CN102651493B

CN102651493B - Antenna supporting device

Info

Publication number: CN102651493B
Application number: CN201110044368.4A
Authority: CN
Inventors: 林亦杰; 李坤贤; 林宏源; 郭三义
Original assignee: Wistron Neweb Corp
Current assignee: Wistron Neweb Corp
Priority date: 2011-02-24
Filing date: 2011-02-24
Publication date: 2014-05-21
Anticipated expiration: 2031-02-24
Also published as: CN102651493A

Abstract

The invention discloses an antenna supporting device. The antenna supporting device is used for supporting an antenna and comprises a supporting arm, a fixing base, a first connecting component, a second connecting component and an antenna supporting frame, wherein the fixing base is fixedly arranged on the supporting arm; the first connecting component can be connected to the fixing base in a rotating way relative to a first axial direction; the second connecting component can be connected to the first connecting component in the rotating way relative to a second axial direction; the antenna supporting frame is arranged on the second connecting component; and the antenna is arranged on the antenna supporting frame. The antenna supporting device can provide simple mounting operation to a user, and simultaneously can adjust the rotating direction and the rotating angle so as to precisely adjust the antenna to the required direction and meet the mounting requirement of high speed and stability.

Description

Antenna holder

Technical field

The present invention relates to a kind of Antenna holder, the espespecially a kind of Antenna holder that can adjust antenna bearingt fast accurate.

Background technology

Antenna is one of most important assembly in radio communication device, and it can be used to transmitting and receives electromagnetic wave signal, to realize the transfer object of radio communication.Conventionally different radio communication devices is applied the antenna of will arrange in pairs or groups corresponding kind and characteristic demand.Because the usefulness of antenna can affect communication quality widely, thereby in the time fixing up an aerial wire, user must positively be adjusted to antenna appropriate location and launches and receive signal, to reach best antenna transmission usefulness.For instance, in the time that satellite antenna is installed, must accurately adjusts orientation and the elevation angle of satellite antenna and carry out synchronism satellite, to receive faint satellite-signal; Or in the time setting up the LTE aerial array that is applied to Long Term Evolution (Long Term Evolution, LTE) wireless communication system, each antenna must be installed to relative position and direction, to reach the best transmission state of antenna transmission.

In order to allow user can successfully antenna be adjusted to suitable position and angle in the time erecting a television antenna, known antenna is adjusted mode by using Universal rotary connector as the hookup mechanism between antenna and fixed mount, so that adjust relative position and the angle of antenna.But Universal rotary connector cannot provide enough crystallized abilities, often in the time bearing certain external force, easily occur crooked and cannot effectively be fixed on desired location.In other words, use the mode of Universal rotary connector by the weather that makes antenna cannot the bear outdoor environment impact causing that makes a variation, therefore, be not suitable for being applied to and be set up in outdoor antenna.In addition, another kind of known antenna adjustment mode utilizes three axle rotating mechanisms to adjust antenna, but, during due to operation, must adjust three axial angles, therefore, operating procedure required when installation is too much.In addition, due to profile and transport easily and to consider, each assembly of antenna is just assembled with manual type in erecting bed conventionally, and, the environment fixing up an aerial wire normally aloft, in other words, the mode of the loaded down with trivial details disassembly and assembly of this kind of needs, is not also suitable for and is set up in outdoor antenna.

Therefore, in order to take into account convenience and the timeliness in when assembling, how to design can rapid-assembling and can be arranged at accurately again the antenna in required orientation bracing or strutting arrangement be that electronic industry is needed the important goal of effort badly now.

Summary of the invention

Therefore, the present invention is mainly to provide a kind of Antenna holder.

The present invention discloses a kind of Antenna holder, and this Antenna holder is used for supporting an antenna, and this Antenna holder includes a support arm; One holder, this holder is fixedly arranged on this support arm; One first connector, this first connector is being connected in this holder with respect to the mode of one first axial-rotation; One second connector, this second connector is being connected in this first connector with respect to the mode of one second axial-rotation; And an aerial bracket, this aerial bracket is located on this second connector, and this antenna is located on this aerial bracket.

The present invention also discloses a kind of Antenna holder, and this Antenna holder is used for supporting an antenna, and this Antenna holder includes a support arm; One holder, this holder is fixedly arranged on this support arm; And an aerial bracket, this aerial bracket with can with respect to one first axially and the mode of one second axial-rotation be connected in this holder, and this antenna is located on this aerial bracket.

Antenna holder of the present invention can provide user simple fitting operation, and simultaneously can adjust direction of rotation and angle, accurately antenna is adjusted to required orientation, actually reach quick and firm installation requirements.

Accompanying drawing explanation

Fig. 1 is the decomposing schematic representation of an Antenna holder of the embodiment of the present invention.

Fig. 2 is the combination schematic diagram of the Antenna holder of Fig. 1.

Fig. 3 is the side schematic view of the Antenna holder of Fig. 1.

The schematic diagram when Antenna holder that Fig. 4 and Fig. 5 are respectively Fig. 1 is assembled.

Fig. 6 is the schematic diagram while applying to the antenna system of multiple antennas.

Fig. 7 to Fig. 9 is respectively the alternate embodiment schematic diagram of the mode of connection between the holder of Fig. 1 and connector and between two connectors.

Fig. 8 is the schematic diagram of another mode of connection of two connectors of Fig. 1.

Fig. 9 is the schematic diagram of the holder of Fig. 1 and another mode of connection of connector.

Figure 10 is the decomposing schematic representation of another Antenna holder of the embodiment of the present invention.

Figure 11 is the decomposing schematic representation of another Antenna holder of the embodiment of the present invention.

Figure 12 to Figure 14 is respectively the alternate embodiment schematic diagram of the mode of connection between holder and the support arm of Fig. 1.

Primary clustering symbol description:

10,1000

Antenna holder

1046,1062,1063,1082 articulated sections

100,1008, AT1, AT2, AT3 antenna 106,108 connectors

The auxiliary arc groove of 102 support arm 1088

104 holder 110 aerial brackets

1042,1064,1068,1084 arc groove AX1, AX2 are axial

1044,1061,1066,1086 positioning component α, β, α 1, β 1 angle

Embodiment

Please refer to Fig. 1 to Fig. 3, the decomposing schematic representation of the Antenna holder 10 that Fig. 1 is the embodiment of the present invention, Fig. 2 and Fig. 3 are respectively combination schematic diagram and the side schematic view of the Antenna holder 10 of Fig. 1.Antenna holder 10 is used for supporting an antenna 100.As shown in Figure 1, Antenna holder 10 includes a support arm 102, a holder 104, connector 106, connector 108 and aerial bracket 110.Holder 104 is fixedly arranged on support arm 102.Connector 106 is being connected in holder 104 with respect to the mode of an axial AX1 rotation.Connector 108 is being connected in connector 106 with respect to the mode of an axial AX2 rotation.Wherein, preferably, axially AX1 is different from axial AX2.Aerial bracket 110 is located on connector 108, and antenna 100 is located on aerial bracket 110.In the case, as shown in Figure 2, user is each assembly of assembling aerial bracing or strutting arrangement 10 rapidly, and antenna 100 is firmly fixed on support arm 102, and adjust connector 106,108 via rotation, antenna 100 can be adjusted to desired position and angle.In brief, Antenna holder 10 of the present invention can be adjusted by simple rotation, accurately antenna 100 is adjusted to required orientation, and can reaches quick and firm installation requirements.

As shown in Figure 3, connector 106 being installed while being connected to holder 104, can by connector 106 vertically AX1 be rotated adjustment (for example vertically AX1 rotation alpha angle), then connector 106 is pivoted to holder 104; In like manner, connector 108 being installed while being connected to connector 106, can by connector 108 vertically AX2 be rotated adjustments (for example AX2 rotates β angle vertically), then connector 108 is pivoted on connector 106.Thus, because axially AX1 is also nonparallel axial with axial AX2, for instance, axially AX1 is with axially AX2 is orthogonal, once connector 106 and connector 108 be rotated respectively adjust with pivot joint after, be equivalent to the relative position of antenna 100 axially to adjust and can make antenna 100 be installed in rapidly optimal signal transmitting and receiving position along two respectively.

Further describe the function mode of the Antenna holder 10 in Fig. 1, please continue to refer to Fig. 1, holder 104 also includes an arc groove 1042 and positioning component 1044, connector 106 also includes an articulated section 1062, an arc groove 1064 and a positioning component 1066, and connector 108 also includes an articulated section 1082.Please refer to Fig. 4 and Fig. 5, the schematic diagram when Antenna holder 10 that Fig. 4 and Fig. 5 are respectively Fig. 1 is assembled.As shown in Figure 4, first, after holder 104 is fixed on support arm 102, can be by positioning component 1044 through the arc groove 1042 on articulated section 1062 and holder 104 on connector 106, so that connector 106 is articulated on holder 104, positioning component 1044 can be located along arc groove 1042 relative position of holder 104 and connector 106 simultaneously, thus, its angle (for example connector 106 AX1 rotation alpha 1 angle vertically) extremely required with relative position between holder 104 is adjusted in the rotation of AX1 vertically by connector 106.Further, can be as shown in Figure 5, pass the arc groove 1064 on articulated section 1082 and the connector 106 on connector 108 by positioning component 1066, so that connector 108 is articulated on connector 106, positioning component 1066 can be along the relative position of arc groove 1064 positioning links 106 and connector 108 simultaneously, make the extremely required angle (for example connector 106 AX2 rotation vertically β 1 angle) of relative position between connector 108 adjustment of AX2 rotation vertically and connector 106, thus, the antenna 100 of being located on aerial bracket 110 can be adjusted installation desired location and angle.

The present invention can apply to any kind antenna or antenna array system, the such as antenna of satellite antenna, LTE wireless communication system etc., and those of ordinary skills should do different application according to this, and are not limited to this.For instance, take the LTE aerial array that is applied in LTE wireless communication system as example, as shown in Figure 6, LTE antenna AT1, AT2 and AT3 and be adjusted to respectively different orientation and realize the aerial array of Multiinputoutput, therefore,, once install out of doors, user is by the design of Antenna holder of the present invention, just can quickly and accurately each antenna be adjusted to required orientation, realize complete installation requirements.

On the other hand, please refer to Fig. 7 to Fig. 9, another mode of connection about holder 104 with connector 106, as shown in Figure 7, holder 104 also includes an articulated section 1046, and connector 106 also includes an arc groove 1068 and positioning component 1061, according to same operation principles, by positioning component 1061, through the articulated section 1046 of holder 104 and the arc groove 1068 of connector 106, connector 106 can also be connected in holder 104 with respect to the mode of axial AX1 rotation.Similarly, another mode of connection about connector 106 with connector 108, except the embodiment of earlier figures 1, as shown in Figure 8, connector 106 also includes an articulated section 1063, and connector 108 also includes an arc groove 1084 and positioning component 1086, according to same operation principles, by positioning component 1086, through the articulated section 1063 of connector 106 and the arc groove 1084 of connector 108, connector 108 can also be connected in connector 106 with respect to the mode of axial AX2 rotation.In addition, holder 104 also can link by the mode of arc groove with connector 108 with connector 106 or connector 106, for instance, as shown in Figure 9, is compared to the connector 108 of Fig. 1, and connector 108 also includes an auxiliary arc groove 1088.Therefore, utilize positioning component 1066 to locate through the auxiliary arc groove 1088 on connector 108 and the arc groove 1064 on connector 106 relativeness of adjusting between connector 106 and connector 108, still can reach identical rotation and adjust demand.In like manner, holder 104 also can utilize the above-mentioned mode that arc groove is all set to link with the mode of connection of connector 106, does not repeat them here.

Please refer to Figure 10, the decomposing schematic representation of the Antenna holder 1000 that Figure 10 is the embodiment of the present invention, Antenna holder 1000 includes a support arm 1002, a holder 1004 and aerial bracket 1006.It should be noted that, because the assembly in the Antenna holder 1000 of Figure 10 and the Antenna holder 10 of Fig. 1 with same names has similar function mode and function, therefore for asking description for purpose of brevity, describe in detail just in this omission, the connection relationship of those assemblies as shown in Figure 1, does not repeat them here.Different from the Antenna holder 10 of Fig. 1, the Antenna holder 1000 of Figure 10 omits the connector that is used for adjusting two axial angles.Holder 1004 also includes an articulated section 10042, an arc groove 10044 and positioning component 10046 and 10048, aerial bracket 1006 also includes an arc groove 10062 and an auxiliary arc groove 10064, by positioning component 10046 is carried out to pivot joint through articulated section 10042 and arc groove 10062, and make aerial bracket 1006 AX2 rotation vertically, to adjust to required angle.Then, by positioning component 10048 is carried out to pivot joint through arc groove 10044 and auxiliary arc groove 10064, and make aerial bracket AX1 rotation vertically, thus, antenna 1008 can be adjusted to desired position and angle equally.In like manner, also can be provided with an arc groove and an auxiliary arc groove at holder 1004, collocation aerial bracket arranges arc groove and a positioning component, can reach equally identical adjustment effect, does not repeat them here.

On the other hand, after holder is arranged to support arm 102, holder still can be connected with connector or aerial bracket, and can really be rotated the program of adjustment.Preferably, can in holder, increase the design of limit for height assembly, thus, in the time that holder is fixedly arranged on support arm, can guarantee that aerial bracket can be rotated adjustment.For instance, please refer to Figure 11.Take the Antenna holder 10 of Fig. 1 as example, holder 104 also comprises a limit for height assembly 1102, thus, can make holder 104 be fixedly attached to after support arm 102 by limit for height assembly 1102, holder still has enough spaces, makes coupled object still can be rotated adjustment programme.Preferably, limit for height assembly 1102 can a limit for height screw, a limit for height axle sleeve (bush), a limit for height blind rivet or any device for limit for height realize.

Be noted that Antenna holder 10 is for one embodiment of the invention, those of ordinary skills should do different modifications according to this, and are not limited to this.For instance, as Figure 12 to Figure 14, holder 104 can weld, locks, removably or other any fixing modes are arranged on support arm 102.The structure that holder 104 can also be formed in one with support arm 102.In addition, above-mentioned arc groove or the quantity of auxiliary arc groove are regardless of, as long as its corresponding center of arc is positioned on corresponding axial axial line.

In sum, Antenna holder of the present invention can provide user simple fitting operation, and simultaneously can adjust direction of rotation and angle, accurately antenna is adjusted to required orientation, actually reach quick and firm installation requirements.

The foregoing is only preferred embodiment of the present invention, every equalization of doing according to the scope of the claims in the present invention book changes and modifies, and all should belong to covering scope of the present invention.

Claims

1. an Antenna holder, is used for supporting an antenna, and this Antenna holder comprises:

One support arm;

One holder, this holder is fixedly arranged on this support arm;

One first connector, this first connector is being connected in this holder with respect to the mode of one first axial-rotation;

One second connector, this second connector is being connected in this first connector with respect to the mode of one second axial-rotation; And

One aerial bracket, this aerial bracket is located on this second connector, and this antenna is located on this aerial bracket,

Wherein, this holder comprises one first auxiliary arc groove, this first connector comprises one first arc groove and one first positioning component, wherein this first positioning component is through this first auxiliary arc groove and this first arc groove, so that this first connector is articulated on this holder, and this first positioning component can be located along the auxiliary arc groove of this first arc groove and this first relative position of this holder and this first connector, makes this first connector along the relative position between this first axial-rotation adjustment and this holder.

2. an Antenna holder, is used for supporting an antenna, and this Antenna holder comprises:

One support arm;

One holder, this holder is fixedly arranged on this support arm;

Wherein, this holder comprises one first arc groove and one first positioning component, this first connector comprises one first articulated section, wherein this first positioning component is through this first articulated section and this first arc groove, so that this first connector is articulated on this holder, and this first positioning component can be located along this first arc groove the relative position of this holder and this first connector, make this first connector along the relative position between this first axial-rotation adjustment and this holder, this holder also comprises one first auxiliary arc groove, this first connector also comprises one first arc groove and one second positioning component, wherein this second positioning component is through this first auxiliary arc groove and this first arc groove, so that this first connector is articulated on this holder, and this second positioning component can be located along the auxiliary arc groove of this first arc groove and this first relative position of this holder and this first connector, make this first connector along the relative position between this first axial-rotation adjustment and this holder.

3. an Antenna holder, is used for supporting an antenna, and this Antenna holder comprises:

One support arm;

One holder, this holder is fixedly arranged on this support arm;

Wherein, this first connector comprises one second arc groove and one first positioning component, this second connector comprises one second articulated section, wherein this first positioning component is through this second articulated section and this second arc groove, so that this second connector is articulated on this first connector, and this first positioning component can be located along this second arc groove the relative position of this first connector and this second connector, make this second connector along the relative position between this second axial-rotation adjustment and this first connector, this first connector also comprises one second auxiliary arc groove, this second connector also comprises one second arc groove and one second positioning component, wherein this second positioning component is through this second auxiliary arc groove and this second arc groove, so that this second connector is articulated on this first connector, and this second positioning component can be located along the auxiliary arc groove of this second arc groove and this second relative position of this first connector and this second connector, make this second connector along the relative position between this second axial-rotation adjustment and this first connector.

4. an Antenna holder, is used for supporting an antenna, and this Antenna holder comprises:

One support arm;

One holder, this holder is fixedly arranged on this support arm;

Wherein, this first connector comprises one second auxiliary arc groove, this second connector comprises one second arc groove and one second positioning component, wherein this second positioning component is through this second auxiliary arc groove and this second arc groove, so that this second connector is articulated on this first connector, and this second positioning component can be located along the auxiliary arc groove of this second arc groove and this second relative position of this first connector and this second connector, makes this second connector along the relative position between this second axial-rotation adjustment and this first connector.

5. the Antenna holder as described in one of claim 1 to 4, wherein this second connector and this aerial bracket structure that is formed in one.

6. the Antenna holder as described in one of claim 1 to 4, wherein this first is axially different from that this is second axial.

7. the Antenna holder as described in one of claim 1 to 4, wherein this first is axially perpendicular to that this is second axial.

8. the Antenna holder as described in one of claim 1 to 4, wherein this holder also comprises a limit for height assembly, is used in the time that this holder is fixedly arranged on this support arm, guarantees that this first connector can be rotated adjustment.

9. an Antenna holder, is used for supporting an antenna, and this Antenna holder comprises:

One support arm;

One holder, this holder is fixedly arranged on this support arm; And

One aerial bracket, this aerial bracket with can with respect to one first axially and the mode of one second axial-rotation be connected in this holder, and this antenna is located on this aerial bracket,

Wherein, this aerial bracket comprises one first arc groove and one first positioning component, this holder comprises one first articulated section, wherein this first positioning component is through this first articulated section and this first arc groove, and locate the relative position of this holder and this aerial bracket along this first arc groove, make this aerial bracket along the relative position between this first axial-rotation adjustment and this holder, this aerial bracket also comprises one first auxiliary arc groove, this holder also comprises one second arc groove and one second positioning component, the second positioning component is through this first auxiliary arc groove and this second arc groove, and locate the relative position of this holder and this aerial bracket along this second arc groove, make this aerial bracket along the relative position between this second axial-rotation adjustment and this holder.

10. an Antenna holder, is used for supporting an antenna, and this Antenna holder comprises:

One support arm;

One holder, this holder is fixedly arranged on this support arm; And

Wherein, this aerial bracket comprises one first articulated section, this holder comprises one first arc groove and one first positioning component, wherein this first positioning component is through this first articulated section and this first arc groove, and locate the relative position of this holder and this aerial bracket along this first arc groove, make this aerial bracket along the relative position between this first axial-rotation adjustment and this holder, this aerial bracket also comprises one second arc groove and one second positioning component, this holder also comprises one first auxiliary arc groove, the second positioning component is through this first auxiliary arc groove and this second arc groove, and locate the relative position of this holder and this aerial bracket along this second arc groove, make this aerial bracket along the relative position between this second axial-rotation adjustment and this holder.

11. Antenna holders as described in claim 9 or 10, wherein the center of arc of this first arc groove and this first auxiliary arc groove is positioned on this first axial axial line.

12. Antenna holders as described in claim 9 or 10, wherein this first is axially different from that this is second axial.

13. Antenna holders as described in claim 9 or 10, wherein this first is axially perpendicular to that this is second axial.

14. Antenna holders as described in claim 9 or 10, wherein this holder also comprises a limit for height assembly, is used in the time that this holder is fixedly arranged on this support arm, guarantees that this aerial bracket can be rotated adjustment.