CN101728630B - Electronic communication equipment and manufacturing process thereof - Google Patents

Abstract

The invention provides electronic communication equipment applying an antenna module and a manufacturing process thereof. The electronic communication equipment applying the antenna module comprises a communication module, a shell provided with an accommodating space and an antenna module, wherein the communication module is accommodated in the accommodating space of the shell; the antenna module is correspondingly and electrically connected with the communication module; and the antenna module and the shell are formed on the outer surface of the shell by adopting a direct laser forming method. The electronic communication equipment applying the antenna module has stable response frequency, small integral volume and convenient installation. The manufacturing process of the electronic communication equipment has low production cost and high production efficiency. Meanwhile, the invention also provides a mobile phone applying the antenna module.

Description

Electronic communication equipment and manufacturing process thereof

Technical field

The invention relates to a kind of electronic communication equipment and manufacturing process thereof, particularly a kind of electronic communication equipment and manufacturing process thereof of using antenna modules.

Background technology

Along with making rapid progress of the hyundai electronics communication technology, requirement for various electronic communication equipment is also more and more higher, mobile communication aspect particularly, as mobile phone, PDA etc., requirement can be under the prerequisite that does not reduce its usefulness especially, advance towards light, thin, short, little target as far as possible, in the hope of satisfying more high-quality consumption demand.

Single with regard to mobile phone, a ring most important in its design namely is the design of antenna, because whether the quality of antenna design directly determines key factors such as the quality, moulding, size of electronic communication equipment.General common antenna is broadly divided into external and built-in two kinds: the external antenna package contains one pole type antenna (monopole antenna) and helical antenna (helix antenna) etc.; Built-in antenna then comprise planar inverted F-shape antenna (planar inverted F antenna, PIFA) and microstrip type antenna (microstripantenna) etc.

Consulting Fig. 1, is than the schematic perspective view of a kind of mobile phone that approaches with antenna modules with the present invention.Described antenna modules 1 comprises one first tabular antenna 11, one second tabular antenna 13, and the two arranges at interval by a passage 12.The described first tabular antenna 11 is in order to respond low frequency signal, and appropriate location is provided with a low frequency earth point 111 and a low frequency signal load point 113 on it.The described second tabular antenna 13 is in order to respond high-frequency signal, and it is provided with a high frequency earthing point 131 and a high-frequency signal load point 133.Described signal feed-in point 113, the 133rd is in order to the radio circuit of the printed circuit board (PCB) (not shown) that connects mobile phone, so that electromagnetic transmitting-receiving to be provided.And described earth point 111, the 131st forms a loop in order to the described first tabular antenna 11, the second tabular antenna 13 and a ground plane 15 are electrically connected.

Electromagnetic frequency is to be inversely proportional to its wavelength, and because the area of the described first tabular antenna 11 is bigger, so its equivalent antenna length is longer, so the first tabular antenna 11 is the signal transmitting and receivings that are suitable for 900MHz.Equally, the second tabular antenna 13 is the signal transmitting and receivings that are applicable to 1800Mhz.And general in the connection of signal feed-in point, often be to realize with conducting terminal.When antenna module 1 is assembled in the mobile phone, conducting terminal is connected be fixed in respective signal load point 113,133 and earth point 111,131 on.

In above-mentioned antenna modules 1, described tabular antenna 11,13 is fitted together by the hot melt post by plastic cement antenna holder and metal clips, and wherein metal clips is a kind of in the metal radiation fin.

But in practical application and manufacturing process, also there is following shortcoming in above-mentioned antenna modules 1:

The first, response band instability: when the radio circuit of the mobile phone inside resonance by inductance in the circuit and electric capacity, make mobile phone in the scope of its resonance frequency, to operate.Experimental results show that tabular antenna 11,13 metal clips area are more big, its performance is more good.Though antenna can be set at all-wave length, half-wavelength or the quarter-wave that receives frequency of operation, but the short and small design requirement because of mobile phone, tabular antenna 11,13 design area are minimum, then its frequency range that provides is then more limited, HFS particularly, its frequency range that provides is too small so that can't effectively produce the desirable strength of resonance when 1900MHz.

Second, volume is excessive: above-mentioned antenna modules 1 need possess tabular antenna 11 independently, 13 and corresponding conducting terminal, so the certain height that need account for space and expend more materials and parts, mobile phone inner space and overall volume size with respect to its installation also need be bigger, and this kind design runs counter to the compactization trend of electronic communication equipment.

In addition, for making the opereating specification of described antenna modules 1 contain to 1900MHz, increase its frequency range, certainly will need to increase tabular antenna 11,13 area, run counter to the compact design concept of mobile phone equally.

The 3rd, elasticity lack to be installed: tabular antenna 11,13 and other element when being installed in the housing of solid shape, can't be out of shape or deflection in the inner mounting condition of mobile phone with it, so make mobile phone need cooperate the shell dimension profile to reserve particular space, and can't do the configuration using of most economical efficient with regard to its whole interior space.

The 4th, the production cost height, production efficiency is low: need out two molds to make antenna holder and metal clips respectively in manufacture process, cost is higher.Also need fuse machine that two parts are assembled, production efficiency is low, and the bad control of hot melting process, hot melting temperature is not adjusted and is worked as or hot melt tool instability, causes antenna holder to lose efficacy easily, and operating personnel are unskilled, also cause the shell fragment distortion easily, reduce production capacity.

Summary of the invention

Big at prior art electronic communication equipment response band instability, volume, lack elasticity, production cost height and the low problem of production efficiency be installed, provide that a kind of response band is stable, overall volume is little, conveniently install, production cost is low and the electronic communication equipment of the application antenna modules that production efficiency is high is real in necessary.

Provide a kind of manufacturing process of above-mentioned electronic communication equipment real in necessary simultaneously.

Also be necessary to provide a kind of mobile phone of using antenna modules simultaneously.

A kind of electronic communication equipment of using antenna modules, comprise a communications module, a tool receiving space shell and an antenna modules, described communications module is contained in the receiving space of described shell, the corresponding electrical connection with described communications module of described antenna modules, described antenna modules and described shell adopt the laser direct forming method to be formed on the outer surface of described shell.

Preferably, described antenna modules comprises a folded active plastic layer, a metal pattern layer and an insulating protective layer of establishing successively.

Preferably, described active plastic layer is to be formed on described case surface by the quadric injection mould moulding process.

Preferably, described metal pattern layer is to be formed on described active plastic layer surface by laser direct forming technology, and described insulating protective layer covers described metal pattern layer.

Preferably, described antenna modules comprises an antenna panel, a signal feed-in point and an earth point of space.

Preferably, described communications module comprises conducting terminal, and described conducting terminal is corresponding electrical connection with the signal feed-in point of described antenna panel respectively.

A kind of manufacturing process of using the antenna modules electronic communication equipment, it comprises the steps: at first, provides a communications module and to accommodate the shell of described communications module; Secondly, cooperate laser direct forming technology to form an antenna modules in described case surface by injection molding process.

A kind of mobile phone of using antenna modules, comprise a circuit board, a mobile phone shell and an antenna modules, described antenna modules comprises an antenna panel, a signal feed-in point and an earth point, and described antenna panel and described signal feed-in point and earth point are formed on two opposite side surfaces of described phone housing respectively by laser direct forming technology.

Compared to prior art, described antenna modules is integrated in the outer surface of the shell of described electronic communication equipment or mobile phone by laser direct forming technology, make the effective area of described antenna modules increase with the surface of described shell is corresponding, and be not subject to equipment and mobile phone self inner space, the frequency band that provides is wideer, can in the broad frequency band scope, produce the desirable strength of resonance, make response band stable.Secondly, because described antenna modules is integrated in described case surface, reduce the space that holds described antenna modules separately, reduce component number, rationally utilize the receiving space in the described shell, improve elasticity is installed, reduce the overall volume of equipment and mobile phone in the time of ease of assembly.

Compared to prior art, in manufacture process, avoid using two cover grinding tools to make antenna holder and metal clips respectively, the higher laser direct forming method of adopting process degree of controllability directly forms antenna modules, enhances productivity, and reduces cost greatly.

Description of drawings

Fig. 1 is a kind of mobile phone antenna modules perspective view related to the present invention.

Fig. 2 is the structural representation that the present invention uses the electronic communication equipment of antenna modules.

Fig. 3 is the side structure schematic diagram of antenna modules shown in Figure 2.

Fig. 4 is the perspective view that the present invention uses the mobile phone of antenna modules.

Fig. 5 is another angle schematic perspective view of mobile phone shown in Figure 4

Embodiment

Below in conjunction with accompanying drawing antenna modules of the present invention and manufacturing process, the electronic communication equipment that adopts this antenna modules, mobile phone and manufacturing process thereof are described.

Seeing also Fig. 2, is a kind of structural representation of using the electronic communication equipment of antenna modules of the present invention.Described electronic communication equipment 2 comprises shell 23 and an antenna modules 25 of a communications module 21, a tool receiving space.Described shell 23 is fixed and is accommodated described communications module 21, and described antenna modules 25 is integrated in described shell 23 surfaces.Described antenna modules 25 is electrically connected mutually with described communications module 21, the corresponding transmitting-receiving that realizes signal.

The various signals of described communications module 21 corresponding generations, and to transferring to described antenna modules 25 after the various signal alignment processings that produce.On the other hand, described communications module 21 is corresponding to receive the received various signals of described antenna modules 25, and the signal that receives of alignment processing.Described communications module 21 comprises two conducting terminals 211.

Described shell 23 is plastic casings of a tool receiving space, and it accommodates described communications module 21, with the described communications module 21 of effective support fixation, and protects described communications module 21 to avoid extraneous implements bump and damages.

The side structure of described antenna modules 25 as shown in Figure 3, it comprises an active plastic layer 251, a metal pattern layer 253 and an insulating protective layer 255 that is cascading.Described active plastic layer 251 is but that the modified plastics with laser activation is raw material, adopts technology injection mouldings such as common injection molding apparatus, mould to form.Described active plastic layer 251 is formed on described shell 23 away from the surface of communications module 21 sides by secondary forming process.

Described metal pattern layer 253 is that (Laser Direct Structuring, LDS) technology is formed on line pattern the conductive pattern layer on described active plastic layer 251 surfaces to the employing laser direct forming.The track that the profile of wherein said metal pattern layer 253 scans corresponding to described laser direct forming, described metal pattern layer 253 materials can be metals such as copper.Described metal pattern layer 253 comprises one first antenna panel 2531, one second antenna panel 2532.Described first antenna panel 2531 and second antenna panel 2532 arrange at interval.Each antenna panel 2531,2532 correspondence respectively comprises a signal feed-in point 2533 and an earth point 2534.

Please consult Fig. 2 again, described insulating protective layer 255 is one to be coated in the insulator on described metal pattern layer 253, described active plastic layer 251 surfaces, and it covers described metal pattern layer 253, avoids it to be exposed in the air.

When making described antenna modules 25, its manufacturing step is as follows:

At first, injection mo(u)lding: but be raw material with the modified plastics of laser activation, adopt common injection molding process quadric injection mould to go out plastic body and be formed at described shell 23 surfaces, form active plastic layer 251.

Secondly, laser activation: but with focused beam line pattern is transformed into the modified plastics surface of laser activation, will make zone activated, the surface, coarse figure position of conductive pattern.

Then, metal coating: formed conducting metal by the figure position of laser activation deposition, obtain metal pattern layer 253, it is respectively described first antenna panel 2531, second antenna panel 2532 that wherein said metal pattern layer 253 is positioned at shell 231 outer surfaces part, and the part that is positioned at shell 231 inner surfaces is respectively described signal feed-in point 2533 and earth point 2534.

At last, armor coated: the appearance in described metal pattern layer 253 applies formation insulating protective layer 255.Wherein, described insulating protective layer 255 covers and is positioned at described first antenna panel 2531, second antenna panel, 2532 regions; avoid described first antenna panel 2531, second antenna panel 2532 to be exposed in the external environment; simultaneously; in described signal feed-in point 2533 and earth point 2534 regions; it is exposed in the external environment, so as with the conducting terminal 211 corresponding electrical connections of communications module 21.

When the above-mentioned electronic communication equipment 2 of assembling, adopt laser direct forming to be integrated in the surface of described shell 23 described antenna modules 25, described shell 23 is fixedly accommodated described communications module 21 in it, and the antenna panel 2531,2532 of described antenna modules 25 is located at described shell 23 away from the surface of described communications module 21 1 sides.And the fringe region of described antenna modules 25 extends to the inner surface of described shell 23, and described signal feed-in point 2533 and earth point 2534 are located at the inner surface of described shell 23, and distinguishes corresponding electrical connections with the conducting terminal 211 of described communications module 21.

Because the radiation of antenna is that the both sides to antenna produce radiation centered by antenna.In above-mentioned electronic communication equipment 2, described first antenna panel 2531 and second antenna panel 2532 are arranged at the outer surface of described shell 23, effectively avoid shielding the problem of the signal reception difference that phenomenon brings.Because described antenna modules 25 is the surfaces that are formed directly into described shell 23, so can corresponding increase the design area of antenna modules 25 as required, and be not limited to the receiving space of described electronic communication equipment 2 self inside, and then improve response band stability.That is to say, because the employing laser direct forming can be directly in shell 23 surface design larger area antenna panel 2531,2532, improve the response band stability, make described antenna modules 25 can receive wideer frequency, particularly HFS can produce the desirable strength of resonance when 1900MHz.

For electronic communication equipment; its easily because of with external object; as contacts such as operating personnel's healths and cause signal shorts or signal shielding; and in above-mentioned electronic communication equipment 2; can form antenna modules 25 as required in the selection zone that is not easy to contact; and surface-coated insulating protective layer 255, the communication reliability of raising product.

On the other hand, because the lightening development trend of electronic communication equipment is required now, described antenna modules 25 is integrated in the outer surface of described shell 23, after described electronic communication equipment 2 assemblings were finished, the inside of described shell 23 did not need headspace to accommodate antenna modules 25, has reduced number of elements, saved receiving space, reduce overall volume, more be conducive to realize the lightening of electronic communication equipment 2, made things convenient for assembling.

Compared to prior art, antenna modules 25 and the shell 23 of electronic communication equipment 2 of the present invention integrate, and have rationally utilized receiving space, have improved product slimming degree.In manufacture process, utilize shell 23 as antenna holder, omit independent mould and make independently antenna holder, simplified technology, reduced number of elements, improve the degree of controllability of product manufacture, improved production efficient simultaneously and reduced production costs.

See also Fig. 4 and Fig. 5 again, wherein Fig. 4 is the schematic perspective view of antenna modules of the present invention when being applied to mobile phone, and Fig. 5 is the schematic perspective view of another angle of mobile phone shown in Figure 4.Described mobile phone 3 comprises a circuit board 31, a mobile phone shell 33 and an antenna modules 35.The described antenna modules of the antenna modules 35 that wherein is applied to mobile phone 3 and a last execution mode 25 is basic identical, described phone housing 33 surround a receiving space, described circuit board 31 correspondences are contained in the described receiving space.Described antenna modules 35 is integrated in described phone housing 33 away from the surface of described receiving space one side, and with described circuit board 31 corresponding electrical connections.

Described antenna modules 35 is to adopt injection mo(u)lding to cooperate the laser direct forming technology to be formed at the metal conducting layer on phone housing 33 surfaces, and it is in order to realize the signal transmitting and receiving between described mobile phone 3 and the extraneous communication equipment.The antenna panel of described antenna modules 35 is located at the outer surface of described phone housing 33, described signal feed-in point 2533 and described earth point 2534 extend to described phone housing 33 inner surfaces from the antenna panel marginal portion on described phone housing 33 surfaces, described signal feed-in point 2533 and described earth point 2534 directly are exposed in the external environment, with described circuit board 31 corresponding electrical connections.

In above-mentioned mobile phone 3, described antenna modules 35 is integrated in described phone housing 33, significantly reduce the space of described mobile phone 3, make integral body more compact.And reduced element, ease of assembly reduces cost, and enhances productivity.

Certainly, in the present invention, described phone housing 33 can be that metal shell can be plastic shell also, be intended to can effective technical problem of the present invention scheme all in design scope of the present invention.When described phone housing 33 was metal shell, described antenna modules 35 placed the described metal shell outside, avoids because of the caused shielding of metal shell and response band problem of unstable.

Only be preferred case study on implementation of the present invention below, be not limited to the present invention, for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (6)

1. electronic communication equipment of using antenna modules; comprise a communications module; one has shell and an antenna modules of receiving space; described communications module is contained in the receiving space of described shell; the corresponding electrical connection with described communications module of described antenna modules; it is characterized in that: described antenna modules adopts laser direct forming technology to be formed on the outer surface of described shell; described antenna modules comprises a folded active plastic layer of establishing successively; one metal pattern layer and an insulating protective layer; described active plastic layer is formed on described case surface by the quadric injection mould moulding process; described insulating protective layer covers described metal pattern layer; described metal pattern layer is formed on described active plastic layer surface by laser direct forming technology; the signal feed-in point corresponding with described antenna panel and earth point that described metal pattern layer comprises the antenna panel that is positioned at the shell outer surface and is positioned at the shell inner surface, described insulating protective layer covers the region of described antenna panel.

2. electronic communication equipment according to claim 1, it is characterized in that: described antenna panel comprises first antenna panel and second antenna panel of space, and described first antenna panel and second antenna panel correspondence respectively include a signal feed-in point and an earth point.

3. electronic communication equipment according to claim 2, it is characterized in that: described communications module comprises conducting terminal, the corresponding electrical connection with the signal feed-in point of described antenna panel of described conducting terminal.

4. manufacturing process of using the electronic communication equipment of antenna modules, it comprises the steps:

At first, provide a communications module and to accommodate the shell of described communications module;

Secondly, but be raw material in described case surface with the modified plastics of laser activation, adopt common injection molding apparatus, Tool and Die Technology to form an active plastic layer by the quadric injection mould moulding process; Form a metal pattern layer in described active plastic layer surface by laser direct forming technology; In described metal pattern layer surface-coated one insulating protective layer, described insulating protective layer covers described metal pattern layer.

5. the manufacturing process of electronic communication equipment according to claim 4, it is characterized in that: described shell is a metal shell or plastic casing.

6. mobile phone of using antenna modules, it comprises a circuit board, a mobile phone shell and an antenna modules, described antenna modules comprises an antenna panel, a signal feed-in point and an earth point, it is characterized in that: described antenna modules is formed on the surface of described phone housing by laser direct forming technology, described antenna panel is formed at the outer surface of described shell, and described signal feed-in point and earth point extend to the inner surface of phone housing from the antenna panel of phone housing outer surface.

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