CN101546866A - Antenna - Google Patents

Antenna Download PDF

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Publication number
CN101546866A
CN101546866A CN200810085597A CN200810085597A CN101546866A CN 101546866 A CN101546866 A CN 101546866A CN 200810085597 A CN200810085597 A CN 200810085597A CN 200810085597 A CN200810085597 A CN 200810085597A CN 101546866 A CN101546866 A CN 101546866A
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CN
China
Prior art keywords
antenna
heart yearn
coaxial cable
metal level
branch
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN200810085597A
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Chinese (zh)
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CN101546866B (en
Inventor
林信龙
方建兴
曹培英
陈智鹏
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SMART APPROACH TECHNOLOGY Co Ltd
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SMART APPROACH TECHNOLOGY Co Ltd
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Priority to CN2008100855979A priority Critical patent/CN101546866B/en
Publication of CN101546866A publication Critical patent/CN101546866A/en
Application granted granted Critical
Publication of CN101546866B publication Critical patent/CN101546866B/en
Expired - Fee Related legal-status Critical Current
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Abstract

The invention discloses an antenna, which comprises a coaxial cable and a grounding element. In the invention, a core wire at one end of the coaxial cable is used as a radiating element of the antenna; the core wire is bent and/or overlapped in cooperation with the required antenna type to form the appropriate shape of the radiating element so as to provide the functions of an antenna signal feed-in part and an antenna radiation part; and a metal layer at one end of the coaxial cable and the grounding element are used for providing the function of signal grounding of the antenna so as to form the antenna of the required type at one end of the coaxial cable.

Description

Antenna
Technical field
The present invention relates to a kind of antenna, relate in particular to a kind of antenna of making by coaxial cable.
Background technology
Because use the wireless communication technology of electromagnetic wave transmission signal, having does not in the use need the wiring material, can reach the effect of linking up with remote-control device.Therefore have the advantage of being convenient to move, make and utilize the product category of wireless communication technology to grow with each passing day, for example mobile phone, mobile computer etc.And these products are owing to use electromagnetic wave transmission signal, and the antenna that therefore is used to receive and dispatch electromagnetic wave signal becomes necessary device.At present antenna mainly be divided into expose to the outer antenna of device with in be built in antenna in the device, and owing to expose to the outer antenna of device, except influence the small product size size and attractive in appearance, also have to be subjected to external force collision easily and bending, the shortcoming that fractures.Therefore the in-building type antenna has become a kind of trend.
Please refer to a kind of in-building type antenna of Fig. 1 for prior art.This antenna is a kind of inverted F shaped antenna, has aerial radiation portion 1, the earth element 2 relative at interval with this radiating antenna, is positioned between the two conductive connecting pin 3 and signal feed-in part 4.Conductive connecting pin 3 is connected an end of aerial radiation portions 1 to earth element 2, with as lead pin.Signal feed-in part 4 is arranged at the centre position between the two ends of aerial radiation portion 1, receives the signal from holding wire 5 feed-ins.In the length of signal feed-in part 4 right side parts, approximate quarter-wave in the aerial radiation portion 1.Therefore can send the electromagnetic wave of a characteristic frequency (f=c/ λ), also can respond to the electromagnetic wave signal of this frequency, and the signal of induction is passed to holding wire 5 derivation via signal feed-in part 4.
The inverted F shaped antenna of prior art needs with aerial radiation portion 1 and the effect of earth element 2 as transmitting-receiving radiation signal and signal ground, need simultaneously with two independent conductive connecting pins 3 arranged side by side and signal feed-in part 4 be used as leading with the purposes that receives FD feed, cause member more various, on design cost, be difficult for descending.
Summary of the invention
Technical problem to be solved by this invention provides a kind of antenna, in order to simplify the complicated problem of inverted F shaped antenna member of prior art.
The disclosed antenna of the present invention includes coaxial cable and earth element.Coaxial cable includes heart yearn, insulating barrier and metal level.One end of heart yearn presents bending shape, and wherein the heart yearn of bending shape is distinguished into signal feed-in part and aerial radiation portion, by the signal feed-in part FD feed to aerial radiation portion, again by aerial radiation portion wireless transmission signal.It is online that insulating barrier is coated on core, and expose the heart yearn of bending shape.Metal level is coated on the insulating barrier, in order to as signal ground.Earth element connects and to be close to this metal level that heart yearn presents an end of bending shape, and with the extension as metal level, wherein earth element has extension, and extension connects aerial radiation portion, with as conductive connecting pin.
The disclosed antenna of the present invention, except the heart yearn of coaxial cable is treated as the direct FD feed of signal feed-in part, and the heart yearn bending of coaxial cable is reached the function of transmitting-receiving radiation signal with the alternate antenna Department of Radiation, while is connected with an earth element on the metal level of bending heart yearn one end of close coaxial cable, in order to extend as ground connection, and earth element has an extension to connect aerial radiation portion, reaches the function of signal ground.The present invention utilizes the heart yearn of coaxial cable to be used as the radiant element of antenna, include the function of signal feed-in part and aerial radiation portion, simultaneously can cooperate the shape of required radiant element and bend and/or overlap, and then form the antenna of required type, reduce the complexity of Antenna Design with the member of simplifying antenna, reduce cost simultaneously.
Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.
Description of drawings
Fig. 1 is a kind of in-building type antenna schematic diagram of prior art;
Fig. 2 A is the first embodiment schematic diagram of antenna of the present invention;
Fig. 2 B is the first embodiment schematic diagram of antenna of the present invention;
Fig. 3 is the second embodiment schematic diagram of antenna of the present invention;
Fig. 4 is the 3rd embodiment schematic diagram of antenna of the present invention;
Fig. 5 is the 4th embodiment schematic diagram of antenna of the present invention;
Fig. 6 A is that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 2412MHz measures figure;
Fig. 6 B is that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 2437MHz measures figure;
Fig. 6 C is that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 2462MHz measures figure;
Fig. 6 D is that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 2412MHz measures figure;
Fig. 6 E is that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 2437MHz measures figure;
Fig. 6 F is that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 2462MHz measures figure;
Fig. 7 A is that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 4900MHz measures figure;
Fig. 7 B is that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 5150MHz measures figure;
Fig. 7 C is that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 5350MHz measures figure;
Fig. 7 D is that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 4900MHz measures figure;
Fig. 7 E is that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 5150MHz measures figure; And
Fig. 7 F is that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 5350MHz measures figure.
Wherein, Reference numeral:
1: aerial radiation portion 2: earth element
3: conductive connecting pin 4: signal feed-in part
5: holding wire 21: coaxial cable
22: earth element 23: heart yearn
23a: first branch 23b: second branch
23c: the 3rd branch 23d: the 4th branch
23e: the 5th branch 24: insulating barrier
25: metal level 26: the insulation material
27: the junction surface 28: extension
30: insert and put part 30a: go up sheet material
30b: following sheet material 31: groove
100: antenna
Embodiment
Please refer to Fig. 2 A and Fig. 2 B, Fig. 2 A is the antenna first embodiment schematic diagram of the present invention.Fig. 2 B is another schematic diagram of antenna first embodiment of the present invention.Wherein antenna 100 includes coaxial cable 21 and earth element 22.
Coaxial cable 21 includes heart yearn 23, insulating barrier 24 and metal level 25.
One end of heart yearn 23 can cooperate required antenna pattern and bend and/or overlap.Wherein, the heart yearn 23 of bending shape is distinguished into signal feed-in part and aerial radiation portion.By the signal feed-in part FD feed to aerial radiation portion, again by aerial radiation portion wireless transmission signal.
The heart yearn 23 of bending shape can be considered by first 23a of branch, second 23b of branch, the 3rd 23c of branch and the 4th 23d of branch to be formed.
Heart yearn 23 in the end of first 23a of branch and the coaxial cable 21 is connected (that is, being extended by the heart yearns 23 in the coaxial cable 21), and the other end of first 23a of branch is towards the direction extension away from coaxial cable 21.In this, first 23a of branch can be vertical mutually with coaxial cable 21 haply.
The end of second 23b of branch is connected (that is, being extended away from an end of coaxial cable 21 by first 23a of branch) with first 23a of branch, and the other end of second 23b of branch extends towards the direction away from coaxial cable 21.In this, second 23b of branch can be parallel to each other with coaxial cable 21 haply, promptly perpendicular to first 23a of branch.
The end of the 3rd 23c of branch is connected (that is, being extended away from the end of first 23a of branch by second 23b of branch) with second 23b of branch, and the other end of the 3rd 23c of branch extends towards the direction away from coaxial cable 21.In this, the 3rd 23c of branch can be parallel to each other with first 23a of branch haply, promptly perpendicular to second 23b of branch.
The end of the 4th 23d of branch is connected (that is, being extended away from the end of second 23b of branch by the 3rd 23c of branch) with the 3rd 23c of branch, and the other end of the 4th 23d of branch extends towards the direction of coaxial cable 21.In this, the 4th 23d of branch can be parallel to each other with second 23b of branch haply, promptly perpendicular to the 3rd 23c of branch.
In this, first 23a of branch can be used as the signal feed-in part of antenna, and second 23b of branch, the 3rd 23c of branch and the 4th 23d of branch then can be used as the aerial radiation portion of antenna.
Insulating barrier 24 is coated on the heart yearn 23, and exposes the heart yearn 23 of bending shape, to keep being electrically insulated between exposed heart yearn 23 and other material.
Metal level 25 is coated on the insulating barrier 24.In this, metal level 25 is as the usefulness of signal ground.
Coaxial cable 21 more includes an insulation material 26.Insulation material 26 is coated on the metal level 25, and exposes and be close to the metal level 25 that heart yearn 23 presents an end of bending shape.The metal level 25 that exposes can be in order to the signal ground as antenna 100.
Earth element 22 connects the metal level 25 that exposes, and promptly connects to be close to heart yearn 23 and to present on the metal level 25 of an end of bending shape.In this, earth element 22 is in order to the extension as metal level 25.
Wherein, earth element 22 has a junction surface 27, and electrically connects with junction surface 27 and metal level 25.Junction surface 27 can around and be connected on the metal level 25, also can overlap is connected on the metal level 25.
Earth element 22 also has an extension 28, with as the conductive connecting pin that is connected between aerial radiation portion and the earth element 22.One end of extension 28 is connected on the earth element 22 (that is, being gone out by the Subject Extension of earth element 22), and the other end then extends and is connected to aerial radiation portion.In this, extension 28 can be parallel to each other with signal feed-in part haply, promptly perpendicular to aerial radiation portion.
The disclosed antenna 100 of the present invention in order to the heart yearn 23 of coaxial cable 21 is directly bent to treat as the signal feed-in part and the aerial radiation portion of antenna 100, makes it have the function that the signal feed-in fed out and received and dispatched radiation signal.While is connected with earth element 22 on the metal level 25 of bending heart yearn 23 1 ends of close coaxial cable 21, in order to extend as metal level 25 ground connection, and earth element 22 has extension 28 to connect aerial radiation portion, in order to be used as conductive connecting pin, make the signal in the aerial radiation portion be passed to earth element 22 via extension 28.
The present invention utilizes the heart yearn 23 of coaxial cable 21 to be used as the signal feed-in part and the aerial radiation portion of antenna 100, simultaneously heart yearn 23 can cooperate the shape of required antenna and bends and/or overlap, and then form the antenna of required type, reduce the complexity of Antenna Design with the member of simplifying antenna, reduce cost simultaneously.In this, according to antenna of the present invention, can cooperate required antenna type (for example: inverted F shaped antenna etc.) and the bending and/or the heart yearn of overlapping coaxial cable forming suitable radiant element shape, and the metal level of utilization coaxial cable is to provide the signal ground of antenna.
Please refer to Fig. 3, Fig. 3 is the antenna second embodiment schematic diagram of the present invention.The second embodiment of the invention and first embodiment device are identical, and its difference is that in antenna 100, the heart yearn 23 of bending shape also includes the 5th 23e of branch.Wherein, the end of the 5th 23e of branch is connected (that is, being extended away from the end of the 3rd 23c of branch by the 4th 23d of branch) with the 4th 23d of branch, and the other end of the 5th 23e of branch is connected on the metal level 25 of coaxial cable 21.In this, the 5th 23e of branch can be haply perpendicular to the 4th 23d of branch.
Please refer to Fig. 4, Fig. 4 is antenna the 3rd an embodiment schematic diagram of the present invention.The third embodiment of the invention and first embodiment and second embodiment are identical.
In this embodiment, antenna 100 also includes and inserts and puts part 30.Insert and put part 30 and have last sheet material 30a and following sheet material 30b.Wherein, having the end of coaxial cable 21 of heart yearn 23 of bending shape and the junction surface 27 and the extension 28 of earth element 22 is folded between sheet material 30a and the following sheet material 30b, with the bending shape of fixing heart yearn 23 and keep being connected of junction surface 27 and metal level 25 and being connected of extension 28 and aerial radiation portion, avoiding producing distortion and/or displacements, and avoid producing distortion and/or displacement causes antenna 100 can't normally receive and dispatch radiation signal because of antenna member because of extruding or external force make the bending shape of heart yearn 23 and the junction surface 27 and the extension 28 of earth element 22.
Please refer to Fig. 5, Fig. 5 is antenna the 4th an embodiment schematic diagram of the present invention.Fourth embodiment of the invention and the 3rd embodiment device are identical, have groove 31 on the inner surface of at least one among the last sheet material 30a that its difference is to insert and put part 30 and the following sheet material 30b, have the end of coaxial cable 21 of heart yearn 23 of bending shape and the junction surface 27 and the extension 28 of earth element 22 in order to setting.In this, the shape of groove 31 corresponds to heart yearn 23, junction surface 27 and the extension 28 that the desire folder is established haply.In this embodiment, fixedly have the end of coaxial cable 21 of heart yearn 23 of bending shape and the junction surface 27 and the extension 28 of earth element 22 by inserting and putting part 30, can avoid producing distortion and/or displacements with extension 28, and then can avoid producing distortion and/or displacement causes antenna 100 can't normally receive and dispatch radiation signal because of antenna member because of extruding or external force make heart yearn 23, junction surface 27.
In addition, insert and put part 30 earth element 22 reflexeds outward to inserting and putting on the part 30 and being arranged on the outer surface that inserts and puts part 30,, promptly dwindle the occupied two-dimensional space of antenna to dwindle the size of antenna relatively but be exposed to.
Please refer to Fig. 6 A, Fig. 6 B and Fig. 6 C, wherein Fig. 6 A, Fig. 6 B and Fig. 6 C are that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 2412MHz, 2437MHz and 2462MHz respectively measures figure.
Please refer to Fig. 6 D, Fig. 6 E and Fig. 6 F, wherein Fig. 6 D, Fig. 6 E and Fig. 6 F are that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 2412MHz, 2437MHz and 2462MHz respectively measures figure.
By among Fig. 6 A, Fig. 6 B, Fig. 6 C, Fig. 6 D, Fig. 6 E and Fig. 6 F as can be seen, utilize the heart yearn bending of coaxial cable can effectively receive and dispatch radiation frequency 2.4GHz signal, and reach radiation pattern as inverted F shaped antenna with the alternate antenna Department of Radiation.
Please refer to Fig. 7 A, Fig. 7 B and Fig. 7 C, wherein Fig. 7 A, Fig. 7 B and Fig. 7 C are that the horizontal polarization that antenna the 4th embodiment of the present invention measures when frequency is 4900Mz, 5150MHz and 5350MHz respectively measures figure.
Please refer to Fig. 7 D, Fig. 7 E and Fig. 7 F, wherein Fig. 7 D, Fig. 7 E and Fig. 7 F are that the perpendicular polarization that antenna the 4th embodiment of the present invention measures when frequency is 4900Mz, 5150MHz and 5350MHz respectively measures figure.
By among Fig. 7 A, Fig. 7 B and Fig. 7 C, Fig. 7 D, Fig. 7 E and Fig. 7 F as can be seen, utilize the heart yearn bending of coaxial cable can effectively receive and dispatch radiation frequency 5GHz signal, and reach radiation pattern as inverted F shaped antenna with the alternate antenna Department of Radiation.
Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (6)

1. an antenna is characterized in that, includes:
One coaxial cable includes:
One heart yearn, one end of this heart yearn presents a bending shape, this heart yearn of this bending shape is distinguished into a signal feed-in part and an aerial radiation portion, wherein this signal feed-in part in order to feed-in one signal to this aerial radiation portion, by this aerial radiation portion this signal of wireless transmission;
One insulating barrier, it is online to be coated on this core, and exposes this heart yearn of this bending shape; And
One metal level is coated on this insulating barrier, with as signal ground; And
One earth element connects this metal level of this end be close to this heart yearn, and with the extension as this metal level, this earth element has an extension, and this extension connects this aerial radiation portion, with as a conductive connecting pin.
2. antenna according to claim 1 is characterized in that this earth element also has a junction surface, and this junction surface is surrounded on this metal level.
3. antenna according to claim 1 is characterized in that this earth element also has a junction surface, and this junction surface is overlapped on this metal level.
4. antenna according to claim 1, it is characterized in that, also include one and insert and put part, this inserts and puts part and has on one sheet material and sheet material once, has the end of this coaxial cable of this heart yearn of this bending shape and this conductive connecting pin and is folded on this between the sheet material and this time sheet material.
5. antenna according to claim 4 is characterized in that, has a groove on the inner surface of at least one in sheet material and this time sheet material on this, with this end and this conductive connecting pin that this coaxial cable is set.
6. antenna according to claim 1 is characterized in that, this coaxial cable also includes an insulation material, and this insulation material is coated on this metal level, and exposes this metal level of this end that is close to this heart yearn.
CN2008100855979A 2008-03-24 2008-03-24 Antenna Expired - Fee Related CN101546866B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN2008100855979A CN101546866B (en) 2008-03-24 2008-03-24 Antenna

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN2008100855979A CN101546866B (en) 2008-03-24 2008-03-24 Antenna

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CN101546866A true CN101546866A (en) 2009-09-30
CN101546866B CN101546866B (en) 2012-08-22

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CN2008100855979A Expired - Fee Related CN101546866B (en) 2008-03-24 2008-03-24 Antenna

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107027079A (en) * 2017-05-12 2017-08-08 深圳市冠旭电子股份有限公司 Necklet-type bluetooth earphone
CN113471692A (en) * 2020-03-30 2021-10-01 仁宝电脑工业股份有限公司 Antenna device

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6842155B1 (en) * 2003-08-05 2005-01-11 D-Link Corporation Low-cost coaxial cable fed inverted-L antenna

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107027079A (en) * 2017-05-12 2017-08-08 深圳市冠旭电子股份有限公司 Necklet-type bluetooth earphone
CN107027079B (en) * 2017-05-12 2024-02-27 深圳市冠旭电子股份有限公司 Necklace type Bluetooth earphone
CN113471692A (en) * 2020-03-30 2021-10-01 仁宝电脑工业股份有限公司 Antenna device

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Granted publication date: 20120822

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