operation of each of the subgroups of LEDs SG1, SG2 and SG3, so that, in case the device DV surveillance detects the failure of some subgroup of LEDs, the MP microprocessor increases the light intensity of the remaining subgroups of LEDs to compensate for the loss of visibility, while generating a susceptible alert signal of being sent to a traffic control center or center of maintenance to which traffic light 1 is associated. Fig. 5 represents the on and off sequence of subgroups SG1 and SG3 in fault conditions of subgroup SG2, where the increased light intensity of subgroups SG1 and SG3 with with respect to the sequences described in Figs. 3 and 4.

On the other hand, traffic light 1 to regulate the circulation object of the invention is compatible with the systems of support for existing traffic lights in the cities. For a greater use and comfort in maintenance tasks, it is proposed that the transparent or translucent lens of the traffic light be  welded to the traffic light box itself, for the purpose of provide greater sealing and a traffic light surface completely continuous and without protrusions, which prevents accumulation of dirt and facilitates periodic cleaning. In addition, it arises a traffic light housing without visors, since with the use of the LEDs eliminate the "ghost" effect that the traffic lights of incandescent lights because of the reflection of light solar in the parable through the lens and a visor only It would serve as an obstacle in cleaning the entire traffic light. Design proposed is reflected in Fig. 6.

In conclusion, traffic light 1 to regulate the traffic circulation makes it possible to reduce the traffic light energy consumption, being able to achieve savings of up to fifty percent over other traffic lights of leds The flashing frequency exceeding 25 cycles per second enables alternating on and off of different subgroups of LEDs into which each group is divided G1, G2, independent luminous G3 is imperceptible to the human eye, thus achieving an energy saving without any impairment in what which refers to visual quality. Also, the governing body guarantees the correct functioning of traffic light 1 by means of microprocessor performance according to the signals received from both DIA ambient lighting detector as of the device DV surveillance of the operation of each of the subgroups of LEDs SG1, SG2 and SG3. It follows that the subdivision of the independent luminous groups G1, G2 and G3 of LEDs in LED subgroups SG1, SG2 and SG3, and their corresponding on alternative is also directly applicable in those light signals based on figure construction LED-based lights.

Claims (4)

1. Traffic light (1) to regulate the circulation, which comprises a box (2) inside which multiple LEDs distributed in as many groups (G1, G2, G3) are arranged independently as the indicator lights have the traffic light, and connected to an organ of government, based on a microprocessor (MP) connected to as many switches (CG1, CG2, CG3) as indicator lights has the traffic light, which timed on and off the groups of LEDs, said LEDs being faced by their light a transparent or translucent wall of the box, characterized in that each independent group of LEDs is divided into at least two subgroups of LEDs (SG1, SG2), each of which has an equal or similar number of LEDs, the LEDs of the subgroups intermingled with those of the other subgroups and the aforementioned governing body acting so that, when a group of LEDs is in an operational situation, it corresponds to the lighting of the respective traffic light gold, only the LEDs of one of the subgroups are lit, the rest of the LEDs being turned off, and alternating the subgroups of LEDs that light up more than 25 cycles per second. 2. Traffic light (1) for regulating the circulation according to claim 1, characterized in that the microprocessor (MP) of the governing body is connected to an ambient lighting detection device (DIA), based on a photodiode, which ignoring the light emitted by The LEDs themselves measure the ambient light and send a signal to the microprocessor, so that, depending on that signal, the microprocessor varies the light intensity of the LEDs, varying the duty cycle of the latter, so that, maintaining constant the working frequency of the LEDs, the relationship between the on times (Te) and off times (Ta) varies. 3. Traffic light (1) for regulating the circulation according to one of the preceding claims, characterized in that the microprocessor (MP) of the governing body is connected to a monitoring device (DV) of the operation of each of the LED subgroups (SG1 , SG2, SG3), so that, in the event that the surveillance device detects the failure of any subgroup of LEDs, the microprocessor increases the light intensity of the remaining subgroups of LEDs in order to compensate for the loss of visibility, while generating an alert signal that can be sent to a traffic control center or maintenance center to which the traffic light is associated. 4. Traffic light (1) for regulating the circulation according to one of the preceding claims, characterized in that the microprocessor (MP) of the governing body, the switches (CG1, CG2, CG3) and the independent light groups (G1, G2, G3) of LEDs are electrically connected to a power system (SA).