EMERGENCY VISUAL WARNING SYSTEM

Abstract

Design of identification and visual protection system for mining equipment, vehicles and people exposed to possible high potential interactions, this system is the combination of different lighting techniques, which together offer a new product with the advantages of delivering a Greater capacity to be visualized in the field, preventing identification and warning problems in mining equipment.

Its form and use can help reduce the risks and exposure of equipment, vehicles and people where they can be implemented. Considerably increasing the identification distance, even without any external light emission.

Claims

1. An emergency light projection system to be installed in mobile vehicles such as mining, forestry and emergency vehicles that increases safety in this and that has high visibility, constant visibility and forced visibility, controlled locally (manual), remote (Automatic), with characteristics and configurations in unicolor, bicolor or customized CHARACTERIZED because it comprises a set of light-emitting sheets (2,3) and light reflecting (1), in which the light-emitting sheet is controlled through a bidirectional controller module that activates/deactivates the system.

2. A projection system according to claim 1 CHARACTERIZED because it comprises a light reflective sheet and is arranged in the length and width limited by the corners of the vehicle.

3. A projection system according to claim 1. CHARACTERIZED because the emitting sheet is photoluminescent and is located between the reflective sheet and a nanoled sheet, centered on a coating.

4. A projection system according to claim 1 CHARACTERIZED because a nanoled sheet is located centered and on the photoluminescent sheet and is electrically powered from a voltage inverter controller module, activated manually or automatically.

5. A projection system according to claim 1 CHARACTERIZED because a 20 micron Floor Graphics sheet (4) contains the other sheets.

6. A projection system according to claim 1 CHARACTERIZED, because it comprises a nanotechnological varnish.

7. A projection system according to claim 1 CHARACTERIZED, because it comprises two controller modules, where 1 is a voltage inverter, and the second is a remote emergency modulator.

8. A projection system according to claim 1, on the voltage inverter modulator CHARACTERIZED because it in charge of electrically feeding the sheet mentioned in claim number 4 which is made up of nanoled, this will deliver the necessary signal for the correct flashing of the sheet, it is activated Manually or Automatically.

9. A projection system according to claim 8, on the voltage inverter modulator CHARACTERIZED because it includes nano circuits, responsible for optimizing space, providing the portability and cooling capacity necessary for prolonged use.

10. A projection system according to claim 8, on the voltage inverter modulator CHARACTERIZED because it includes internal microprocessors, which contain the programming to be able to determine the operating logic of the system, being able to discriminate the source of the activation request, prioritizing, according to internal logic, preconfigured actions.

11. A projection system according to claim 8, on the voltage inverter modulator. CHARACTERIZED because it includes an optimized power source , in charge of powering in a special way, the processors and inverters for the activation of the device.

12. A projection system device CHARACTERIZED because it includes peripheral sensors, in charge of being able to deliver information about the environment, automatic risks or emergency conditions that may trigger the activation of the system, thus ensuring its use in high-risk events.

13. A projection system according to claim 12 CHARACTERIZED because it comprises an automatic positioning system, which consists of two configurable alternatives, high precision normal gps or satellite gps, which will deliver in case of level 1 activation, the physical position of the issuer; This will deliver the geographical position remotely, automatically and by alert, controlled with special permissions on authorized devices and with the Android/Apple application available.

14. A projection system according to claim 8, on the voltage inverter modulator. CHARACTERIZED because it includes a multi data connection system, a system with the ability to hyper connect information to central servers, with wireless techniques (GSM—GPRS—BT—Wifi—3G—4G and 5G) .

15. A projection system according to claim 12 CHARACTERIZED because it comprises a multi data connection system, system with the ability to connect the information of the control module to the devices, with wireless techniques (BT - Wifi).

16. A projection system according to claim 12 CHARACTERIZED because it comprises a state change control, where the system will deliver to the different Nanoled the capacity to feed the sectors or lines defined as emergency, making the visual change of color in each device that carries it or has level 2 control.

17. A projection system according to claim 7, regarding the remote emergency modulator CHARACTERIZED because it comprises a physical drive module that is installed in the external dependencies to the voltage inverter control modules in the equipment, as devices, these will activate each of the modules and will order the activation of the change of state for the elements that make up the system.

18. A projection system according to claim 17 CHARACTERIZED because it includes the activation of the portal and mobile applications, which will serve to monitor the status of each component and device inserted in the system as a whole.

19. A projection system according to claim 7 CHARACTERIZED because the bidirectional control creates a communication from one module to the other and vice versa, which orders and informs the emergency conditions of each one of them, activating the devices that are connected to the voltage inverter module and reported their status to the remote emergency module.

20. A projection system according to the preceding claims, CHARACTERIZED because in terms of claims 1, the system is shaped and generating the technique, that is, electrically powered sheets working together and in unison, controlled locally or remotely from the platform.

21. A projection system according to claim 1, wherein the electronic control module is in charge of electrically feeding and controlling this system.

Description

DESCRIPTION OF THE FIGURES.

[0014] FIG. 1: Represents the basis of the filed invention, it is the combination of 3 or 4 unity lighting techniques, with a high degree of engineering, this combination can be added to a fourth depending on the extension of the facilities to implement each one of them detailed below: (1) Lime green reflective band base or another engineering grade color of 70 candles of power; (2) Intermediate band of high visibility photoluminescence with autonomy of up to 4 hours and light power of 74 candles; (3) Core with flexible nanoled electronic band of only 0.2 mm. thick with light power of 120 candles, core with color change characteristics, it is responsible for alternating the luminosity of each selected color depending on its configuration; (4) 20 micron Floor Graphics laminate plus superior engineering grade nanotech protective varnish, insulation, and hi-visibility base tape container.

[0015] FIGS. 2 and 3: Represents a device that integrates the filed invention, a portable textile device, with a high level of visualization and directed connectivity, this device is made up of the following details: (5) high-power and multicolor laser/LED indicator , which will flash if the equipment is activated locally, signaling coupled to nano satellite GPS that ensures the correct location of the person carrying it in outdoor locations; (6) Flat button, flat contact engineering element that will be in charge of delivering to the portable control device the SOS signal that will activate the portable device; (7) high visibility tape based on the invention that contains the visual assurance techniques described, an implement that will be an intrinsic part of the device; (8) flexible solar sheet that will be an intrinsic part of the clothing, responsible for recharging the batteries that power the portable textile device; (9) local control and power module, responsible for receiving external or local information, processing it and activating the modules of normal or emergency work, device that feeds the modules (5), (6), (7), (10) with energy; (10) light emission module that feeds the optic fiber module, which will generate the full brightness of the device.

[0016] FIG. 4: Represents a device that integrates the present invention, a base device of the invention that is distributed in a vehicle (4×4 truck) and can be indistinctly in mining machinery, agricultural machinery, equipment and emergency vehicles, as in fixed or mobile structures. such as (tunnels, tambourines, containment barriers and others), which distributed form the mobile visual warning system that is made up of the following details: (11) High visibility tape on the side of the vehicle; (12) High visibility tape (FIG. 1) the front of the vehicle; (13) high visibility tape (FIG. 1) at the rear of the vehicle; (14) high visibility tape (FIG. 1) positioned on the top of the vehicle; (15) main power and control module, electronic equipment that centralizes the power supply of all the high visibility tapes, communicates the equipment with the different mobile or fixed devices that can be part of the visual alert system, is in charge of transmitting and receiving the information from the central and processing the different levels of work that can be configured.

[0017] FIG. 5: Represents the operation and base logic of the system, providing a visual description of the operation that the full system will have; (15) main power and control module, electronic equipment that centralizes the power supply of all the high visibility tapes or light emission system (10) defined, communicates the equipment with the different mobile or fixed devices that can be part of the system visual alert, in addition to transmitting data to local or remote servers that are part of the system, (16) Local or remote servers, responsible for centralizing the information, processing the data to the different control modules (15) that are connected, they are also what receives the activation orders in case of being requested externally; (17) external activation and conversion module, system that allows the system to be able to react to an emergency warning, which is stored in the servers (16) and sent to each module (17) that has interaction with the emergency, module that It is also responsible for transforming the data so that they can be used in external systems.

DETAILED DESCRIPTION OF THE INVENTION

[0018] The system has a high visibility base device (FIG. 1) it will be installed in mobile equipment (regardless of its brand, model or shape) it will replace the elements that currently provide the limited ability to be seen (reflective tapes of different models and brands), by the device, it will be configured by at least 2 and a maximum of 4 light signaling techniques , each one of which makes up this fundamental development to be able to apply complete visual safety in the visual emergency alert system . The devices that can be incorporated can be from objects, vehicles, clothing or any special requirement that may, depending on need, have the ability to be displayed in both conditions (normal/emergency).

[0019] The system is made up of 4 layers of products, which can vary in color and shape, according to the different applications, equipment or requirement that may be requested by the different end customers.

[0020] For this invention presentation, it was applied to a mining truck, which presents quantitative and qualitative improvements in the ability to be detected in normal and special conditions such as zero lights, low light and environmental pollution, another improvement is detection at a great distance.

[0021] This device is made up of a layer of engineering-grade prismatic reflector, which is capable of reflecting daylight, artificial light from other equipment or sources (1), this element has been reinforced with an additional adhesive to ensure and correct possible failures in its adhesion with the selected surface, another advantage of this design (1) is its degree and measure which provides a complementary area for the installation of other techniques. Once the luminescent reflector base is fixed, the installation of the Photoluminescent system (2) is carried out, which has a Base Engineer degree, with a capacity of 74 Candles, which is in charge of being able to deliver an emission of light independent of its source, since it is charged directly with UV rays, delivering a constant emission between 4 to 12 Hrs. , and can be artificially charged with a UV light beam in case it cannot be directly exposed to the sun, which will depend on the different configurations that customers may request. In order to provide the security that the equipment, elements, people and any requirement that is requested, have the certain capacity to be seen, the third layer of last generation nanoled element (3) is added to this configuration, it is the thinnest light source on the market, based on the production of millions of microscopic leds, through the creation of programmed layers of different conductive and luminescent elements, activated by high-tech and low-consumption electronic frequencies. Our nanoled sheet technology is only 0.2 mm thick, making it the thinnest and most versatile electronic light source that exists, with an approximate useful life of 50,000 hours. Within its innumerable design features, this application is flexible, dimmable, resistant and efficient, with the possibility of multicolors. And, finally, to ensure the installation of our system, a coating (4) of 20-micron Floor Graphics sheet with incorporated nanotechnology is added, to seal and ensure the hermeticity of the kit, added to this a special nanotechnological varnish to provide the system with the ability to lower the percentage of adhered contamination.

[0022] The control and power unit consists of a developed electronic element, which will deliver the ability to bidirectionally control, monitor and alert the devices connected to it, positioning this development as the only one of its kind, capable of reporting upcoming events, high potential exposures or imminent risks that may be inefficient with conventional visual alert systems, the processor's operating logic contemplates the different configurations that can be enabled in the model, from manual identification of danger or risk, to automatic detection systems, which with sensorization and artificial intelligence (AI) can determine the application of the corresponding visual alerts, and can even sectorize the different routes or evacuation routes to be able to reach the emergency zone. In the different industries where there is the possibility of having the interaction of the personnel, provided with a portable device, it will be possible to be informed and report when any manual or emergency command activates the control system, visually indicating the “emergency” condition that will be activated locally, remotely or automatically and will change the color of all the devices connected to the system, or according to the sectoral programming that the system is loaded, this feature will make the emergency states noticeable not only by the person that is carrying the device, if not by all the personnel that surrounds it or is in line of sight for an approximate radius of 500 meters in the dark and 100 meters in daylight.

[0023] The Applications of this development, as we mentioned before, are multiple, its parts and pieces function autonomously as a local system, a global system. Among the most notable features is the option to be able to geo-position the teams that comprise it and activate local alerts with basic positioning systems, such as satellite positioning in the most complex systems, providing this development with optimal control and alert conditions.