CN207852907U - A kind of oscillator and antenna convenient for automated production - Google Patents

Abstract

This application discloses a kind of oscillators convenient for automated production.The oscillator of the application, including radiator and oscillator support base；Radiator includes radiating curtain, and there are four conductor coupling column, radiating curtain and conductor coupling columns to be integrally formed for the same surface tool of radiating curtain；There are oscillator support seating face four conductor pins extended perpendicular to surface, each conductor pin to be equipped at least two holes, and a hole is used to be inserted into the conductor coupling column of radiator, and a hole is for being inserted into feed-through；Four conductor coupling columns of radiator are inserted into the hole of oscillator support base conductor pin, the connection of the two capacitive coupling, feed-through diagonally couple feed.The conductor coupling column of radiating curtain is directly inserted into the hole of oscillator support base conductor pin by the oscillator of the application, simple in structure, easy to assembly, can improve the degree of automation, reduces networking cost.The oscillator of the application is not required to be electroplated, and reduces welding sequence, is connected by fastener, at low cost, is conducive to automation.

Description

A kind of oscillator and antenna convenient for automated production

Technical field

This application involves field of antenna, more particularly to a kind of oscillator convenient for automated production.

Background technology

With the fast development of mobile communication technology, multisystem and multi-standard coexist, the requirement to base station array antenna It is higher and higher, the broadband trend for becoming development of antenna.Nowadays, it 2G, 3G, 4G LTE network and deposits, uses common narrow-band Antenna, a base station just need to arrange many slave antennas, increase system complexity and property cost.In order to reduce networking at This, the broadband of antenna has become current one of hot spot.In order to be compatible with a variety of communication standards, ultra-wideband dual polarized antenna or Ultra-wideband multifrequency antenna is by large-scale use.

The performance of antenna is heavily dependent on the performance of radiating doublet, and general existing broadband oscillator has comparison multiple Miscellaneous structure, excessive component keep antenna mount comparatively laborious, therefore research and develop a conducive to production or convenient for automated production The broadband oscillator of simple high quality is necessary.

Invention content

The purpose of the application is to provide a kind of oscillator convenient for automated production of new construction

To achieve the goals above, the application uses following technical scheme：

This application discloses a kind of oscillators convenient for automated production, including radiator and oscillator support base；Radiator packet A radiating curtain is included, there is the four conductors coupling extended perpendicular to radiating curtain face on the same surface of radiating curtain Column, radiating curtain and conductor coupling column are integrally formed；The surface of oscillator support base has four conductors extended perpendicular to surface Column, offers at least two holes on each conductor pin, and one of hole is used to be inserted into the conductor coupling column of radiator, one Hole is for being inserted into feed-through, feed-through diagonally couple feed；Four conductor coupling columns of radiator are inserted into In the hole of the conductor pin of oscillator support base, the two carries out capacitive coupling connection, feed-through diagonally couple feed, To activate entire oscillator.

The oscillator of the application, it is simple in structure, it is easy to assembly, the conductor coupling column of radiator is directly inserted into oscillator support base Assembling can be completed in the hole of conductor pin, automated production degree can be improved, reduce networking cost, also, in structure Feed-through is inserted directly into another hole of oscillator support base conductor pin, more convenient processing.

Preferably, the outer surface of conductor coupling column is arranged with insulation sleeve.

Preferably, several mounting holes are offered on radiating curtain, are also opened on the conductor pin of oscillator support base accordingly Equipped with hole, radiating curtain and oscillator support base are fixed together by fastener.

Preferably, it is separated by one piece of dielectric isolation board between radiating curtain and oscillator support base.

Preferably, radiator is arranged above a metallic parasitic piece, and metallic parasitic piece supports by insulating supporting column Above radiator.

Preferably, the surrounding of radiating curtain has at least two metallic conductor pendants in radiating curtain end.

Preferably, metallic conductor pendant is connect by dielectric piece with radiating curtain.

Preferably, the surrounding of radiating curtain has at least two metallic conductor columns in radiating curtain end.

In a kind of realization method of the application, by metallic conductor pendant and/or metallic conductor column, radiating curtain is realized Dissymmetrical structure designs, such as two metallic conductor pendants or two metallic conductor columns are arranged in the same side of surrounding, And off-diagonal is arranged symmetrically, to realize that dissymmetrical structure designs.

Due to using the technology described above, the advantageous effect of the application is：

The conductor coupling column of radiating curtain is directly inserted into the hole of oscillator support base conductor pin i.e. by the oscillator of the application Can complete to assemble, it is simple in structure, easy to assembly, be conducive to automated production, can improve automated production degree, reduce networking at This.Also, the oscillator of the application need not be electroplated, therefore reduce the welding sequence to oscillator, the assembling of oscillator only by Fastener connects, and reduces cost, is conducive to automated production.

Description of the drawings

Fig. 1 is the decomposition texture schematic diagram of oscillator in the embodiment of the present application one；

Fig. 2 is another decomposition texture schematic diagram of oscillator in the embodiment of the present application one；

Fig. 3 is the decomposition texture schematic diagram that oscillator is installed to reflecting plate in the embodiment of the present application one；

Fig. 4 is the structural schematic diagram that reflecting plate is installed in the embodiment of the present application one；

Fig. 5 is the structural schematic diagram of array antenna in the embodiment of the present application one；

Fig. 6 is the return loss S11 test results of single oscillator in the embodiment of the present application one；

Fig. 7 is the return loss S22 test results of single oscillator in the embodiment of the present application one；

Fig. 8 is the isolation S21 test results of one oscillator of the embodiment of the present application；

Fig. 9 is the horizontal radiation pattern test result of one oscillator of the embodiment of the present application；

Figure 10 is cross polarization diagram of one oscillator of the embodiment of the present application in 0 ° of direction；

Figure 11 is cross polarization diagram of one oscillator of the embodiment of the present application in ± 60 ° of directions；

Figure 12 is the decomposition texture schematic diagram of oscillator in the embodiment of the present application two；

Figure 13 is the decomposition texture schematic diagram at another visual angle of oscillator in the embodiment of the present application two；

Figure 14 is the structural schematic diagram of oscillator in the embodiment of the present application two；

Figure 15 is the structural schematic diagram of oscillator in the embodiment of the present application three；

Figure 16 is the structural schematic diagram at another visual angle of oscillator in the embodiment of the present application three；

Figure 17 is the structural schematic diagram of oscillator in the embodiment of the present application four；

Figure 18 is the structural schematic diagram at another visual angle of oscillator in the embodiment of the present application four.

Specific implementation mode

The application is described in further detail below by specific embodiments and the drawings.Following embodiment is only to the application It is further described, should not be construed as the limitation to the application.

Embodiment

This example is convenient for the oscillator of automated production, as shown in Figures 1 to 4, including radiator 1 and oscillator support base 2；Radiation Body includes a radiating curtain, has the four conductor couplings extended perpendicular to radiating curtain face on the same surface of radiating curtain Zygostyle, radiating curtain and conductor coupling column are integrally formed；This example specifically, radiating curtain by the identical oscillator arms of four sizes 11, it 12,13 and 14 forms, there are the four conductor coupling columns 15,16,17 extended vertically downward at the geometric center of radiator 1 With 18, radiator and conductor pin are integrally formed.

The surface of oscillator support base 2 has four conductor pins 21 extending vertically upwards, offered on each conductor pin to Few two circular cavities, one of hole are used to be inserted into the conductor coupling column of radiator, and a hole is presented for being inserted into feed-through Electric conductor diagonally couple feed.When assembly, four conductor coupling columns of radiator are inserted into oscillator support base conductor pin Hole in, the two carries out capacitive coupling connection, feed-through diagonally couple feed, to activate entire oscillator.

Wherein, the outer surface of conductor coupling column is arranged with insulation sleeve.Several mounting holes are offered on radiating curtain, accordingly Also open up hole on the conductor pin of oscillator support base, radiating curtain and oscillator support base are fixed on one by fastener It rises.It is separated by one piece of dielectric isolation board between radiator and oscillator support base.

In the improvement project of this example, the surface of radiator is located at radiator geometric center there are one settings and radiator Parallel metallic parasitic piece 3, metallic parasitic piece 3 are supported on by insulating supporting column 31 above radiator.Further, radiator There are two metallic conductor pendants 4 for the end tool of four oscillator arms, pass through dielectric piece 5 between metallic conductor pendant 4 and oscillator arms Connection, two metallic conductor pendants make radiator be designed in dissymmetrical structure.

The single oscillator of this example is mounted on reflecting plate and forms antenna, as shown in Figure 3 and Figure 4.In addition, the oscillator of this example It multiple can combine and be mounted on reflecting plate, array antenna be formed, as shown in figure 5, specifically depending on use demand.

This example uses Network Analyzer, tests the antenna of this example, as a result as shown in Figure 6 to 8.Fig. 6 and Fig. 7 points It is not the return loss test result of single oscillator and two oscillators, the results show that the echo damage of single oscillator and two oscillators It consumes measured data and is better than -20dB.Fig. 8 is isolation degree test as a result, the results show that the oscillator isolation measured data of this example is excellent In -32dB.

Outdoor far field test is carried out to the oscillator of this example, the horizontal radiation pattern of single oscillator is tested, as a result such as Fig. 9 and table Shown in 1, the results show that the oscillator of this example, under 690MHz-960MHz frequency ranges, beam angle is about in 61-67 degree.

The horizontal plane lobe width test result of 1 each frequency point of table

Frequency point (MHz)	Lobe width (degree)	Frequency point (MHz)	Lobe width (degree)
				610	68.7	860	64.4
690	67.7	880	64.0
				750	67.0	900	63.7
790	66.1	920	62.7
				840	65.7	940	62.0
/	/	960	61.4

Cross polarization test is carried out to the oscillator of this example, as a result as shown in Figure 10 and Figure 11, wherein Figure 10 is 0 ° of direction Cross polarization diagram, Figure 11 are the cross polarization diagrams in ± 60 ° of directions.Figure 10's the results show that 0 ° of direction is handed in 690MHz-960MHz Fork polarization is better than 25dB；Figure 11's the results show that ± 60 ° of direction cross polarizations are better than 15dB in 690MHz-960MHz.

It these results suggest that the oscillator bandwidth, isolation and directionality of this example all meet design requirement.

Also, the oscillator of this example is in the case where properties all meet design requirement, simple in structure, easy to assembly, sharp In automated production, automated production degree can be improved, is convenient for automated production.

Embodiment two

The oscillator of this example is similar with embodiment one, and as shown in Figure 12 to Figure 14, radiating curtain is equally by four size phases Same oscillator arms composition, the difference is that the bandwidth match groove structure design on each oscillator arms surface is different, and in oscillator Arm end offers heart-shaped structure, other are identical as embodiment one.

Likewise, as the oscillator of this example has the function of embodiment one kind and effect.

Embodiment three

The oscillator of this example is compared with embodiment one, the difference is that the radiating curtain of this example is integrally rounded, other and reality It is identical to apply example one, as shown in Figure 15 and Figure 16.

Likewise, as the oscillator of this example has the function of embodiment one kind and effect.

Example IV

The oscillator of this example is similar with embodiment two, as shown in Figure 17 and Figure 18, the difference is that this example

Its radiating curtain is equally made of the identical oscillator arms of four sizes, the difference is that four oscillators of radiator Metallic conductor pendant is not designed in the end of arm, but designs there are two metallic conductor column group 61 and 62, metallic conductor column group by Two metallic conductor column compositions, metallic conductor column extend perpendicular to radiating curtain to the surface direction of oscillator support base.

Likewise, as the oscillator of this example has the function of embodiment one kind and effect.

It is appreciated that be not only limited in embodiment one several to example IV for the oscillator concrete structure form of the application, Such as the concrete structure form of radiating curtain, location arrangements, bandwidth match slot it is specific open up mode etc. can be according to specific Use demand adjusts；Likewise, the shape of radiating curtain or oscillator may be round, rectangular, heart-shaped or gas polygon etc., It is not specifically limited herein.

The foregoing is a further detailed description of the present application in conjunction with specific implementation manners, and it cannot be said that this Shen Specific implementation please is confined to these explanations.For those of ordinary skill in the art to which this application belongs, it is not taking off Under the premise of conceiving from the application, a number of simple deductions or replacements can also be made, all shall be regarded as belonging to the protection of the application Range.

Claims (9)

1. a kind of oscillator convenient for automated production, it is characterised in that：Including radiator and oscillator support base；The radiator packet A radiating curtain is included, there is the four conductors coupling extended perpendicular to radiating curtain face on the same surface of radiating curtain Column, radiating curtain and conductor coupling column are integrally formed；

The surface of the oscillator support base has four conductor pins extended perpendicular to surface, is offered at least on each conductor pin Two circular cavities, one of hole are used to be inserted into the conductor coupling column of radiator, and a hole is fed for being inserted into feed-through Conductor diagonally couple feed；

Four conductor coupling columns of radiator are inserted into the hole of the conductor pin of oscillator support base, and the two carries out capacitive coupling company It connects, feed-through diagonally couple feed, to activate entire oscillator.

2. oscillator according to claim 1, it is characterised in that：The outer surface of the conductor coupling column is arranged with insulation sleeve.

3. oscillator according to claim 1 or 2, it is characterised in that：Several mounting holes are offered on the radiating curtain, Hole is also opened up on the conductor pin of oscillator support base accordingly, by fastener by the radiating curtain and the oscillator branch Support seat is fixed together.

4. oscillator according to claim 1 or 2, it is characterised in that：Between the radiating curtain and the oscillator support base It is separated by one piece of dielectric isolation board.

5. oscillator according to claim 1 or 2, it is characterised in that：The radiator is arranged above a metal Parasitic patch, the metallic parasitic piece are supported on by insulating supporting column above radiator.

6. oscillator according to claim 1 or 2, it is characterised in that：The surrounding of the radiating curtain, in radiating curtain end With at least two metallic conductor pendants.

7. oscillator according to claim 6, it is characterised in that：The metallic conductor pendant passes through dielectric piece and radiation Array connects.

8. oscillator according to claim 1 or 2, it is characterised in that：The surrounding of the radiating curtain, in radiating curtain end With at least two metallic conductor columns.

9. a kind of antenna or array antenna using claim 1-8 any one of them oscillators.