Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.
See also Fig. 1, Fig. 2 and Fig. 3.Fig. 1 is the STRUCTURE DECOMPOSITION schematic diagram of the utility model communicator the first preferred embodiments.Fig. 2 is the package assembly schematic diagram of the utility model communicator the first preferred embodiments.Fig. 3 be the utility model communicator the first preferred embodiments along III-III line cross-sectional view.Described communicator 100 comprises the first framework 110, shows module 120, circuit board 130, antenna 140, the second frameworks 150, battery 160, antenna holder 170, metal wire 180.In the present embodiment, the frame structure of described the first framework 110 hollows, is the front frame of described communicator 100, and described the second framework 150 is the after-frame of described communicator 100.Described the first framework 110 and described the second framework 150 form a receiving space, for accommodating described demonstration module 120, and described circuit board 130, described antenna 140, described battery 160, described antenna holder 170 and described metal wire 180.Described communicator 100 can be but be not limited only to the communication equipments such as mobile phone.
Described first framework 110 of described demonstration module 120 contiguous described communicators 100 arranges, and reveals by the first framework 110 of hollow.Described communicator 100 is shown the relevant consultancy of described communicator 100 to user by described demonstration module 120.Described circuit board 130 is for driving described communicator 100 to work.Described circuit board 130 can be but be not limited only to printed circuit board (PCB).
Described antenna 140 is for receiving and electromagnetic signals.Particularly, the signal that described antenna 140 produces for receiving described circuit board 130, and the signal that described circuit board 130 is produced is converted into electromagnetic wave signal and launches.And, described antenna 140 also for receiving and transmitting unit (such as, base station) electromagnetic wave signal that sends, and the electromagnetic wave signal receiving is transferred to described circuit board 130, described circuit board 130 electromagnetic wave signal that described antenna 140 transmission come is again processed.In the present embodiment, described antenna 140 is arranged on described the second framework 150.Understandably, change in execution mode at other, the position of described antenna 140 also can be adjusted as required.
The contiguous described circuit board 130 of described battery 160 arranges, and is used to the work of described circuit board 130 that needed electric energy is provided.
Described antenna holder 170 is arranged on described antenna 140, for fixing described antenna 130.Further body ground, described antenna holder 170 is also arranged between described antenna 140 and described circuit board 130, for fixing described antenna 130.Preferably, on described antenna holder 170, be provided with through hole (not shown), for described metal wire 180 is passed.That is to say, described metal wire 180 connects described circuit board 130 and described antenna 140 through described through hole.
Described metal wire 180 is electrically connected described circuit board 130 and described antenna 140.On described antenna 140, generally include signal feed-in point 141, for connecting one end of described antenna 140 and described metal wire 180.Described signal feed-in point 141 is electrically connected with described metal wire 180 by the mode of welding, transfers to described metal wire 180 with the signal described antenna 140 being received or launch.Described metal wire 180 is electrically connected with described circuit board 130 by the mode of welding, so that described signal is transferred to circuit board.Present embodiment is electrically connected described metal wire 180 by the mode of welding with described circuit board 130, and by the mode of welding, described metal wire 180 is electrically connected with described antenna 140, to increase the contact area of described metal wire 180 and described circuit board 130 and described antenna 140, thereby improve the quality of signal transmission between described circuit board 130 and described antenna 140, further improved the communication quality of described communicator 100.
Preferably, the skin of described metal wire 180 is provided with insulating barrier, so that described metal wire 180 is electrically insulated with the external world.Preferably; the outside of described insulating barrier is sequentially provided with screen and protective layer; described screen is the impact on described circuit board 130 and described antenna 140 in order to the signal that prevents on described metal wire 180 transmission; and prevent described circuit board 130 and the impact of described antenna 140 on the signal of transmission on described metal wire 180, improve further communication quality.Described protective layer is for the protection of described metal wire 180, described insulating barrier and described screen, and to reduce exterior part to described metal wire 180, described insulating barrier and the infringement of described screen.
See also Fig. 4, Fig. 5 and Fig. 6, Fig. 4 is the STRUCTURE DECOMPOSITION schematic diagram of the utility model communicator the second preferred embodiments.Fig. 5 is the package assembly schematic diagram of the utility model communicator the second preferred embodiments.Fig. 6 be the utility model communicator the second preferred embodiments along VI-VI line cross-sectional view.Described communicator 200 comprises the first framework 210, shows module 220, circuit board 230, antenna 240, the second frameworks 250, battery 260, antenna holder 270 and metal wire 280.In the present embodiment, the frame structure of described the first framework 210 hollows, is the front frame of described communicator 200, and described the second framework 250 is the after-frame of described communicator 200.Described the first framework 210 and described the second framework 250 form a receiving space, for accommodating described demonstration module 220, and described circuit board 230, described antenna 240, described battery 260, described antenna holder 270 and described metal wire 280.Described communicator 200 can be but be not limited only to the communication equipments such as mobile phone.
Described first framework 210 of described demonstration module 220 contiguous described communicators 200 arranges, and reveals by the first framework 210 of hollow.Described communicator 100 is shown the relevant consultancy of described communicator 200 to user by described demonstration module 220.Described circuit board 230 is for driving described communicator 200 to work.Described circuit board 230 can be but be not limited only to printed circuit board (PCB).
Described antenna 240 is for receiving and electromagnetic signals.Particularly, the signal that described antenna 240 produces for receiving described circuit board 230, and the signal that described circuit board 230 is produced is converted into electromagnetic wave signal and launches.And, described antenna 240 also for receiving and transmitting unit (such as, base station) electromagnetic wave signal that sends, and the electromagnetic wave signal receiving is transferred to described circuit board 230, described circuit board 230 electromagnetic wave signal that described antenna 240 transmission come is again processed.In the present embodiment, described antenna 240 is arranged on described the second framework 250.Understandably, change in execution mode at other, the position of described antenna 240 also can be adjusted as required.
The contiguous described circuit board 230 of described battery 260 arranges, and is used to the work of described circuit board 230 that needed electric energy is provided.
Described antenna holder 270 is arranged on described antenna 240, for fixing described antenna 230.Further body ground, described antenna holder 270 is also arranged between described antenna 240 and described circuit board 230, for fixing described antenna 230.Preferably, on described antenna holder 270, be provided with through hole (not shown), for described metal wire 280 is passed.That is to say, described metal wire 280 connects described circuit board 230 and described antenna 240 through described through hole.
Described metal wire 280 is electrically connected described circuit board 230 and described antenna 240.Particularly, described communicator 200 also comprises the first plug 282 that is arranged on the first socket 231 of described circuit board 230 and is arranged on described metal wire 280 one end.In the time that described the first plug 282 inserts described the first socket 231, described metal wire 280 is electrically connected with described circuit board 230.When described the first plug 282 is when extracting in described the first socket 231, described metal wire 280 disconnects and being electrically connected with described circuit board 230.Described communicator 200 also comprises the second plug 281 that is arranged on the second socket 241 on described antenna 240 and is arranged on described metal wire 280 other ends.In the time that described the second plug 281 inserts described the second socket 241, described metal wire 280 is electrically connected with described antenna 240.When described the second plug 281 is when described the second socket 241 is extracted, described metal wire 280 disconnects and being electrically connected with described antenna 240.In the present embodiment, described the first socket 231 and described the second socket 241 are coaxial socket.Understandably, the number of described the first socket 231 and described the second socket 241 can arrange as required, be not limited only to draw out in accompanying drawing two.
In the present embodiment, between described metal wire 280 and described circuit board 230 and described antenna 240, be electrically connected by the form of socket and plug, increased metal wire 280 and described circuit board 230 and described antenna 240 contacts area.Thereby improve the quality of signal transmission between described circuit board 230 and described antenna 240, further improved the communication quality of described communicator 200.
Step in the utility model embodiment method can be carried out according to actual needs order and adjusted, merges and delete.
Module in the utility model embodiment device or unit can merge according to actual needs, divide and delete.
Module or unit described in the utility model embodiment, can pass through universal integrated circuit, for example CPU(Central Processing Unit, central processing unit), or by ASIC(Application Specific Integrated Circuit, application-specific integrated circuit (ASIC)) realize.
Above disclosed is only the utility model preferred embodiment, certainly can not limit with this interest field of the utility model, and the equivalent variations of therefore doing according to the utility model claim, still belongs to the scope that the utility model is contained.