CN111204411A

CN111204411A - Self-stabilizing satellite signal amplification buoy

Info

Publication number: CN111204411A
Application number: CN202010056521.4A
Authority: CN
Inventors: 张晓环
Original assignee: 张晓环
Current assignee: Mizhi Yubao Beidou Agricultural Development Co.,Ltd.
Priority date: 2020-01-18
Filing date: 2020-01-18
Publication date: 2020-05-29
Anticipated expiration: 2040-01-18
Also published as: CN111204411B

Abstract

The invention relates to the technical field of satellite signal buoys, and discloses a self-stabilizing satellite signal amplification buoy which comprises a buoy body, a sliding groove is fixedly connected inside the floating body, a sliding rod is connected on the surface of the sliding groove in a sliding manner, a clamping groove is arranged on the surface of one end of the sliding rod, which is far away from the sliding groove, a signal enhancing plate is movably connected between the symmetrical slide bars, a connecting rod is fixedly connected between the signal enhancing plates, a satellite annunciator is fixedly installed at one end of the connecting rod, which is far away from the signal enhancing plate, a stretching rod is fixedly connected at one side of the satellite annunciator, which is far away from the connecting rod, a linkage mechanism is fixedly connected at both sides of the stretching rod, one side of the linkage mechanism, which is far away from the stretching rod, is hinged with a storage battery, a supporting plate is fixedly connected at the lower part of the storage battery, and the supporting plate is fixedly connected with a stabilizing device, and a voltage stabilizer is fixedly arranged at one end of the stretching rod, which is far away from the satellite annunciator, and is positioned at the center of the supporting plate.

Description

Self-stabilizing satellite signal amplification buoy

Technical Field

The invention relates to the technical field of satellite signal buoys, in particular to a self-stabilizing satellite signal amplification buoy.

Background

With the development of maritime transportation, the utilization and exploration of the ocean are gradually increased, in order to ensure good navigation accuracy, the existing propagation generally adopts a GPS for positioning, and because the ocean is wide, the GPS is difficult to indicate some submerged reefs and shoals for propagation, and the signal feedback and accuracy of the GPS are relatively limited, so that some signal beacons connected with satellites are generally used for providing navigation information, because the satellite beacons need to load relatively large satellite communication equipment, the conventional simple buoy structure is easy to topple over in the weather of strong wind and strong waves to influence normal signal communication, and generally speaking, the satellite communication has relatively high requirements on the stability of an antenna, and the conventional buoy is easy to swing due to the wind waves to influence the stability of signals.

The patent of contrast application number is CN104802935A sees, the poor technical problem of traditional buoy stability among the prior art is only overcome to this patent, the intensity that satellite signal received can be influenced to the heavy stormy weather of big wind not considered, current device is when using, although be provided with radar emission ware, be favorable to the navigation of ship, the device of device emission signal is fixed for the area when using, can not control the intensity that increases the signal to its area, satellite signal need be used the battery to supply power in addition, this will need the people to change the battery regularly, waste time and energy.

Disclosure of Invention

In order to realize the purpose of stabilizing and enhancing the satellite signals, the invention provides the following technical scheme: a self-stabilizing satellite signal amplification buoy comprises a floating body, wherein a sliding groove is fixedly connected inside the floating body, a sliding rod is connected on the surface of the sliding groove in a sliding manner, a clamping groove is formed in the surface of one end, far away from the sliding groove, of the sliding rod, a signal enhancing plate is movably connected between the symmetrical slide bars, a connecting rod is fixedly connected between the signal enhancing plates, a satellite annunciator is fixedly installed at one end of the connecting rod, which is far away from the signal enhancing plate, a stretching rod is fixedly connected at one side of the satellite annunciator, which is far away from the connecting rod, a linkage mechanism is fixedly connected at both sides of the stretching rod, one side of the linkage mechanism, which is far away from the stretching rod, is hinged with a storage battery, a supporting plate is fixedly connected at the lower part of the storage battery, and the supporting plate is fixedly connected with a stabilizing device, and a voltage stabilizer is fixedly arranged at one end of the stretching rod, which is far away from the satellite annunciator, and is positioned at the center of the supporting plate.

The invention has the beneficial effects that: when the sea surface meets the weather of strong wind and strong waves, the floating body can fluctuate along with the sea waves, the spiral fan blades arranged in the stabilizing device around the floating body can rotate at the moment, the rotating force and the force of the spiral fan blades are offset, the fluctuation amplitude of the floating body can be reduced, in addition, electric energy can be stored due to the fact that the spiral fan blades are connected with the stabilizing device, the floating body is impacted by the sea waves to drive the stabilizing device to fluctuate to enable the movable rod to move upwards, the signal reinforcing plate is opened under the driving of the rod piece, satellite signals are amplified, and therefore the effects of improving the stability of the buoy, reinforcing the signals and generating electricity.

Preferably, the linkage mechanism is connected with the stretching rod through a telescopic rod, one end, away from the stretching rod, of the telescopic rod is connected with the storage battery, a straight rod is hinged to the center of the telescopic rod, one end, away from the telescopic rod, of the straight rod is hinged to the voltage stabilizer, a limiting rod is hinged to the surface of the straight rod, and one end, away from the straight rod, of the limiting rod is fixedly connected with the voltage stabilizer.

Preferably, the stabilizing device is connected with the voltage stabilizer through a sealing plate, one end of the sealing plate, which is far away from the voltage stabilizer, is fixedly connected with a buffer plate, the surface of the buffer plate is sleeved with a spiral fan blade, and the stabilizing device is distributed on four surfaces of the floating body.

Preferably, a sealing gasket is arranged at the joint of the movable rod and the floating body, and the movable rod moves along with the floating of the pressure stabilizer.

Preferably, the lower part of the slide bar is provided with a groove.

Drawings

FIG. 1 is a cross-sectional view of the structure of a buoy of the present invention;

FIG. 2 is a top view of the buoy structure of the present invention;

FIG. 3 is an enlarged view of a portion of the inventive structure A.

In the figure: 1-floating body, 2-sliding groove, 3-sliding rod, 4-clamping groove, 5-signal reinforcing plate, 6-connecting rod, 7-satellite annunciator, 8-stretching rod, 9-linkage mechanism, 901-telescopic rod, 902-straight rod, 903-limiting rod, 10-storage battery, 11-supporting plate, 12-movable rod, 13-stabilizing device, 1301-sealing plate, 1302-buffer plate, 1303-spiral fan blade, 14-voltage stabilizer, 15-sealing pad and 16-groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, a self-stabilized satellite signal amplification buoy, comprising a floating body 1, a sliding groove 2 fixedly connected inside the floating body 1, a sliding rod 3 slidably connected on the surface of the sliding groove 2, a groove 16 arranged on the lower part of the sliding rod 3, a slot 4 arranged on the surface of one end of the sliding rod 3 far away from the sliding groove 2, a signal enhancing plate 5 movably connected between the symmetrical sliding rods 3, a repeater station used as one of necessary means for realizing the aim of 'small capacity and large coverage', mainly because the repeater station ensures network coverage without increasing the number of base stations, and has a cost far lower than that of a micro-cellular system with the same effect, the repeater station is a preferred scheme for solving the problem of communication network extending coverage capability, compared with the base stations, the self-stabilized satellite signal amplification buoy has the advantages of simple structure, less investment, convenient installation and the like, and can be widely used in blind areas and weak, such as shopping malls, hotels, airports, docks, stations, gymnasiums, entertainment halls, subways, tunnels, highways, islands and other places, improves communication quality, solves the problem of call drop, optimizes a wireless communication network, and has the advantages that a connecting rod 6 is fixedly connected between signal reinforcing plates 5, a satellite annunciator 7 is fixedly installed at one end of the connecting rod 6 far away from the signal reinforcing plates 5, the satellite transmits signals by means of electromagnetic waves, the satellite signals are transmitted to a satellite fixed at a fixed point above the equator by a satellite antenna from a ground satellite uplink station, the satellite signals are transmitted by a transmitting antenna after being subjected to satellite receiving frequency conversion and amplification and are transmitted by a transmitting antenna according to a coverage area for receiving by ground satellite receiving users, a stretching rod 8 is fixedly connected to one side of the satellite annunciator 7 far away from the connecting rod 6, linkage mechanisms 9 are fixedly connected to both sides of the stretching rod 8, and the linkage mechanisms, the end of the telescopic rod 901 far away from the stretching rod 8 is connected with the storage battery 10, the center of the telescopic rod 901 is hinged with a straight rod 902, and the end of the straight rod 902 far away from the telescopic rod 901 is hinged with the voltage stabilizer 14, which is a device designed to automatically maintain constant voltage in electronic engineering. A voltage stabilizer 14 may be a simple "feed forward" design or may include a negative feedback control loop, the voltage stabilizer 14 may also use an electromechanical mechanism or an electronic module, according to different designs, the voltage stabilizer 14 may be divided into a dc voltage stabilizer and an ac voltage stabilizer, the voltage stabilizer 14 is often used in a power supply system, and cooperates with a rectifier, an electronic filter, etc. to provide a stable output voltage, such as a working voltage required by a microprocessor and other elements, in an ac generator or even a large generator of a power plant, the voltage stabilizer 14 controls the stability of the output voltage, in a distributed power distribution system, the voltage stabilizer 14 may be installed in a sub-power plant or in a direction extending along a wire to ensure that a user can obtain a stable voltage regardless of the power level, a limiting rod 903 is hinged on the surface of the straight rod 902, one end of the limiting rod 903 far from the straight rod 902 is fixedly connected to the voltage stabilizer 14, linkage mechanism 9 keeps away from tensile pole 8, one side articulated have battery 10, the lower part fixedly connected with backup pad 11 of battery 10, backup pad 11 is through running through the inside movable rod 12 fixedly connected with stabilising arrangement 13 of body 1, movable rod 12 is provided with sealed pad 15 with the junction of body 1, and movable rod 12 floats and moves along with stabilising arrangement 13, stabilising arrangement 13 passes through the sealing plate 1301 with stabiliser 14 and is connected, the one end fixedly connected with buffer board 1302 of stabiliser 14 is kept away from to seal plate 1301, helical fan blade 1303 has been cup jointed on the surface of buffer board 1302, stabilising arrangement 13 distributes on four faces of body 1, the one end that satellite signal ware 7 was kept away from to tensile pole 8 just is located the center department fixed mounting of backup pad 11 and has stabiliser 14.

When the buoy is used, when the sea surface is windy and rainy, the sea waves push the spiral fan blades 1303 to rotate and then are filtered by the buffer plate 1302, the force generated by rotation of the spiral fan blades 1303 can resist the sea waves to a certain extent, in addition, the spiral fan blades 1303 rotate and utilize ocean power generation to be stored in the storage battery 10 through the voltage stabilizer 14 and then used for supplying power to the satellite annunciator 7, the floating body 1 floats to drive the stabilizing device 13 to float so as to push the movable rod 12 to move, the supporting plate 11 is driven to move upwards to pass through the linkage mechanism 9, the satellite annunciator 7 and the connecting rod 6 are pushed, the signal enhancement plate 5 is unfolded, the signal enhancement plate 5 is clamped under the combined action of the groove 16 and the limiting rod 903, and because the stabilizing device 13 is distributed around the floating body 1 and the signal enhancer 5 is unfolded to disperse the gravity, the stability of the whole buoy can be.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a self stabilization formula satellite signal amplification buoy, includes body (1), its characterized in that: the device comprises a floating body (1), sliding grooves (2) are fixedly connected inside the floating body (1), sliding rods (3) are connected to the surfaces of the sliding grooves (2) in a sliding mode, clamping grooves (4) are formed in the surfaces of the ends, far away from the sliding grooves (2), of the sliding rods (3) respectively, signal reinforcing plates (5) are movably connected between the symmetrical sliding rods (3), connecting rods (6) are fixedly connected between the signal reinforcing plates (5), a satellite annunciator (7) is fixedly installed at one end, far away from the signal reinforcing plates (5), of each connecting rod (6), a stretching rod (8) is fixedly connected to one side, far away from the corresponding connecting rod (6), of each satellite annunciator (7), linkage mechanisms (9) are fixedly connected to the two sides of each stretching rod (8), one side, far away from the corresponding stretching rod (8), of each linkage mechanism (9) is hinged to a storage battery (10), a supporting plate (11) is fixedly connected to the lower portion of, and a voltage stabilizer (14) is fixedly arranged at one end of the stretching rod (8) far away from the satellite annunciator (7) and positioned at the center of the support plate (11).

2. The self-stabilized satellite signal amplification buoy of claim 1, wherein: the linkage mechanism (9) is connected with the stretching rod (8) through a telescopic rod (901), one end, far away from the stretching rod (8), of the telescopic rod (901) is connected with a storage battery (10), the center of the telescopic rod (901) is hinged to a straight rod (902), one end, far away from the telescopic rod (901), of the straight rod (902) is hinged to a voltage stabilizer (14), a limiting rod (903) is hinged to the surface of the straight rod (902), and one end, far away from the straight rod (902), of the limiting rod (903) is fixedly connected with the voltage stabilizer (14).

3. The self-stabilized satellite signal amplification buoy of claim 1, wherein: the stabilizing device (13) is connected with the voltage stabilizer (14) through a sealing plate (1301), one end, far away from the voltage stabilizer (14), of the sealing plate (1301) is fixedly connected with a buffer plate (1302), spiral fan blades (1303) are sleeved on the surface of the buffer plate (1302), and the stabilizing device (13) is distributed on four surfaces of the floating body (1).

4. The self-stabilized satellite signal amplification buoy of claim 1, wherein: a sealing gasket (15) is arranged at the joint of the movable rod (12) and the floating body (1), and the movable rod (12) moves along with the floating of the pressure stabilizer (13).

5. The self-stabilized satellite signal amplification buoy of claim 1, wherein: the lower part of the sliding rod (3) is provided with a groove (16).