CN201725878U - Horizontal polarization omnidirectional antenna - Google Patents

Abstract

The utility model discloses a horizontal polarization omnidirectional antenna, which comprises a U-shaped metal groove, a metal short-circuit block, a metal feeder pillar, a feeding base and a coaxial line. The metal short-circuit block and the metal feeder pillar are respectively arranged in the U-shaped metal groove. The metal short-circuit block and the metal feeder pillar are arrayed sequentially in a stagger mode in the U-shaped metal groove along the length direction of the U-shaped metal groove. The feeding base is arranged on the groove wall of the U-shaped metal groove along the length direction. The coaxial line passes through the groove wall of the U-shaped metal groove from the feeding base to be electrically connected with the metal feeder pillar. The utility model adopts a structure of the U-shaped metal groove the maximum diameter of which is 1/4 wavelength. Compared with the prior art, the horizontal polarization omnidirectional antenna has halved diameter and is particularly suitable for places with higher requirements on space. An antenna radiating element has higher gain so as to reduce the amount of units which are increased for improving the gain of the antenna. Meanwhile, the horizontal polarization omnidirectional antenna can carry out wideband working, has antenna out-of-roundness in the range of plus and minus 2dB and can maximally realize 2kW of transmitting power.

Description

A kind of horizontally polarized omnidirectional antenna

Technical field

The utility model relates to antenna, specifically is a kind of horizontally polarized omnidirectional antenna.

Background technology

Antenna has different radiation or receiving ability to the space different directions, and according to the difference of directivity, antenna has omnidirectional and two types of orientations.Omnidirectional antenna promptly shows as 360 ° of homogeneous radiations on horizontal plane, just usual said non-directional, shows as the wave beam of certain width at vertical plane, and lobe width is more little generally speaking, and it is big more to gain.Omnidirectional antenna is generally used the covering on a large scale with the low-density user in mobile communication system.Directional antenna shows as the certain angle range of radiation in the horizontal direction on the figure, the just usual said directivity that has shows as the wave beam of certain width on height pattern, and the same with omnidirectional antenna, lobe width is more little, and it is big more to gain.Directional antenna is applied to generally in mobile communication system that communication distance is far away, and coverage is little, the place that user density is big.Because the particularity of mobile communication system, the antenna for base station major part all adopts directional antenna, satisfies the user's request of being on the increase to improve power system capacity.And in the uhf band television system owing to adopt one-way transmission mode, user side is passive reception, without any influence, so the advantage that omnidirectional antenna covers on a large scale is used widely to system for what of number of users.

In the uhf band television system, omnidirectional antenna comprises two kinds of horizontally polarized omnidirectional antenna and vertical depolarized omnidirectional antennas, and high-power main website generally adopts horizontally polarized omnidirectional antenna.In horizontally polarized omnidirectional antenna, structures such as printing bent dipole, cross batswing tab, rectangular waveguide or the round metal tubes that usually adopt Alford side's loop antenna, 3 to be 120 degree layouts mutually crack are as the basic radiating element of horizontally polarized omnidirectional antenna.Also having a kind of situation is by a lot of horizontal polarization directional antenna circumferential arrangement, realizes that omnidirectional covers.

In the said units structure, Alford side's loop antenna and 3 molecular antenna elements of printing bent dipole that are 120 degree layouts mutually all adopt printed circuit board arrangement.The gain of element antenna is all lower, adopts the mode of a plurality of unit composition array to realize that feeding network is very complicated in order to improve gain; Connection feeder line between the unit can draw the deterioration of aerial radiation characteristic simultaneously.As Chinese utility model patent " high-gain horizontal polarization the omni-directional array antenna " (patent No.: the embodiment that mentions 200520079193.0), with 16 3 printing bent dipole and the joint group battle arrays that are 120 degree layouts mutually, can only be operated in the relative bandwidth of 3.8～4GHz frequency range 5%, also can reduce if expand to the uhf band bandwidth of operation.

In the said units structure, the cross batwing antenna has the horizontal polarization receiving function, and can realize omnidirectional, high-gain, broadband and high-power, but its profile is the three-D space structure of every limit size at 1/2nd wavelength to three/two wavelength, volume is bigger.Feeding network is also very complicated simultaneously, needs 90-degree phase shifter to realize rotating the horizontal polarization omnidirectional radiation field of shape, and the bandwidth of directional diagram is subjected to the restriction of 90-degree phase shifter, and antenna deviation in roundness index is ± 3dB.

In the said units structure, rectangular waveguide or the round metal tube structure of cracking is a well-known arrowband structure, and directional diagram is along with the variation of frequency, graing lobe may appear in pitching face, and maximum is not in the horizontal direction, and antenna gain rises and falls greater than 4dB, and standing-wave ratio obviously worsens.Simultaneously too big greater than the structural volume of 2 times of wavelength, therefore be difficult in the high-gain broadband scope and use.

And the horizontally polarized omnidirectional antenna that combines by a plurality of horizontal polarization directional antennas, cost is high to take up room very greatly, and all very inconvenience of installation and maintenance can form interference region simultaneously between plate aerial, and field intensity is inhomogeneous, the deviation in roundness index error.

The utility model content

The purpose of this utility model is at the deficiencies in the prior art, provide that a kind of working frequency range broad, volume are less, the horizontally polarized omnidirectional antenna of high-power high-gain, it had both satisfied the horizontal polarization Transceiver Features, have good omnidirectional's transmitting-receiving performance and compact geometry again, can be applicable to the little application need of wireless digital TV-set base station system, especially installing space.

The technical solution of the utility model is such: a kind of horizontally polarized omnidirectional antenna, comprise the U-shaped metallic channel, several short circuit metal pieces, at least one metal feeder pillar, at least one feed base, coaxial line, above-mentioned short circuit metal piece and above-mentioned metal feeder pillar are arranged at respectively in the above-mentioned U-shaped metallic channel, and above-mentioned short circuit metal piece and the above-mentioned metal feeder pillar length direction along above-mentioned U-shaped metallic channel in above-mentioned U-shaped metallic channel is staggered successively, above-mentioned feed base is arranged on the cell wall of above-mentioned U-shaped metallic channel length direction, and the inner wire of above-mentioned coaxial line is passed above-mentioned U-shaped metallic channel by above-mentioned feed base cell wall is electrically connected with above-mentioned metal feeder pillar.

The length of a radiating element of above-mentioned U-shaped metallic channel (the perhaps length between two above-mentioned short circuit metal pieces) is the 1-1.5 wavelength, and broadside is 1/4 wavelength, and narrow limit is 0.1 wavelength.

Be arranged at intervals with insulation support column on the both sides cell wall medial surface that is supported in above-mentioned U-shaped metallic channel length direction along its length direction in the above-mentioned U-shaped metallic channel.

Also comprise installing component and circular antenna outer cover, above-mentioned U-shaped metallic channel is fixedly installed in the center of above-mentioned circular antenna outer cover, the two ends of above-mentioned U-shaped metallic channel are fixed by above-mentioned installing component, and above-mentioned U-shaped metallic channel, above-mentioned circular antenna outer cover and above-mentioned installing component are assembled into as a whole.

After adopting such scheme, horizontally polarized omnidirectional antenna of the present utility model, adopting greatest diametrical dimension is the U-shaped metallic channel structure of 1/4 wavelength, compared with prior art, reduced half, especially more suitable for space requirement than higher occasion; And antenna element gain exceeds more than the half-wave dipole antenna unit 1dB, make to improving antenna gain, and the quantity of the number of unit that increases reduces; But wideband operation simultaneously, directional diagram be in 50% no significant change, standing-wave ratio in 12% relative bandwidth less than 1.5.In antenna deviation in roundness ± 2dB, be better than batswing tab ± 3dB index.By the parallelly feeding network, the horizontally polarized omnidirectional antenna of two radiating element compositions can be realized the transmitting power of 1KW, the horizontally polarized omnidirectional antenna of four radiating element compositions can be realized the transmitting power of 2KW, and can realize different directional diagram tilt angled downs by the length of adjusting feeder line, flexibly the control antenna overlay area.

Description of drawings

Fig. 1 is the stereogram of the utility model embodiment one;

Fig. 2 is the vertical view of the utility model embodiment one;

Fig. 3 is the stereogram of the utility model embodiment two;

Fig. 4 is the vertical view of the utility model embodiment two;

Fig. 5 is the stereogram of the utility model embodiment three;

Fig. 6 is the vertical view of the utility model embodiment three;

Fig. 7 is the 550MHz elevation radiation patytern of the utility model embodiment three;

Fig. 8 is the 700MHz elevation radiation patytern of the utility model embodiment three;

Fig. 9 is the 700MHz horizontal radiation pattern of the utility model embodiment three;

Figure 10 is the 800MHz elevation radiation patytern of the utility model embodiment three;

Figure 11 is the 800MHz horizontal radiation pattern of the utility model embodiment three;

Figure 12 is the 900MHz elevation radiation patytern of the utility model embodiment three;

Figure 13 presets downdip direction figure for the 700MHz vertical plane of the utility model embodiment three;

Figure 14 presets downdip direction figure for the 800MHz vertical plane of the utility model embodiment three;

Figure 15 is the standing-wave ratio resolution chart of the utility model embodiment three.

Embodiment

Below in conjunction with accompanying drawing and embodiment the technical solution of the utility model is further described.

Embodiment one:

A kind of horizontally polarized omnidirectional antenna of the present utility model, embodiment one is an example with the antenna of a basic radiating element, as shown in Figure 1, 2, comprises U-shaped metallic channel 1, two short circuit metal pieces 2, metal feeder pillar 3, feed base 4, four thoroughly does away with edge support column 5, coaxial line 6, wire pressing device 11, circular antenna outer cover (not shown), and installing component 12 and connector 13.

The length of 1 one radiating elements of U-shaped metallic channel (the perhaps length between two short circuit metal pieces 2) is the 1-1.5 wavelength, and the broadside of U-shaped metallic channel 1 is 1/4 wavelength, and narrow limit is 0.1 wavelength.

Two interior both ends of groove that short circuit metal piece 2 is arranged at U-shaped metallic channel 1 respectively, and short circuit metal piece 2 traverses the Width of whole U-shaped metallic channel 1.

Metal feeder pillar 3 is arranged in the groove of U-shaped metallic channel 1, is positioned at the middle part of U-shaped metallic channel 1 length direction two short circuit metal pieces 2, and metal feeder pillar 3 is fixed on the side channel wall medial surface of length direction of U-shaped metallic channel 1.

Feed base 4 be arranged on the opposite side cell wall of U-shaped metallic channel 1 length direction and with the 3 corresponding settings of metal feeder pillar.

Feed base 4 and metal feeder pillar 3 keep closely electrically contacting with the both sides cell wall of the length direction of U type metallic channel 1 respectively, and are in the centre of two short circuit metal pieces 2 in U type metallic channel 1 length direction.

Four thoroughly do away with that the length direction along U-shaped metallic channel 1 is provided with at interval in the groove that edge support columns 5 are arranged at U-shaped metallic channel 1, and the two ends of insulation support column 5 are fixedly supported on respectively on the both sides cell wall medial surface of length direction of U-shaped metallic channel 1.U type metallic channel 1 guarantees between its both sides cell wall parallel by insulation support column 5, increase the structural strength of U type metallic channel 1 simultaneously.

Connector 13 is fixed in the outside of installing component 12 by flange, and the outer conductor of connector 13 passes installing component 12 and keeps being electrically connected with the outer conductor of coaxial line 6, and the inner wire of connector 13 is electrically connected with the inner wire maintenance of coaxial line 6; The other end of the inner wire of coaxial line 6 passes U type metallic channel 1 by feed base 4 cell wall is electrically connected with metal feeder pillar 3; The outer conductor of coaxial line 6 is close to by wire pressing device 11 on the cell wall lateral surface of U type metallic channel 1, closely contacts with the cell wall lateral surface of U type metallic channel 1.

Circular antenna outer cover center is fixed in by short circuit metal piece 2 and installing component 12 in U type metallic channel 1 two ends, makes U type metallic channel 1, installing component 12 and circular antenna outer cover form an integral body.

Between U type metallic channel 1 and short circuit metal piece 2 and the installing component 12, can be fixed together by the mode of metal bolts or welding.

During work, radio-frequency (RF) energy is by the internal and external conductor of connector 13 and coaxial line 6, pass to metal feeder pillar 3 and feed base 4 respectively, form exciting current between the both sides cell wall of feasible U type metallic channel 1 length direction that is electrically connected with feed base 4 and 3 maintenances of metal feeder pillar, this exciting current transmits toward two ends along U type metallic channel 1, forms the horizontal polarization omnidirectional radiation.

Embodiment two:

A kind of horizontally polarized omnidirectional antenna of the present utility model, the array antenna that embodiment two forms with two basic radiating elements is an example, shown in Fig. 3,4, present embodiment and the difference of embodiment one only are that the basic radiating element number that stacks up along the length direction of U type metallic channel 1 is different, basic radiating element among the embodiment one is one, the basic radiating element of present embodiment is two, by the parallelly feeding network that coaxial line 6-8, connector 9-10 form, the transmitting power that can bear 1KW.

Embodiment three:

A kind of horizontally polarized omnidirectional antenna of the present utility model, the array antenna that embodiment three forms with four basic radiating elements is an example, shown in Fig. 5,6, present embodiment and the difference of embodiment one only are that the basic radiating element number that stacks up along the length direction of U type metallic channel 1 is different, basic radiating element among the embodiment one is one, and the basic radiating element of present embodiment is four; By the parallelly feeding network that coaxial line 6-8, connector 9-10 form, the transmitting power that can bear 2KW.

As example, Fig. 7-15 has provided the horizontally polarized omnidirectional antenna of embodiment three in various frequency lower horizontal plane test results and vertical plane test result, concrete test result is as follows: antenna parameter among Fig. 7, test frequency: 550MHz, polarization mode: level, wave beam state: vertical beam main poleization, ripple half width: 12.52 °; Antenna parameter among Fig. 8, test frequency: 700MHz, polarization mode: level, wave beam state: vertical beam main poleization, ripple half width: 10.9 °; Antenna parameter among Fig. 9, test frequency: 700MHz, polarization mode: level, wave beam state: horizontal beam main poleization, deviation in roundness: ± 1.62; Antenna parameter among Figure 10, test frequency: 800MHz, polarization mode: level, wave beam state: vertical beam main poleization, ripple half width: 8.57 °; Antenna parameter among Figure 11, test frequency: 800MHz, polarization mode: level, wave beam state: horizontal beam main poleization, deviation in roundness: ± 0.96; Antenna parameter among Figure 12, test frequency: 900MHz, polarization mode: level, wave beam state: vertical beam main poleization, ripple half width: 7.21 °; Antenna parameter among Figure 13, test frequency: 700MHz, polarization mode: level, the wave beam state: the vertical beam main poleization, the ripple half width: 10.5 °, angle of declination: 4.82; Antenna parameter among Figure 14, test frequency: 800MHz, polarization mode: level, the wave beam state: the vertical beam main poleization, the ripple half width: 9.32 °, angle of declination: 4.33; From above test result as can be seen: the utility model embodiment elevation radiation patytern does not have significant change in 550-900MHz 50% relative frequency bandwidth, standing-wave ratio less than 1.5, is much better than Chinese utility model patent " high-gain horizontal polarization the omni-directional array antenna " (patent No.: the relative bandwidth of the embodiment 5% that mentions 200520079193.0) in 12% relative bandwidth.In antenna deviation in roundness ± 2dB, be better than batswing tab ± 3dB index simultaneously.Under the prerequisite of identical radiating element number, the elevation radiation patytern half-power angle of 4 radiation cell arrays of present embodiment gains more than the high 1dB than little 4 degree (GB) of conventional omnidirectional antenna.

In the utility model, by the array antenna that a plurality of basic radiating elements are formed, the length of 1 one radiating elements of its U-shaped metallic channel is the 1-1.5 wavelength, and broadside is 1/4 wavelength, and narrow limit is 0.1 wavelength; Be provided with N short circuit metal piece 2 along its length direction in the groove of U type metallic channel 1, in U type metallic channel 1, form N-1 basic radiating element.The metal feeder pillar 3 of each basic radiating element is electrically connected with the end of inner wire of coaxial line 6 that feed base 4 by this unit passes the cell wall of U type metallic channel 1 respectively, the number of coaxial line 6 is decided according to the number of basic radiating element, and the other end of the inner wire of each coaxial line 6 is connected respectively to connector 9.A plurality of wire pressing device 11 can be set on the coaxial line 6-8 as required.

Claims (4)

1. horizontally polarized omnidirectional antenna, it is characterized in that: comprise the U-shaped metallic channel, several short circuit metal pieces, at least one metal feeder pillar, at least one feed base, coaxial line, above-mentioned short circuit metal piece and above-mentioned metal feeder pillar are arranged at respectively in the above-mentioned U-shaped metallic channel, and above-mentioned short circuit metal piece and the above-mentioned metal feeder pillar length direction along above-mentioned U-shaped metallic channel in above-mentioned U-shaped metallic channel is staggered successively, above-mentioned feed base is arranged on the cell wall of above-mentioned U-shaped metallic channel length direction, and the inner wire of above-mentioned coaxial line is passed above-mentioned U-shaped metallic channel by above-mentioned feed base cell wall is electrically connected with above-mentioned metal feeder pillar.

2. a kind of horizontally polarized omnidirectional antenna according to claim 1 is characterized in that: the length of a radiating element of above-mentioned U-shaped metallic channel is the 1-1.5 wavelength, and broadside is 1/4 wavelength, and narrow limit is 0.1 wavelength.

3. a kind of horizontally polarized omnidirectional antenna according to claim 1 is characterized in that: be arranged at intervals with the insulation support column on the routine face in the both sides cell wall that is supported in above-mentioned U-shaped metallic channel length direction along its length direction in the above-mentioned U-shaped metallic channel.

4. a kind of horizontally polarized omnidirectional antenna according to claim 1, it is characterized in that: also comprise installing component and circular antenna outer cover, above-mentioned U-shaped metallic channel is fixedly installed in the center of above-mentioned circular antenna outer cover, the two ends of above-mentioned U-shaped metallic channel are fixed by above-mentioned installing component, and above-mentioned U-shaped metallic channel, above-mentioned circular antenna outer cover and above-mentioned installing component are assembled into as a whole.

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