CN104157970B - A kind of multi-frequency multi-mode antenna and the method for manufacture - Google Patents

Abstract

A kind of multi-frequency multi-mode antenna and the method for manufacture, including first preparing antenna pcb board and a reflecting plate, then in the top left region of antenna pcb board, prepare a horizontal dipole main body, then the lower right area at resonance arm opposite side, i.e. pcb board prepares a vertical dipole main body, then following in horizontal dipole main body, the i.e. left side of pcb board, arranges horizontal dipole ground wire；Then in the downside in the left side of vertical dipole main body, i.e. pcb board, vertical dipole ground wire is set；Described resonance arm along pcb board the lower left corner to the upper right corner diagonal arrange；Size of the present invention is little, only 280mm × 280mm × 20mm；Low cost, the 1/2 of the most similar antenna cost；Excellent performance of the present invention, it is possible to stably receive transmitting.

Description

A kind of multi-frequency multi-mode antenna and the method for manufacture

Technical field

The present invention relates to antenna, especially relate to a kind of multi-frequency multi-mode antenna and the method for manufacture.

Background technology

In prior art, there are method and antenna assembly that in wireless telecommunications, antenna manufactures.At 1710MHz～ 1880MHz, and 2.5G～2.7G, and 791MHz～862MHz frequency range, prior art antenna size is big, generally 500mm × 500mm, more importantly thickness is the thickest, and thickness is all at 50mm～60mm, and at some special occasions, the antenna of this size cannot It is arranged among rack, and the size reducing multi-frequency multi-mode antenna is confronted with numerous difficulties, through great many of experiments, it has been found that, will Multi-frequency multi-mode antenna often reduces the size of 10 millimeters will make substantial amounts of experiment to find the form of optimal current feed terminal.

And the multi-frequency multi-mode antenna performance of prior art is the best, after long transmission distance, signal is then intermittent, nothing Method uses.

The multi-frequency multi-mode antenna cost of prior art is high.

People look forward to the multi-frequency multi-mode antenna of the excellent performance that price that size that a kind of Industry Control uses is little is low.

Have not seen highly satisfactory solution at present.

Summary of the invention

In order to solve technical problem present in prior art, the present invention proposes the side that a kind of multi-frequency multi-mode antenna manufactures Method and antenna assembly.

The present invention is by realizing by the following technical solutions:

Implement the method that multi-frequency multi-mode antenna manufactures, comprise the steps:

A, first preparing an antenna pcb board, they are a size of 220～230mm × 220～230mm × 0.8mm years old；At antenna PCB A reflecting plate is prepared below plate；Described antenna pcb board is supported by plastic cement pillar；

B, then in the top left region of antenna pcb board, prepare a horizontal dipole main body, described horizontal dipole main body includes water Flat high frequency oscillator principal arm, horizontal high-frequent oscillator auxiliary and horizontal high-frequent oscillator lordosis are connected with horizontal dipole base；Described level Oscillator base connects horizontal low frequencies oscillator principal arm, and the other end of horizontal low frequencies oscillator principal arm connects the left side of resonance arm；Described water Flat high frequency oscillator lordosis has a horizontal dipole lordosis sideline；

C, then lower right area at resonance arm opposite side, i.e. pcb board prepare a vertical dipole main body, described vertical dipole Main body includes that vertical high frequency oscillator principal arm, vertical high frequency oscillator auxiliary and vertical high frequency oscillator lordosis are with vertical dipole base even Connect；Described vertical dipole base connects vertical low-frequency vibrator principal arm, and the other end of vertical low-frequency vibrator principal arm connects resonance arm Right side；Described vertical high frequency oscillator lordosis has a vertical dipole lordosis sideline；

D, then following in horizontal dipole main body, i.e. the left side of pcb board, horizontal dipole ground wire is set；Described level is shaken Sub-ground wire includes that horizontal ground wire principal arm, horizontal ground wire auxiliary and horizontal ground wire lordosis are connected with horizontal ground wire base；Described level Ground wire base connects the external district of horizontal ground wire；Described horizontal ground wire lordosis has a horizontal ground wire lordosis sideline, and this line shakes with level Sub-lordosis sideline is the most relative；

E, then in the downside in the left side of vertical dipole main body, i.e. pcb board, vertical dipole ground wire is set；Described Vertical Vibrating Sub-ground wire includes that vertical ground wire principal arm, vertical ground wire auxiliary and vertical ground wire lordosis are connected with vertical ground wire base；Described vertically Ground wire base connects the external district of vertical ground wire；Described vertical ground wire lordosis has a vertical ground wire lordosis sideline, this line and Vertical Vibrating Sub-lordosis sideline is the most relative.

Described resonance arm along pcb board the lower left corner to the upper right corner diagonal arrange；Wide 13mm, crosses pcb board centre bore 21mm, 42mm, remainder 37mm at centre bore to horizontal low frequencies oscillator principal arm and vertical low-frequency vibrator principal arm access.

Described horizontal low frequencies oscillator principal arm width 13mm, including one section of straightway 17mm being connected with resonance arm and curved section, Curved section chord length 104mm camber 26mm arc radius 68mm；

Described horizontal dipole base is a sector, picks out horizontal high-frequent oscillator principal arm, horizontal high-frequent oscillator master to the left The chord length 60mm arc radius 68mm, a width of 13mm of arm of arm；

Horizontal high-frequent oscillator auxiliary is picked out, its chord length 32mm arc radius 68mm, arm width 13mm on the right side of horizontal dipole base；

At the bottom water receiving flat high frequency oscillator lordosis of horizontal dipole base, horizontal dipole lordosis side line length 20+18mm.

Described horizontal ground wire base is a sector, picks out horizontal ground wire principal arm, described horizontal ground wire principal arm width to the left 13mm, chord length 36mm arc radius 68mm；

Horizontal ground wire auxiliary is picked out, its chord length 40mm arc radius 68mm, arm width 13mm on the right side of horizontal ground wire base；

At water receiving level land, the top line lordosis of horizontal ground wire base, horizontal ground wire lordosis side line length 37mm.

Manufacturing and designing a kind of multi-frequency multi-mode antenna, described antenna includes:

One antenna pcb board, they are a size of 220～230mm × 220～230mm × 0.8mm years old；

A reflecting plate is prepared below antenna pcb board；Described antenna pcb board is supported by plastic cement pillar；

In the top left region of antenna pcb board, being a horizontal dipole main body, described horizontal dipole main body includes that horizontal high-frequent shakes Sub-principal arm, horizontal high-frequent oscillator auxiliary and horizontal high-frequent oscillator lordosis are connected with horizontal dipole base；Described horizontal dipole base Connecting horizontal low frequencies oscillator principal arm, the other end of horizontal low frequencies oscillator principal arm connects the left side of resonance arm；Described horizontal high-frequent shakes Sub-lordosis has a horizontal dipole lordosis sideline；

Lower right area at resonance arm opposite side, i.e. pcb board is a vertical dipole main body, and described vertical dipole main body includes Vertical high frequency oscillator principal arm, vertical high frequency oscillator auxiliary and vertical high frequency oscillator lordosis are connected with vertical dipole base；Described vertical Straight oscillator base connects vertical low-frequency vibrator principal arm, and the other end of vertical low-frequency vibrator principal arm connects the right side of resonance arm；Described Vertical high frequency oscillator lordosis has a vertical dipole lordosis sideline；

Following in horizontal dipole main body, i.e. the left side of pcb board, horizontal dipole ground wire is set；Described horizontal dipole ground wire It is connected with horizontal ground wire base including horizontal ground wire principal arm, horizontal ground wire auxiliary and horizontal ground wire lordosis；Described horizontal ground wire base District connects the external district of horizontal ground wire；Described horizontal ground wire lordosis has a horizontal ground wire lordosis sideline, this line and horizontal dipole lordosis Sideline is the most relative；

In the downside in the left side of vertical dipole main body, i.e. pcb board, vertical dipole ground wire is set；Described vertical dipole ground wire It is connected with vertical ground wire base including vertical ground wire principal arm, vertical ground wire auxiliary and vertical ground wire lordosis；Described vertical ground wire base District connects the external district of vertical ground wire；Described vertical ground wire lordosis has a vertical ground wire lordosis sideline, this line and vertical dipole lordosis Sideline is the most relative.

Described resonance arm along pcb board the lower left corner to the upper right corner diagonal arrange；Wide 13mm, crosses pcb board centre bore 21mm, 42mm, remainder 37mm at centre bore to horizontal low frequencies oscillator principal arm and vertical low-frequency vibrator principal arm access.

Described horizontal low frequencies oscillator principal arm width 13mm, including one section of straightway 17mm being connected with resonance arm and curved section, Curved section chord length 104mm camber 26mm arc radius 68mm；

Described horizontal dipole base is a sector, picks out horizontal high-frequent oscillator principal arm, horizontal high-frequent oscillator master to the left The chord length 60mm arc radius 68mm, a width of 13mm of arm of arm；

Horizontal high-frequent oscillator auxiliary is picked out, its chord length 32mm arc radius 68mm, arm width 13mm on the right side of horizontal dipole base；

At the bottom water receiving flat high frequency oscillator lordosis of horizontal dipole base, horizontal dipole lordosis side line length 20+18mm.

Described horizontal ground wire base is a sector, picks out horizontal ground wire principal arm, described horizontal ground wire principal arm width to the left 13mm, chord length 36mm arc radius 68mm；

Horizontal ground wire auxiliary is picked out, its chord length 40mm arc radius 68mm, arm width 13mm on the right side of horizontal ground wire base；

At water receiving level land, the top line lordosis of horizontal ground wire base, horizontal ground wire lordosis side line length 37mm.

The external district of horizontal ground wire of described horizontal dipole ground wire connects has an external horizontal ground pads, on a left side for pcb board Lateral edges is arranged；

The size of described reflecting plate is 274mm × 274mm.

The external district of vertical ground wire of described vertical dipole ground wire connects has an external vertical ground pads, at the end of pcb board Edge, portion is arranged.

Compared with prior art, the invention have the advantage that

One, size is little, only 280mm × 280mm × 20mm.

Two, price is only the 1/2 of like product.

Three, excellent performance, stably receives transmitting.

Accompanying drawing explanation

Fig. 1 is the pcb board in the method for multi-frequency multi-mode antenna of the present invention and manufacture and the structure signal after reflecting plate assembling Figure；

Fig. 2 be multi-frequency multi-mode antenna of the present invention and manufacture method in the schematic diagram of horizontal dipole main-body structure；

Fig. 3 is the schematic diagram of horizontal dipole ground wire in multi-frequency multi-mode antenna of the present invention；

Fig. 4 be multi-frequency multi-mode antenna of the present invention and manufacture method in the size of reflecting plate, plastic cement pillar and feed seat spiral shell Female schematic diagram；Wherein plastic cement pillar be numbered 7, totally 9；Feed seat nut is numbered 9, totally 2；

Fig. 5 be multi-frequency multi-mode antenna of the present invention and manufacture method in reflecting plate 1, plastic cement pillar 7, pcb board 10, antenna cover 8 and the schematic diagram of antenna cover frame 82；

Fig. 6 be multi-frequency multi-mode antenna of the present invention and manufacture method in antenna low-frequency range polar coordinate horizontal direction schematic diagram；

Fig. 6-1 be multi-frequency multi-mode antenna of the present invention and manufacture method in antenna 1700MHz～2200MHz frequency range polar coordinate Horizontal direction schematic diagram；

Fig. 7 be multi-frequency multi-mode antenna of the present invention and manufacture method in antenna high band polar coordinate horizontal direction schematic diagram；

Fig. 8 be multi-frequency multi-mode antenna of the present invention and manufacture method in antenna low-frequency range polar coordinate vertical direction schematic diagram；

Fig. 8-1 be multi-frequency multi-mode antenna of the present invention and manufacture method in antenna 1700MHz～2200MHz frequency range polar coordinate Vertical direction schematic diagram；

Fig. 9 be multi-frequency multi-mode antenna of the present invention and manufacture method in antenna high band polar coordinate vertical direction schematic diagram.

Detailed description of the invention

For the method further illustrating the present invention, carry out in conjunction with a preferred embodiment of the present invention shown in the drawings Describe in detail, but described embodiment is only and provides explanation to be used with explanation, it is impossible to be used for limiting the patent protection model of the present invention Enclose.

As shown in Fig. 1～Fig. 9, implement the method that multi-frequency multi-mode antenna manufactures.

Described method comprises the steps:

A, first preparing an antenna pcb board 10, they are a size of 220～230mm × 220～230mm × 0.8mm years old；At antenna Pcb board 10 preparation one reflecting plate 1 below；Described antenna pcb board 10 is supported by plastic cement pillar 7；

B, then in the top left region of antenna pcb board, prepare a horizontal dipole main body 3, described horizontal dipole main body 3 includes Horizontal high-frequent oscillator principal arm 33, horizontal high-frequent oscillator auxiliary 34 and horizontal high-frequent oscillator lordosis 35 are with horizontal dipole base 32 even Connect；Described horizontal dipole base 32 connects horizontal low frequencies oscillator principal arm 31, and the other end of horizontal low frequencies oscillator principal arm 31 connects humorous Raise one's arm 2 left side；Described horizontal high-frequent oscillator lordosis 35 has a horizontal dipole lordosis sideline 351；

C, then prepare a vertical dipole main body 4 at resonance arm 2 opposite side, the i.e. lower right area of pcb board 10, described vertically Vibrator body 4 includes that vertical high frequency oscillator principal arm 43, vertical high frequency oscillator auxiliary 44 and vertical high frequency oscillator lordosis 45 are with vertical Oscillator base 42 connects；Described vertical dipole base 42 connects vertical low-frequency vibrator principal arm 41, vertical low-frequency vibrator principal arm 41 The other end connects the right side of resonance arm 2；Described vertical high frequency oscillator lordosis 45 has a vertical dipole lordosis sideline；

D, then following in horizontal dipole main body 3, i.e. the left side of pcb board 10, horizontal dipole ground wire 5 is set；Described water Flat oscillator ground wire 5 includes horizontal ground wire principal arm 53, horizontal ground wire auxiliary 54 and horizontal ground wire lordosis 55 and horizontal ground wire base 52 Connect；Described horizontal ground wire base 52 connects the external district of horizontal ground wire 51；Before described horizontal ground wire lordosis 55 has a horizontal ground wire Chimb line 551, this line is the most relative with horizontal dipole lordosis sideline 351；

E, then in the left side of vertical dipole main body 4, i.e. the downside of pcb board 10, vertical dipole ground wire 6 is set；Described vertical Straight oscillator ground wire 6 includes that vertical ground wire principal arm, vertical ground wire auxiliary and vertical ground wire lordosis are connected with vertical ground wire base；Described Vertical ground wire base connects the external district of vertical ground wire；Described vertical ground wire lordosis has a vertical ground wire lordosis sideline, and this line is with vertical Straight oscillator lordosis sideline is the most relative.

Described resonance arm 2 along pcb board the lower left corner to the upper right corner diagonal arrange；Wide 13mm, crosses pcb board centre bore 21mm, 42mm, remainder 37mm at centre bore to horizontal low frequencies oscillator principal arm 31 and the access of vertical low-frequency vibrator principal arm 41.

The wide 13mm of described horizontal low frequencies oscillator principal arm 31, including one section of straightway 17mm being connected with resonance arm 2 and curve Section, curved section chord length 104mm camber 26mm arc radius 68mm；

Described horizontal dipole base 32 is a sector, picks out horizontal high-frequent oscillator principal arm 33 to the left, and horizontal high-frequent shakes The chord length 60mm arc radius 68mm of sub-principal arm 33, arm wide 331 is 13mm；

Horizontal high-frequent oscillator auxiliary 34 is picked out on the right side of horizontal dipole base 32, its chord length 32mm arc radius 68mm, arm width 13mm；

In the bottom water receiving flat high frequency oscillator lordosis 35 of horizontal dipole base 32, horizontal dipole lordosis sideline 351 length 20+ 18mm。

Described horizontal ground wire base 52 is a sector, picks out horizontal ground wire principal arm 53, described horizontal ground wire master to the left Arm 53 wide 13mm, chord length 36mm arc radius 68mm；

Horizontal ground wire auxiliary 54 is picked out, its chord length 40mm arc radius 68mm, arm width 13mm on the right side of horizontal ground wire base 52；

In water receiving level land, the top line lordosis 55 of horizontal ground wire base 52, horizontal ground wire lordosis sideline 551 length 37mm.

A kind of multi-frequency multi-mode antenna is manufactured and designed according to said method, described antenna includes:

One antenna pcb board 10, they are a size of 220～230mm × 220～230mm × 0.8mm years old；

A reflecting plate 1 is prepared below antenna pcb board 10；Described antenna pcb board 10 is supported by plastic cement pillar 7；

In the top left region of antenna pcb board, being a horizontal dipole main body 3, described horizontal dipole main body 3 includes horizontal high-frequent Oscillator principal arm 33, horizontal high-frequent oscillator auxiliary 34 and horizontal high-frequent oscillator lordosis 35 are connected with horizontal dipole base 32；Described water Flat oscillator base 32 connects horizontal low frequencies oscillator principal arm 31, and the other end of horizontal low frequencies oscillator principal arm 31 connects a left side for resonance arm 2 Side；Described horizontal high-frequent oscillator lordosis 35 has a horizontal dipole lordosis sideline 351；

It is a vertical dipole main body 4 at resonance arm 2 opposite side, the i.e. lower right area of pcb board 10, described vertical dipole main body 4 include vertical high frequency oscillator principal arm 43, vertical high frequency oscillator auxiliary 44 and vertical high frequency oscillator lordosis 45 and vertical dipole base 42 connect；Described vertical dipole base 42 connects vertical low-frequency vibrator principal arm 41, and the other end of vertical low-frequency vibrator principal arm 41 is even Connect the right side of resonance arm 2；Described vertical high frequency oscillator lordosis 45 has a vertical dipole lordosis sideline；

Following in horizontal dipole main body 3, i.e. the left side of pcb board 10, horizontal dipole ground wire 5 is set；Described horizontal dipole Ground wire 5 includes that horizontal ground wire principal arm 53, horizontal ground wire auxiliary 54 and horizontal ground wire lordosis 55 are connected with horizontal ground wire base 52；Institute State the external district of the horizontal ground wire of horizontal ground wire base 52 connection 51；Described horizontal ground wire lordosis 55 has a horizontal ground wire lordosis sideline 551, this line is the most relative with horizontal dipole lordosis sideline 351；

In the left side of vertical dipole main body 4, i.e. the downside of pcb board 10, vertical dipole ground wire 6 is set；Described vertical dipole Ground wire 6 includes that vertical ground wire principal arm, vertical ground wire auxiliary and vertical ground wire lordosis are connected with vertical ground wire base；Described vertically Line base connects the external district of vertical ground wire；Described vertical ground wire lordosis has a vertical ground wire lordosis sideline, this line and vertical dipole Lordosis sideline is the most relative.

Described resonance arm 2 along pcb board 10 the lower left corner to the upper right corner diagonal arrange；Wide 13mm, crosses pcb board center Hole 21mm, 42mm at centre bore to horizontal low frequencies oscillator principal arm 31 and the access of vertical low-frequency vibrator principal arm 41, remainder 37mm。

The wide 13mm of described horizontal low frequencies oscillator principal arm 31, including one section of straightway 17mm being connected with resonance arm 2 and curve Section, curved section chord length 104mm camber 26mm arc radius 68mm；

Described horizontal dipole base 32 is a sector, picks out horizontal high-frequent oscillator principal arm 33 to the left, and horizontal high-frequent shakes The chord length 60mm arc radius 68mm of sub-principal arm 33, arm wide 331 is 13mm；

Horizontal high-frequent oscillator auxiliary 34 is picked out on the right side of horizontal dipole base 32, its chord length 32mm arc radius 68mm, arm width 13mm；

In the bottom water receiving flat high frequency oscillator lordosis 35 of horizontal dipole base 32, horizontal dipole lordosis sideline 351 length 20+ 18mm。

Described horizontal ground wire base 52 is a sector, picks out horizontal ground wire principal arm 53, described horizontal ground wire master to the left Arm 53 wide 13mm, chord length 36mm arc radius 68mm；

Horizontal ground wire auxiliary 54 is picked out, its chord length 40mm arc radius 68mm, arm width 13mm on the right side of horizontal ground wire base 52；

In water receiving level land, the top line lordosis 55 of horizontal ground wire base 52, horizontal ground wire lordosis sideline 551 length 37mm.

The horizontal ground wire external district 51 of described horizontal dipole ground wire 5 connects has an external horizontal ground pads 11, at pcb board Left side edge arrange；

The external district of vertical ground wire of described vertical dipole ground wire 6 connects has an external vertical ground pads 12, at pcb board Bottom margin is arranged.

Horizontal dipole main body 3 and vertical dipole main body 4 homomorphosis, according to diagonal upset copy；

Horizontal dipole ground wire 5 and vertical dipole ground wire 6 homomorphosis, according to diagonal upset copy.

The size of described reflecting plate 1 is 274mm × 274mm.

Each part dimension marks referring to figs. 1 to Fig. 5.

The invention have the advantage that

One, size is little, only 280mm × 280mm × 20mm.

Two, with low cost, only the 1/2 of like product.

Two, excellent performance, stably receives transmitting.

Above content is to combine concrete preferred implementation further description made for the present invention, it is impossible to assert Being embodied as of the present invention is confined to these explanations.For general technical staff of the technical field of the invention, On the premise of present inventive concept, it is also possible to make some simple deduction or replace, all should be considered as belonging to the present invention's Protection domain.

Claims (10)

1. the method that a multi-frequency multi-mode antenna manufactures, it is characterised in that described method comprises the steps:

A, first prepare an antenna pcb board (10), its a size of 220～230mm × 220～230mm × 0.8mm, at antenna PCB A reflecting plate (1) prepared below by plate (10)；Described antenna pcb board (10) is supported by plastic cement pillar (7)；

B, then in the top left region of antenna pcb board (10), prepare a horizontal dipole main body (3), described horizontal dipole main body (3) Including horizontal high-frequent oscillator principal arm (33), horizontal high-frequent oscillator auxiliary (34) and horizontal high-frequent oscillator lordosis (35) and horizontal dipole Base (32) connects；Described horizontal dipole base (32) connects horizontal low frequencies oscillator principal arm (31), horizontal low frequencies oscillator principal arm (31) the other end connects the left side of resonance arm (2)；Described horizontal high-frequent oscillator lordosis (35) has a horizontal dipole lordosis sideline (351)；

C, then prepare a vertical dipole main body (4) at resonance arm (2) opposite side, the i.e. lower right area of pcb board (10), described hang down Straight vibrator body (4) includes vertical high frequency oscillator principal arm (43), vertical high frequency oscillator auxiliary (44) and vertical high frequency oscillator lordosis (45) it is connected with vertical dipole base (42)；Described vertical dipole base (42) connects vertical low-frequency vibrator principal arm (41), vertically The other end of low-frequency vibrator principal arm (41) connects the right side of resonance arm (2)；Described vertical high frequency oscillator lordosis (45) has one vertical Oscillator lordosis sideline；

D, then following in horizontal dipole main body (3), i.e. the left side of pcb board (10), horizontal dipole ground wire (5) is set；Described Horizontal dipole ground wire (5) includes horizontal ground wire principal arm (53), horizontal ground wire auxiliary (54) and horizontal ground wire lordosis (55) and level Ground wire base (52) connects；Described horizontal ground wire base (52) connects the external district of horizontal ground wire (51)；Described horizontal ground wire lordosis (55) having a horizontal ground wire lordosis sideline (551), this line is the most relative with horizontal dipole lordosis sideline (351)；

E, then in the left side of vertical dipole main body (4), i.e. the downside of pcb board (10), vertical dipole ground wire (6) is set；Described Vertical dipole ground wire (6) includes that vertical ground wire principal arm, vertical ground wire auxiliary and vertical ground wire lordosis are connected with vertical ground wire base； Described vertical ground wire base connects the external district of vertical ground wire；Described vertical ground wire lordosis has a vertical ground wire lordosis sideline, this line The most relative with vertical dipole lordosis sideline.

The method that multi-frequency multi-mode antenna the most according to claim 1 manufactures, it is characterised in that:

Described resonance arm (2) along pcb board (10) the lower left corner to the upper right corner diagonal arrange；Wide 13mm, crosses pcb board center Hole 21mm, 42mm at centre bore to horizontal low frequencies oscillator principal arm (31) and vertical low-frequency vibrator principal arm (41) access, its remaining part Divide 37mm.

The method that multi-frequency multi-mode antenna the most according to claim 1 manufactures, it is characterised in that:

The wide 13mm of described horizontal low frequencies oscillator principal arm (31), including one section of straightway 17mm being connected with resonance arm (2) and curve Section, curved section chord length 104mm camber 26mm arc radius 68mm；

Described horizontal dipole base (32) is a sector, picks out horizontal high-frequent oscillator principal arm (33) to the left, and horizontal high-frequent shakes The chord length 60mm arc radius 68mm of sub-principal arm (33), arm width (331) is 13mm；

Horizontal high-frequent oscillator auxiliary (34) is picked out on horizontal dipole base (32) right side, its chord length 32mm arc radius 68mm, arm width 13mm；

In the bottom water receiving flat high frequency oscillator lordosis (35) of horizontal dipole base (32), horizontal dipole lordosis sideline (351) length 20+18mm。

The method that multi-frequency multi-mode antenna the most according to claim 1 manufactures, it is characterised in that:

Described horizontal ground wire base (52) is a sector, picks out horizontal ground wire principal arm (53), described horizontal ground wire master to the left Arm (53) wide 13mm, chord length 36mm arc radius 68mm；

Horizontal ground wire auxiliary (54) is picked out, its chord length 40mm arc radius 68mm, arm width 13mm on horizontal ground wire base (52) right side；

On the water receiving level land, top line lordosis (55) of horizontal ground wire base (52), horizontal ground wire lordosis sideline (551) length 37mm.

5. a multi-frequency multi-mode antenna, it is characterised in that described antenna includes:

One antenna pcb board (10), they are a size of 220～230mm × 220～230mm × 0.8mm years old；

A reflecting plate (1) is prepared below at antenna pcb board (10)；Described antenna pcb board (10) is supported by plastic cement pillar (7)；

In the top left region of antenna pcb board (10), being a horizontal dipole main body (3), described horizontal dipole main body (3) includes level High frequency oscillator principal arm (33), horizontal high-frequent oscillator auxiliary (34) and horizontal high-frequent oscillator lordosis (35) and horizontal dipole base (32) Connect；Described horizontal dipole base (32) connects horizontal low frequencies oscillator principal arm (31), another of horizontal low frequencies oscillator principal arm (31) End connects the left side of resonance arm (2)；Described horizontal high-frequent oscillator lordosis (35) has a horizontal dipole lordosis sideline (351)；

It is a vertical dipole main body (4) at resonance arm (2) opposite side, the i.e. lower right area of pcb board (10), described vertical dipole master Body (4) includes vertical high frequency oscillator principal arm (43), vertical high frequency oscillator auxiliary (44) and vertical high frequency oscillator lordosis (45) and hangs down Straight oscillator base (42) connects；Described vertical dipole base (42) connects vertical low-frequency vibrator principal arm (41), vertical low-frequency vibrator The other end of principal arm (41) connects the right side of resonance arm (2)；Described vertical high frequency oscillator lordosis (45) has a vertical dipole lordosis Sideline；

Following in horizontal dipole main body (3), i.e. the left side of pcb board (10), horizontal dipole ground wire (5) is set；Described level is shaken Sub-ground wire (5) includes horizontal ground wire principal arm (53), horizontal ground wire auxiliary (54) and horizontal ground wire lordosis (55) and horizontal ground wire base District (52) connects；Described horizontal ground wire base (52) connects the external district of horizontal ground wire (51)；Described horizontal ground wire lordosis (55) has One horizontal ground wire lordosis sideline (551), this line is the most relative with horizontal dipole lordosis sideline (351)；

In the left side of vertical dipole main body (4), i.e. the downside of pcb board (10), vertical dipole ground wire (6) is set；Described Vertical Vibrating Sub-ground wire (6) includes that vertical ground wire principal arm, vertical ground wire auxiliary and vertical ground wire lordosis are connected with vertical ground wire base；Described vertical Straight ground wire base connects the external district of vertical ground wire；Described vertical ground wire lordosis has a vertical ground wire lordosis sideline, and this line is with vertical Oscillator lordosis sideline is the most relative.

Multi-frequency multi-mode antenna the most according to claim 5, it is characterised in that:

Described resonance arm (2) along pcb board (10) the lower left corner to the upper right corner diagonal arrange；Wide 13mm, crosses pcb board center Hole 21mm, 42mm at centre bore to horizontal low frequencies oscillator principal arm (31) and vertical low-frequency vibrator principal arm (41) access, its remaining part Divide 37mm.

Multi-frequency multi-mode antenna the most according to claim 5, it is characterised in that:

The wide 13mm of described horizontal low frequencies oscillator principal arm (31), including one section of straightway 17mm being connected with resonance arm (2) and curve Section, curved section chord length 104mm camber 26mm arc radius 68mm；

Described horizontal dipole base (32) is a sector, picks out horizontal high-frequent oscillator principal arm (33) to the left, and horizontal high-frequent shakes The chord length 60mm arc radius 68mm of sub-principal arm (33), arm width (331) is 13mm；

Horizontal high-frequent oscillator auxiliary (34) is picked out on horizontal dipole base (32) right side, its chord length 32mm arc radius 68mm, arm width 13mm；

In the bottom water receiving flat high frequency oscillator lordosis (35) of horizontal dipole base (32), horizontal dipole lordosis sideline (351) length 20+18mm。

Multi-frequency multi-mode antenna the most according to claim 5, it is characterised in that:

Described horizontal ground wire base (52) is a sector, picks out horizontal ground wire principal arm (53), described horizontal ground wire master to the left Arm (53) wide 13mm, chord length 36mm arc radius 68mm；

Horizontal ground wire auxiliary (54) is picked out, its chord length 40mm arc radius 68mm, arm width 13mm on horizontal ground wire base (52) right side；

On the water receiving level land, top line lordosis (55) of horizontal ground wire base (52), horizontal ground wire lordosis sideline (551) length 37mm.

Multi-frequency multi-mode antenna the most according to claim 5, it is characterised in that:

The external district of horizontal ground wire (51) of described horizontal dipole ground wire (5) connects has an external horizontal ground pads (11), at PCB The left side edge of plate is arranged；

The external district of vertical ground wire of described vertical dipole ground wire (6) connects has an external vertical ground pads (12), at pcb board Bottom margin is arranged.

Multi-frequency multi-mode antenna the most according to claim 5, it is characterised in that:

The size of described reflecting plate (1) is 274mm × 274mm.