CN205004445U - Radiation protection communication equipment - Google Patents
Radiation protection communication equipment Download PDFInfo
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- CN205004445U CN205004445U CN201420849708.XU CN201420849708U CN205004445U CN 205004445 U CN205004445 U CN 205004445U CN 201420849708 U CN201420849708 U CN 201420849708U CN 205004445 U CN205004445 U CN 205004445U
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Abstract
Radiation protection communication equipment includes: the screened antenna of shell, baseband processing and logic control circuit, man -machine interface, shielding shell, tuner, built -in antenna, high frequency outlet, high frequency plug, antenna switch, single screened antenna, double -shielded antenna, three antenna, expose the antenna. This radiation protection communication equipment and traditional mobile communication machine main distinction: shielding shell isolation with the circuit of the circuit of the high frequency radio frequency of the tuner of traditional mobile communication machine and if section and all radiation all is made with the metal has prevented the strong radiation of these electromagnetic fields to the human body, it does not shield with the built -in antenna only to touch the faceplate. The utility model discloses set up the multiple screened antenna that shields with metallic shield isolation line, guided to the antenna and human a good distance away position, solved traditional communication equipment, the powerful radiation of cell -phone, can solve the problem that there is the blind area in traditional communication equipment in addition, reached good radiation protection and other effects.
Description
Technical field
The utility model relates to a kind of radiation proof communication equipment, be more particularly to and a kind of directly use radiation proof communication equipment is provided, the GB9175-88 " environmental electromagnetic wave sanitary standard " making radiation proof level just can meet or exceed health ministry to send out, and directly use radiation proof communication equipment to complete call, send short messages, all function uses operate to send out micro-letter, online etc., make that human body can not come to harm, respond well radiation proof communication equipment.
Background technology
The World Health Organization published an article on May 31st, 2011, and the Radiation On Human body injury of mobile phone is comparatively large or cause the cancer of the brain.The power density of existing mobile communication apparatus radiation has exceeded the GB9175-88 standard that health ministry is issued out and away after tested, because existing mobile communication apparatus is only that the position of the antenna in machine at machine is moved.Effect after movement is very not obvious, does not reach the above-mentioned GB9175-88 standard that health ministry is issued at all.The power density of a lot of existing mobile phone produced result radiation is after tested had to reach 13600 μ w/cm
2, exceed health ministry and send out GB9175-88 " environmental electromagnetic wave sanitary standard " 1300 times.I, in a kind of patent mobile phone being divided into disome of application on January 7th, 2014, uses cumbersome, connects between disome with wireless simultaneously.The electromagnetic wave of many first secondary wireless receptions and transmitting and production cost improves, price is high; Second because being divided into disome to connect with wireless again, many secondary radio ttransmitter and receivers, too increase the amount of radiation of a pair.Radiation proof communication equipment of the present invention neither mobile communication apparatus is divided into disome, then uses wireless connections, is not again antenna is moved a bit in machine; That the lead-in wire of the antenna in machine is moved to the outer far distance of machine by metal isolation scribes shielding, reach good radiation-proof effect, exceed the GB9175-88 " environmental electromagnetic wave sanitary standard " that the Ministry of Public Health issues after testing, < 10 μ w/cm
2requirement.
Existing more than 60 hundred million people are at use communication apparatus, mobile communication apparatus in the world.Have a lot of people only to use traditional earphone at present, conventional earphone has 1000 Gauss's permanent-magnetic field radiation first in fact, and the effect second playing antenna is sometimes more harmful to human body.I has obtained the U.S., Russia, Canada in the safety earphone to World Intellectual Property Organization, international office application in 2009, Japan, and seven power's patents of invention such as Australia, radiation-proof effect is good.It is extraordinary for using as traditional mobile phone, but now people hold a lot of time communication equipment make a phone call beyond use.And in one day, have direct adept machine of a lot of time to do a lot of purposes.The present invention is that direct adept machine completes online of making a phone call and sends short messages and send out letter micro-and see that TV is listened to the music etc.All use operations, so use very convenient, and radiation-resistant respond well; In sum, from human health factor, society is starved of one both easy to use, price is not high, again can radiation-resistant mobile communication apparatus efficiently.
Summary of the invention
The technical problem that the utility model solves is the shortcoming overcoming prior art, there is provided a kind of uhf electromagnetic wave of radiation proof communication equipment that makes radiation human brain and human body can not reach the health that can not endanger and use mobile communication apparatus person, and radiation proof communication equipment is various functional, the radiation proof communication equipment of various technical requirement all can be reached.
Radiation proof communication equipment of the present utility model, is achieved by the following technical programs
a kind of radiation proof communication equipment,comprise: shell 1, Base-Band Processing andlogic control circuit 2, man-computer interface 3, shielding case 4, to launch and tuner 5, built-in antenna 6, high-frequency socket 7, High-frequency plug 8, the duplexer 9 of processing circuitry of intermediate frequency, any one screened shielded antanna under screened shielded antanna 10, portable type screened shielded antanna 10A, lengthening screened shielded antanna 10B, built-in screened shielded antanna 10C, machine back of the body insertion screened shielded antanna 10D, machine in plug-in type screened shielded antanna 10E, screened shielded antanna 10F, radio frequency cable;
It is characterized in that:
1) high-frequency radio frequency of described tuner 5 and the circuit of intermediate-frequency section all adopt metal to make described shielding case 4 and shield isolation, by described built-in antenna 6 and man-computer interface 3 display screen plane, do not shield, for making communication equipment normally work, everyly the circuit of radiation is had all to isolate with metallic shield in baseband processing circuitry andlogic control circuit 2 and all the other;
2) outside machine, be provided with any one screened shielded antanna in the screened shielded antanna 10 of described metallic shield shielding wire shielding, the 10.1st screened shielded antanna 10.1, the 10.2nd screened shielded antanna 10.2, length is 100-3000mm;
This screened shielded antanna 10 comprises: the radio frequency cable 28 establishing wall scroll, described radio frequency cable 28 comprises antenna lead 17, metallic shield separator 15, (described antenna lead is exactly screened shielded antanna lead-in wire to antenna lead 17, as follows) and metallic shield separator 15 between be provided with insulating barrier, radio frequency cable crust has insulating barrier 13, one end of described screened shielded antanna lead-in wire 17 is installed by astronomical cycle part 11 and is connected otherwise exposed antenna 12, another termination High-frequency plug 8, this High-frequency plug 8 connects high-frequency socket, when High-frequency plug 8 inserts high-frequency socket 7, duplexer 9 disconnects built-in antenna 6 voluntarily, connect tuner 5 simultaneously, when High-frequency plug 8 is extracted, recover built-in antenna 6 to be connected with tuner 5, high-frequency socket 7 or with duplexer 9 be arranged on shell 1 or install stretch out from shell in the circuit board,
10.1st screened shielded antanna 10.1 is provided with the 29.1st radio frequency cable 29.1 and the 29.2nd radio frequency cable 29.2 and combines and form radio frequency cable 29, 29.1st, the radio frequency cable 29.1 of the 29.2nd is identical with radio frequency cable 28 with the 2nd radio frequency cable 29.2 structure, 17.1st antenna lead 17.1 and the 17.2nd antenna lead 17.2 one end connect the 12.1st otherwise exposed antenna 12.1 and the 12.2nd otherwise exposed antenna 12.2 respectively, the other end connects the 8.1st High-frequency plug 8.1 respectively, 2 holes of the 8.2nd High-frequency plug 8.2, when the 8.1st High-frequency plug 8.1, when 8.2nd High-frequency plug 8.2 inserts 2 holes connection of the 7.1st high-frequency socket 7.1, disconnected the connection of the 1st tuner 5.1 circuit and the 6.1st built-in antenna 6.1 and the 6.2nd built-in antenna 6.2 by the 1st duplexer 9.1 simultaneously, connected simultaneously the 5.1st tuner 5.1 circuit respectively with the 8.1st High-frequency plug 8.1, the connection in the 8.2nd High-frequency plug 8.2 hole,
10.2nd screened shielded antanna 10.2 is provided with the radio frequency cable 30 of 3 cores, by the 30.1st single core radio frequency cable 30.1, 30.2nd single core radio frequency cable 30.2, 30.3rd single core radio frequency cable 30.3 combines and forms radio frequency cable 30, has the structure of 3 radio frequency cables 28, and 3 strip antennas, 17 one end that go between connect the 12.3rd respectively, 12.4th, the otherwise exposed antenna 12.3 of the 12.5th, 12.4, 12.5, the other end connects the 8.3rd of 3 holes the respectively, 8.4th, 8.5th High-frequency plug 8.3, 8.4, 8.5 heart yearns, when the 8.3rd of 3 holes, 8.4th, 8.5th High-frequency plug 8.3, 8.4, when 8.5 the 7.2nd high-frequency sockets 7.2 inserting 3 holes connect, the 8.3rd, 8.4th, 8.5th High-frequency plug 8.3, 8.4, 8.5 heart yearns are connected with 3, the circuit of the 5.2nd tuner 5.2 respectively, disconnect the 6.3rd simultaneously, 6.4th, 6.5th these 3 built-in antennas 6.3, 6.4, 6.5, when the 8.3rd, 8.4th, the High-frequency plug 8.3 in 3 holes of the 8.5th, 8.4, 8.5 when extracting the 7.2nd high-frequency socket 7.2, and the 6.3rd, 6.4th, 3 built-in antennas 6.3 of the 6.5th, 6.4, 6.5 recover connection the 5.2nd tuner 5.2 circuit respectively,
All single radio frequency cables, i.e. radio frequency cable 28, 29.1st radio frequency cable 29.1, 29.2nd radio frequency cable 29.2, 30.1st single core radio frequency cable, 30.2nd single core radio frequency cable, 30.3rd single core radio frequency cable 30.1, 30.2, the screen 15 of 30.3 all respectively with High-frequency plug 8, 8.1st, 8.2nd High-frequency plug hole 8.1, 8.2, 8.3rd, 8.4th, 8.5th High-frequency plug hole 8.3, 8.4, the screen of 8.5 connects, and respectively with the high-frequency socket 7 matched, 7.1st high-frequency socket, 7.2nd high-frequency socket 7.1, the screening can of 7.2 connects, eventually through screening can and the tuner 5 of high-frequency socket, 5.1st tuner 5.1, the ground wire of the 5.2nd tuner 5.2 connects,
3) otherwise exposed antenna 12 of screened shielded antanna 10 can be changed to the 12.6th otherwise exposed antenna 12.6,12.1st, the 12.2nd otherwise exposed antenna 12.1,12.2 of the 10.1st screened shielded antanna 10.1 can change the 12.7th, the 12.8th otherwise exposed antenna 12.7,12.8 into, 12.3rd, the 12.4th, the 12.5th otherwise exposed antenna 12.3,12.4,12.5 of the 10.2nd screened shielded antanna 10.2 can change the 12.9th, the 12.10th, the 12.11st otherwise exposed antenna 12.9,12.10,12.11 respectively into, simultaneously otherwise exposed antenna or make other any shape or make ornament;
4) radio frequency cable 28 or be arranged to flat, radio frequency cable 29 two cables or be arranged side by side into flat, 3 articles of 30.1st, the 30.2nd, the 30.3rd single radio frequency cables 30.1,30.2,30.3 can be arranged side by side as flat radio frequency cable by radio frequency cable 30, or comprise otherwise exposed antenna full-shield antenna and be arranged to flat, or whole piece screened shielded antanna is set to circle, and two articles of single radio frequency cables of the 10.1st screened shielded antanna 10.1 or strong and weak different or be set to that one is long and the other is short according to the signal of the antenna of communication equipment;
5) bobbin winoler 31 is that a kind of outside has 4 stars, the middle plastic plate for hollow circle, and 4 stars have 4 apertured orifice, and 4 groove multi-turns are in an orderly manner around upper screened shielded antanna, and apertured orifice is for embedding the end of a thread.
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with described any one screened shielded antanna used in 10A portable type screened shielded antanna 10A, the 10A1 portable type screened shielded antanna 10A1 of metallic shield shielding wire shielding, length is 150-3000mm;
This portable type screened shielded antanna 10A comprises: establish the radio frequency cable 28A described in radio frequency cable 28A of wall scroll to comprise antenna lead 17A, metallic shield separator 15A, insulator is provided with between antenna lead 17A and metallic shield separator 15A, radio frequency cable crust has insulating barrier 13A, one end of described screened shielded antanna lead-in wire 17A is installed by astronomical cycle part 11A and is connected otherwise exposed antenna 12A, another termination High-frequency plug 8A, this High-frequency plug 8A connects high-frequency socket 7A, when High-frequency plug 8A inserts high-frequency socket 7A, duplexer 9A disconnects built-in antenna 6A voluntarily, connect tuner 5A simultaneously, when High-frequency plug 8A extracts, recover built-in antenna 6A to be connected with tuner 5A, high-frequency socket 7A is arranged on shell 1 with duplexer 9A or installs and stretches out from shell 1 in the circuit board, metal screen layer 15C is connected with High-frequency plug 8C shielding case, when High-frequency plug 8C inserts high-frequency socket 7C, High-frequency plug 8C shielding case directly connects tuner 5C ground wire by high-frequency socket 7C,
Described otherwise exposed antenna 12A be made up of the sheet metal of one section of S type or rectangle or software and be provided with gib head, radio frequency cable 28A cross section D-D is bandlet shape, line inside from antenna gib head to plug is bandlet shape entirely, width is consistent, constitute two ends extension band type screened shielded antanna 10A, or be arranged to round belt type, be provided with rotary disk 24A, Mainspring type main spring 23A is provided with in this rotary disk 24A, rotary disk 24A is also provided with trough of belt 25A, for embedding firm radio frequency cable 28A, rotary disk 24A set screw is installed in screened shielded antanna shell 22A, the plane that described rotary disk 24A contacts with screened shielded antanna shell 22A is provided with track 27A, ball 26A is provided with in track, screened shielded antanna 10A is configured to two ends simultaneous retractable, and length segmentation is located, this screened shielded antanna 10A is the screened shielded antanna 10A that all can use at all radiation proof communication equipments being provided with single hole high-frequency socket 7,
Described 10A1 screened shielded antanna 10A1 be exactly 12A1 otherwise exposed antenna 12A1 be set to flap-type, be set to software, purse up time can be anchored on screened shielded antanna shell 22A, or the chip antenna of 12A1 otherwise exposed antenna 12A1 is made cosmetic sheet, or the antenna of other any structure, all the other structures are identical with screened shielded antanna 10A.
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with described any one screened shielded antanna lengthened with lengthening screened shielded antanna 10B, the 10B1 of the shielding of metallic shield shielding wire in screened shielded antanna 10B1,10B2 lengthening screened shielded antanna 10B2, length is 0.5-10m;
This screened shielded antanna 10B comprises: the radio frequency cable 28B arranging wall scroll, described radio frequency cable 28B comprises antenna lead 17B, metallic shield separator 15B, insulating barrier is provided with between antenna lead 17B and metallic shield separator 15B, radio frequency cable crust has insulating barrier 13B, one end of described screened shielded antanna lead-in wire 17B arranges otherwise exposed antenna 12B, this otherwise exposed antenna 12B is installed by astronomical cycle part 11B and connects, be set to any one antenna in telescopic antenna or board type antenna or five wooden antennas, or installed part 11B is set to socket, various antenna is established general plug, change by inserting mode,
The other end of described antenna lead 17B is provided with terminal box 19A, be connected with the binding post of one end in terminal box 19A simultaneously, the other end binding post of terminal box 19A connects 17B-1 antenna lead 17B-1, the outlet of terminal box 19A should be able to reach and make radio frequency cable 28BH whole piece freely stretch into or pull out or expose High-frequency plug 8B, terminal box 19A is set to can be arranged on desk, antenna lead 17BH one end of radio frequency cable 28BH is connected with the binding post of terminal box 19A, the other end is connected with High-frequency plug 8B, when High-frequency plug 8B inserts high-frequency socket 7B, disconnect the connection of tuner 5B circuit and built-in antenna 6B simultaneously, now High-frequency plug 8B connects tuner 5B circuit by duplexer 9B, when High-frequency plug 8B extracts, recover built-in antenna 6B to be connected with tuner 5B circuit, be provided with insulating barrier between the screen of binding post and binding post, screen 15B is connected with screen 15BH by the screen of binding post, then is connected tuner 5B ground wire by High-frequency plug 8B with high-frequency socket 7B,
Described 10B1 screened shielded antanna 10B1 is set on the basis of the structure of screened shielded antanna 10B, add a road antenna, the radio frequency cable 29B arranged comprises and is provided with 29B1 radio frequency cable 29B1 and 29B2 radio frequency cable 29B2, radio frequency cable 29BH comprises 29BH1 radio frequency cable 29BH1 and 29BH2 radio frequency cable 29BH2,29B1 radio frequency cable 29B1 one end is connected with 29BH1 radio frequency cable 29BH1 by 19A1 terminal box 19A1, the other end is installed by astronomical cycle part 11B1 and is connected 12B1 otherwise exposed antenna 12B1,29B2 radio frequency cable 29B2 one end is connected with 29BH2 radio frequency cable 29BH2 by 19A1 terminal box 19A1, the other end is installed by 11B1 astronomical cycle part 11B1 another location and is connected 12B2 otherwise exposed antenna 12B2,29BH1 radio frequency cable 29BH1 is connected 8B1 High-frequency plug 8B1 and 8B2 High-frequency plug 8B2 respectively with the other end of 29B2 radio frequency cable 29B2, when described High-frequency plug 8B1 and 8B2 inserts 7B1 high-frequency socket 7B1,6B1 built-in antenna 6B1 and 6B2 built-in antenna 6B2 is disconnected by 9B1 duplexer 9B1,8B1 and 8B2 High-frequency plug 8B1 and 8B2 is connected tuner 5B circuit respectively simultaneously, when extracting described High-frequency plug 8B1, described built-in antenna 6B1 and described built-in antenna 6B2 is made to recover to connect by described duplexer 9B1,
10B2 screened shielded antanna 10B2 arranges three road radio frequency cables, the screened shielded antanna of No. three antennas, and radio frequency cable 30B is provided with 30B1 radio frequency cable 30B1, 30B2 radio frequency cable 30B2, 30B3 radio frequency cable 30B3,30BH radio frequency cable 30BH includes 30BH1, 30BH2, 30BH3 radio frequency cable 30BH1, radio frequency cable 30BH2, radio frequency cable 30BH3, radio frequency cable 30B one end is connected with described radio frequency cable 30BH by described terminal box 19A2, described terminal box 19A2 is provided with the setting of the binding post that three road radio frequency cables are connected, the described radio frequency cable 30B other end by described astronomical cycle part 11B2 respectively with described otherwise exposed antenna 12B1, described otherwise exposed antenna 12B2, otherwise exposed antenna 12B3 installs connection, and the 30BH radio frequency cable 30BH other end is connected with 8B2 High-frequency plug 8B2, when described High-frequency plug 8B2 inserts described high-frequency socket 7B2, disconnects described built-in antenna 6B1, built-in antenna 6B2, built-in antenna 6B3, simultaneously described High-frequency plug 8B3, 8B4, 8B5 connects described tuner 5B2 circuit, when extracting High-frequency plug 8B2, by duplexer 9B2, makes described built-in antenna 6B3, built-in antenna 6B4, built-in antenna 6B5 recovers to connect automatically,
The binding post of 19A2 terminal box 19A2 or connect by radio frequency cable interface plug-in type, together with the radio frequency cable on two roads and three tunnels or be set to is not incorporated in, each single radio frequency cable connects with High-frequency plug, socket separately, or be set to wherein have 1 road or 2 tunnels only to use 30BH radio frequency cable 30BH, otherwise exposed antenna in described 30BH cable link box termination is set simultaneously;
If terminal box is for the ease of arranging sectional area is little by the radio frequency cable of H-H section than the radio frequency cable of G-G section, or the radio frequency cable shunt by the radio frequency cable of H-H section and G-G section being set at terminal box place, connecting with the High-frequency plug seat of concentric reducer; Or the outside of radio frequency cable 28B, 29B, 30B of G-G section 28B, 29B, 30B is separately added one deck outer shielding layer, i.e. secondary shield ground connection, simultaneously or the ground wire being directly embedded in the earth is set in addition connects to improve shield effectiveness.
Radiation proof communication equipment as previously discussed,
Its characteristic is:
The screened shielded antanna be placed in machine has 10C screened shielded antanna 10C, 10C1 screened shielded antanna 10C1,10C2 screened shielded antanna 10C2, and total length is 100-3000mm, choosing wherein any one screened shielded antanna;
10C screened shielded antanna 10C is provided with 28C radio frequency cable 28C, has described antenna lead 17C, described metallic spacer 15C, has insulating barrier between described antenna lead 17 and metallic spacer;
Because pivotal vibrational power flow has 24C rotary disk 24C when described 10C screened shielded antanna 10C pulls out, 23C main spring 23C is provided with in this rotary disk 24C, this rotary disk 24C is provided with 25C trough of belt 25C, for embedding firm 28C radio frequency cable 28C, this rotary disk 24C set screw is arranged in the chamber 22C of 22C screened shielded antanna garden, the plane that described rotary disk 24C contacts with described screened shielded antanna garden chamber 22C is provided with 27C track 27C, 26C ball 26C is provided with in track, this main spring 23C in this rotary disk 24C is Mainspring type main spring 23C,
10C screened shielded antanna 10C is monolateral flexible, 17C antenna lead 17C one end is connected with described otherwise exposed antenna 12C by described astronomical cycle part 11C, described otherwise exposed antenna 12C structure is identical with described otherwise exposed antenna 12A, the other end is first connected on the becket of this rotary disk 24C respectively, rotary disk is provided with 2 beckets, corresponding has two strip metal sheets, every strip metal sheet is provided with contact point, one of them connects described metallic spacer 15C, a strip metal sheet of described screened shielded antanna cylindrical cavity 22C is delivered to by the rotation metal ring of described rotary disk 24C, the sheet metal of connection metal shielding separator 15C directly receives tuner ground wire, on this rotary disk, another becket connects antenna lead 17C, the input being connected to tuner 5C circuit is changed by described duplexer 9C by another strip metal sheet that is pivotally attached to of rotary disk,
Inside the gib head of described otherwise exposed antenna 12C, be provided with a 9C1 to meet and discuss 9C1, when the gib head pull-out of otherwise exposed antenna 12C, this 9C1 that meets and discusses have left duplexer 9C, now duplexer 9C is disconnected built-in antenna 6C, connect antenna lead 17C Metal Contact sheet simultaneously, when otherwise exposed antenna 12C retraction, met and discussed and pushed up duplexer 9C, now connect built-in antenna 6C, be disconnected the metal connecting sheet of antenna lead 17C simultaneously;
10C1 screened shielded antanna 10C1, be provided with 29C radio frequency cable 29C, this radio frequency cable 29C contains 29C1 radio frequency cable 29C1 and 29C2 radio frequency cable 29C2, be provided with 12C1 otherwise exposed antenna 12C1, otherwise exposed antenna 12C2, be provided with High-frequency plug 8C1 and the rotary disk becket of high-frequency socket 7C1 two-way matched and duplexer 9C1, metallic spacer 15C1, 15C2 merging is connected to a becket, tuner ground wire is directly received by sheet metal, 6C1 built-in antenna 6C1, 6C2 built-in antenna 6C2, the structure of rotary disk is identical with the rotary disk structure of above-mentioned screened shielded antanna 10C, the connection of wiring is identical with above-mentioned 10C, conversion and the connection of outside antenna in a width are added exactly,
The screened shielded antanna 10C2 of 10C2 is provided with 30C radio frequency cable 30C, described radio frequency cable 30C contains 30C1, 30C2, 30C3 radio frequency cable 30C1, radio frequency cable 30C2, radio frequency cable 30C3, be provided with 12C1, 12C2, 12C3 otherwise exposed antenna 12C1, otherwise exposed antenna 12C2, otherwise exposed antenna 12C3, the rotary disk becket on three tunnels is set, the 9C2 duplexer 9C2 on three tunnels, 6C1, 6C2, 6C3 built-in antenna 6C1, built-in antenna 6C2, built-in antenna 6C3, rotary disk is identical with described screened shielded antanna 10C with the structure in rotary disk chamber, each Lu Cong 5C3 tuner 5C3 on three tunnels is identical with described screened shielded antanna 10C with conversion regime to otherwise exposed antenna wiring, its difference just described 10C is a road, described 10C2 is three tunnels.
Radiation proof communication equipment as previously discussed,
Its character is:
10D screened shielded antanna 10D is set to be plugged into the general 7D high-frequency socket 7D in the behind of radiation proof communication equipment, with the general 8D High-frequency plug 8D grafting that chamber, screened shielded antanna garden is arranged, substantially identical with described in described screened shielded antanna 10C of transmission stretching structure and circuit in 10D screened shielded antanna 10D shell, but, it is that antenna lead 17D is delivered to the described High-frequency plug 8D that shell is settled by rotary disk, all can mate with the mobile communication mechanism being provided with general high-frequency socket 7, all can exchange with above-described High-frequency plug and high-frequency socket.
Radiation proof communication equipment as previously discussed,
It is characterized in that:
10E screened shielded antanna 10E is arranged on the lower end being plugged into radiation proof communication equipment, and shell is set to rectangular; The shape of inner wire is identical with the shape of described screened shielded antanna 10D, and described High-frequency plug 8 is configured to directly be inserted into the described high-frequency socket 7 li be arranged on below radiation proof communication equipment, and length is identical with the width of radiation proof communication equipment; Thickness is identical with the thickness of radiation proof communication equipment; Described inner wire is drawstring formula, and its mode of connection is identical with the mode of connection of screened shielded antanna 10D.
Radiation proof communication equipment as previously discussed,
It is characterized in that:
The screened shielded antanna 10F length of 10F is that 150-3000mm is provided with 29F radio frequency cable 29F, 29F1 radio frequency cable 29F1 and 29F2 radio frequency cable 29F2 is provided with in described radio frequency cable 29F, namely one article of radio frequency cable and 12F1 otherwise exposed antenna 12F1 is added on the basis of described screened shielded antanna 10A, there is distance the position that described otherwise exposed antenna 12F1 and described otherwise exposed antenna 12F is arranged, and arrange at grade, E-E cross section is banded, the E-E cross section of High-frequency plug 8F is holes, the high-frequency socket 7F that configuration holes circuit matches, 6F1 is set, the built-in antenna 6F1 of 6F2, built-in antenna 6F2, be provided with the duplexer 9F of 9F, can complete and be connected to the circuit of described high-frequency socket 7F and the conversion of described built-in antenna 6F1 and built-in antenna 6F2 from described High-frequency plug 8F, all the other are identical with described screened shielded antanna 10A,
Otherwise exposed antenna 12F1.1,12F1.2 of 12F1.1,12F1.2 of the screened shielded antanna 10F1 setting of 10F1 are decorating of sheet, and all the other are identical with described screened shielded antanna 10F;
The screened shielded antanna 10F2 of 10F2 arranges 30F radio frequency cable 30F, radio frequency cable 30F comprises 30F1, 30F2, 30F3 radio frequency cable 30F1, radio frequency cable 30F2, radio frequency cable 30F3, on the basis of screened shielded antanna 10F1, add a radio frequency cable, too increase an otherwise exposed antenna, be provided with described otherwise exposed antenna 12F2, described otherwise exposed antenna 12F2.1, described otherwise exposed antenna 12F2.2, be configured with the High-frequency plug 8F2 in 3 holes, be provided with the high-frequency socket 7F2 in 3 holes, described built-in antenna 6F3 is set, built-in antenna 6F4, built-in antenna 6F5, described duplexer 9F2 is set, high-frequency socket 7F2 tri-heart yearn and described built-in antenna 6F3 can be completed, built-in antenna 6F4, built-in antenna 6F5 changes simultaneously, all the other are identical with described screened shielded antanna 10F1,
10F3 screened shielded antanna 10F3 is provided with 3 described otherwise exposed antenna 12F3, otherwise exposed antenna 12F3.1, otherwise exposed antenna 12F3.2, for sheet, can decorate, all the other are identical with described screened shielded antanna 10F2, more than have 4 kinds of screened shielded antannas, according to the setting of the built-in antenna of communication equipment and the difference choosing one wherein of otherwise exposed antenna profile.
As the radiation proof communication equipment above as described in any one,
It is characterized in that:
The screened shielded antanna 10G of the 10G of band charger baby is provided with outside machine, screened shielded antanna and charger baby charging wire are set to one by described screened shielded antanna 10G, adding a line by screened shielded antanna is charging wire, the ground wire of charging wire and the ground wire of screened shielded antanna share, or shield charging wire with metallic shield shielding wire, screen independent grounding is added in screened shielded antanna, by described screened shielded antanna 10, 10.1, 10.2, described screened shielded antanna 10A, 10A1, described screened shielded antanna 10C, 10C1, 10C2, described screened shielded antanna 10D, described screened shielded antanna 10E, described screened shielded antanna 10F, 10F1, wherein any one arranges 32G1 High-frequency plug 32G1 at installed part place and otherwise exposed antenna and the junction that goes between in 10F3 choosing, need when charging, High-frequency plug 32G to be connected with the high frequency jack 34G of charger baby 35G, charger baby is arranged the otherwise exposed antenna 12G1 of 12G1, this otherwise exposed antenna 12G1 and charger baby power supply output line all receive the described high frequency jack 34G on casing, the other end of described screened shielded antanna 10G is provided with High-frequency plug 8G and is connected with radiation proof communication equipment, power line is directly connected to charging circuit in machine by the high frequency seat on High-frequency plug 8G and machine, the connection of remaining circuit and above-mentioned selected screened shielded antanna, circuit, in machine, outside antenna conversion regime is all the same, the High-frequency plug 32G of otherwise exposed antenna is connected to the high frequency jack 33G of otherwise exposed antenna 12G2 in time not charging,
Or do not arrange otherwise exposed antenna plug 32G directly to receive charger baby by radio frequency cable and charging wire and be connected with charger baby power supply and otherwise exposed antenna, charger baby arranges switch 36 and controls charging or no;
The charger of screened shielded antanna 10B lengthened is arranged in terminal box, and arrange charging wire is added in described radio frequency cable 28BH or 29BH or 30BH any one, method is identical with said method.
As the radiation proof communication equipment above as described in any one, it is characterized in that:
Described screened shielded antanna 10,10A, 10B, 10C, 10D, 10E, 10F all can increase the conversion of outside antenna and interior outside antenna in a road, and the mode of increase is increased to the identical of three tunnels with structure with above-mentioned respective two roads;
The each heart yearn designing or connect at tuner 5 high-frequency socket according to circuitry connects band pass filter, improves the effect of external antenna;
All radio frequency cables all can be set to spirality or straight, and the cross section of all radio frequency cables all can be arranged to circle or flat;
Described radiation proof communication equipment is applicable to mobile phone and other all wireless or wired communication equipment machine.
accompanying drawing explanation
figure 1.1A-A profile, be the schematic diagram of screened shielded antanna 10 RF cross-section;
Fig. 1 .2 is the structure chart of the outer metallic shield isolated antennas 10 of the composition of the critical piece of radiation proof communication equipment of the present utility model and machine, and radiation proof communication equipment is when using screened shielded antanna 10 and built-in antenna conversion schematic front view;
Fig. 1 .3 is the front view of bobbin winoler, and the otherwise exposed antenna of screened shielded antanna 10., 10.1,10.2 changes the schematic diagram of difform otherwise exposed antenna into, Fig. 1 .3 is another otherwise exposed antenna of screened shielded antanna 10.1,12.7,12.8 have added 12.8 with dotted line and represented afterwards and become double antenna, Fig. 1 .3 also represents another otherwise exposed antenna of screened shielded antanna 10.2, illustrates with 12.9,12.10,12.11;
Fig. 1 .4 is the sectional view of screened shielded antanna 10.1 radio frequency cable;
Fig. 1 .5 represents the enlarged drawing of the cross section structure of three radio frequency cables of screened shielded antanna 10.2; When device is flat radio frequency cable, the little radio frequency cable of the antenna of three wherein 30.1,30.2,30.3 can be arranged side by side; Fig. 1 .6 is the radiation-resistant critical piece of mobile communication apparatus utility model and the primary structure of machine external shield antenna 10.1, switches schematic diagram with built-in antenna and circuit;
Fig. 1 .7 uses the radiation proof communication equipment critical piece structure of screened shielded antanna 10.2 and the schematic diagram of inside and outside antenna traces conversion;
Fig. 2 .1 is the structural representation after screened shielded antanna 10A takes out from shell, but otherwise exposed antenna 12A1 not retraction shell, otherwise exposed antenna or make ornament, or is attached on shell with software;
Fig. 2 .2 is the screened shielded antanna 10A structural representation of whole retractable shell;
Fig. 2 .3 is the cross section D-D cross-sectional view of single screened shielded antanna;
Fig. 2 .4 and Fig. 2 .5 is the general structure schematic diagram of portable screened shielded antanna:
Fig. 2 .4 is the cross-sectional view of stretching structure
Fig. 2 .5 is by the stretching structure schematic diagram of telescopic shell uncap inside; .
Fig. 3 .1 is the general arrangement schematic diagram using the radiation proof mobile communication equipment lengthening screened shielded antanna 10B10B110B2;
Fig. 3 .2 is the profile of the cross section C-C of the single screened shielded antanna 10B radio frequency cable lengthened;
Fig. 3 .3 is the radio frequency cable enlarged section of single screened shielded antanna 10B radiation resistant mobile communication main frame wiring;
Fig. 3 .4 is the profile in the radio frequency cable cross section of double shield antenna 10B1;
Fig. 3 .5 is the enlarged drawing in 3 screened shielded antanna 10B2 radio frequency cable cross sections;
Fig. 3 .6 uses the radiation proof communication equipment main frame of double shield antenna 10B1 to the profile in the radio frequency cable cross section of terminal box;
Fig. 3 .7 is section profiles of use three screened shielded antanna 10B2 radiation proof communication equipments to terminal box radio frequency cable; The exchange line figure of screened shielded antanna 10B, 10B1,10B2 and built-in antenna is the same with Fig. 1 .2 Fig. 1 .6 Fig. 1 .7 respectively;
Fig. 4 .1 is the critical piece composition of radiation proof communication equipment when using screened shielded antanna 10C, the conversion of screened shielded antanna 10C and built-in antenna and the structural representation of screened shielded antanna 10C;
Fig. 4 .2 is the enlarged drawing cutting section of built-in screened shielded antanna 10C radio frequency cable;
The schematic diagram arranged to the installation expressing built-in screened shielded antanna 10C by Fig. 4 .3 to be end view and Fig. 4 .1 be front view and the switching schematic diagram of interior outside antenna, the flexible drive mechanism of built-in screened shielded antanna 10C1 built-in screened shielded antanna 10C2, signal is a road according to the circuit of single screened shielded antanna 10C, screened shielded antanna 10C1, screened shielded antanna 10C2 will increase the circuit of switch according to the number of converting antenna, should with reference to the schematic diagram of figure 1.6 Fig. 1 .7;
Fig. 4 .4 is section profile of the radio frequency cable of built-in screened shielded antanna 10C1;
Fig. 4 .5 is that the radio frequency cable of built-in screened shielded antanna 10C2 cuts profile;
Fig. 5 .1 and 5.2 is primary structure schematic diagrames of the radiation proof communication equipment of machine seatback insertion type;
Fig. 6 .1 and 6.2 is primary structure schematic diagrames of plug-type radiation proof mobile communication equipment under machine;
The screened shielded antanna schematic diagram of the drive mechanism stretched in the two ends that Fig. 7 .1 and 7.9 liang figure expresses screened shielded antanna 10F and 10F double antenna;
Fig. 7 .2 represents that screened shielded antanna 10F1 is only that otherwise exposed antenna makes decoration type, and all the other structures are the same with 10F;
Fig. 7 .3 is the structural representation of screened shielded antanna 1,0F2 tri-antennas;
Fig. 7 .4 be represent screened shielded antanna 10F3 antenna only three otherwise exposed antenna be set to decoration type or soft-type be anchored to outer shell and 10F2 different, all the other are the same with screened shielded antanna 10F2;
Fig. 7 .5 be represent screened shielded antanna 10F be the two hole High-frequency plugs that pick out of the heart yearn of two single radio frequency cables cut profile;
Fig. 7 .6 is the enlarged drawing cutting section of screened shielded antanna 10F2 High-frequency plug 8F2;
Fig. 7 .7 is that the radio frequency cable of screened shielded antanna 10F cuts section enlarged diagram.It contains the radio frequency cable of two 28A;
Fig. 7 .8 is section profile of screened shielded antanna 10F2 radio frequency cable;
Fig. 7 .9 is the internal structure schematic diagram of uncap;
Above Fig. 7 .2 Fig. 7 .3 Fig. 7 .4 is the shape and the structure that represent screened shielded antanna 10F1,10F2,10F3 after taking out from shell 22F respectively;
Fig. 8 .1 Fig. 8 .2 Fig. 8 .3 represents the structural representation of screened shielded antanna 10G:
Fig. 8 .1 is the schematic diagram selecting radio frequency cable 28G two ends to arrange High-frequency plug;
Fig. 8 .2 is the schematic diagram that charger baby adds otherwise exposed antenna;
Fig. 8 .3 is the otherwise exposed antenna can changed with charger baby otherwise exposed antenna.
Radiation proof communication equipment of the present utility model has following beneficial effect compared with prior art:
1, first talk about prior art: I, in a kind of patent mobile phone being divided into disome of application on January 7th, 2014, uses cumbersome, connect with wireless between disome simultaneously.The electromagnetic wave of many first secondary wireless receptions and transmitting and production cost improves, price is high; Second because being divided into disome to connect with wireless again, many secondary radio ttransmitter and receivers, too increase amount of radiation, what increase is integrally bluetooth simultaneously, and bluetooth does not complete all functions of mobile phone.
Contrary with above-mentioned prior art, radiation proof communication equipment of the present utility model neither mobile communication apparatus is divided into disome, then uses wireless connections, is not again antenna is moved a bit in machine; That the lead-in wire of the antenna in machine is moved to the outer far distance of machine by metal isolation scribes shielding, reach good radiation-proof effect, exceed the GB9175-88 " environmental electromagnetic wave sanitary standard " that the Ministry of Public Health issues after testing, < 10 μ w/cm
2requirement.
And, all function (comprising: converse, see image, send short messages, send out letter micro-) online is all directly used complete machine by radiation proof communication equipment of the present utility model, easy to use, such as panel computer can directly use on a display screen, does not need to be given to bluetooth and receives calls.
Radiation proof communication equipment of the present utility model reaches the display screen that directly can use large-screen, because its radiation intensity of the display screen of this large-screen has been lowered to very weak, such as: when by radiation proof communication equipment of the present utility model compared with the mobile phone of above-mentioned prior art, the amount of radiation of more than 99% can be reduced, so, no matter there is great screen, all because radiation intensity is very weak, can make for directly seeing, the function that direct use is all, therefore, not only has good environmental benefit, and there is good economic benefit and good social benefit
So applicant thinks: radiation proof communication equipment of the present utility model be highly widely popularize, can the good product of widely used, leading current era trend;
2, the radio frequency of the hyperfrequency of the tuner 5 of communication equipment and intermediate frequency HFS and other raddiating circuit all adopt metal shielding 4 to shield by radiation proof communication equipment of the present utility model, due to this mobile communication apparatus to the radiation source of human body just in this section, be exactly shield radiation source after this part is shielded, namely radiate source radiation is not out, therefore good radiation-resistant effect is reached, therefore, there is good environmental benefit;
3, radiation proof communication equipment of the present utility model, gets up to form screened shielded antanna 10 by antenna lead 17 metallic shield separator shielding; Antenna lead has quite long distance, but only can pass to otherwise exposed antenna 12 from the signal of High-frequency plug, therefore, and can not by signal radiation to the periphery; Signal is exchanged with ground station because otherwise exposed antenna 12 completes, otherwise exposed antenna 12 is arranged on the far position of distance radiation proof communication equipment, namely with human body apart from far, so human body and radiation source far, because radiation source is extremely inversely proportional to by the square distance of radiant with by the pad value of radiant and radiation source, so the radiation of radiation source distance is just very small, thus reach good radiation-resistant effect;
4, simultaneously in order to reach good radiation-proof effect, antenna lead adopts secondary screen method, and be namely with layer of metal shielding wire outside antenna lead, screen 15 is directly connected with tuner 5 ground wire, reaches good shield effectiveness; Sometimes consider the volume reducing screened shielded antanna 10, and adopt a screen 15;
5, screened shielded antanna 10 and the connection of high-frequency radio frequency circuit are by High-frequency plug 8 and high-frequency socket 7, adopt shielding interface to connect, and make its junction high-frequency signal can not radiation;
Connecting line between tuner 5 with baseband circuit 2 adopts and is connected the shielding of high-frequency circuit, avoids tuner 5 to baseband circuit 2 radiation;
Adopt metallic shield partition method between built-in antenna 6 and tuner 5;
The output of tuner 5 and the junction of built-in antenna 6 and antenna lead 17 arrange switch 9, and when High-frequency plug 8 pulls out, built-in antenna 6 and tuner 5 are connected; When screened shielded antanna 10 is plugged, built-in antenna 6 disconnects, and when namely screened shielded antanna 10 is plugged, screened shielded antanna 10 works, and built-in antenna 6 quits work; Impel from the astronomical cycle part 11 of screened shielded antanna 10 end to baseband circuit 2, tuner 5 completely without the radiation of frequency electromagnetic waves, full machine reaches radiation-proof effect; Only have otherwise exposed antenna 12 radiation signal and ground station to intercourse signal, communication function is normally worked, user can directly take complete machine to carry out various traffic operation easily, such as: call, note, micro-letter, online QQ bank settlement etc. of taking pictures,
Can be known by above describing: radiation proof communication equipment of the present utility model not only reaches radiation-proof effect but also can realize and complete all various operations of radiation proof communication equipment;
6, due to the screened shielded antanna 10A that described two ends are flexible, the portable screened shielded antanna 10A of two ends pull-out, also be provided with High-frequency plug 8A, antenna lead 17A, metallic shield separator 15A is had outside it, otherwise exposed antenna 12A is had to be made up of one section of U-shaped sheet metal, and be provided with metal gib head, otherwise exposed antenna 12A-1 is plate, software, the otherwise exposed antenna 12A-1 on the chamber 22A of screened shielded antanna garden can be anchored to during purse up, screened shielded antanna cross section is bandlet shape, be provided with rotary disk 24A, main spring 23A is provided with in this rotary disk 24A, rotary disk 24A is provided with trough of belt 25A, for the banded screened shielded antanna 10A in embedding jail, rotary disk 24A set screw is arranged in the chamber 22A of screened shielded antanna garden, the plane that described rotary disk 24A contacts with screened shielded antanna garden chamber 22A is provided with track 27A, ball 26A is provided with in track, rotary disk 24A is under the effect of Mainspring type spring 23A, make screened shielded antanna 10A energy two ends simultaneous retractable, and can locate length segmentation, can not at will be retracted by convolution spring when pulling out and using.So, screened shielded antanna 10A is a kind of not only can to have stretched but also can split fix, can all mobile communication apparatus being provided with high-frequency socket 7 all can use, there is the good screened shielded antanna of the shielding isolation effect that widely uses future, there is good environmental benefit and good social benefit;
Described screened shielded antanna 10A also can use as one end is flexible, one end wire wherein should be cut short is connected on the chamber 22A of screened shielded antanna garden by the sliding contact of rotary disk 24A, flexible wire is picked out again from this screened shielded antanna garden chamber 22A, maybe this screened shielded antanna 10A is arranged on the chamber 22A of screened shielded antanna garden, because described screened shielded antanna 10A also can use as one end is flexible, therefore, its scope of application is very wide, has good use value and good social benefit;
7, the lengthening screened shielded antanna 10B in radiation proof communication equipment of the present utility model makes king-size length and reaches 0.5 meter even longer to 10 meters, as shown in Fig. 3 .1,3.2,3.3: line tipping is on office, furniture or wall or on car.From human body very away from, radiation-proof effect is better, can reach 99% or lower of the radiation of reduction machine, be equivalent to radiationless state, therefore, have good radiation proof benefit, have good environmental benefit;
Especially it is worthy of note: because antenna increases, can signal be strengthened, solve the problem that blind area can't accept signal; Wherein said antenna thoroughly can solve the problem that blind area can't accept signal; Other otherwise exposed antenna also can strengthen signal;
Therefore, the Quality advance of product, there is good Social benefit and economic benefit, be worth promoting;
As impedance changes to some extent after antenna is very long, therefore arrange in machine an impedance transformer or the vicinity lengthening screened shielded antanna 10B arrange an impedance transformer can be located at screened shielded antanna that terminal box lengthens to be arranged on family, office, car all one or several, other are optional use per capita, has good social benefit.Particularly be located at family, external antenna can be installed template or five die models, adjustable direction, aims at the direction of family ground station, and reception can be better.The bad blind area of Received signal strength is well solved by this way.On installed part 11B, plug set up by the various antenna of mounting receptacle, also can change the kind of antenna as required.Screened shielded antanna is installed onboard and otherwise exposed antenna can be installed to the position of boot near car light.Dual signal can be received very well, far again from people.Play good radiation protection.High-frequency plug seat or select general, who gets on the bus to plug and just can use.Or radio frequency cable is received automobile headlamp, and otherwise exposed antenna is easy Received signal strength also;
It is meet national standard or international standard that high-frequency socket 7 and High-frequency plug 8 are arranged, and has interchangeability, versatility, all can establish the machine outside antenna of lengthening, therefore, also bring convenience to user on motor-car, in high ferro.
Screened shielded antanna 10B adapts to extended telephone conversation and uses very much, and extended telephone conversation is just plugged screened shielded antanna 10B and used.When needs walking or after long screened shielded antanna 10B can be extracted when going out, use built-in antenna 6 or use portable type screened shielded antanna 10A to do mobile use, there is good ease of use;
Have a lot of people to use the microphone of landline telephone (base) to connect conventional mobile communications machine, in fact the permanent-magnetic field of landline telephone microphone is also higher than traditional earphone, more than 1000 Gausses, and its performance is also bad, sometimes also can play antenna effect.Therefore, can carry out compared with a large amount of irradiation to the brain of people with the electromagnetic wave of conventional mobile communications machine, radiation proof communication equipment of the present utility model not only conveniently moving, and, there is good radiation-proof effect;
8, described screened shielded antanna 10C is placed in machine, and radiation proof moving machine external form can be designed to the same with traditional or better.Make the screened shielded antanna of drawstring formula, pull-out use time length be set to 100mm-1800mm, otherwise exposed antenna 12C and human body a good distance away, the distance non-radiating signal that screened shielded antanna 10C so grows, serves good radiation protection; Use as built-in antenna when not being drawn out, signal is exchanged by otherwise exposed antenna 12C and ground station, otherwise exposed antenna 12C position in machine does not arrange shielding yet and uses, it is flat that screened shielded antanna 10C pulls out position, volume can be reduced, antenna lead 17C one termination otherwise exposed antenna 12C in screened shielded antanna 10C, the other end is directly connected with the input of tuner 5, outer shielding layer 14C is connected with ground wire 16C with screen 15C one end, the other end is directly connected with tuner 5 ground wire, serves good shield effectiveness like this to antenna lead 17; The radiation proof moving machine of the built-in antenna shown in Fig. 4 .1 connect high-frequency socket be in or office time receive 10B screened shielded antanna and use, can reach radiationless;
Therefore, this structural design is very reasonable, and volume is little, uses not only very flexibly but also conveniently.The utility model solves the mobile communication apparatus of production, the radiosity of mobile phone at present and reaches 13600 μ w/cm
2powerful radiation can reduce by 99.9%, therefore, reaches good radiation-proof effect;
9, the wire that tuner 5 baseband circuit 2 connects adopts metallic shield shielding wire, make the high frequency electromagnetic wave signal of tuner 5 can not be delivered to baseband circuit to go, the wire connected also adopts shielding interface, and reach good isolation effect, such user can use mobile phone for a long time;
Screened shielded antanna 10D is plugged into the behind of radiation proof communication equipment, and High-frequency plug 8 is arranged on the center of portable screened shielded antanna body, plugs very convenient, pulls up screened shielded antanna 10D and just can change other screened shielded antanna into when using other screened shielded antanna instead; The shape of screened shielded antanna 10D is identical with screened shielded antanna 10 with inner wiring, and it is also banded that screened shielded antanna 10D pulls out position, and shape is identical with screened shielded antanna 10C, and it is extremely convenient to use;
Screened shielded antanna 10E is arranged on the lower end being plugged into radiation proof communication equipment, and shell is set to rectangular; The shape of inner wire is identical with screened shielded antanna 10D, is directly inserted into below radiation proof communication equipment by High-frequency plug, and it is extremely convenient to use;
10, be noted that there is distance the position that otherwise exposed antenna 12F1 and otherwise exposed antenna 12F is arranged, and arrange at grade, for preventing interference each other;
11, owing to being also provided with screened shielded antanna 10F, antenna lead 17F and shielding earth 16F, described antenna lead 17F and described shielding earth 16F is set to as parallel lines structure by described screened shielded antanna 10F, be provided with metallic shield separator 15F outside described antenna lead 17F to shield, and described antenna lead 17F and described metallic shield separator 15F is provided with insulating barrier; Be provided with metallic spacer 20F outside described shielding earth 16F to shield, insulating barrier is provided with between described shielding earth 16F and described metallic spacer 20F, namely be by described antenna lead 17F centered by metallic shield shielding wire radio frequency cable and the cable of metallic shield shielding wire centered by shielding earth 16F be merged into a banded screened shielded antanna and be arranged in machine in a round chamber, so shield effectiveness is better;
Can extract out owing to being provided with, the Mainspring type spring of indentation, described Mainspring type spring and described metallic spacer 20F link together, the input of antenna lead 17F mono-termination tuner 5F, with novel high-frequency connector assembly or be welded to connect, the other end is connected with otherwise exposed antenna 12F, notes otherwise exposed antenna formation insulating barrier 22F with ambroin bag; One end of described shielding earth 16F is connected with tuner 5F ground wire, and be connected with one end of described metallic shield separator 20F and described metallic shield separator 15F, the other end that its other end covers shielding wire 15F with metallic shield separator 20F and metal is connected, together constitute the screened shielded antanna 10F with good shielding isolation effect
Otherwise exposed antenna 12F is set to flexure type, and there is a flat thin metal gib head end, for pulling out the otherwise exposed antenna 12F end in indentation housing,
Screened shielded antanna 10F length is 150-3000mm, and described screened shielded antanna 10F is the screened shielded antanna 10F used that can release, therefore, not only easy to use, and shielding isolation effect is better;
Again improve shield effectiveness, make radiation proof communication equipment of the present utility model become the radiation proof communication equipment with good shield effectiveness truly;
12, owing to being provided with bobbin winoler 31, this bobbin winoler is used for around very long screened shielded antanna, when not using, this bobbin winoler 31 is placed in the pocket of user, not only be easy to carry, neatly, be convenient to keeping, and, the more important thing is that this very long screened shielded antanna is not easy unrest, make user can be convenient to use this very long screened shielded antanna, there is good use value and good social benefit;
13, now a lot of people listens to the music for a long time because of mobile phone, see image, the electric current of mobile phone has just been used up quickly, so want multi-band charger baby, and charger baby electric wire is connected to mobile phone all the time, use very convenient so the screened shielded antanna of charger baby and radiation proof communication equipment just merges to be set together by inventor, radiation proof can solve again the fast problem of mobile phone power consumption, kill two birds with one stone.
Being provided with outside machine can with the screened shielded antanna 10G of charger baby, screened shielded antanna and charger baby charging wire are set to one by screened shielded antanna 10G, adding a line by screened shielded antanna is charging wire, the ground wire of charging wire and the ground wire of screened shielded antanna share, or by screened shielded antanna 10, 10.1, 10.2, screened shielded antanna 10A, 10A1, screened shielded antanna 10C, 10C1, 10C2 screened shielded antanna 10D screened shielded antanna 10E screened shielded antanna 10F, 10F1, wherein any one arranges High-frequency plug 32G at installed part place and otherwise exposed antenna and the junction that goes between in 10F3 choosing, need when charging, High-frequency plug 32G to be connected with the high frequency jack 34G of charger baby 35G, charger baby is arranged otherwise exposed antenna 12G1, this otherwise exposed antenna 1201 all receives the high frequency jack 34G on casing with charger baby power supply output line, the other end of screened shielded antanna 10G is provided with High-frequency plug 8G and is connected with radiation proof communication equipment, power line is directly connected to charging circuit in machine by the high frequency seat on High-frequency plug 8G and machine, the connection of remaining circuit and above-mentioned selected screened shielded antanna, circuit, in machine, outside antenna conversion regime is all the same, the High-frequency plug 32G of otherwise exposed antenna is connected to the high frequency jack 33G of otherwise exposed antenna 12G2 in time not charging.
Or do not arrange otherwise exposed antenna plug 32G directly to receive charger baby by radio frequency cable and charging wire and be connected with charger baby power supply and otherwise exposed antenna, charger baby arranges switch 36 and controls charging or no.
The charger of the screened shielded antanna 10B lengthened can be connected in terminal box, and method is identical with said method, and this design just can be carried out charging and playing radiation-proof effect while plugging lengthening screened shielded antanna, and one dual-purpose, very convenient.
The utility model is applicable to mobile phone and other all Wireless Telecom Equipment machine, low power station, moving machine does the telephone set equipment use etc. of fixed line, such as: now a lot of mobile communication apparatus phone used time that fixes applies tuner 5 of the present utility model and other circuits mask, make high-frequency radio frequency circuit non-radiating, such as use Fig. 3 .1, 3.2, the screened shielded antanna 10B of the lengthening shown in 3.3, reach radiationless effect, it is extraordinary selection, therefore, radiation proof communication equipment of the present utility model has good social benefit, the radiation proof communication equipment of economic benefit and good environmental benefit.
Embodiment
Below in conjunction with accompanying drawing, the utility model will be further described.
Embodiment 1
A kind of radiation proof communication equipment,
Mainly comprise: shell 1, Base-Band Processing andlogic control circuit 2, man-computer interface 3, shielding case 4, launch and the tuner 5 of processing circuitry of intermediate frequency, built-in antenna 6, high-frequency socket 7, High-frequency plug 8, duplexer 9, screened shielded antanna 10, portable type screened shielded antanna 10A, lengthen screened shielded antanna 10B, built-in screened shielded antanna 10C, machine carries on the back any one screened shielded antanna inserted under screened shielded antanna 10D, machine in plug-in type screened shielded antanna 10E, screened shielded antanna 10F, radio frequency cable, bobbin winoler 31;
It is characterized in that:
1) high-frequency radio frequency of described tuner 5 and the circuit of intermediate-frequency section all adopt metal to make described shielding case 4 Base-Band Processing andlogic control circuit 2 etc. is every has the circuit of radiation all to shield isolation; Described built-in antenna 6 is not shielded with man-computer interface 3 display panel, exchanging signal with ground station, normally working for making mobile communication apparatus;
2) outside machine, be provided with any one screened shielded antanna in the described screened shielded antanna 10 with the shielding of metallic shield shielding wire, the 10.1st screened shielded antanna 10.1, the 10.2nd screened shielded antanna 10.2, length is 1000mm,
This screened shielded antanna 10 comprises: the radio frequency cable 28 establishing wall scroll, described radio frequency cable 28 comprises antenna lead 17, metallic shield separator 15, insulating barrier is provided with between antenna lead 17 and metallic shield separator 15, radio frequency cable crust has insulating barrier 13, one end of described screened shielded antanna lead-in wire 17 is installed by astronomical cycle part 11 and is connected otherwise exposed antenna 12, another termination High-frequency plug 8, this High-frequency plug 8 connects high-frequency socket 7, when High-frequency plug 8 inserts high-frequency socket 7, duplexer 9 disconnects built-in antenna 6 voluntarily, connect tuner 5 simultaneously, when High-frequency plug 8 is extracted, recover built-in antenna 6 to be connected with tuner 5, high-frequency socket 7 or be arranged on shell 1 with duplexer 9, or installation is stretched out from shell 1 in the circuit board,
3) shape and structure of otherwise exposed antenna 12 is sheet shape or rectangle or is arranged to other shapes and structure, or is arranged to shape any one shape wherein of ornament;
4) radio frequency cable 28, be arranged to circle or flat;
5) described bobbin winoler 31 is that a kind of outside has 4 stars, the middle plastics soft board for hollow circle, 4 stars have 4 apertured orifice, 4 groove multi-turns are in an orderly manner around upper screened shielded antanna, apertured orifice is for embedding the end of a thread, use can not self falling, disorderly twine, or with the wire-wrap board of other shape.
Embodiment 2
A kind of radiation proof communication equipment,
Mainly comprise: shell 1, Base-Band Processing andlogic control circuit 2, man-computer interface 3, shielding case 4, launch and the tuner 5 of processing circuitry of intermediate frequency, built-in antenna 6, high-frequency socket 7, High-frequency plug 8, duplexer 9, screened shielded antanna 10, portable type screened shielded antanna 10A, lengthen screened shielded antanna 10B, built-in screened shielded antanna 10C, machine carries on the back any one screened shielded antanna inserted under screened shielded antanna 10D, machine in plug-in type screened shielded antanna 10E, screened shielded antanna 10F, radio frequency cable, bobbin winoler 31;
It is characterized in that:
1) high-frequency radio frequency of described tuner 5 and the circuit of intermediate-frequency section all adopt metal to make described shielding case 4 Base-Band Processing andlogic control circuit 2 etc. is every has the circuit of radiation all to shield isolation; Described built-in antenna 6 is not shielded with man-computer interface 3 display panel, exchanging signal with ground station, normally working for making mobile communication apparatus;
2) outside machine, be provided with the described screened shielded antanna 10 with the shielding of metallic shield shielding wire, length is 2000mm,
This screened shielded antanna 10 comprises: the radio frequency cable 28 establishing wall scroll, described radio frequency cable 28 comprises antenna lead 17, metallic shield separator 15, insulating barrier is provided with between antenna lead 17 and metallic shield separator 15, radio frequency cable crust has insulating barrier 13, one end of described screened shielded antanna lead-in wire 17 is installed by astronomical cycle part 11 and is connected otherwise exposed antenna 12, another termination High-frequency plug 8, this High-frequency plug 8 connects high-frequency socket 7, when High-frequency plug 8 inserts high-frequency socket 7, duplexer 9 disconnects built-in antenna 6 voluntarily, connect tuner 5 simultaneously, when High-frequency plug 8 is extracted, recover built-in antenna 6 to be connected with tuner 5,
3) shape and structure of otherwise exposed antenna 12 and radio frequency cable 28, corresponding otherwise exposed antenna is sheet shape or rectangle or is arranged to other shapes and structure, or is arranged to shape any one shape wherein of ornament;
4) radio frequency cable 28, be arranged to circle or flat;
5) described bobbin winoler 31 is that a kind of outside has 4 stars, the middle plastics soft board for hollow circle, 4 stars have 4 apertured orifice, 4 groove multi-turns are in an orderly manner around upper screened shielded antanna, apertured orifice is for embedding the end of a thread, use can not self falling, or with the bobbin winoler of other shape.
Embodiment 3
A kind of radiation proof communication equipment,
Mainly comprise: shell 1, Base-Band Processing andlogic control circuit 2, man-computer interface 3, shielding case 4, launch and the tuner 5 of processing circuitry of intermediate frequency, built-in antenna 6, high-frequency socket 7, High-frequency plug 8, duplexer 9, screened shielded antanna 10, portable type screened shielded antanna 10A, lengthen screened shielded antanna 10B, built-in screened shielded antanna 10C, machine carries on the back any one screened shielded antanna inserted under screened shielded antanna 10D, machine in plug-in type screened shielded antanna 10E, screened shielded antanna 10F, radio frequency cable, bobbin winoler 31;
It is characterized in that:
1) high-frequency radio frequency of described tuner 5 and the circuit of intermediate-frequency section all adopt metal to make described shielding case 4 Base-Band Processing andlogic control circuit 2 etc. is every has the circuit of radiation all to shield isolation; Described built-in antenna 6 is not shielded with man-computer interface 3 display panel, exchanging signal with ground station, normally working for making mobile communication apparatus;
2) outside machine, be provided with the described lengthening screened shielded antanna 10.1 with the shielding of metallic shield shielding wire, length is 1500mm,
10.1st screened shielded antanna 10.1 is provided with the 29.1st radio frequency cable 29.1 and the 29.2nd radio frequency cable 29.2 and combines and form radio frequency cable 29, described radio frequency cable 29.1 is identical with radio frequency cable 28 with described radio frequency cable 29.2 structure, 17.1st antenna lead 17.1 and the 17.2nd antenna lead 17.2 one end connect the 12.1st otherwise exposed antenna 12.1 and the 12.2nd otherwise exposed antenna 12.2 respectively, the other end connects the 8.1st respectively, 8.2nd High-frequency plug 8.1, 2 holes of 8.2, when described High-frequency plug 8.1, when 8.2 2 holes of inserting described high-frequency socket 7.1 connect, disconnect the connection of described tuner 5 circuit and described built-in antenna 6.1 and built-in antenna 6.2 simultaneously, and connect described tuner 5 circuit to connect with described antenna lead 17.1 and antenna lead 17.2 respectively and be connected,
3) shape and structure of the 12.1st otherwise exposed antenna 12.1 and the otherwise exposed antenna corresponding to the 29th radio frequency cable 29 is sheet shape or rectangle or is arranged to other shapes and structure, or is arranged to shape any one shape wherein of ornament;
4) described radio frequency cable 29 is arranged to circle or flat;
5) described bobbin winoler 31 is that a kind of outside has 4 stars, the middle plastics soft board for hollow circle, 4 stars have 4 apertured orifice, 4 groove multi-turns are in an orderly manner around upper screened shielded antanna, and apertured orifice is for embedding the end of a thread, and use can not self falling.
Embodiment 4
A kind of radiation proof communication equipment,
Comprise: shell 1, Base-Band Processing andlogic control circuit 2, man-computer interface 3, shielding case 4, launch and the tuner 5 of processing circuitry of intermediate frequency, built-in antenna 6, high-frequency socket 7, High-frequency plug 8, duplexer 9, screened shielded antanna 10, portable type screened shielded antanna 10A, lengthen screened shielded antanna 10B, built-in screened shielded antanna 10C, machine carries on the back any one screened shielded antanna inserted under screened shielded antanna 10D, machine in plug-in type screened shielded antanna 10E, screened shielded antanna 10F, radio frequency cable, bobbin winoler 31;
It is characterized in that:
1) high-frequency radio frequency of described tuner 5 and the circuit of intermediate-frequency section all adopt metal to make described shielding case 4 Base-Band Processing andlogic control circuit 2 etc. is every has the circuit of radiation all to shield isolation; Described built-in antenna 6 is not shielded with man-computer interface 3 display panel, exchanging signal with ground station, normally working for making mobile communication apparatus;
2) outside machine, be provided with described the 10.2nd screened shielded antanna 10.2 with the shielding of metallic shield shielding wire, length is 1000mm,
Described screened shielded antanna 10.2 is provided with the 30th radio frequency cable 30 of 3 cores, by the 30.1st, 30.2, 30.3 single core radio frequency cables 30.1, single core radio frequency cable 30.2, single core radio frequency cable 30.3 combines and forms described radio frequency cable 30, there is the structure of 3 described radio frequency cables 28, article 3, described antenna lead 17 one end connects described otherwise exposed antenna 12 respectively, the other end connects described High-frequency plug 8 heart yearn in 3 holes respectively, when the described High-frequency plug 8.3 in 3 holes, 8.4, when the 8.5 described high-frequency sockets 7 inserting 3 holes connect, article 3, described antenna lead 17 is connected with 3 of described tuner 5 respectively, disconnect 3 described built-in antennas 6.3 simultaneously, 6.4, 6.5, when the described High-frequency plug 8 in 3 holes extracts described high-frequency socket 7, 3 described built-in antennas 6.3, 6.4, 6.5 recover to connect described high frequency 5 respectively,
3) shape and structure of described otherwise exposed antenna 12.2 and the described otherwise exposed antenna corresponding to described radio frequency cable 30 is sheet shape or rectangle or is arranged to other shapes and structure, or is arranged to shape any one shape wherein of ornament;
4) described radio frequency cable 30 is arranged to circle or flat;
5) described bobbin winoler 31 is that a kind of outside has 4 stars, the middle plastics soft board for hollow circle, 4 stars have 4 apertured orifice, 4 groove multi-turns are in an orderly manner around upper screened shielded antanna, and apertured orifice is for embedding the end of a thread, and use can not self falling.
Embodiment 5
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10A screened shielded antanna 10A with the shielding of metallic shield shielding wire, length is 150-3000mm,
This screened shielded antanna 10A comprises: the described radio frequency cable 28A establishing wall scroll, described radio frequency cable 28A comprises described antenna lead 17A, described metallic shield separator 15A, insulator is provided with between described antenna lead 17A and described metallic shield separator 15A, radio frequency cable crust has described insulating barrier 13A, one end of described screened shielded antanna lead-in wire 17A is installed by described astronomical cycle part 11A and is connected described otherwise exposed antenna 12A, High-frequency plug 8A described in another termination, this High-frequency plug 8A connects described high-frequency socket 7A, when described High-frequency plug 8A inserts described high-frequency socket 7A, described duplexer 9A disconnects described built-in antenna 6A voluntarily, connect described tuner 5A simultaneously, when described High-frequency plug 8A extracts, recover described built-in antenna 6A to be connected with described tuner 5A, described high-frequency socket 7A is arranged on shell 1 or wiring board exposes from casing, simultaneously with described duplexer 9A,
Described otherwise exposed antenna 12A be made up of the sheet metal of one section of S type or rectangle or software and be provided with gib head, described radio frequency cable 28A cross section D-D is bandlet shape, line inside from antenna gib head to plug is bandlet shape entirely, width is consistent, constitute two ends extension band type screened shielded antanna 10A, be provided with described rotary disk 24A, described Mainspring type main spring 23A is provided with in this rotary disk 24A, described rotary disk 24A is also provided with described trough of belt 25A, for the described radio frequency cable 28A in embedding jail, described rotary disk 24A set screw is arranged in described screened shielded antanna shell 22A, the plane that described rotary disk 24A contacts with described screened shielded antanna shell 22A is provided with described track 27A, described ball 26A is provided with in track, screened shielded antanna 10A is configured to two ends simultaneous retractable, and length segmentation is located, this screened shielded antanna 10A is the 10A screened shielded antanna 10A that all can use at all radiation proof communication equipments being provided with single hole high-frequency socket 7.
Embodiment 6
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10A screened shielded antanna 10A with the shielding of metallic shield shielding wire, length is 1000mm,
This screened shielded antanna 10A comprises: the 28A radio frequency cable 28A establishing wall scroll, described radio frequency cable 28A comprises described antenna lead 17A, described metallic shield separator 15A, insulator is provided with between described antenna lead 17A and described metallic shield separator 15A, radio frequency cable crust has described insulating barrier 13A, one end of described screened shielded antanna lead-in wire 17A is installed by described astronomical cycle part 11A and is connected described otherwise exposed antenna 12A, High-frequency plug 8A described in another termination, this High-frequency plug 8A connects described high-frequency socket 7A, when described High-frequency plug 8A inserts described high-frequency socket 7A, described duplexer 9A disconnects described built-in antenna 6A voluntarily, connect described tuner 5A simultaneously, when described High-frequency plug 8A extracts, recover described built-in antenna 6A to be connected with described tuner 5A, described high-frequency socket 7A is arranged on shell 1, simultaneously with described duplexer 9A,
Described otherwise exposed antenna 12A be made up of the sheet metal of one section of S type or rectangle or software and be provided with gib head, described radio frequency cable 28A cross section D-D is bandlet shape, line inside from antenna gib head to plug is bandlet shape entirely, width is consistent, constitute two ends extension band type screened shielded antanna 10A, be provided with described rotary disk 24A, described Mainspring type main spring 23A is provided with in this rotary disk 24A, described rotary disk 24A is also provided with described trough of belt 25A, for the described radio frequency cable 28A in embedding jail, described rotary disk 24A set screw is arranged in described screened shielded antanna shell 22A, the plane that described rotary disk 24A contacts with described screened shielded antanna shell 22A is provided with described track 27A, described ball 26A is provided with in track, described screened shielded antanna 10A is configured to two ends simultaneous retractable, and length segmentation is located, this screened shielded antanna 10A is the 10A screened shielded antanna 10A that all can use at all radiation proof communication equipments being provided with single hole high-frequency socket 7.
Embodiment 7
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10A1 screened shielded antanna 10A1 with the shielding of metallic shield shielding wire, length is 1000mm,
Described screened shielded antanna 10A1 be exactly described otherwise exposed antenna 12A1 be set to flap-type, be set to software, purse up time can be anchored on described screened shielded antanna shell 22A, or the chip antenna of described otherwise exposed antenna 12A1 is made cosmetic sheet, all the other are identical with described screened shielded antanna 10A.
Embodiment 8
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10A1 screened shielded antanna 10A1 with the shielding of metallic shield shielding wire, length is 3000mm,
Described screened shielded antanna 10A1 be exactly described otherwise exposed antenna 12A1 be set to flap-type, be set to software, purse up time can be anchored on described screened shielded antanna shell 22A, or the chip antenna of described otherwise exposed antenna 12A1 is made cosmetic sheet, all the other are identical with described screened shielded antanna 10A.
Embodiment 9
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10B lengthening screened shielded antanna 10B with the shielding of metallic shield shielding wire, length is 3m;
This screened shielded antanna 10B comprises: the 28B radio frequency cable 28B arranging wall scroll, described radio frequency cable 28B comprises described antenna lead 17B, described metallic shield separator 15B, insulating barrier is provided with between described antenna lead 17B and described metallic shield separator 15B, radio frequency cable crust has described insulating barrier 13B, one end of described screened shielded antanna lead-in wire 17B arranges described otherwise exposed antenna 12B, this otherwise exposed antenna 12B is installed by described astronomical cycle part 11B and connects, be set to any one antenna in telescopic antenna or board type antenna or five wooden antennas, various antenna is connected by connector assembly, replaceable as required,
The other end of described antenna lead 17B is provided with described terminal box 19A, be connected with the binding post of one end in described terminal box 19A simultaneously, the other end binding post of described terminal box 19A connects described antenna lead 17B-1, the outlet of described terminal box 19A should be able to reach and make described radio frequency cable 28BH whole piece freely stretch into or pull out or expose described High-frequency plug 8B, described terminal box 19A is set to can be arranged on desk, described antenna lead 17BH one end of described radio frequency cable 28BH is connected with the binding post of described terminal box 19A, the other end is connected with described High-frequency plug 8B, when described High-frequency plug 8B inserts described high-frequency socket 7B, disconnect the connection of described tuner 5B circuit and described built-in antenna 6B simultaneously, described antenna lead 17BH connects described tuner 5B circuit simultaneously, when described High-frequency plug 8B extracts, recover described built-in antenna 6B to be connected with described tuner 5B circuit.
Embodiment 10
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10B lengthening screened shielded antanna 10B with the shielding of metallic shield shielding wire, length is 10m;
This screened shielded antanna 10B comprises: the 28B radio frequency cable 28B arranging wall scroll, one end that described radio frequency cable 28B comprises described antenna lead 17B, is provided with insulating barrier between described metallic shield separator 15B, described antenna lead 17B and described metallic shield separator 15B, radio frequency cable crust has described insulating barrier 13B, described screened shielded antanna goes between 17B arranges described otherwise exposed antenna 12B, this otherwise exposed antenna 12B is installed by described astronomical cycle part 11B and connects, be set to any one antenna in telescopic antenna or board type antenna or five wooden antennas
The other end of described 17B antenna lead 17B is provided with described terminal box 19A, be connected with the binding post of one end in described terminal box 19A simultaneously, the other end binding post of described terminal box 19A connects described antenna lead 17B-1, the outlet of described terminal box 19A should be able to reach and make described radio frequency cable 28BH whole piece freely stretch into or pull out or expose described High-frequency plug 8B, described terminal box 19A is set to can be arranged on desk, described antenna lead 17BH one end of described radio frequency cable 28BH is connected with the binding post of described terminal box 19A, the other end is connected with described High-frequency plug 8B, when described High-frequency plug 8B inserts described high-frequency socket 7B, disconnect the connection of described tuner 5B circuit and described built-in antenna 6B simultaneously, described antenna lead 17BH connects described tuner 5B circuit simultaneously, when described High-frequency plug 8B extracts, recover described built-in antenna 6B to be connected with described tuner 5B circuit.
Embodiment 11
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10B1 lengthening screened shielded antanna 10B1 with the shielding of metallic shield shielding wire, length is 1m;
This screened shielded antanna 10B comprises: the 28B radio frequency cable 28B arranging wall scroll, one end that described radio frequency cable 28B comprises described antenna lead 17B, is provided with insulating barrier between described metallic shield separator 15B, described antenna lead 17B and described metallic shield separator 15B, radio frequency cable crust has described insulating barrier 13B, described screened shielded antanna goes between 17B arranges described otherwise exposed antenna 12B, this otherwise exposed antenna 12B is installed by described astronomical cycle part 11B and connects, and is set to any one antenna in telescopic antenna or board type antenna or five wooden antennas;
The other end of described antenna lead 17B is provided with described terminal box 19A, be connected with the binding post of one end in described terminal box 19A simultaneously, the other end binding post of described terminal box 19A connects described antenna lead 17B-1, the outlet of described terminal box 19A should be able to reach and make described radio frequency cable 28BH whole piece freely stretch into or pull out or expose described High-frequency plug 8B, described terminal box 19A is set to can be arranged on desk, described antenna lead 17BH one end of described radio frequency cable 28BH is connected with the binding post of described terminal box 19A, the other end is connected with described High-frequency plug 8B, when described High-frequency plug 8B inserts described high-frequency socket 7B, disconnect the connection of described tuner 5B circuit and described built-in antenna 6B simultaneously, now described High-frequency plug 8B connects described tuner 5B circuit by described duplexer 9B, when described High-frequency plug 8B extracts, recover described built-in antenna 6B to be connected with described tuner 5B circuit.
Embodiment 12
Radiation proof communication equipment as previously discussed,
It is characterized in that: except being provided with the described 10B1 screened shielded antanna 10B1 with the shielding of metallic shield shielding wire except machine, length is outside 10m, and all the other are identical with embodiment 11.
Embodiment 13
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Outside machine, be provided with the described 10B2 screened shielded antanna 10B2 with the shielding of metallic shield shielding wire, length is 1m;
Described screened shielded antanna 10B2 arranges three road radio frequency cables, the screened shielded antanna of Third Mate's antenna, 30B radio frequency cable 30B is provided with 30B1 radio frequency cable 30B1, 30B2 radio frequency cable 30B2, 30B3 radio frequency cable 30B3, 30BH radio frequency cable 30BH includes 30BH1 radio frequency cable 30BH1, 30BH2 radio frequency cable 30BH2, 30BH3 radio frequency cable 30BH3, described radio frequency cable 30B one end is connected with described radio frequency cable 30BH by described terminal box 19A2, described terminal box 19A2 is provided with the setting of the binding post that three road radio frequency cables are connected, the described radio frequency cable 30B other end by described astronomical cycle part 11B2 respectively with described otherwise exposed antenna 12B1, described otherwise exposed antenna 12B2, described otherwise exposed antenna 12B3 installs and connects, the described radio frequency cable 30BH other end is connected with described High-frequency plug 8B2, when described High-frequency plug 8B2 inserts described high-frequency socket 7B2, disconnect described built-in antenna 6B1, described built-in antenna 6B2, described built-in antenna 6B3, described High-frequency plug 8B2 connects described tuner 5B2 circuit simultaneously, when extracting described High-frequency plug 8B2, by described built-in antenna switch 9B2, make described built-in antenna 6B1, described built-in antenna 6B2, described built-in antenna 6B3 recovers to connect automatically.
Embodiment 14
Except being provided with the described 10B2 screened shielded antanna 10B2 with the shielding of metallic shield shielding wire except machine, length is outside 10m, and all the other are identical with embodiment 13.
Embodiment 15
Radiation proof communication equipment as previously discussed,
Its characteristic is:
Described screened shielded antanna 10C is placed in machine, it is the screened shielded antanna of drawstring formula, pull-out uses length to be arranged between 100mm, when described screened shielded antanna 10C is not drawn out, described antenna lead 17C is disconnected by described duplexer 9C and described tuner 5C, described tuner 5C circuit and described built-in antenna 6C connect simultaneously, when described screened shielded antanna 10C is drawn out, described antenna lead 17C is connected with the input of described tuner 5C circuit by described duplexer 9C, described tuner 5C disconnects described built-in antenna 6C simultaneously, the described antenna lead 17C other end is connected with described otherwise exposed antenna 12C by described astronomical cycle part 11C, described otherwise exposed antenna 12C is identical with described otherwise exposed antenna 12A,
Because pivotal vibrational power flow has described rotary disk 24C when described screened shielded antanna 10C pulls out, described main spring 23C is provided with in this rotary disk 24C, described rotary disk 24C is provided with described trough of belt 25C, for the described radio frequency cable 28C in embedding jail, described rotary disk 24C set screw is arranged in described screened shielded antanna garden chamber 22C, the plane that described rotary disk 24C contacts with described screened shielded antanna garden chamber 22C is provided with described track 27C, described ball 26C is provided with in track, described main spring 23C in described rotary disk 24C is described Mainspring type main spring 23C, described screened shielded antanna 10C is monolateral flexible, described antenna lead 17C and described metallic shield separator 15C connects described tuner 5C end and is first connected on the metallic contact of described rotary disk 24C respectively, the sheet metal in the installation cavity of described rotary disk 24C is delivered to by the rotation metallic contact of described rotary disk 24C, described metallic shield separator 15C directly receives described tuner ground wire from sheet metal, described antenna lead 17C is connected to the input of described tuner 5C circuit by described built-in antenna switch 9C conversion.
Embodiment 16
Radiation proof communication equipment as previously discussed,
Its characteristic is:
Described 10C screened shielded antanna 10C is placed in machine, it is the screened shielded antanna of drawstring formula, pull-out uses length to be arranged between 2500mm, when described screened shielded antanna 10C is not drawn out, described antenna lead 17C is disconnected by described duplexer 9C and described tuner 5C, described tuner 5C circuit and described built-in antenna 6C connect simultaneously, when described screened shielded antanna 10C is drawn out, described antenna lead 17C is connected with the input of described tuner 5C circuit by described duplexer 9C, described tuner 5C disconnects described built-in antenna 6C simultaneously, the described antenna lead 17C other end is connected with described otherwise exposed antenna 12C by described astronomical cycle part 11C, described otherwise exposed antenna 12C is identical with described otherwise exposed antenna 12A,
Because pivotal vibrational power flow has described rotary disk 24C when described screened shielded antanna 10C pulls out, described main spring 23C is provided with in this rotary disk 24C, described rotary disk 24C is provided with described trough of belt 25C, for the described radio frequency cable 28C in embedding jail, described rotary disk 24C set screw is arranged in described screened shielded antanna garden chamber 22C, the plane that described rotary disk 24C contacts with described screened shielded antanna garden chamber 22C is provided with described track 27C, described ball 26C is provided with in track, described main spring 23C in described rotary disk 24C is described Mainspring type main spring 23C, described screened shielded antanna 10C is monolateral flexible, described antenna lead 17C and described metallic shield separator 15C connects described tuner 5C end and is first connected on the metallic contact of described rotary disk 24C respectively, the sheet metal in the installation cavity of described rotary disk 24C is delivered to by the rotation metallic contact of described rotary disk 24C, described metallic shield separator 15C directly receives described tuner ground wire from sheet metal, described antenna lead 17C is connected to the input of described tuner 5C circuit by described built-in antenna switch 9C conversion.
Embodiment 17
Radiation proof communication equipment as previously discussed,
It is characterized in that:
10C1 screened shielded antanna 10C1, be provided with 29C radio frequency cable 29C, described radio frequency cable 29C contains 29C1 radio frequency cable 29C1 and 29C2 radio frequency cable 29C2, be provided with described otherwise exposed antenna 12C1, described otherwise exposed antenna 12C2, be provided with described High-frequency plug 8C1 and the rotary disk switch of described high-frequency socket 7C1 two-way matched and duplexer 9C1, described built-in antenna 6C1, described built-in antenna 6C2, the structure of rotary disk is identical with the rotary disk structure of screened shielded antanna 10C described above, the connection of wiring is identical with above-mentioned 10C, conversion and the connection of outside antenna in a width are added exactly.
Embodiment 18
Radiation proof communication equipment as previously discussed,
It is characterized in that:
10C2 screened shielded antanna 10C2 is provided with 30C radio frequency cable 30C, described radio frequency cable 30C contains 30C1 radio frequency cable 30C1, 30C2 radio frequency cable 30C2, 30C3 radio frequency cable 30C3, be provided with described otherwise exposed antenna 12C1, described otherwise exposed antenna 12C2, described otherwise exposed antenna 12C3, the described high-frequency socket 7C2 in three holes that the described High-frequency plug 8C2 being provided with three holes matches, the rotary disk switch on three tunnels is set, the described duplexer 9C2 on three tunnels, described built-in antenna 6C1, described built-in antenna 6C2, described built-in antenna 6C3, rotary disk internal antenna is identical with described screened shielded antanna 10C with the structure in rotary disk chamber, each road on three tunnels is identical with described screened shielded antanna 10C with conversion regime from described tuner 5C3 to otherwise exposed antenna wiring, its difference is a road with regard to 10C, 10C2 is three tunnels.
Embodiment 19
Radiation proof communication equipment as previously discussed,
Its character is:
The described high-frequency socket 7D that the behind that described 10D screened shielded antanna 10D is set to be plugged into radiation proof communication equipment is general, with the general described High-frequency plug 8D grafting that chamber, described screened shielded antanna garden is arranged, substantially identical with described in described screened shielded antanna 10C of transmission stretching structure and circuit in described screened shielded antanna 10D shell, but, it is that described antenna lead 17D is delivered to the described High-frequency plug 8D that shell is settled by rotary disk, all can mate with the mobile communication mechanism being provided with general described high-frequency socket 7, all can exchange with above-described High-frequency plug and high-frequency socket.
Embodiment 20
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Described 10E screened shielded antanna 10E is arranged on the lower end being plugged into radiation proof communication equipment, and shell is set to rectangular; The shape of inner wire is identical with the shape of described screened shielded antanna 10D, and described High-frequency plug 8 is configured to directly be inserted into the described high-frequency socket 7 li be arranged on below radiation proof communication equipment, and length is identical with the width of radiation proof communication equipment; Thickness is identical with the thickness of radiation proof communication equipment; Described inner wire is drawstring formula, and its mode of connection is identical with the mode of connection of described screened shielded antanna 10D.
Embodiment 21
Radiation proof communication equipment as previously discussed,
It is characterized in that:
10F screened shielded antanna 10F length is 150-3000mm, be provided with 29F radio frequency cable 29F, described radio frequency cable 29F1 and described radio frequency cable 29F2 is provided with in described radio frequency cable 29F, namely a radio frequency cable and described otherwise exposed antenna 12F1 can be added on the basis of described screened shielded antanna 10A, there is distance the position that described otherwise exposed antenna 12F1 and described otherwise exposed antenna 12F is arranged, and arrange at grade, E-E cross section is banded, the E-E cross section of described High-frequency plug 8F is holes, the described high-frequency socket 7F that configuration holes circuit matches, described built-in antenna 6F1 is set, described built-in antenna 6F2, be provided with described switch 9, the conversion of described high-frequency socket 7F and described built-in antenna 6F1 and described built-in antenna 6F2 can be completed, all the other are identical with described screened shielded antanna 10A.
Embodiment 22
Radiation proof communication equipment as previously discussed,
It is characterized in that:
12F1.1,12F1.2 otherwise exposed antenna 12F1.1,12F1.2 that 10F1 screened shielded antanna 10F1 is arranged are decorating of sheet, and all the other are identical with described screened shielded antanna 10F.
Embodiment 23
Radiation proof communication equipment as previously discussed,
It is characterized in that:
10F2 screened shielded antanna 10F2 arranges 30F radio frequency cable 30F, described radio frequency cable 30F comprises 30F1 radio frequency cable 30F1, 30F2 radio frequency cable 30F2, 30F3 radio frequency cable 30F3, on the basis of described screened shielded antanna 10F1, add a radio frequency cable, too increase an otherwise exposed antenna, be provided with 12F2 otherwise exposed antenna 12F2, 12F2.1 otherwise exposed antenna 12F2.1, 12F2.2 otherwise exposed antenna 12F2.2, be configured with the described High-frequency plug 8F2 in 3 holes, be provided with the described high-frequency socket 7F2 in 3 holes, described built-in antenna 6F3 is set, described built-in antenna 6F4, described built-in antenna 6F5, described duplexer 9F2 is set, described high-frequency socket 7F2 and described built-in antenna 6F3 can be completed, described built-in antenna 6F4, described built-in antenna 6F5 changes simultaneously, all the other are identical with described screened shielded antanna 10F1.
Embodiment 24
Radiation proof communication equipment as previously discussed,
It is characterized in that:
10F3 screened shielded antanna 10F3 is provided with 3 12F3 otherwise exposed antenna 12F3,12F3.1 otherwise exposed antenna 12F3.1,12F3.2 otherwise exposed antenna 12F3.2 is sheet, can decorate, all the other are identical with described screened shielded antanna 10F2, more than there are 4 kinds of screened shielded antannas, can according to the difference choosing one wherein of the setting of the built-in antenna of communication equipment and otherwise exposed antenna profile.
Embodiment 25
Radiation proof communication equipment as previously discussed,
It is characterized in that:
Can with the screened shielded antanna 10G of charger baby owing to being provided with 10G outside machine, screened shielded antanna and charger baby charging wire are set to one, choose described screened shielded antanna 10 and described High-frequency plug 32G is set at installed part place and otherwise exposed antenna and the junction that goes between, the power line of band metal isolation has been added in described radio frequency cable 28, charger baby is arranged described otherwise exposed antenna 12G1, this otherwise exposed antenna 12G1 and charger baby power supply output line all receive the described high frequency jack 34G on casing, the other end of described screened shielded antanna 10G is provided with described High-frequency plug 8G and is connected with radiation proof communication equipment, power line is directly connected to charging circuit in machine by the high-frequency socket on described High-frequency plug 8G and machine, the connection of remaining circuit and described screened shielded antanna 10, circuit, in machine, outside antenna conversion regime is all the same, the described High-frequency plug 32G of otherwise exposed antenna is connected to the described high frequency jack 33G of described otherwise exposed antenna 12G2 in time not charging.
Or described otherwise exposed antenna plug 32 is not set, directly receives charger baby by radio frequency cable and charging wire and be connected with charger baby power supply and otherwise exposed antenna, charger baby arranges described switch 36 and controls charging or no.
Embodiment 26
As the radiation proof communication equipment above as described in any one,
It is characterized in that:
Owing to being provided with bobbin winoler 31, this bobbin winoler is used for around very long screened shielded antanna, when not using, this bobbin winoler 31 is placed in the pocket of user, is not only easy to carry, neatly, be convenient to keeping, and, the more important thing is that this very long screened shielded antanna is not easy unrest in the pocket of people, make user can be convenient to use this very long screened shielded antanna, therefore, there is good use value and good social benefit.
In addition, on panel computer and on portable small computer, also can arrange high-frequency socket, use screened shielded antanna, the distance mainly radiation source being left people adds, so radiation intensity reduces widely, therefore, is all a kind of well selections.
The utility model is applicable to mobile phone and other all Wireless Telecom Equipment machine, and low power station, moving machine are as the telephone set equipment use etc. of landline telephone.Such as: now a lot of mobile communication apparatus phone used time that fixes is applied tuner 5 of the present utility model and shields.Make high-frequency radio frequency circuit non-radiating, with the screened shielded antanna 10B of the lengthening shown in Fig. 3 .1,3.2,3.3.The screened shielded antanna of described lengthening not only can be stayed at home, office uses, and can onboard, walk, go out or go on business in other places time, use on portable small computer, therefore, very easy to use, carry also very convenient, radiation can drop to very little, really reaches radiationless effect, is the extraordinary selection of numerous users.
It is noted that above embodiment is only used to be further described the utility model; be not used to restriction of the present utility model; when not departing from design of the present utility model and spirit; those of ordinary skill in the art can variously carry out improving or improving, and still belong within protection range of the present utility model.
Claims (9)
1.
a kind of radiation proof communication equipment,comprise: shell (1), Base-Band Processing andlogic control circuit (2), man-computer interface (3), shielding case (4), launch the tuner (5) with processing circuitry of intermediate frequency, built-in antenna (6), high-frequency socket (7), High-frequency plug (8), duplexer (9), screened shielded antanna (10), portable type screened shielded antanna (10A), lengthen screened shielded antanna (10B), built-in screened shielded antanna (10C), the machine back of the body inserts screened shielded antanna (10D), plug-in type screened shielded antanna (10E) under machine, any one screened shielded antanna in 10F screened shielded antanna (10F), radio frequency cable,
It is characterized in that:
1) high-frequency radio frequency of described tuner (5) and the circuit of intermediate-frequency section all adopt metal to make described shielding case (4) shielding isolation, described built-in antenna (6) and man-computer interface (3) display screen plane are not shielded, for making communication equipment normally work, everyly the circuit of radiation is had all to isolate with metallic shield in Base-Band Processing andlogic control circuit (2) and all the other;
2) outside machine, be provided with any one screened shielded antanna in the screened shielded antanna (10) of described metallic shield shielding wire shielding, the 10.1st screened shielded antanna (10.1), the 10.2nd screened shielded antanna (10.2), length is 100-3000mm;
This screened shielded antanna (10) comprising: the radio frequency cable (28) establishing wall scroll, described radio frequency cable (28) comprises antenna lead (17), metallic shield separator (15), insulating barrier is provided with between antenna lead (17) and metallic shield separator (15), radio frequency cable crust has insulating barrier (13), one end of described screened shielded antanna lead-in wire (17) is installed by astronomical cycle part (11) and is connected otherwise exposed antenna (12), another termination High-frequency plug (8), this High-frequency plug (8) connects high-frequency socket, when High-frequency plug (8) inserts high-frequency socket (7), duplexer (9) disconnects built-in antenna (6 voluntarily, ) connect tuner (5) simultaneously, when High-frequency plug (8) is extracted, recover built-in antenna (6) to be connected with tuner (5), high-frequency socket (7) or with duplexer (9) be arranged on shell (1) or install stretch out from shell in the circuit board,
10.1st screened shielded antanna (10.1) is provided with the 29.1st radio frequency cable (29.1) and the 29.2nd radio frequency cable (29.2) and combines and form radio frequency cable 29, 29.1st, the radio frequency cable (29.1) of the 29.2nd is identical with radio frequency cable (28) with the 2nd radio frequency cable (29.2) structure, 17.1st antenna lead (17.1) and the 17.2nd antenna lead (17.2) one end connect the 12.1st otherwise exposed antenna (12.1) and the 12.2nd otherwise exposed antenna (12.2) respectively, the other end connects the 8.1st High-frequency plug (8.1) respectively, 2 holes of the 8.2nd High-frequency plug (8.2), when the 8.1st High-frequency plug (8.1), when 8.2nd High-frequency plug (8.2) inserts 2 holes connection of the 7.1st high-frequency socket (7.1), disconnected the connection of the 5.1st tuner (5.1) circuit and the 6.1st built-in antenna (6.1) and the 6.2nd built-in antenna (6.2) by the 9.1st duplexer (9.1) simultaneously, connected simultaneously the 5.1st tuner (5.1) circuit respectively with the 8.1st High-frequency plug (8.1), the connection in the 8.2nd High-frequency plug (8.2) hole,
10.2nd screened shielded antanna (10.2) is provided with the radio frequency cable (30) of 3 cores, by the 30.1st single core radio frequency cable (30.1), 30.2nd single core radio frequency cable (30.2), 30.3rd single core radio frequency cable (30.3) combines and forms radio frequency cable (30), has the structure of 3 radio frequency cables (28), and 3 strip antenna lead-in wire (17) one end connect the 12.3rd respectively, 12.4th, the otherwise exposed antenna (12.3 of the 12.5th, 12.4, 12.5), the other end connects the 8.3rd of 3 holes the respectively, 8.4th, 8.5th High-frequency plug (8.3, 8.4, 8.5) heart yearn, when the 8.3rd of 3 holes, 8.4th, 8.5th High-frequency plug (8.3, 8.4, 8.5) when inserting the 7.2nd high-frequency socket (7.2) connection in 3 holes, the 8.3rd, 8.4th, 8.5th High-frequency plug (8.3, 8.4, 8.5) heart yearn is connected with 3, the circuit of the 5.2nd tuner (5.2) respectively, disconnects the 6.3rd simultaneously, 6.4th, 6.5th these 3 built-in antennas (6.3, 6.4, 6.5), when the 8.3rd, 8.4th, the High-frequency plug (8.3 in 3 holes of the 8.5th, 8.4, 8.5) when extracting the 7.2nd high-frequency socket (7.2), the 6.3rd, 6.4th, 3 built-in antennas (6.3 of the 6.5th, 6.4, 6.5) connection the 5.2nd tuner (5.2) circuit is recovered respectively,
All single radio frequency cables, i.e. radio frequency cable (28), 29.1st radio frequency cable (29.1), 29.2nd radio frequency cable (29.2), 30.1st single core radio frequency cable, 30.2nd single core radio frequency cable, 30.3rd single core radio frequency cable (30.1, 30.2, 30.3) screen (15) all respectively with High-frequency plug (8), 8.1st, 8.2nd High-frequency plug hole (8.1, 8.2), 8.3rd, 8.4th, 8.5th High-frequency plug hole (8.3, 8.4, 8.5) screen connects, and respectively with the high-frequency socket matched (7), 7.1st high-frequency socket, 7.2nd high-frequency socket (7.1, 7.2) screening can connects, eventually through screening can and the tuner (5) of high-frequency socket, 5.1st tuner (5.1), the ground wire of the 5.2nd tuner (5.2) connects,
3) otherwise exposed antenna (12) of screened shielded antanna (10) can be changed to the 12.6th otherwise exposed antenna (12.6), the 12.1st of 10.1st screened shielded antanna (10.1), 12.2nd otherwise exposed antenna (12.1, 12.2) the 12.7th can be changed into, 12.8th otherwise exposed antenna (12.7, 12.8), the 12.3rd of 10.2nd screened shielded antanna (10.2), 12.4th, 12.5th otherwise exposed antenna (12.3, 12.4, 12.5) the 12.9th can be changed into respectively, 12.10th, 12.11st otherwise exposed antenna (12.9, 12.10, 12.11), simultaneously otherwise exposed antenna or make other any shape, or make ornament,
4) radio frequency cable (28) or be arranged to flat, radio frequency cable (29) two cables or be arranged side by side into flat, 3 articles of single radio frequency cables (30.1,30.2,30.3) of the 30.1st, the 30.2nd, the 30.3rd can be arranged side by side as flat radio frequency cable by radio frequency cable (30), or comprise otherwise exposed antenna full-shield antenna and be arranged to flat, or whole piece screened shielded antanna is set to circle, and two articles of single radio frequency cables of the 10.1st screened shielded antanna (10.1) or strong and weak different or be set to that one is long and the other is short according to the signal of the antenna of communication equipment;
5) bobbin winoler (31) is that a kind of outside has 4 stars, the middle plastic plate for hollow circle, and 4 stars have 4 apertured orifice, and 4 groove multi-turns are in an orderly manner around upper screened shielded antanna, and apertured orifice is for embedding the end of a thread.
2. radiation proof communication equipment as claimed in claim 1,
It is characterized in that:
Outside machine, be provided with any one screened shielded antanna in the described 10A portable type screened shielded antanna (10A) with the shielding of metallic shield shielding wire, 10A1 portable type screened shielded antanna (10A1), length is 150-3000mm;
This portable type screened shielded antanna (10A) comprising: establish the radio frequency cable (28A) described in the radio frequency cable of wall scroll (28A) to comprise antenna lead (17A), metallic shield separator (15A), insulator is provided with between antenna lead (17A) and metallic shield separator (15A), radio frequency cable crust has insulating barrier (13A), one end of described screened shielded antanna lead-in wire (17A) is installed by astronomical cycle part (11A) and is connected otherwise exposed antenna (12A), another termination High-frequency plug (8A), this High-frequency plug (8A) connects high-frequency socket (7A), when High-frequency plug (8A) inserts high-frequency socket (7A), duplexer (9A) disconnects built-in antenna (6A) voluntarily, connect tuner (5A) simultaneously, when High-frequency plug (8A) is extracted, recover built-in antenna (6A) to be connected with tuner (5A), high-frequency socket (7A) is arranged on shell (1) with duplexer (9A) or installs and stretches out from shell (1) in the circuit board, metal screen layer (15C) is connected with High-frequency plug (8C) shielding case, when High-frequency plug (8C) inserts high-frequency socket (7C), High-frequency plug (8C) shielding case directly connects tuner (5C) ground wire by high-frequency socket (7C),
Described otherwise exposed antenna (12A) be made up of the sheet metal of one section of S type or rectangle or software and be provided with gib head, radio frequency cable (28A) cross section D-D is bandlet shape, line inside from antenna gib head to plug is bandlet shape entirely, width is consistent, constitute two ends extension band type screened shielded antanna (10A), or be arranged to round belt type, be provided with rotary disk (24A), this rotary disk (24A) is inner is provided with Mainspring type main spring (23A), rotary disk (24A) is also provided with trough of belt (25A), for embedding firm radio frequency cable (28A), it is inner that rotary disk (24A) is installed in screened shielded antanna shell (22A) with set screw, the plane that described rotary disk (24A) contacts with screened shielded antanna shell (22A) is provided with track (27A), ball (26A) is provided with in track, screened shielded antanna (10A) is configured to two ends simultaneous retractable, and length segmentation is located, this screened shielded antanna (10A) is the screened shielded antanna (10A) that all can use at all radiation proof communication equipments being provided with single hole high-frequency socket (7),
Described 10A1 screened shielded antanna (10A1) be exactly 12A1 otherwise exposed antenna (12A1) be set to flap-type, be set to software, purse up time can be anchored on screened shielded antanna shell (22A), or the chip antenna of 12A1 otherwise exposed antenna (12A1) is made cosmetic sheet, or the antenna of other any structure, all the other structures are identical with screened shielded antanna (10A).
3. radiation proof communication equipment as claimed in claim 1,
It is characterized in that:
Outside machine, be provided with any one screened shielded antanna in the described lengthening screened shielded antanna (10B) with the shielding of metallic shield shielding wire, 10B1 lengthening screened shielded antanna 10B1,10B2 lengthening screened shielded antanna 10B2, length is 0.5-10m;
This screened shielded antanna (10B) comprising: the radio frequency cable (28B) arranging wall scroll, described radio frequency cable (28B) comprises antenna lead (17B), metallic shield separator (15B), insulating barrier is provided with between antenna lead (17B) and metallic shield separator (15B), radio frequency cable crust has insulating barrier (13B), one end of described screened shielded antanna lead-in wire (17B) arranges otherwise exposed antenna (12B), this otherwise exposed antenna (12B) is installed by astronomical cycle part (11B) and is connected, be set to any one antenna in telescopic antenna or board type antenna or five wooden antennas, or installed part (11B) is set to socket, various antenna is established general plug, change by inserting mode,
The other end of described antenna lead (17B) is provided with terminal box (19A), be connected with the binding post of terminal box (19A) interior one end simultaneously, the other end binding post of terminal box (19A) connects 17B-1 antenna lead (17B-1), the outlet of terminal box (19A) should be able to reach and makes radio frequency cable (28BH) whole piece freely stretch into or pull out or expose High-frequency plug (8B), terminal box (19A) is set to can be arranged on desk, antenna lead (17BH) one end of radio frequency cable (28BH) is connected with the binding post of terminal box (19A), the other end is connected with High-frequency plug (8B), when High-frequency plug (8B) inserts high-frequency socket (7B), disconnect the connection of tuner (5B) circuit and built-in antenna (6B) simultaneously, now High-frequency plug (8B) connects tuner (5B) circuit by duplexer (9B), when High-frequency plug (8B) is extracted, recover built-in antenna (6B) to be connected with tuner (5B) circuit, insulating barrier is provided with between the screen of binding post and binding post, screen (15B) is connected with screen (15BH) by the screen of binding post, then is connected tuner (5B) ground wire by High-frequency plug (8B) with high-frequency socket (7B),
Described 10B1 screened shielded antanna (10B1) is set on the basis of the structure of screened shielded antanna (10B), add a road antenna, arrange radio frequency cable 29B comprise be provided with 29B1 radio frequency cable (29B1) and, 29B2 radio frequency cable (29B2), radio frequency cable 29BH comprises 29BH1 radio frequency cable (29BH1) and 29BH2 radio frequency cable (29BH2), 29B1 radio frequency cable (29B1) one end is connected with 29BH1 radio frequency cable (29BH1) by 19A1 terminal box (19A1), the other end is installed by astronomical cycle part (11B1) and is connected 12B1 otherwise exposed antenna (12B1), 29B2 radio frequency cable (29B2) one end is connected with 29BH2 radio frequency cable (29BH2) by 19A1 terminal box (19A1), the other end is installed by 11B1 astronomical cycle part (11B1) another location and is connected 12B2, otherwise exposed antenna (12B2), 29BH1 radio frequency cable (29BH1) is connected 8B1 High-frequency plug (8B1) and 8B2 High-frequency plug (8B2) respectively with the other end of 29B2 radio frequency cable (29B2), when described High-frequency plug 8B1 and 8B2 inserts 7B1 high-frequency socket (7B1), 6B1 built-in antenna (6B1) and 6B2 built-in antenna (6B2) is disconnected by 9B1 duplexer (9B1), 8B1 and 8B2 High-frequency plug (8B1) and (8B2) are connected tuner (5B) circuit respectively simultaneously, when extracting described High-frequency plug 8B1, described built-in antenna 6B1 and described built-in antenna 6B2 is made to recover to connect by described duplexer 9B1,
10B2 screened shielded antanna (10B2) arranges three road radio frequency cables, the screened shielded antanna of No. three antennas, radio frequency cable (30B) is provided with 30B1 radio frequency cable (30B1), 30B2 radio frequency cable (30B2), 30B3 radio frequency cable (30B3), 30BH radio frequency cable (30BH) includes 30BH1, 30BH2, 30BH3 radio frequency cable (30BH1), radio frequency cable (30BH2), radio frequency cable (30BH3), radio frequency cable (30B) one end is connected with described radio frequency cable (30BH) by described terminal box (19A2), described terminal box (19A2) is provided with the setting of the binding post that three road radio frequency cables are connected, described radio frequency cable (30B) other end by described astronomical cycle part (11B2) respectively with described otherwise exposed antenna (12B1), described otherwise exposed antenna (12B2), otherwise exposed antenna (12B3) is installed and is connected, 30BH radio frequency cable (30BH) other end is connected with 8B2 High-frequency plug (8B2), when described High-frequency plug (8B2) inserts described high-frequency socket (7B2), disconnect described built-in antenna (6B1), built-in antenna (6B2), built-in antenna (6B3), described High-frequency plug (8B3) simultaneously, (8B4), (8B5) described tuner (5B2) circuit is connected, when extracting High-frequency plug (8B2), by duplexer (9B2), make described built-in antenna (6B3), built-in antenna (6B4), built-in antenna (6B5) recovers to connect automatically,
The binding post of 19A2 terminal box (19A2) or connect by radio frequency cable interface plug-in type, together with the radio frequency cable on two roads and three tunnels or be set to is not incorporated in, each single radio frequency cable connects with High-frequency plug, socket separately, or be set to wherein have 1 road or 2 tunnels only to use 30BH radio frequency cable (30BH), otherwise exposed antenna in described 30BH cable link box termination is set simultaneously;
If terminal box is for the ease of arranging sectional area is little by the radio frequency cable of H-H section than the radio frequency cable of G-G section, or the radio frequency cable shunt by the radio frequency cable of H-H section and G-G section being set at terminal box place, connecting with the High-frequency plug seat of concentric reducer; Or the outside of the radio frequency cable (28B) of G-G section 28B, 29B, 30B, (29B), (30B) is separately added one deck outer shielding layer, i.e. secondary shield ground connection, simultaneously or the ground wire being directly embedded in the earth is set in addition connects to improve shield effectiveness.
4. radiation proof communication equipment as claimed in claim 1,
Its characteristic is:
The screened shielded antanna be placed in machine has 10C, 10C1,10C2 screened shielded antanna (10C, 10C1,10C2), and total length is 100-3000mm, choosing wherein any one screened shielded antanna;
10C screened shielded antanna (10C) is provided with 28C radio frequency cable (28C), has described antenna lead (17C), described metallic spacer (15C), has insulating barrier between described antenna lead (17) and metallic spacer;
Because pivotal vibrational power flow has 24C rotary disk (24C) when described 10C screened shielded antanna (10C) pulls out, this rotary disk (24C) is inner is provided with 23C main spring (23C), this rotary disk (24C) is provided with 25C trough of belt (25C), for embedding firm 28C radio frequency cable (28C), it is inner that this rotary disk (24C) is arranged on chamber, 22C screened shielded antanna garden (22C) with set screw, the plane that described rotary disk (24C) contacts with chamber, described screened shielded antanna garden (22C) is provided with 27C track (27C), 26C ball (26C) is provided with in track, this main spring 23C in this rotary disk 24C is Mainspring type main spring 23C,
10C screened shielded antanna (10C) is monolateral flexible, 17C antenna lead (17C) one end is connected with described otherwise exposed antenna (12C) by described astronomical cycle part (11C), described otherwise exposed antenna (12C) structure is identical with described otherwise exposed antenna (12A), the other end is first connected on the becket of this rotary disk 24C respectively, rotary disk is provided with 2 beckets, corresponding has two strip metal sheets, every strip metal sheet is provided with contact point, one of them connects described metallic spacer (15C), a strip metal sheet of described screened shielded antanna cylindrical cavity (22C) is delivered to by the rotation metal ring of described rotary disk (24C), the sheet metal of connection metal shielding separator (15C) directly receives tuner ground wire, on this rotary disk, another becket connects antenna lead (17C), the input of tuner (5C) circuit is connected to by described duplexer (9C) conversion by another strip metal sheet that is pivotally attached to of rotary disk,
Inside the gib head of described otherwise exposed antenna (12C), be provided with a 9C1 meet and discuss (9C1), when the gib head pull-out of otherwise exposed antenna (12C), this is met and discussed (9C1) have left duplexer (9C), now duplexer (9C) is disconnected built-in antenna (6C), connected antenna lead (17C) Metal Contact sheet simultaneously, when otherwise exposed antenna (12C) retraction, meet and discuss and pushed up duplexer (9C), now connect built-in antenna (6C), be disconnected the metal connecting sheet of antenna lead (17C) simultaneously;
10C1 screened shielded antanna (10C1), be provided with 29C radio frequency cable (29C), this radio frequency cable (29C) contains 29C1 radio frequency cable (29C1) and 29C2 radio frequency cable (29C2), be provided with 12C1 otherwise exposed antenna (12C1), otherwise exposed antenna (12C2), be provided with High-frequency plug (8C1) and the rotary disk becket of high-frequency socket (7C1) two-way matched and duplexer (9C1), metallic spacer (15C1), (15C2) merging is connected to a becket, tuner ground wire is directly received by sheet metal, 6C1 built-in antenna (6C1), 6C2 built-in antenna (6C2), the structure of rotary disk is identical with the rotary disk structure of above-mentioned screened shielded antanna (10C), the connection of wiring is identical with above-mentioned (10C), conversion and the connection of outside antenna in a width are added exactly,
The screened shielded antanna (10C2) of 10C2 is provided with 30C radio frequency cable (30C), described radio frequency cable (30C) contains 30C1, 30C2, 30C3 radio frequency cable (30C1, radio frequency cable 30C2, radio frequency cable 30C3), be provided with 12C1, 12C2, 12C3 otherwise exposed antenna (12C1, 12C2, 12C3), the rotary disk becket on three tunnels is set, the 9C2 duplexer (9C2) on three tunnels, 6C1, 6C2, 6C3 built-in antenna (6C1, 6C2, 6C3), rotary disk is identical with described screened shielded antanna (10C) with the structure in rotary disk chamber, each Lu Cong 5C3 tuner (5C3) on three tunnels is identical with described screened shielded antanna (10C) with conversion regime to otherwise exposed antenna wiring, its difference just described (10C) is a road, described (10C2) is three tunnels.
5. radiation proof communication equipment as claimed in claim 1,
Its character is:
10D screened shielded antanna (10D) is set to be plugged into the general 7D high-frequency socket (7D) in the behind of radiation proof communication equipment, with general 8D High-frequency plug (8D) grafting that chamber, screened shielded antanna garden is arranged, substantially identical with described in described screened shielded antanna (10C) of transmission stretching structure and circuit in 10D screened shielded antanna (10D) shell, but, it is that antenna lead (17D) is delivered to the described High-frequency plug (8D) that shell is settled by rotary disk, all can mate with the mobile communication mechanism being provided with general high-frequency socket (7), all can exchange with above-described High-frequency plug and high-frequency socket.
6. radiation proof communication equipment as claimed in claim 1,
It is characterized in that:
10E screened shielded antanna (10E) is arranged on the lower end being plugged into radiation proof communication equipment, and shell is set to rectangular; The shape of inner wire is identical with the shape of described screened shielded antanna (10D), it is inner that described High-frequency plug (8) is configured to directly be inserted into the described high-frequency socket (7) be arranged on below radiation proof communication equipment, and length is identical with the width of radiation proof communication equipment; Thickness is identical with the thickness of radiation proof communication equipment; Described inner wire is drawstring formula, and its mode of connection is identical with the mode of connection of screened shielded antanna 10D.
7. radiation proof communication equipment as claimed in claim 1,
It is characterized in that:
Screened shielded antanna (10F) length of 10F is that 150-3000mm is provided with 29F radio frequency cable (29F), 29F1 radio frequency cable (29F1) and 29F2 radio frequency cable (29F2) is provided with in described radio frequency cable (29F), namely one article of radio frequency cable and 12F1 otherwise exposed antenna (12F1) is added on the basis of described screened shielded antanna (10A), there is distance the position that described otherwise exposed antenna (12F1) and described otherwise exposed antenna (12F) are arranged, and arrange at grade, E-E cross section is banded, the E-E cross section of High-frequency plug 8F is holes, the high-frequency socket (7F) that configuration holes circuit matches, 6F1 is set, built-in antenna (the 6F1 of 6F2, 6F2), be provided with the duplexer (9F) of 9F, can complete and be connected to the circuit of described high-frequency socket (7F) and the conversion of described built-in antenna (6F1) and built-in antenna (6F2) from described High-frequency plug (8F), all the other are identical with described screened shielded antanna (10A),
The otherwise exposed antenna (12F1.1,12F1.2) of 12F1.1,12F1.2 that the screened shielded antanna (10F1) of 10F1 is arranged is decorating of sheet, and all the other are identical with described screened shielded antanna (10F);
The screened shielded antanna (10F2) of 10F2 arranges 30F radio frequency cable (30F), radio frequency cable (30F) comprises 30F1, 30F2, 30F3 radio frequency cable (30F1, 30F2, 30F3), on the basis of screened shielded antanna 10F1, add a radio frequency cable, too increase an otherwise exposed antenna, be provided with described otherwise exposed antenna (12F2, 12F2.1, , 12F2.2), be configured with the High-frequency plug (8F2) in 3 holes, be provided with the high-frequency socket (7F2) in 3 holes, described built-in antenna (6F3 is set, 6F4), 6F5), described duplexer 9F2 is set, high-frequency socket (7F2) three heart yearn and described built-in antenna (6F3 can be completed, 6F4, 6F5) change simultaneously, all the other are identical with described screened shielded antanna (10F1),
10F3 screened shielded antanna (10F3) is provided with 3 described 12F3,12F3.1,12F3.2 otherwise exposed antenna 12F3,12F3.1,12F3.2), for sheet, can decorate, all the other are identical with described screened shielded antanna (10F2), more than there are 4 kinds of screened shielded antannas, according to the setting of the built-in antenna of communication equipment and the difference choosing one wherein of otherwise exposed antenna profile.
8. as the radiation proof communication equipment in claim 1-7 as described in any one,
It is characterized in that:
The screened shielded antanna (10G) of the 10G of band charger baby is provided with outside machine, described screened shielded antanna (10G) screened shielded antanna and charger baby charging wire is set to one, adding a line by screened shielded antanna is charging wire, the ground wire of charging wire and the ground wire of screened shielded antanna share, or shield charging wire with metallic shield shielding wire, screen independent grounding is added in screened shielded antanna, by the 10th, 10.1st, screened shielded antanna (10 described in 10.2nd, 10.1, 10.2), described 10A, 10A1 screened shielded antanna (10A, 10A1), described 10C, 10C1, 10C2 screened shielded antanna (10C, 10C1, 10C2), described screened shielded antanna 10D, described screened shielded antanna 10E, described 10F, 10F1, 10F3 screened shielded antanna (10F, 10F1, 10F3) wherein any one arranges 32G1 High-frequency plug (32G1) at installed part place and otherwise exposed antenna and the junction that goes between in choosing, need when charging, High-frequency plug (32G) to be connected with the high frequency jack (34G) of charger baby (35G), charger baby is arranged the otherwise exposed antenna (12G1) of 12G1, this otherwise exposed antenna (12G1) and charger baby power supply output line all receive the described high frequency jack (34G) on casing
The other end of described screened shielded antanna (10G) is provided with High-frequency plug (8G) and is connected with radiation proof communication equipment, power line is directly connected to charging circuit in machine by High-frequency plug (8G) and the high frequency seat on machine, the connection of remaining circuit and above-mentioned selected screened shielded antanna, circuit, in machine, outside antenna conversion regime is all the same, the High-frequency plug (32G) of otherwise exposed antenna is connected to the high frequency jack (33G) of otherwise exposed antenna (12G2) in time not charging, or do not arrange otherwise exposed antenna plug (32G) directly to receive charger baby by radio frequency cable and charging wire and be connected with charger baby power supply and otherwise exposed antenna, charger baby arranges switch (36) and controls charging or no,
The charger of screened shielded antanna (10B) lengthened is arranged in terminal box, and arrange charging wire is added in described radio frequency cable (28BH) or (29BH) or (30BH) any one, method is identical with said method.
9. as the radiation proof communication equipment in claim 1-7 as described in any one,
It is characterized in that:
Described 10th, 10A, 10B, 10C, 10D, 10E, 10F screened shielded antanna (10,10A, 10B, 10C, 10D, 10E, 10F) all can increase the conversion of outside antenna and interior outside antenna in a road, and the mode of increase is increased to the identical of three tunnels with structure with above-mentioned respective two roads;
The each heart yearn designing or connect at tuner (5) high-frequency socket according to circuitry connects band pass filter, improves the effect of external antenna;
All radio frequency cables all can be set to spirality or straight, and the cross section of all radio frequency cables all can be arranged to circle or flat;
Described radiation proof communication equipment is applicable to mobile phone and other all wireless or wired communication equipment machine.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420849708.XU CN205004445U (en) | 2014-12-24 | 2014-12-24 | Radiation protection communication equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420849708.XU CN205004445U (en) | 2014-12-24 | 2014-12-24 | Radiation protection communication equipment |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205004445U true CN205004445U (en) | 2016-01-27 |
Family
ID=55161317
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420849708.XU Expired - Fee Related CN205004445U (en) | 2014-12-24 | 2014-12-24 | Radiation protection communication equipment |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN205004445U (en) |
-
2014
- 2014-12-24 CN CN201420849708.XU patent/CN205004445U/en not_active Expired - Fee Related
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160127 |