CN205069877U - Gamut directional antenna system's send -receiver device - Google Patents

Abstract

The utility model relates to a gamut directional antenna system's send -receiver device. The signal intensity that it had solved the prior art existence is not high and applied apart from technical problem such as weak points. Set up the casing on the base including the activity, swing joint has receiving and dispatching directional aerial on the casing, be equipped with between casing and the base and enable the circumferential direction actuating mechanism of casing for base circumferential direction, it enables to receive and dispatch directional aerial for casing wobbling swivel drive device to be equipped with between casing and the receiving and dispatching directional aerial, casing and receiving and dispatching still are equipped with between the directional aerial can will receive and dispatch directional aerial and be positioned the locking structure on the casing, circumferential direction actuating mechanism and swing actuating mechanism link to each other with the MPU module who sets up in the casing respectively, MPU module link to each other with the GPS module that sets up in the casing. Compared with the prior art, the utility model discloses the advantage lies in: realize that gamut signal transmission and signal intensity are high, the rate of accuracy is high and applied distance is long.

Description

The R-T unit of gamut beam aerial system

Technical field

The utility model belongs to wireless communication technique field, particularly relates to a kind of R-T unit of gamut beam aerial system.

Background technology

Directional antenna refers to be launched and to receive electromagnetic wave strong especially on some or certain several direction, and launching in the other direction and receiving electromagnetic wave is then zero or minimum a kind of antenna.Adopt the object of directional transmitting antenna to be the effective rate of utilization increasing radiant power, increase confidentiality; The object of directional receiving antenna is adopted to be strengthen signal strength signal intensity to increase antijamming capability, but directional antenna can only carry out the transmission of signal in given directions, and effective Signal transmissions cannot be carried out in other directions, omnidirectional antenna, namely show as 360 ° of all homogeneous radiations in the horizontal direction, Signal transmissions is also non-directional.Generally lobe width is less, and gain is larger.Omnidirectional antenna in a communications system general applications distances is near, and coverage is large, low price, but when equal transmitting power, the signal distance transmitter that receiver receives is comparatively near, and applications distances is short.

In order to solve prior art Problems existing, people have carried out long-term exploration, propose solution miscellaneous.Such as, Chinese patent literature discloses a kind of omnidirectional antenna, [application number: 201320149252.1], comprise base plate and first medium plate arranged in a crossed manner and second medium plate, first medium plate and second medium plate are placed on base plate, first medium plate has one first extremely sub and at least one director for being operated in the first frequency range, and second medium plate has for be operated in the second frequency range one second extremely sub.

Above-mentioned scheme improves the subproblem of prior art to a certain extent, but the program also at least exists following defect: cannot solve omnidirectional antenna preferably for the shorter weakness of applications distances.

Summary of the invention

The purpose of this utility model is for the problems referred to above, provide a kind of can the R-T unit of gamut beam aerial system of gamut receiving and transmitting signal.

For achieving the above object, the utility model have employed following technical proposal: the R-T unit of this gamut beam aerial system comprises the housing be movably arranged on pedestal, described housing is connected with transmitting-receiving directional antenna, the activity direction that the activity direction that described housing is connected from base runner and housing and transmitting-receiving directional antenna are movably connected is different, be provided with between described housing and pedestal and can make the housing circumferential rotating drive mechanism that rotate circumferential relative to pedestal, the swing driving mechanism that transmitting-receiving directional antenna can be made to swing relative to housing is provided with between described housing and transmitting-receiving directional antenna, the latch-up structure that can will receive and dispatch directional antenna and be positioned on housing is also provided with between described housing and transmitting-receiving directional antenna, described circumferential rotating drive mechanism and swing driving mechanism are connected with the MPU module be arranged in housing respectively, described MPU module is connected with the GPS module be arranged in housing, and described MPU module is all connected with the supply module be arranged in housing with GPS module.Namely realize pedestal circumference by circumferential rotating drive mechanism to rotate, swing driving mechanism realizes transmitting-receiving directional antenna and swings on housing, thus realizes the activity of transmitting-receiving directional antenna gamut, finally reaches the object that gamut receives or sends signal.

In the R-T unit of above-mentioned gamut beam aerial system, described circumferential rotating drive mechanism comprises the rotational drive motor being arranged on and being connected between pedestal with housing and with MPU module, described rotational drive motor comprises and is arranged on stator module on pedestal or rotor assembly, described housing is provided with rotor assembly or stator module, and described rotor assembly is provided with the rotating shaft be connected with pedestal or housing.Namely rotational drive motor rotates and realizes housing rotation circumferential relative to pedestal.

In the R-T unit of above-mentioned gamut beam aerial system, described swing driving mechanism comprises the installing rack rotating and be arranged on housing, described transmitting-receiving directional antenna is arranged on installing rack, and is provided with the wobble drive assembly of energy drive installation frame circuit oscillation between described installing rack and housing.

In the R-T unit of above-mentioned gamut beam aerial system, described wobble drive assembly comprises two and to be arranged in housing and the driving steering wheel be all connected with MPU module, and the output shaft of described driving steering wheel passes housing respectively and the output shaft of two driving steering wheels is connected with the two ends of installing rack respectively.Installing rack is driven to swing the swing realizing transmitting-receiving directional antenna by driving steering wheel.

In the R-T unit of above-mentioned gamut beam aerial system, described installing rack is c-shaped, and described transmitting-receiving directional antenna is arranged on the installation portion of the front side in the middle part of installing rack.

In the R-T unit of above-mentioned gamut beam aerial system, described latch-up structure comprises the button of the rear side be arranged in the middle part of installing rack, and described button and housing fasten mutually.Installing rack can be locked on housing and make transmitting-receiving directional antenna be convenient to storage by button.

In the R-T unit of above-mentioned gamut beam aerial system, described rotational drive motor is stepping motor or brushless electric machine.

In the R-T unit of above-mentioned gamut beam aerial system, described housing is integral type or split-type structural, and described MPU module, GPS module and supply module are successively set in housing respectively.

Compared with prior art, the advantage of the R-T unit of this gamut beam aerial system is: the position adjustment that can realize directional antenna all angles, directional antenna gamut receiving and transmitting signal, longer-distance directional transmission signals can be realized, ensure the stability of signal and the high strength of signal simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model provides.

Fig. 2 is the explosive view that the utility model provides.

Fig. 3 is the structured flowchart that the utility model provides.

In figure, pedestal 1, housing 2, transmitting-receiving directional antenna 3, circumferential rotating drive mechanism 4, swing driving mechanism 5, MPU module 6, GPS module 7, rotational drive motor 8, installing rack 9, installation portion 91, button 92, wobble drive assembly 10, driving steering wheel 11, output shaft 12, rotating shaft 13, supply module 14.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in more detail.

As Figure 1-3, the R-T unit of this gamut beam aerial system comprises the housing 2 be movably arranged on pedestal 1, housing 2 is connected with transmitting-receiving directional antenna 3, housing 2 is different with the activity direction that transmitting-receiving directional antenna 3 is movably connected with housing 2 from the activity direction that pedestal 1 is movably connected, be provided with between housing 2 and pedestal 1 and housing 2 can be made relative to the circumferential circumferential rotating drive mechanism 4 rotated of pedestal 1, namely realize pedestal 1 circumference by circumferential rotating drive mechanism 4 and rotate the circumference rotation realizing transmitting-receiving directional antenna 3, wherein, here circumferential rotating drive mechanism 4 comprises the rotational drive motor 8 being arranged on and being connected between pedestal 1 with housing 2 and with MPU module 6, rotational drive motor 8 comprises and is arranged on stator module on pedestal 1 or rotor assembly, housing 2 is provided with rotor assembly or stator module, rotor assembly is provided with the rotating shaft 13 be connected with pedestal 1 or housing 2.

Further, here the swing driving mechanism 5 that transmitting-receiving directional antenna 3 can be made to swing relative to housing 2 is provided with between housing 2 and transmitting-receiving directional antenna 3, swing driving mechanism 5 realizes transmitting-receiving directional antenna 3 and swings on housing 2, the activity of transmitting-receiving directional antenna 3 gamut is realized again in conjunction with circumferential rotating drive mechanism 4, finally reach the object that gamut receives or sends signal, particularly, here swing driving mechanism 5 comprises the installing rack 9 rotating and be arranged on housing 2, transmitting-receiving directional antenna 3 is arranged on installing rack 9, and between installing rack 9 and housing 2, be provided with the wobble drive assembly 10 of energy drive installation frame 9 circuit oscillation.Wobble drive assembly 10 comprises two and to be arranged in housing 2 and the driving steering wheel 11 be all connected with MPU module 6, the output shaft 12 of driving steering wheel 11 passes housing 2 respectively and the output shaft 12 of two driving steering wheels 11 is connected with the two ends of installing rack 9 respectively, preferably, installing rack 9 is c-shaped, and transmitting-receiving directional antenna 3 is arranged on the installation portion 91 of the front side in the middle part of installing rack 9.

Further, here circumferential rotating drive mechanism 4 and swing driving mechanism 5 are connected with the MPU module 6 be arranged in housing 2 respectively, MPU module 6 is connected with the GPS module 7 be arranged in housing 2, and MPU module 6 and GPS module 7 are all connected with the supply module 14 be arranged in housing 2.When reflector lock mutual position with the GPS module 7 of receiver after, MPU module 6 is by position information process and control the running of circumferential rotating drive mechanism 4 and swing driving mechanism 5 and make transmitting-receiving directional antenna 3 towards relative position, thus carries out the transmission of information accurately.The latch-up structure that can will receive and dispatch directional antenna 3 and be positioned on housing 2 is also provided with between housing 2 and transmitting-receiving directional antenna 3, latch-up structure comprises the button 92 of the rear side be arranged in the middle part of installing rack 9, and button 92 and housing 2 fasten mutually, such installing rack 9 that can make is fixed on housing 2, is convenient to the storage of receiving and dispatching directional antenna 3.

Especially, housing 2 is integral type or split-type structural, and described MPU module 6, GPS module 7 are successively set in housing 2 respectively with supply module 14.In the present embodiment, rotational drive motor 8 is stepping motor or brushless electric machine.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Although more employ pedestal 1, housing 2, transmitting-receiving directional antenna 3, circumferential rotating drive mechanism 4, swing driving mechanism 5, MPU module 6, GPS module 7, rotational drive motor 8, installing rack 9, installation portion 91, button 92, wobble drive assembly 10 herein, drive the terms such as steering wheel 11, output shaft 12, rotating shaft 13, supply module 14, do not get rid of the possibility using other term.These terms are used to be only used to describe and explain essence of the present utility model more easily; The restriction that they are construed to any one additional is all contrary with the utility model spirit.

Claims (8)

1. the R-T unit of a gamut beam aerial system, comprise the housing (2) be movably arranged on pedestal (1), described housing (2) is connected with transmitting-receiving directional antenna (3), described housing (2) is different with the activity direction that transmitting-receiving directional antenna (3) is movably connected with housing (2) from the activity direction that pedestal (1) is movably connected, it is characterized in that, be provided with between described housing (2) and pedestal (1) and housing (2) can be made relative to the circumferential circumferential rotating drive mechanism (4) rotated of pedestal (1), the swing driving mechanism (5) that transmitting-receiving directional antenna (3) can be made to swing relative to housing (2) is provided with between described housing (2) and transmitting-receiving directional antenna (3), the latch-up structure that can will receive and dispatch directional antenna (3) and be positioned on housing (2) is also provided with between described housing (2) and transmitting-receiving directional antenna (3), described circumferential rotating drive mechanism (4) and swing driving mechanism (5) are connected with the MPU module (6) be arranged in housing (2) respectively, described MPU module (6) is connected with the GPS module (7) be arranged in housing (2), and described MPU module (6) and GPS module (7) are all connected with the supply module (14) be arranged in housing (2).

2. the R-T unit of gamut beam aerial system according to claim 1, it is characterized in that, described circumferential rotating drive mechanism (4) comprises the rotational drive motor (8) being arranged on and being connected between pedestal (1) with housing (2) and with MPU module (6), described rotational drive motor (8) comprises and is arranged on stator module on pedestal (1) or rotor assembly, described housing (2) is provided with rotor assembly or stator module, described rotor assembly is provided with the rotating shaft (13) be connected with pedestal (1) or housing (2).

3. the R-T unit of gamut beam aerial system according to claim 2, it is characterized in that, described swing driving mechanism (5) comprises rotation and is arranged on installing rack (9) on housing (2), described transmitting-receiving directional antenna (3) is arranged on installing rack (9), and is provided with the wobble drive assembly (10) of energy drive installation frame (9) circuit oscillation between described installing rack (9) and housing (2).

4. the R-T unit of gamut beam aerial system according to claim 3, it is characterized in that, described wobble drive assembly (10) comprises two and to be arranged in housing (2) and the driving steering wheel (11) be all connected with MPU module (6), and the output shaft (12) of described driving steering wheel (11) passes housing (2) respectively and the output shaft (12) of two drivings steering wheel (11) is connected with the two ends of installing rack (9) respectively.

5. the R-T unit of gamut beam aerial system according to claim 4, it is characterized in that, described installing rack (9) is c-shaped, and described transmitting-receiving directional antenna (3) is arranged on the installation portion (91) of the front side at installing rack (9) middle part.

6. the R-T unit of gamut beam aerial system according to claim 5, it is characterized in that, described latch-up structure comprises the button (92) of the rear side being arranged on installing rack (9) middle part, and described button (92) and housing (2) fasten mutually.

7. according to the R-T unit of the gamut beam aerial system described in any one in claim 2-6, it is characterized in that, described rotational drive motor (8) is stepping motor or brushless electric machine.

8. the R-T unit of gamut beam aerial system according to claim 1, it is characterized in that, described housing (2) is integral type or split-type structural, and described MPU module (6), GPS module (7) and supply module (14) are successively set in housing (2) respectively.