CN101926045B

CN101926045B - Antenna for discharging surge current

Info

Publication number: CN101926045B
Application number: CN200880125698.2A
Authority: CN
Inventors: 郑民锡; 吴秉一
Original assignee: Ace Technology Co Ltd
Current assignee: Ace Antenna Corp; Ace Technology Co Ltd
Priority date: 2008-01-28
Filing date: 2008-02-27
Publication date: 2014-04-23
Anticipated expiration: 2028-02-27
Also published as: CN101926045A; WO2009096625A1; KR100963122B1; KR20090082600A

Abstract

An antenna for discharging surge current to an outside through a ground member and a clamp member coupled to the ground member is disclosed. The antenna includes a first conductive member, a clamp member as a conductor, and a first ground member configured to connect electrically the first conductive member to the clamp member, and be a conductor. Here, surge current is discharged through a current path formed through the first conductive member, the first ground member and the clamp member.

Description

Antenna for discharging surge current

Technical field

Example embodiment of the present invention relates to a kind of antenna for discharging surge current, more particularly, relates to a kind of for surge current is discharged into outside antenna by earthing component and the clamper component that is attached to earthing component.

Background technology

Antenna is sending/receiving electromagnetic wave by the specific direction radiation beam (beam) in edge.Especially, the directional antenna of setting up in base station is directly exposed to external environment condition, and has structure as shown in Figure 1.

Fig. 1 is the view that is illustrated in the structure of the common antenna of setting up in base station.Fig. 2 is the perspective view that the antenna in Fig. 1 is shown.

In Fig. 1, antenna 102 combines with antenna mounting member 100 by fixture 104 and 106.Here, because antenna 102 is built up in base station, so antenna 102 is exposed to external environment condition.Therefore, antenna 102 comprises upper cover 200 and side cover 202, with the inner member of cover antenna 102, as shown in Figure 2, thus protection inner member be not subject to external environment condition (such as thunderbolt etc.) impact.

With reference to Fig. 2, the outside that is formed on side cover 202 as conductive member 204A and the 204B of connector, wherein, conductive member 204A and 204B are connected to external member (not shown) by inside cable.Here, cable can be the feeder line of the radiation power supply of the inner member for to antenna 102.

In addition, angle of inclination conditioning equipment and cable are connected to conductive member 204A or 204B.Here, angle of inclination conditioning equipment is controlled the operation of phase shifter, and phase shifter regulates the direction of radiation pattern.

Because antenna 102 is directly exposed to external environment condition, so the surge current wait being produced by thunderbolt can be by conductive member 204A and 204B in antenna 102 internal flows.Under these circumstances, because do not form extra discharge path in antenna 102, surge current affects the element in antenna 102.Therefore, the characteristic of antenna 102 can change because of surge current.

Summary of the invention

Technical problem

Therefore, one or more problems that the present invention causes with restriction and the shortcoming of substantially avoiding because of prior art are proposed.

It is a kind of for surge current is discharged into outside antenna by earthing component and the clamper component that is electrically connected to earthing component that example embodiment of the present invention provides.

Technical scheme

According to the present invention, the antenna of an example embodiment comprises: the first conductive member; Clamper component as conductor; The first earthing component, is constructed to the first conductive member to be electrically connected to clamper component, and the first earthing component is conductor.Here, surge current discharges by the current path forming by the first conductive member, the first earthing component, clamper component.

Described antenna also comprises lid.Here, the first conductive member is arranged in the first side of lid, clamper component and the outside antenna mounting Component composition that is positioned at antenna, and surge current discharges by described current path and antenna mounting member.

Antenna also comprises: the first connecting elements, be constructed to the first conductive member to be connected to the first earthing component, the first connecting elements is conductor, wherein, the first conductive member is connected to the first side of lid from the outside of described antenna, the first earthing component is arranged in the inside of described antenna in second side contrary with the first side in the sidepiece of lid also.

Described antenna also comprises: the second conductive member, is arranged in the first side of lid; The second connecting elements, is constructed to, by lid, the second conductive member is connected to the first earthing component.Here, the first connecting elements is electrically connected to the second connecting elements by the first earthing component.

Described antenna also comprises: the second conductive member, is arranged in the first side of lid; The second earthing component, is arranged in the second side of lid; The second connecting elements, is constructed to, by lid, the second conductive member is electrically connected to the second earthing component.Here, the second earthing component is electrically connected to clamper component.

Described antenna also comprises: reflecting plate, be set to edge and cover the direction of intersecting, wherein, the first earthing component comprises the first grounded part and from the second grounded part of the first grounded part bending, wherein, the first grounded part is arranged in a side of lid, and the second grounded part is arranged in the first side in the sidepiece of reflecting plate.

Clamper component is arranged in second side contrary with the first side of reflecting plate, and described antenna also comprises for earthing component being connected to by reflecting plate to the 3rd connecting elements of clamper component.

The first earthing component also comprises the 3rd grounded part from the second grounded part bending, and wherein, the 3rd earthing component is electrically connected to clamper component by reflecting plate.

Described antenna also comprises: insulating component, is arranged in the first side of reflecting plate; The 4th connecting elements, is constructed to, by reflecting plate, insulating component is connected to clamper component, and wherein, insulating component has curved shape, and a part for insulating component is arranged on and covers, and another part of insulating component is arranged on reflecting plate.

According to the present invention, the antenna of another example embodiment comprises: lid; First conductive member and second conductive member, be arranged in the first side of lid; Earthing component, is constructed to first conductive member to be electrically connected to second conductive member.Here, surge current discharges by another conductive member in a conductive member in conductive member, earthing component, conductive member.

Conductive member is connected to the first side of lid, and earthing component is arranged in second side contrary with the first side in the sidepiece of lid, and described antenna also comprises for conductive member is connected to the connecting elements of earthing component by lid, and earthing component is electrically connected to connecting elements.

Described antenna also comprises: reflecting plate, forms edge and cover the direction of intersecting; Insulating component, is constructed to have curved shape, and wherein, a part for insulating component is arranged on and covers, and another part of insulating component is arranged on reflecting plate; Clamper component, is arranged in first side contrary with the second side in the sidepiece of reflecting plate.Here, insulating component is arranged in the second side, and earthing component is electrically connected to clamper component.

Beneficial effect

Antenna of the present invention carrys out discharging surge current by the current path being formed by earthing component, connecting elements, clamper component.Therefore, the element in antenna can not be subject to the impact of surge current, therefore, can keep the characteristic of antenna.

Accompanying drawing explanation

By describe example embodiment of the present invention in detail with reference to accompanying drawing, it is more obvious that example embodiment of the present invention will become, in the accompanying drawings:

Fig. 1 is the view that is illustrated in the structure of the common wiring of setting up in base station;

Fig. 2 is the perspective view that the antenna in Fig. 1 is shown;

Fig. 3 is the view that the antenna for discharging surge current of the first example embodiment according to the present invention is shown;

Fig. 4 is the perspective view that the conductive member of an example embodiment according to the present invention is shown;

Fig. 5 is the view that schematically shows the rear side of the reflecting plate of an example embodiment according to the present invention;

Fig. 6 is the view that the antenna of the second example embodiment according to the present invention is shown;

Fig. 7 is the perspective view that schematically shows the process of the member that is connected of an example embodiment according to the present invention.

Embodiment

At this, example embodiment of the present invention is disclosed.Yet, concrete structural and functional details disclosed herein only represents for describing the object of example embodiment of the present invention, yet example embodiment of the present invention can be implemented with many optional forms, and should not be understood to be limited to the example embodiment of the present invention of setting forth here.

Therefore,, although the present invention can have various distortion and optional form, the mode by the example in accompanying drawing shows specific embodiment of the present invention, and will be described in detail at this.It should be understood, however, that intention does not limit the invention to disclosed particular form, but contrary, the invention is intended to covering and fall into all modifications, equivalent, the alternative in the spirit and scope of the present invention.In the description of accompanying drawing, identical label represents identical element all the time.

Although it should be understood that first, second grade of term can be used for describing various elements here, these elements are not limited by these terms should.These terms are only for an element and another element region are separated.For example, without departing from the scope of the invention, the first element can be called as the second element, and similarly, the second element can be called as the first element.Term "and/or" as used herein comprises one or more relevant any and all combinations of lising.

It should be understood that it can directly connect or be attached to another element, or can have intermediary element when element is called as " connection " or " combination " to another element.On the contrary, when element is called as " directly connection " or " directly combination " to another element, there is not intermediary element.Should explain in an identical manner other words for describing the relation between element (that is, " and ... between " with " and directly exist ... between ", " with ... adjacent " with " with ... direct neighbor ", etc.)

Term used herein is only in order to describe the object of specific embodiment, and is not intended to limit the present invention.As used herein, unless context explicitly points out in addition, otherwise singulative is also intended to comprise plural form.It will also be understood that, when using term " to comprise " at this and/or when " comprising ", illustrate and have described feature, integral body, step, operation, element and/or assembly, but do not get rid of, do not exist or additional one or more further features, integral body, step, operation, element, assembly and/or their group.

Unless otherwise defined, otherwise that the meaning of all terms used herein (comprising technical term and scientific terminology) and those skilled in the art understand conventionally is equivalent in meaning.Will be further understood that, unless clearly definition here, otherwise it is consistent that the meaning of term (such as the term defining in general dictionary) should be interpreted as in the context with association area their meaning, and be not intended to be explained ideally or too formally.

Fig. 3 is the view that the antenna for discharging surge current of the first example embodiment according to the present invention is shown.Fig. 4 is the perspective view that the conductive member of an example embodiment according to the present invention is shown.Fig. 5 is the view that schematically shows the rear side of the reflecting plate of an example embodiment according to the present invention.

In Fig. 3 to Fig. 5, the antenna 300 of the present embodiment comprises reflecting plate 302, lid the 304, first conductive member 306A, the second conductive member 306B, earthing component 308, insulating component 310, the first connecting elements 312, the second connecting elements 314, the 3rd connecting elements 316, the 4th connecting elements 318, the 5th connecting elements 320, cable 322, at least one radiation 324, clamper component 500.

The antenna 300 of the present embodiment is built up in base station, and is fixed to antenna mounting member 100 as shown in Figure 1.

Reflecting plate 302 is conductors, and as ground and reflector.In addition, reflecting plate 302 has the edge shape of specific direction bending as shown in Figure 5.Yet reflecting plate 302 can have along the shape of the direction bending with described specific opposite direction, or can have unbending flat shape.That is, the shape of reflecting plate 302 is unrestricted.

Lid 304 is formed on the sidepiece place of antenna 300, and as shown in Figure 3, thereby the element in protection antenna 300 is not subject to the impact of external environment condition, and lid 304 is set to edge and the direction that reflecting plate 302 intersects, and preferably, covers 304 and is set to along the direction vertical with reflecting plate 302.

Antenna 300 can also comprise upper cover (not shown in Fig. 3) as shown in Figure 2, thereby the element in protection antenna 300 is not subject to the impact of external environment condition.

The first conductive member 306A is conductor.Here, exist by the hole at the center of the first conductive member 306A, cable 322 or angle of inclination conditioning equipment etc. can be inserted in this hole, as shown in Figures 3 and 4.

The first conductive member 306A is like this formed into the outside of covering 304, as shown in Figure 3.

In addition, the first conductive member 306A is fixed to and is covered 304 by the first connecting elements 312.Specifically, the first connecting elements 312 is fixed to the first conductive member 306A that is formed into the outside of covering 304 to cover 304 in the inside of antenna 300.

The second conductive member 306B is conductor.Here, exist by the hole at the center of the second conductive member 306B, cable 322 or angle of inclination conditioning equipment etc. can be inserted in this hole, as shown in Figures 3 and 4.

The second conductive member 306B is like this formed into the outside of covering 304, as shown in Figure 3.

In addition, the second conductive member 306B is fixed to and is covered 304 by the second connecting elements 314.Specifically, the second connecting elements 314 is fixed to the second conductive member 306B that is formed into the outside of covering 304 to cover 304 in the inside of antenna 300.

In an exemplary embodiment of the present invention,

conductive member

306A or 306B can form by being formed into hole 402 in

conductive member

306A or 306B and the hardware 400 of coverage hole 402, as shown in Figure 4.Here, connecting

elements

312 or 314 can not be connected to hardware 400 by lid 304 (shown in Figure 4), as shown in Figure 4.

The conductive member 306A of the present embodiment or 306B can be for for for example external cable being connected to the connector of cable 322, and have the structure different from the structure shown in Fig. 4.Yet

conductive member

306A or 306B necessity have hardware, corresponding connecting

elements

312 or 314 is electrically connected to described hardware.

Fig. 3 only illustrates two

conductive member

306A and 306B, but at least three conductive members can be formed into the outside of covering 304.

Earthing component 308 is formed on and covers on 304, and the first connecting elements 312 is electrically connected to the second connecting elements 314, as shown in Figure 3.Here, because

conductive member

306A and 306B, connecting

elements

312 and 314, earthing component 308 are conductor, so the first current path forms by the first conductive member 306A, the first connecting elements 312, earthing component 308, the second connecting elements 314, the second conductive member 306B.Therefore, in the situation that because the surge current of the generations such as thunder and lightning flows in antenna 300 by for example the first conductive member 306A, surge current also finally discharges by the second conductive member 306B by the first current path.As a result, the element in antenna 300 can not be subject to the impact of surge current.

In superincumbent description, surge current discharges by the method for utilizing earthing component 308 to connect connecting elements 312 and 314.Yet surge current can be formed into the method that the new earthing component that covers 304 outside connects connecting

elements

312 and 314 by utilization and discharge.

Earthing component 308 has coupling part 308A, extension 308B, fixture coupling part 308C.

Coupling part 308A is electrically connected to the second connecting elements 314 by the first connecting elements 312, as mentioned above.

Extension 308B extends lengthwise into reflecting plate 302 in a certain direction from coupling part 308A.

Fixture coupling part 308C is formed in the first side in the sidepiece of reflecting plate 302, and by the 3rd connecting elements 316, is connected to the clamper component 500 being formed in the second side contrary with the first side.Here, because

conductive member

306A and 306B, connecting elements 312,314 and 316, earthing component 308, clamper component 500 are conductors, so the second current path forms by

conductive member

306A or 306B, connecting

elements

312 or 314, earthing component 308, the 3rd connecting elements 316, clamper component 500.Therefore,, the in the situation that of in surge current flows to antenna 300 by for example the first conductive member 306A, surge current also finally discharges by clamper component 500 by the second current path.Here, because clamper component 500 is connected to the antenna mounting member (not shown) as conductor by fixture (not shown, referring to Fig. 1), so surge current discharges by clamper component 500, fixture, antenna mounting member.As a result, the element in antenna 300 can not be subject to the impact of surge current.

In superincumbent description, earthing component 308 is connected to clamper component 500 by the 3rd connecting elements 316.Yet the fixture coupling part 308C of earthing component 308 has curved shape, sweep can be directly connected to clamper component 500 by reflecting plate 302, as described below.Under these circumstances, surge current discharges by earthing component 308, clamper component 500, antenna mounting member.

Insulating component 310 as insulator is formed in the first side of reflecting plate 302, and as shown in Figure 3, wherein, certain part in insulating component 310 is formed on to be covered on 304.

In addition, insulating component 310 is connected to clamper component 500 by the 4th connecting elements 318, so clamper component 500 can be stable with respect to reflecting plate 302 because of insulating component 310.Here, the space that is inserted with earthing component 308 is formed into insulating component 310, thereby earthing component 308 is connected to the clamper component 500 on reflecting plate 302, as shown in Figure 3.

In another example embodiment of the present invention, the fixture coupling part 308C of earthing component 308 is formed on insulating component 310, and new connecting elements can be connected to clamper component 500 by earthing component 308, insulating component 310, reflecting plate 302.

Part by utilizing the 5th connecting elements 320 covering on 304 that is formed on of insulating component 310 combines with lid 304.As a result, lid 304 can stably be fixed to insulating component 310.

Cable 322 is for example feeder line.

The certain radiation pattern of radiation 324 output, and be sequentially arranged on reflecting plate 302, as shown in Figure 3.Here, various radiation can be used as to the radiation 324 of the present embodiment, that is, radiation 324 is unrestricted.

Clamper component 500 is arranged in second side contrary with the first side of reflecting plate 302, and between the sweep of reflecting plate 302, as shown in Figure 5.In addition, clamper component 500 is connected to antenna mounting member, and is fixed by insulating component 310.

Such clamper component 500 forms the second path with

conductive member

306A and 306B, as mentioned above.

Phase shifter can be formed in the second side of reflecting plate 302, and is not illustrated.

Phase shifter is controlled from the phase place of the RF signal of external device (ED) input, that is, divide from the power of external device (ED) input, and RF signal (power through dividing) is provided to corresponding radiation 324.Conventionally, antenna 300 utilizes radiation 324 along given direction beamformer output, thus transmitting/receiving electromagnetic wave.Here, should regulate the direction of wave beam with the direction transmitting/receiving electromagnetic wave along expectation, phase shifter is carried out the function of the direction that regulates wave beam.Specifically, phase shifter changes the phase place of RF signal, and the RF signal of change is provided to corresponding radiation 324.Therefore, in response to the change of RF signal, regulate the direction of wave beam.

In brief, the antenna 300 of the present embodiment has the structure for the first current path and the second current path, and by utilizing described current path to carry out discharging surge current, thereby the element in protection antenna 300 is not subject to the impact of surge current.Here, because surge current can only discharge by one of current path, so can only realize one of current path in antenna 300.Yet expectation realizes the first current path and the second current path in antenna 300, thus discharging surge current suitably.

Antenna 300 can carry out various modifications, as long as be formed for the current path of discharging surge current.

In another example embodiment of the present invention, new insulating component and new clamper component can further be formed in other parts of reflecting plate 302.Be like this for by antenna 300 and antenna mounting component stability combine, as shown in fig. 1.

Fig. 6 is the view that the antenna of the second example embodiment according to the present invention is shown.

In Fig. 6, the antenna 600 of the present embodiment comprises reflecting plate 602, lid 604,

conductive member

606A and 606B, earthing

component

608 and 610, insulating component 612, connecting elements 614,616,618 and 620, clamper component.

Because except earthing

component

608 and 610, the element of the present embodiment is identical with the element in the first embodiment, so by any further description of omitting about similar elements.

The first earthing component 608 is connected to the first conductive member 606A by the first connecting elements 614, and is connected to the clamper component on the rear side that is formed on reflecting plate 602 by the 3rd connecting elements 618.As a result, the first current path forms by the first conductive member 606A, the first connecting elements 614, the first earthing component 608, the 3rd connecting elements 618, clamper component, fixture (not shown), by fixture, is connected to the antenna mounting member of clamper component.Therefore, the in the situation that of in surge current flows to antenna 600 by conductive member 606A, surge current discharges by the first current path, that is, by the first connecting elements 614, the first earthing component 608, the 3rd connecting elements 618, clamper component, fixture, antenna mounting member, discharge.Therefore, the element in antenna 600 can not be subject to the impact of surge current.

The second earthing component 610 is connected to the second conductive member 606B by the second connecting elements 616, and is connected to the clamper component on the rear side that is formed on reflecting plate 602 by the 4th connecting elements 620.As a result, the second current path forms by the second conductive member 606B, the second connecting elements 616, the second earthing component 610, the 4th connecting elements 620, clamper component, fixture, antenna mounting member.Therefore, the in the situation that of in surge current flows to antenna 600 by conductive member 606B, surge current discharges by the second current path, that is, by the second connecting elements 616, the second earthing component 610, the 4th connecting elements 620, clamper component, fixture, antenna mounting member, discharge.Therefore, the element in antenna 600 can not be subject to the impact of surge current.

In brief, different from the antenna 300 in the first embodiment, in the antenna 600 of the second embodiment, earthing

component

614 and 616 is not connected to each other.Therefore, there is no to form the current path by the first conductive member 606A, the first connecting elements 614, the first earthing component 608, the second earthing component 610, the second connecting elements 616, the second conductive member 606B.Yet, because the first current path and the second current path are formed in antenna 600, as mentioned above, so can protect element in antenna 600 not to be subject to the impact of surge current.

In addition, the 3rd current path forms by the first conductive member 606A, the first connecting elements 614, the first earthing component 608, the 3rd connecting elements 618, clamper component, the 4th connecting elements 620, the second earthing component 610, the second connecting elements 616, the second conductive member 606B, therefore, surge current can discharge by the 3rd current path.

With reference to above-described the first embodiment and the second embodiment, antenna 300 of the present invention and 600 has formed various current paths, thus discharging surge current.Specifically, the first current path, the second current path, the 3rd current path or the 4th current path are formed in antenna 300 and 600.Here, the first current path forms by the first conductive member, the first connecting elements, earthing component, the second connecting elements, the second conductive member, and the second path forms by the first conductive member, the first connecting elements, earthing component, the 3rd connecting elements, clamper component, fixture, antenna mounting member.The 3rd current path forms by the second conductive member, the second connecting elements, earthing component, the 4th connecting elements, clamp structure, antenna mounting member, and the 4th current path forms by the first conductive member, the first connecting elements, the first earthing component, the 3rd connecting elements, clamper component, the 4th connecting elements, the second earthing component, the second connecting elements, the second conductive member.Yet

antenna

300 and 600 can have other the current path except current path above, as long as this current path discharging surge current.Under these circumstances, earthing component is necessary element.

In (A) in Fig. 7, earthing component 608 has along the shape of specific direction bending, and comprises and be formed on the foundation 608A covering and be formed on the sweep 608B on reflecting plate.Here, the first connecting elements 706 combines with corresponding conductive member by the hole 702 that is formed on foundation 608A and covers.That is, conductive member is electrically connected to the foundation 608A of earthing component 608 by the first connecting elements 706.

The second connecting elements 708 combines with clamper component 700 by being formed on the hole 704 on sweep 608B and reflecting plate.In other words, sweep 608B is electrically connected to clamper component 700 by the second connecting elements 708.

In one word, current path forms by conductive member, the first connecting elements 706, earthing component 608, the second connecting elements 708, clamper component 700.In the first embodiment and the second embodiment, the method that forms this current path has been shown.

In (B) in Fig. 7, earthing component 710 has tangent bend shape, and comprises foundation 710A, the first sweep 710B, the second sweep 710C.Under these circumstances, connecting elements 712 combines with corresponding conductive member by the hole 714 that is formed on foundation 710A and covers.

The second sweep 710C is connected to clamper component 700 by reflecting plate.Therefore, current path forms by conductive member, connecting elements 712, earthing component 710, clamper component 700.

In brief, the method that conductive member is connected to clamper component can be carried out various modifications, as shown in Figure 7.Here, can there is the whole bag of tricks not illustrating in Fig. 7, and can suitably revise according to user's object.

Any mentioning in this specification " embodiment ", " embodiment ", " example embodiment " etc. refer to that specific feature, structure or the characteristic in conjunction with this embodiment, described comprise at least one embodiment of the present invention.The same embodiment of the unnecessary whole sensings of such term occurring in various positions in this specification.In addition,, when describing specific feature, structure or characteristic in conjunction with arbitrary embodiment, other embodiment in being intended to be illustrated in the scope that those skilled in the art grasp in conjunction with the embodiments implement such feature, structure or characteristic.

Although described embodiment with reference to a plurality of exemplary embodiments of the present disclosure, a plurality of other distortion and the embodiment that it should be understood that those skilled in the art can draw will fall in the spirit and scope of principle of the present disclosure.More particularly, in the scope of open record, accompanying drawing, claim, in the building block that can arrange in main body combination and/or layout, carry out variations and modifications.Except variation that building block and/or layout are carried out and revising, optional use should be also clearly to those skilled in the art.

Claims

1. an antenna, comprising:

The first conductive member;

Clamper component as conductor;

The first earthing component, is constructed to the first conductive member to be electrically connected to clamper component, and the first earthing component is conductor,

Lid;

The first connecting elements, is constructed to the first conductive member to be connected to the first earthing component, and the first connecting elements is conductor,

Wherein, clamper component and the outside antenna mounting Component composition that is positioned at antenna,

Wherein, the first conductive member is arranged in the first side of lid,

Wherein, the first conductive member is connected to the first side of lid from the outside of described antenna, and the first earthing component is arranged in second side contrary with the first side in the sidepiece of lid in the inside of described antenna,

Wherein, surge current discharges by current path, and described current path forms by the first conductive member, the first connecting elements, the first earthing component, clamper component and antenna mounting member.

2. antenna as claimed in claim 1, described antenna also comprises:

The second conductive member, is arranged in the first side of lid;

The second connecting elements, is constructed to, by lid, the second conductive member is connected to the first earthing component,

Wherein, the first connecting elements is electrically connected to the second connecting elements by the first earthing component.

3. antenna as claimed in claim 1, described antenna also comprises:

The second conductive member, is arranged in the first side of lid;

The second earthing component, is arranged in the second side of lid;

The second connecting elements, is constructed to, by lid, the second conductive member is electrically connected to the second earthing component,

Wherein, the second earthing component is electrically connected to clamper component.

4. antenna as claimed in claim 1, described antenna also comprises:

Reflecting plate, is set to edge and covers the direction of intersecting,

Wherein, the first earthing component comprises the first grounded part and from the second grounded part of the first grounded part bending, the first grounded part is arranged in a side of lid, and the second grounded part is arranged in the first side in the sidepiece of reflecting plate.

5. antenna as claimed in claim 4, wherein, clamper component is arranged in second side contrary with the first side of reflecting plate, and described antenna also comprises for earthing component being connected to by reflecting plate to the 3rd connecting elements of clamper component.

6. antenna as claimed in claim 4, wherein, the first earthing component also comprises the 3rd grounded part from the second grounded part bending,

Wherein, the 3rd earthing component is electrically connected to clamper component by reflecting plate.

7. antenna as claimed in claim 4, described antenna also comprises:

Insulating component, is arranged in the first side of reflecting plate;

The 4th connecting elements, is constructed to, by reflecting plate, insulating component is connected to clamper component,

Wherein, insulating component has curved shape, and a part for insulating component is arranged on and covers, and other parts of insulating component are arranged on reflecting plate.

8. an antenna, comprising:

Lid;

First conductive member and second conductive member, be arranged in the first side of lid;

Earthing component, is constructed to first conductive member to be electrically connected to second conductive member,

Wherein, surge current discharges by another conductive member in a conductive member in conductive member, earthing component, conductive member,

Wherein, conductive member is connected to the first side of lid, earthing component is arranged in second side contrary with the first side in the sidepiece of lid, and described antenna also comprises for conductive member is connected to the connecting elements of earthing component by lid, and earthing component is electrically connected to connecting elements.

9. antenna as claimed in claim 8, described antenna also comprises:

Reflecting plate, forms edge and covers the direction of intersecting;

Insulating component, is constructed to have curved shape, and wherein, a part for insulating component is arranged on and covers, and other parts of insulating component are arranged on reflecting plate;

Clamper component, is arranged in first side contrary with second case in the sidepiece of reflecting plate,

Wherein, insulating component is arranged in the second side, and earthing component is electrically connected to clamper component.