CN2664295Y - High-frequency signal inducting luminous antenna - Google Patents

Abstract

The utility model relates to an antenna used in wireless communication of communication station for ship maneuvering gear, which is characterized in that: a high-frequency signal inducting luminous device is arranged on the antenna body. Compared with the prior art, the utility model is convenient for observation to make staff see clearly whether the antenna is in the working state of radiating electromagnetic wave: the luminous device emitting light indicates that transmitted signal is sent out, while the luminous device emitting no light indicates that transmitted signal is not sent out; meanwhile, the utility model is convenient for failure analysis, that is, when communication equipment is abnormal, subsection check can be adopted to reduce checking scope, thereby increasing work efficiency of overhaul.

Description

The inducing luminous antenna of high-frequency signal

Technical field: the utility model relates to a kind of antenna, especially a kind of antenna of being furnished with high frequency radiation electromagnetic wave induction light-emitting device on antenna.

Background technology: the at present existing antenna that is used for the wireless telecommunications of ship's navigation radio station, generally fit over the top of boats and ships, this antenna adopts aluminium alloy or glass-reinforced plastic material to make mostly, have wind resistance, rainproof, intensity is high, the advantage of stable performance.But this antenna is in the high-frequency electromagnetic wave amplitude when penetrating, and shows without any servicing unit whether this antenna is in radiation regimes, makes the staff not know that its signal sends out and do not have, and feels unsure of.

The utility model content:

The technical problems to be solved in the utility model is: at above-mentioned prior art deficiency, provide a kind of when antenna is in the high-frequency electromagnetic wave amplitude and penetrates, light-emitting device set on its antenna is sensed luminous, when antenna does not receive high-frequency signal or when unusual, light-emitting device set on it is not luminous.

The technical scheme in the invention for solving the above technical problem is: the inducing luminous antenna of this high-frequency signal, the lower end that contains pin fits in the centre bore of feeder line gang socket, feeder line gang socket fits in the following stomidium of antenna body, antenna body is connected successively by the two ends of every joint hollow cylinder metal antenna cover by oscillator insulation adapter sleeve made of plastic, the top of pin fits in the endoporus of radome, and, is furnished with the antenna bucker at the top of radome by fitting over pin stator centre bore location insulation set in the oscillator insulation adapter sleeve; Antenna body or employing nonmetallic materials fiberglass are made radome, connected modes such as the syndeton of every joint radome and pin and feeder line gang socket are the same, different is to be furnished with holder in the radome bottom, on the periphery of holder, be furnished with three earth mat oscillators that outwards stretch, be characterized on antenna body, being furnished with the inducing luminous device of high-frequency signal.

The utility model beneficial effect compared with prior art:

1, is convenient to observe.The staff can be come into plain view see the operating state when whether antenna is in radiated electromagnetic wave, promptly light-emitting device is luminous, shows that the signal that sends has sent out, if light-emitting device is not luminous, shows that signal is provided with to send out to such an extent that go out;

2, be convenient to accident analysis.When communication apparatus takes place when unusual, can the segmentation inspection, dwindle examination scope, thereby improved the operating efficiency of maintenance.

Description of drawings:

Describe a most preferred embodiment of the present utility model in detail below in conjunction with accompanying drawing:

Fig. 1 is a fiberglass omnidirectional antenna structure chart;

Fig. 2 is an aluminium alloy omnidirectional antenna structure chart;

Fig. 3 is the I place partial enlarged view among Fig. 1;

Fig. 4 is the light-emitting device circuit diagram;

Fig. 5 is another embodiment of Fig. 1 structure.

As shown in Figure 2, the lower end of thin axonometer made from copper material 9 of length fits in the centre bore of feeder line gang socket 10, feeder line gang socket 10 is fixed in the following stomidium of antenna body, antenna body is connected successively by the two ends of every joint hollow cylinder aluminum alloy antenna cover 6 by oscillator insulation adapter sleeve 8 made of plastic, the top of pin 9 fits in the endoporus of radome 6, and, is furnished with antenna bucker 1 at the top of radome 6 by fitting over set pin stator 7 centre bores location insulation in every joint oscillator insulation adapter sleeve 8.Oscillator insulation adapter sleeve 8 adopts the AS transparent plastic to make, and is furnished with the inducing luminous device of high-frequency signal within it.The circuit structure of light-emitting device as shown in Figure 4, one end Lb of inductance L links to each other with the positive pole of light-emitting diode D1, the negative pole of light-emitting diode D1 links to each other with the positive pole of diode D2, and the negative pole of diode D2 is connected with the other end La of inductance L, and the other end La of inductance L is provided with and draws line end simultaneously.The circuit assembly structure of light-emitting device is shown in the broken section part of Fig. 1, Fig. 2, Fig. 3, Fig. 5, the cylindrical spring-like of inductance L, in the hole of inductance L spring-like, is furnished with diode D2, light-emitting diode D1 draws inductance L one end Lb and is assigned to required orientation outward, on the spring shape periphery of inductance L, be furnished with heat shrinkage insulation sleeve pipe 3 and prevent short circuit, the other end La of inductance L is provided with and draws line end, and the length of regulating inductance L can be regulated the brightness of light-emitting diode D1.The light-emitting device system of being joined in oscillator insulation adapter sleeve 8 adopts is furnished with the light-emitting diode D1 of several serial connections on pin stator 7, inductance L of entangling with heat shrinkage insulation sleeve pipe 3 and the diode D2 that is joined in inductance L are close to by the hole wall body under it, and the other end La of its inductance L draws line end and is riveted on the antenna body wall and is shaped in the aperture 5.When light-emitting diode D1 is inducing luminous, its light will be outwards luminous by transparent oscillator insulation adapter sleeve 8 bodies.

As shown in Figure 1, antenna body also can adopt nonmetallic materials fiberglass to make radome 6, connected modes such as the syndeton of every joint radome 6 and pin 9 and feeder line gang socket 10 are the same, different is to be furnished with holder 2 in radome 6 bottoms, on the periphery of holder 2, are furnished with three earth mat oscillators 12 that outwards stretch, as shown in Figure 3, is furnished with the inducing luminous device of high-frequency signal respectively on the top of each earth mat oscillator 12, the architectural feature of this device is, the openend that AS blister pack 11 is arranged at the end of each earth mat oscillator 12 close-fitting, in AS blister pack 11, the inductance L other end La lead-out wire of light-emitting device and join the top that within it diode D2 one end is close to earth mat oscillator 12, one end Lb of inductance L tightly contacts under the effect of inductance L elastic force with the end of light-emitting diode D1, and forces the other end light-emitting area of light-emitting diode D1 to be close to AS blister pack 11 inner face tops.

The utility model has numerous embodiments, both can on arbitrary joint radome 6, be furnished with the inducing luminous device of high-frequency signal, light-emitting diode D1 is fitted in the window made on the radome body wall, and mend the crack with the marine glue joint filling, the La of its circuit accessory inductance L is drawn line end be riveted on it down in the aperture 5 on body wall of radome 6.As shown in Figure 1, also can adopt and in antenna bucker 1, be furnished with the inducing luminous device of high-frequency signal, soon several light-emitting diode D1 that compose in series fit in the last made hole of Zhou Tibi of antenna bucker, and mend the crack with the marine glue joint filling, the La of its circuit accessory inductance L is drawn line end be riveted on it down in the aperture 5 on body wall of radome 6.As shown in Figure 5, also can adopt the AS transparent plastic to make antenna bucker 1, several light-emitting diode D1 that compose in series or a light-emitting diode D1 are fitted in the transparent antenna bucker 1, the La of its circuit accessory inductance L is drawn line end be riveted on it down in the aperture 5 on body wall of radome 6, when light-emitting diode D1 is inducing luminous, its light will be outwards luminous by transparent antenna bucker 1.Light-emitting diode D1 can be made into various different colors as required.

Operation principle: the effect of high frequency antenna is radiated electromagnetic wave and receives electromagnetic wave, play power conversion simultaneously, sender is converted into electromagnetic wave to spatial emission by antenna with high-frequency current, the inducing luminous device of frequency electromagnetic waves is to produce high-frequency current through inductance induced electricity magnetic wave to export dc pulse current through diode rectification, makes the light-emitting diode work that is serially connected in this circuit.

Claims (9)

1, the inducing luminous antenna of a kind of high-frequency signal, the lower end that contains pin (9) fits in the centre bore of feeder line gang socket (10), feeder line gang socket (10) is fixed in the following stomidium of antenna body, antenna body is connected successively by the two ends of every joint hollow cylinder metal antenna cover (6) by oscillator insulation adapter sleeve (8) made of plastic, the top of pin (9) fits in the endoporus of radome (6), and, is furnished with antenna bucker (1) at the top of radome (6) by fitting over pin stator (7) centre bore location insulation set in every joint oscillator insulation adapter sleeve (8); Antenna body or employing nonmetallic materials fiberglass are made radome (6), the syndeton of every joint radome (6) and pin (9) and feeder line gang socket connected modes such as (10) are the same, different is to be furnished with holder (2) in radome (6) bottom, on the periphery of holder (2), be furnished with three earth mat oscillators (12) that outwards stretch, it is characterized in that: on antenna body, be furnished with the inducing luminous device of high-frequency signal.

2, the inducing luminous antenna of a kind of high-frequency signal according to claim 1 is characterized in that: oscillator insulation adapter sleeve (8) adopts the AS transparent plastic to make, and is furnished with the inducing luminous device of high-frequency signal within it.

3, the inducing luminous antenna of a kind of high-frequency signal according to claim 1 is characterized in that: antenna bucker (1) adopts the AS transparent plastic to make, and is furnished with the inducing luminous device of high-frequency signal within it.

4, the inducing luminous antenna of a kind of high-frequency signal according to claim 1 is characterized in that: be furnished with the inducing luminous device of high-frequency signal on earth mat oscillator (12).

5, the inducing luminous antenna of a kind of high-frequency signal according to claim 1, it is characterized in that: on arbitrary joint radome (6), be furnished with the inducing luminous device of high-frequency signal, light-emitting diode D1 fits in the window made on the radome body wall, and mends the crack with the marine glue joint filling.

6, the inducing luminous antenna of a kind of high-frequency signal according to claim 1, it is characterized in that: be furnished with the inducing luminous device of high-frequency signal on antenna bucker (1), light-emitting diode D1 fits in the hole made on the body wall of antenna bucker.

7, the inducing luminous antenna of a kind of high-frequency signal according to claim 1, it is characterized in that: the circuit structure of light-emitting device is that an end Lb of inductance L links to each other with the positive pole of light-emitting diode D1, the negative pole of light-emitting diode D1 links to each other with the positive pole of diode D2, the negative pole of diode D2 is connected with the other end La of inductance L, and the other end La of inductance L is provided with and draws line end simultaneously.

8, the inducing luminous antenna of a kind of high-frequency signal according to claim 7, it is characterized in that: the circuit assembly structure of light-emitting device is, the cylindrical spring-like of inductance L, in the helical spring shape hole of inductance L, is furnished with diode D2, light-emitting diode D1 draws inductance L one end Lb and is assigned to required orientation outward, on the spring shape periphery of inductance L, be furnished with heat shrinkage insulation sleeve pipe (3) and prevent short circuit, the other end La of inductance L is provided with and draws line end, and the length of regulating inductance L can be regulated the brightness of light-emitting diode D1.

9, the inducing luminous antenna of a kind of high-frequency signal according to claim 7, it is characterized in that: light-emitting diode D1 can be composed in series by several, and light-emitting diode D1 can be made as various different colors as required.

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