High light intensity navigation obstacle lamp
Technical field
The utility model relates to aviation obstruction beacon technical field, particularly high light intensity navigation obstacle lamp.
Background technology
High light intensity navigation obstacle lamp emergent light angle on conventional art can not regulate, in acclive body of wall is installed, emergent light angle often makes emergent light angle can not according to standard-required outgoing because of not regulating, the design observes lampshade upper horizontal instrument by regulating lampshade side knob simultaneously can the whole emergent light angle of accurate adjustment; On conventional art, a kind of lamp can only connect each lamp by controller and realizes synchronous, and the design can realize flying obstacle lamp controller and GPS controls two kinds of method of synchronization unrestricted choice, can make a return journey like this select to adopt which kind of mode to connect according to site environment.
Summary of the invention
In view of the disappearance of prior art, the utility model work out a kind of can precisely adjust shooting angle, can the high light intensity navigation obstacle lamp system of the unrestricted choice method of synchronization to overcome the deficiency in prior art, solve the problem.
The utility model provides high light intensity navigation obstacle lamp technical field, refer to that high light intensity navigation obstacle lamp emergent light angle can precisely regulate especially, and the synchronization flash of each aviation obstruction beacon is realized between high light intensity navigation obstacle lamp by GPS, controller control realization synchronization flash can also be passed through, flashing rate and pulse duration all can free adjustment, and have remote monitoring function.The utility model is achieved through the following technical solutions.
High light intensity navigation obstacle lamp comprises:
GPS receiver module, receives time signal and the output equipment installation site information of satellite;
Programmable module, for taking out the time signal of GPS receiver module reception as triggering signal;
Lighting control module, promotes light fixture work, and controls the state of lamp according to light fixture external environment condition after triggering signal being amplified;
The method of synchronization selects module, selects to adopt the one in the GPS method of synchronization and controller control synchronization mode;
By eye-level instrument, level meter module, can determine whether shooting angle meets standard;
Power module, provides power supply for modules normally runs;
Emergent light angular adjustment module, can adjust shooting angle by lampshade side knob.
The utility model has the advantage of: can free adjustment emergent light angle, can unrestricted choice synchronous control mode, realize synchronous working by GPS or controller.
Accompanying drawing explanation
Fig. 1 is the frame toe-in composition that the utility model implements high light intensity navigation obstacle lamp.
Embodiment
In order to make the utility model object, technical scheme and advantage clearer, below with reference to drawings and Examples, the utility model is described in further detail.
Composition graphs 1, is described further enforcement of the present utility model below in conjunction with accompanying drawing, and native system mainly comprises eight part (1) emergent light adjustment modules; (2) level meter module; (3) GPS receiver module; (4) programmable module; (5) lighting control module; (6) lamp controller module; (7) power module; (8) method of synchronization selects module.
Emergent light adjustment module shows: high light intensity navigation obstacle lamp erecting bed may exist different gradient body of wall, and the design can adjust shooting angle by lampshade side knob, is adapted at various body of wall is installed.
Level meter module can the emergent light angle of accurate adjustment this lamp whole by observing this level meter.
The temporal information received is delivered to programmable module by GPS receiver module, mainly second signal, also export when headlight position information simultaneously.
The core component of programmable module is single-chip microcomputer, single-chip microcomputer is inner with EEPROM module, wherein EEPROM module is used for storing frequencies and pulse width information, we can according in the frequency of customer requirement and pulse width information write single-chip microcomputer EEPROM, single-chip microcomputer is delivered to after GPS receiver module receives time signal, the starting point that single-chip microcomputer is flick of lamp with this time signal, frequency and the pulsewidth of our needs is exported again according to the data write in advance, because output signal starting point is identical, therefore the flash of light of each lamp is synchronous, the frequency of flash of light and pulsewidth are according to realizing according to EEPROM mileage.
Lighting control module is carried out amplifying the normal work promoting light fixture by the small area analysis signal that single-chip microcomputer exports, and wherein module also comprises light-sensitive device, along with the change of the colour of sky changes exiting light beam intensity automatically.
Power module is for the normal work of modules above provides energy, ensures the steady operation of whole system.
The method of synchronization selects module select GPS mode Synchronization Control by control circui or select flying obstacle lamp controller to control.
The utility model specifically can realize lamp light adjustable shooting angle and the unrestricted choice method of synchronization: usual high intensity lamp erecting bed circumstance complication, if install high intensity lamp having on slope, the design's lamp is used can directly to install, by emergent light adjustment module and the whole emergent light angle of level meter module accurate adjustment; According to light fixture, at outdoor or indoor location, we can select to adopt the flying obstacle lamp controller method of synchronization or GPS control synchronization mode, GPS receiver module or aviation obstruction beacon controller module provide a synchronizing signal, signal feeding lamp control module is carried out Current amplifier and is gone to promote light work, realize our expected effect, simultaneously lighting control module by the state feedback of lamp to single-chip microcomputer.
The above embodiment only have expressed some embodiments of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.