Double light path strobe light locus of points remote control system
Technical field
This utility model relates to electronic telecontrol technical field, particularly relates to a kind of double light path strobe light locus of points remote control system.
Background technology
At present, the most of remote control unit sold on market is all the form using fixing button, when user needs to be remotely controlled, corresponding button must be pressed on a remote control, this conventional remote controls mode brings inconvenience to user in actual application, particularly in the case of the number of keys on a remote controller is numerous, if half-hearted differentiation, it is easy for pushing the wrong button, and, the quantity of physical button is difficult to expand, and when needing to extend distant control function, this button remote control mode is also difficult to tackle.
Utility model content
The purpose of this utility model there are provided a kind of double light path strobe light locus of points remote control system convenient and swift, wieldy, it is only necessary to utilizes the luminous point of stroboscopic just can realize the remote control of electrical equipment.
This utility model is achieved in that
A kind of double light path strobe light locus of points remote control system, described double light path strobe light locus of points remote control system includes double light path strobe light locus of points remote-receiver and forms the strobe light locus of points remote-controlled launcher of stroboscopic luminous point movement locus, described double light path strobe light locus of points remote-receiver include control circuit module and successively described stroboscopic luminous point movement locus is carried out optical imagery and light path extension after to carry out double light path signal processing to obtain the signal receiving processing module of the control command of described control circuit module, described control circuit module is electrically connected with described signal receiving processing module.
As the improvement of above-mentioned double light path strobe light locus of points remote control system, described strobe light locus of points remote-controlled launcher includes strobe light emission light source and the stroboscopic light source drive circuit module being electrically connected with described strobe light emission light source.
nullImprovement as above-mentioned double light path strobe light locus of points remote control system,Described signal receiving processing module includes for the optical image unit to stroboscopic luminous point movement locus imaging、Dichroic Optical unit for light path extension、For the image acquisition sensing unit that stroboscopic luminous point movement locus collection is picture signal to described optical image unit imaging、For the light pulse signal sensing unit that stroboscopic luminous point movement locus collection is the light pulse signal of telecommunication to described optical image unit imaging、Picture signal for collecting described image acquisition sensing unit carries out movement locus decoding and the light pulse signal of telecommunication that collects described light pulse signal sensing unit carries out the comprehensive decoding unit of luminous point strobing frequency decoding and for the control unit to described control circuit module transmitting control commands,Described optical image unit is attached with described image acquisition sensing unit and described light pulse signal sensing unit respectively through described Dichroic Optical unit,Described image acquisition sensing unit and described light pulse signal sensing unit are electrically connected with described control unit through described comprehensive decoding unit respectively.
As the improvement of above-mentioned double light path strobe light locus of points remote control system, the frequency acquisition of described light pulse signal sensing unit is more than or equal to the twice of the strobing frequency of described strobe light emission light source.
The beneficial effects of the utility model are: the double light path strobe light locus of points remote control system that this utility model provides, it can form specific stroboscopic luminous point movement locus by strobe light locus of points remote-controlled launcher, when the signal receiving processing module of double light path strobe light locus of points remote-receiver captures this specific stroboscopic luminous point movement locus, just concerned control command is can get to control the control circuit module of double light path strobe light locus of points remote-receiver by double light path signal processing, such as break-make or regulate its power-on voltage current intensity etc., and then reach the purpose of electrical equipment control, whole control process is convenient and swift, easy of use.
Accompanying drawing explanation
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is that the overall structure of this utility model double light path strobe light a kind of preferred embodiment of locus of points remote control system connects block diagram.
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.
As shown in Figure 1, the present embodiment provides a kind of double light path strobe light locus of points remote control system 1, double light path strobe light locus of points remote control system 1 includes double light path strobe light locus of points remote-receiver 11 and forms the strobe light locus of points remote-controlled launcher 12 of stroboscopic luminous point movement locus, double light path strobe light locus of points remote-receiver 11 include control circuit module 111 and successively stroboscopic luminous point movement locus is carried out optical imagery and light path extension after to carry out double light path signal processing to obtain the signal receiving processing module 112 of the control command of control circuit module 111, control circuit module 111 is electrically connected with signal receiving processing module 112.
In the present embodiment, as shown in Figure 1, strobe light locus of points remote-controlled launcher 12 includes strobe light emission light source 121 and the stroboscopic light source drive circuit module 122 being electrically connected with strobe light emission light source 121, under the driven by power of stroboscopic light source drive circuit module 122, strobe light emission light source 121 will glisten according to driving frequency, meanwhile, user can move strobe light locus of points remote-controlled launcher 12 according to certain track and be remotely controlled operation, to form specific stroboscopic luminous point movement locus.nullSignal receiving processing module 112 includes for the optical image unit 1121 to stroboscopic luminous point movement locus imaging、Dichroic Optical unit 1122 for light path extension、For the image acquisition sensing unit 1123 that stroboscopic luminous point movement locus collection is picture signal to optical image unit 1121 imaging、For the light pulse signal sensing unit 1124 that stroboscopic luminous point movement locus collection is the light pulse signal of telecommunication to optical image unit 1121 imaging、Picture signal for collecting image acquisition sensing unit 1123 by default coding/decoding method carries out movement locus decoding and the light pulse signal of telecommunication that collects light pulse signal sensing unit 1124 carries out the comprehensive decoding unit 1125 of luminous point strobing frequency decoding and for the control unit 1126 to control circuit module 111 transmitting control commands,Optical image unit 1121 is attached with image acquisition sensing unit 1123 and light pulse signal sensing unit 1124 respectively through Dichroic Optical unit 1122,Image acquisition sensing unit 1123 and light pulse signal sensing unit 1124 are electrically connected with control unit 1126 through comprehensive decoding unit 1125 respectively.Preferably, the frequency acquisition of light pulse signal sensing unit 1124 is more than or equal to the twice of the strobing frequency of strobe light emission light source 121.
During use, user moves the strobe light locus of points remote-controlled launcher 12 of luminescence according to certain track, to form specific stroboscopic luminous point movement locus, concurrently, signal receiving processing module 112 senses that the external world transmits stroboscopic light spot signal and starts this specific stroboscopic luminous point movement locus is carried out signal capture, first, optical image unit 1121 can carry out imaging processing to this specific stroboscopic luminous point movement locus, then by Dichroic Optical unit 1122, the imaging of optical image unit 1121 is divided into two light paths, one light path is to image acquisition sensing unit 1123, the specific stroboscopic luminous point movement locus collection that optical image unit 1121 imaging processing is crossed by image acquisition sensing unit 1123 is picture signal, and it is passed along comprehensive decoding unit 1125;Another light path is to light pulse signal sensing unit 1124, and the specific stroboscopic luminous point movement locus collection that optical image unit 1121 imaging processing is crossed by light pulse signal sensing unit 1124 is the light pulse signal of telecommunication, and is passed along comprehensive decoding unit 1125.Comprehensive decoding unit 1125 not only can carry out luminous point strobing frequency decoding according to the coding/decoding method being pre-designed to the light pulse signal of telecommunication that light pulse signal sensing unit 1124 gathers, checking luminous point remote control authority, and movement locus decoding can be carried out according to the picture signal that image acquisition sensing unit 1123 is gathered by the coding/decoding method being pre-designed, and luminous point strobing frequency decoded result and luminous point movement locus decoded result are passed to control unit 1125, finally, control unit 1125 confirms control command according to luminous point strobing frequency decoded result and the luminous point movement locus decoded result of input, control circuit module 111 to be carried out break-make control or the regulation of power-on voltage current intensity, and then reach the purpose of electrical equipment control.
The double light path strobe light locus of points remote control system that the present embodiment provides, it can form specific stroboscopic luminous point movement locus by strobe light locus of points remote-controlled launcher, when the signal receiving processing module of double light path strobe light locus of points remote-receiver captures this specific stroboscopic luminous point movement locus, just concerned control command is can get to control the control circuit module of double light path strobe light locus of points remote-receiver by double light path signal processing, such as break-make or regulate its power-on voltage current intensity etc., and then reach the purpose of electrical equipment control, whole control process is convenient and swift, easy of use.
The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any modification, equivalent substitution and improvement etc. made, within should be included in protection domain of the present utility model.