CN105932396A - Shell, antenna device and terminal equipment - Google Patents

Abstract

The invention provides a shell. A first micro-gap belt, a second micro-gap belt and a first gap are arranged on the shell; the first micro-gap belt comprises multiple first micro-gaps; the second micro-gap belt comprises multiple second micro-gaps; the first gap is intersected with the multiple first micro-gaps; and the multiple first micro-gaps of the first micro-gap belt are respectively communicated with the multiple second micro-gaps in the second micro-gap belt. The invention further provides an antenna device comprising the shell, and terminal equipment comprising the antenna device. According to the shell, the antenna device and the terminal equipment disclosed by the invention, the overall appearance effect of the terminal equipment can be ensured; and simultaneously, transceiving of high-frequency signals and GPS signals can be realized.

Description

Housing, antenna assembly and terminal unit

Technical field

The present invention relates to mobile communication technology, particularly relate to a kind of housing, antenna assembly and terminal unit.

Background technology

Antenna is a kind of changer, and it, by the guided wave of transmission above-the-line promotion, is transformed at unbounded medium usual It is the electromagnetic wave propagated in free space, or carries out contrary conversion, be for launching in radio Or accept the parts of electromagnetic wave.General antenna all has reversibility, i.e. both can be used as with common antenna launching sky Line, it is possible to as reception antenna.The same antenna is identical as the fundamental characteristics parameter launched or receive.

Existing antenna for mobile phone is arranged on mobile phone, is used for receiving and transmitting mobile phone signal, existing mobile phone sky Line is arranged on interior of mobile phone mostly, i.e. built-in aerial design, built-in aerial can increase thickness and the nothing of mobile phone Method realizes all-metal housing.

Summary of the invention

The present invention provides a kind of housing, antenna assembly and terminal unit, it is possible to ensure outside the entirety of terminal unit See effect, be capable of the transmitting-receiving of high-frequency signal, gps signal simultaneously.

Thering is provided a kind of housing, described housing is provided with the first slit band, the second slit band and the first gap, described First slit band includes that a plurality of first slit, described second slit band include a plurality of second slit, described first Gap is intersected with described a plurality of first slit, a plurality of first slit of described first slit band and the second slit band In a plurality of second slit be respectively communicated with.

Wherein, described housing includes that a minor face, the opening in described first gap are positioned on described minor face.

Wherein, described housing also includes that the long limit of adjacent with described minor face, described first slit are parallel to institute State minor face, described first gap extend along the direction being parallel to described long limit and with described a plurality of first slit Intersect vertically.

Wherein, described housing being additionally provided with the second gap, described second gap is with described a plurality of second slit even Logical.

Wherein, described housing includes an adjacent minor face and a long limit, and described second gap is parallel to described short The opening in limit and described second gap is positioned on described long limit.

Wherein, described first slit band and the second slit band are close to the edge of described housing and arrange, and described the One slit band and the second slit band are symmetrical set relative to the vertical center line of described minor face, and it is micro-to state first Connection is the most just constituted always by a plurality of second slit in a plurality of first slit of seamed belt and the second slit band Linear slit band.

Wherein, described first slit band is parallel to arranging of described housing, and described second slit band is parallel Another side in described housing is arranged, in a plurality of first slit of described first slit band and the second slit band A plurality of second slit is respectively perpendicular connection and constitutes the slit band of a L-shaped.

Wherein, the width of described first slit and/or described second slit is 0.05mm, 0.5mm or 0.05mm To 0.5mm.

Wherein, between adjacent described first slit, it is formed with bonding jumper, and/or, adjacent described second micro- Bonding jumper it is formed with between seam.

Wherein, the width of described bonding jumper is 0.1mm, 0.5mm or 0.1mm to 0.5mm.

A kind of antenna assembly is provided, including the first RF transmit-receive circuit, the first match circuit and aforesaid housing, Region between described first slit band and shell rim constitutes the first conductive region, described first radio-frequency receiving-transmitting Circuit is electrically connected with described first conductive region by described first match circuit.

Wherein, described housing passes through the first ground connection, and described first earth lead is provided with control described first The switch of earth lead break-make.

Also provide for a kind of antenna assembly, including the first RF transmit-receive circuit, the first match circuit, the second radio frequency Transmission circuit, the second match circuit and aforesaid housing, the district between described first slit band and shell rim Territory constitutes the first conductive region, and the region between described second slit band and shell rim constitutes the second conduction region Territory, described first RF transmit-receive circuit is electrically connected with described first conductive region by described first match circuit, Described second RF transmit-receive circuit is electrically connected with described second conductive region by described second match circuit.

Wherein, described housing also includes that the first earth lead and the second earth lead, described first conductive region pass through Described first ground connection, described first earth lead is provided with and controls first opening of described first earth lead break-make Closing, described second conductive region passes through described second ground connection, and described second earth lead is provided with control institute State the second switch of the second earth lead break-make.

Wherein, also include that frequency-modulation element, described frequency-modulation element are arranged on described second earth lead, and even It is connected on described second switch and with reference between ground.

There is provided a kind of terminal unit, including aforesaid antenna assembly.

Compared to prior art, it is provided with the first slit band according to the housing of the present invention, is difficult to cause consumer Attention, it is possible to ensure the globality of metal shell, and described first slit band can act as high frequency antenna And/or a part for gps antenna, it is possible to achieve high-frequency signal and/or the transmitting-receiving of gps signal.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to enforcement In example or description of the prior art, the required accompanying drawing used is briefly described, it should be apparent that, describe below In accompanying drawing be only some embodiments of the present invention, for those of ordinary skill in the art, do not paying On the premise of going out creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schematic diagram of the housing in first embodiment of the invention；

Fig. 2 is the schematic diagram of the housing in second embodiment of the invention；

Fig. 3 is the schematic diagram of the antenna assembly in first embodiment of the invention；

Fig. 4 is the schematic diagram of the antenna assembly in second embodiment of the invention.

Fig. 5 is the block diagram of the terminal unit in one embodiment of the invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clearly Chu, be fully described by, it is clear that described embodiment be only a part of embodiment of the present invention rather than Whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not making creation The every other embodiment obtained under property work premise, broadly falls into the scope of protection of the invention.

The housing that the present invention provides, it can be used in various terminal unit, and such as, terminal unit is permissible Including the subscriber equipment communicated with one or more core net through wireless access network RAN, described user sets For being mobile phone (" honeycomb " phone), there is the computer etc. of terminal unit, such as, Yong Hushe For can also is that mobile device portable, pocket, hand-held, built-in computer or vehicle-mounted, it With wireless access network exchange voice and/or data.The most such as, described terminal unit can include mobile phone, put down Plate computer, personal digital assistant PDA, point-of-sale terminal POS or vehicle-mounted computer etc..

Refer to Fig. 1, for the schematic diagram of the housing 10 in the first embodiment of the present invention, described housing 10 wraps Include connected/adjacent minor face 11 and long limit 12, be provided with described in described housing 10 near housing 10 1 edge First slit band the 14, first gap 15 and the second gap band 16, described first slit band 14 includes a plurality of One slit 141.Described slit band 16 includes a plurality of second slit 161, and described first gap 15 is with described many Bar the first slit 141 intersects, a plurality of first slit 141 and the second slit band 16 of described first slit band 14 In a plurality of second slit 161 be respectively communicated with.

Concrete, as it is shown in figure 1, in the present embodiment, described first slit band 14 and the second slit band 16 It is close to the edge of housing 10, such as, arrange near minor face 11.First gap 15 is short with housing 10 Limit 11 is intersected, and the opening in the first gap 15 is positioned at described minor face 11.Described first slit band 14 is along minor face The direction of 11 extends, described first gap 15 extend along the direction on long limit and with in described first slit band 14 The plurality of first slit 141 intersect vertically.

As it is shown in figure 1, described second slit band 16 is also along the direction extension of minor face 11, with the first slit It is symmetrical set relative to the vertical center line of described minor face 11 with 14, hanging down of minor face 11 as shown in Figure 1 Straight centrage side is the first slit band 14, and opposite side is the second slit band 16.Described first slit band 14 Connect after extending with described second slit band 16, and make multiple first slits 141 in the first slit band 14 With multiple second slits 161 in described second slit band 16 just to connecting.Therefore, described first slit band 14 constitute a rectilinear slit band with described second slit band 16.

Wherein, the width of the first slit 141 and the second slit 161 be 0.05mm (millimeter), 0.5mm or Numerical value in the range of 0.05mm to 0.5mm, is difficult to cause the attention of consumer, it is possible to guarantee fund in appearance Belong to the globality of housing.Bonding jumper 142, the second adjacent slit it is formed with between the first adjacent slit 141 Being also formed with bonding jumper 162 between 161, the width of described bonding jumper 142,162 is 0.1mm, 0.5mm Or the numerical value in the range of 0.1mm to 0.5mm, the globality of housing 10 outward appearance can be improved further, profit From the appearance it is the effect of all-metal housing in realization.

Obviously, formed between the bonding jumper 142 and the second slit 161 that are formed between described first slit 141 Bonding jumper 162 be opposite to each other extension and dock.

Wherein, as it is shown in figure 1, be additionally provided with the second gap 17 on described housing 10, described second gap 17 Connect with described a plurality of second slit 161.Described second gap 17 from long limit 12 along being parallel to minor face 11 Direction extend to connect with described a plurality of second slit 161 towards the second slit 161.Described second gap The opening of 17 is positioned on long limit 12.

It is to be appreciated that slit 141 can be parallel to each other, it is also possible to intersect, gap 15 and slit 141 The angle intersected can also be acute angle, and can only intersect with part slit 141 therein, concrete structure Depending on the requirement of visual appearance and the design parameter of antenna assembly.Housing 10 can with the fore shell of terminal unit or Back-cover etc..

Wherein, described housing 10 is metal shell.Described first slit 141 and the second slit 161 are filled There are the insulant such as non-signal shielding material, such as plastic cement.

Refer to Fig. 2, for the schematic diagram of the housing 10 of the second embodiment of the present invention, described housing 10 is same Including the minor face 21 being connected and long limit 22.First slit band the 24, first gap is offered on described housing 20 25 and the second gap band 26.Described first slit band 24 includes a plurality of first slit 241, described second slit Band 26 includes a plurality of second slit 261.Described first gap 25 is intersected with described a plurality of first slit 241.

Difference with Fig. 1 is: in the present embodiment, and described first slit band 24 is parallel and close in minor face 21 Arranging, described second gap band 26 is arranged parallel and close to long limit 22, described first slit band 24 a plurality of First slit 241 is respectively perpendicular with a plurality of second slit 26 in the second slit band 26 and connects and constitute a L The slit band of shape.

Being formed with bonding jumper 242 between the first adjacent slit 241, the second adjacent slit band 26 is also formed There is bonding jumper 262, formed between the bonding jumper 242 and the second slit band 26 that are formed between the first slit 241 Bonding jumper 242 vertical butt joint one by one.

Same, housing 20 is additionally provided with the second gap 27, described second gap 27 and a plurality of second slit 261 all connect.The opening in described first gap 25 is positioned on minor face 21, and the second gap 27 is parallel to minor face 21 extensions and its opening are positioned on long limit 22.The width of the first slit 241 and the second slit 261 equally may be used For the arbitrary value in the range of 0.05mm, 0.5mm or 0.05mm to 0.5mm, it is difficult in appearance cause disappear The attention of the person of expense, it is possible to ensure the globality of metal shell.The width of described bonding jumper 242,262 be 0.1mm, Arbitrary value in the range of 0.5mm or 0.1mm to 0.5mm, can improve the whole of housing 20 outward appearance further Body, is beneficial to realize all-metal housing.

It is to be appreciated that the first slit 241 and the second slit 261 can be parallel to each other, it is also possible to intersect, The angle that first gap 25 is intersected with the first slit 241 can also be acute angle, and can only with portion therein Dividing the first slit 241 to intersect, the second gap 27 can extend non-parallel to the direction of minor face 21, specifically ties Depending on the requirement of structure visual appearance and the design parameter of antenna assembly.Housing 20 can be with the fore shell of terminal unit Or back-cover etc..

Obviously, in other embodiments, the first slit band 24 and the second slit band 26 may be constructed other Shape, such as structure be in an acute angle or obtuse angle, if the first slit 241 ensured in the first slit band 24 and the The second slit 261 in two slit bands 26 connects one by one, and the bonding jumper 242 in the first slit band 24 Dock one by one with the bonding jumper 262 in the second slit band 26.

The antenna assembly that the present invention provides, it can be used in various terminal unit, such as, terminal unit Can include through the subscriber equipment that wireless access network RAN communicates with one or more core net, described use Family equipment can be mobile phone (" honeycomb " phone), have the computer etc. of terminal unit, such as, uses Family equipment can also is that mobile device portable, pocket, hand-held, built-in computer or vehicle-mounted, They exchange voice and/or data with wireless access network.The most such as, described terminal unit can include mobile phone, Panel computer, personal digital assistant PDA, point-of-sale terminal POS or vehicle-mounted computer etc..

Refer to Fig. 3, it is shown that in first embodiment of the invention antenna assembly 100, described antenna assembly 100 Including the housing 10 shown in RF transmit-receive circuit 101, match circuit 102 and Fig. 1, wherein, radio-frequency receiving-transmitting Circuit 101 is used as high-frequency signal and the feed of gps signal, and match circuit 102 effect is at radio-frequency receiving-transmitting electricity Carry out impedance matching between road 101 and the conductive region of housing 103 and balance is mated, to ensure antenna assembly 100 can normally work, and RF transmit-receive circuit 101 and match circuit 102 belong to the strong hand of prior art Section, therefore not to repeat here.The knot of the housing 10 in the structure of described housing 10 and earlier figures 1 associated description Structure is identical, does not repeats at this.

As it is shown on figure 3, housing 10 is preferably all-metal housing, first slit band 14 and the housing of described 10 Region between the edge of 10 constitutes the first conductive region 103.In the present embodiment, the first of described 10 is micro- Between the minor face 11 of seamed belt 14 and housing 10, region constitutes the first conductive region 103.

RF transmit-receive circuit 101 is electrically connected with the first conductive region 103 by match circuit 102, so that First conductive region 103, even housing 10 become the radiant body of antenna assembly 100 and improve antenna assembly 100 Performance.In the present embodiment, described RF transmit-receive circuit 101 is for producing or receiving high-frequency signal or GPS The RF transmit-receive circuit of signal.Antenna assembly 100 can also include and connecing that the first conductive region 103 couples Ground wire 104, described earth lead 104 is provided with the switch 105 controlling earth lead 104 break-make, when switch 105 When closing, the first conductive region 103 ground connection, the antenna assembly 100 radiable high-frequency signal of institute or GPS letter Number frequency can change, it is thus possible to increase the high frequency diversity antenna of antenna assembly 100 or gps antenna Bandwidth.Additionally, gap 135 is in " erect and cut " shape, it is possible to reduce the bonding jumper in slit 1341 to coupling The impact of amount, thus improve the radianting capacity of high frequency antenna or gps antenna.

In other embodiments in accordance with the invention, on the premise of the performance not affecting antenna assembly 100, Match circuit 102 can omit.

As it is shown on figure 3, described antenna assembly 100 also includes RF transmit-receive circuit 201 and match circuit 202. Region between second slit band 16 and the edge of housing 10 of described housing 10 constitutes the second conductive region 203. Concrete, the region between the second slit band 16 and the minor face 11 of housing 10 of described housing 10 constitutes institute State the second conductive region 203.

Described RF transmit-receive circuit 201 is electrically connected with the second conductive region 203 by match circuit 202, with The second conductive region 203, even housing 10 is made to become the radiant body of antenna assembly 100, to improve sky The performance of line apparatus 100.In the present embodiment, described RF transmit-receive circuit 201 is for producing or receiving low frequency The RF transmit-receive circuit of diversity antenna signals.Antenna assembly 100 can also include and the second conducting region 203 The earth lead 204 coupled, described earth lead 204 is provided with the switch 205 controlling earth lead 204 break-make, when When switch 205 closes, the second conductive region 203 ground connection, the radiable low frequency diversity of antenna assembly 100 The frequency of aerial signal can change, it is thus possible to increases the band of the low frequency diversity antenna of antenna assembly 100 Wide.

Additionally, the second earth lead 204 is additionally provided with the frequency-modulation element 206 of series connection, described frequency-modulation element 206 is permissible Being variable capacitance, it is also possible to be variable inductance, its effect is the bandwidth that can improve low frequency diversity antenna, from And improve the radianting capacity of low frequency diversity antenna.

In other embodiments in accordance with the invention, on the premise of the performance not affecting antenna assembly 200, Match circuit 102 can omit, and match circuit 202 can use the structure of single electric capacity, now, described Antenna assembly 100 can either obtain required radiance, it is also possible to includes the fewest parts, and cost is relatively Low.

Refer to Fig. 4, it is shown that the antenna assembly 200 of the second embodiment of the present invention, described antenna assembly 200 Including described RF transmit-receive circuit 101,201, described match circuit 102,202 and housing as shown in Figure 2 20.Wherein, RF transmit-receive circuit 101 is the feed for producing and receive high-frequency signal and gps signal, RF transmit-receive circuit 201 is for producing and and the feed of reception low frequency diversity antenna signals.Described housing 20 Structure identical with the structure of the housing 20 in earlier figures 2 associated description, do not repeat at this.

Difference with the antenna assembly 200 shown in Fig. 3 is: described first gap band 24 and the second gap band The 26 gap band structures constituting a L-shaped；First slit band 24 of described housing 20 and the minor face of housing 20 Between 21, region constitutes the first conductive region 211.Second slit band 26 and the housing 20 of described housing 20 Region between long limit 22 constitutes the second conductive region 221.

Same, RF transmit-receive circuit 101 is electrically connected with the first conductive region 211 by match circuit 102, The earth lead 104 coupled with the first conductive region 103 is provided with the switch 105 controlling earth lead 104 break-make.

Same, described RF transmit-receive circuit 201 is by match circuit 202 and the second conductive region 221 electricity Connecting, the earth lead 204 coupled with the second conducting region 221 is provided with opening of control earth lead 204 break-make Pass 205 and frequency-modulation element 206.

The effect of RF transmit-receive circuit, match circuit, earth lead, earthed switch, frequency-modulation element etc. is with aforementioned Identical, do not repeat at this.

Refer to Fig. 5, for the block diagram of the terminal unit 1 in one embodiment of the invention, described terminal unit 1 Including antenna assembly 100 as shown in Figure 3 or include antenna assembly 200 as shown in Figure 4.Obviously, terminal Equipment 1 may also include other elements such as processor, memorizer, display screen, unrelated owing to improving with the present invention, Therefore be not shown, do not repeat at this.

Terminal unit 1 can be mobile phone, panel computer, personal digital assistant PDA, point-of-sale terminal POS or Vehicle-mounted computer etc..

Above disclosed be only present pre-ferred embodiments, certainly can not with this limit the present invention it Interest field, one of ordinary skill in the art will appreciate that all or part of flow process realizing above-described embodiment, And according to the equivalent variations that the claims in the present invention are made, still fall within the scope that invention is contained.

Claims (16)

1. a housing, it is characterised in that described housing is provided with the first slit band, the second slit band and One gap, it is a plurality of second micro-that described first slit band includes that a plurality of first slit, described second slit band include Stitching, described first gap is intersected with described a plurality of first slit, a plurality of first slit of described first slit band It is respectively communicated with a plurality of second slit in the second slit band.

2. housing as claimed in claim 1, it is characterised in that described housing includes a minor face, described the The opening in one gap is positioned on described minor face.

3. housing as claimed in claim 2, it is characterised in that described housing also includes and described minor face phase An adjacent long limit, described first slit is parallel to described minor face, and described first gap is along being parallel to described long limit Direction extend and intersect vertically with described a plurality of first slit.

4. housing as claimed in claim 1, it is characterised in that be additionally provided with the second gap on described housing, Described second gap connects with described a plurality of second slit.

5. housing as claimed in claim 4, it is characterised in that described housing include an adjacent minor face and One long limit, described second gap is parallel to the opening in described minor face and described second gap and is positioned at described long limit On.

6. housing as claimed in claim 5, it is characterised in that described first slit band and the second slit band The edge being close to described housing is arranged, and described first slit band and the second slit band are relative to described minor face Vertical center line is symmetrical set, and states in a plurality of first slit of the first slit band and the second slit band many Bar the second slit is the most just constituting a rectilinear slit band to connection.

7. housing as claimed in claim 5, it is characterised in that described first slit band is parallel to described shell Body while arrange, described second slit band be parallel to described housing another side arrange, described first slit A plurality of second slit in a plurality of first slit of band and the second slit band is respectively perpendicular connection and constitutes a L-shaped Slit band.

8. the housing as described in any one of claim 6 or 7, it is characterised in that described first slit and/ Or the width of described second slit is the value in the range of 0.05mm, 0.5mm or 0.05mm to 0.5mm.

9. the housing as described in any one of claim 6 or 7, it is characterised in that adjacent described first micro- Bonding jumper it is formed with between seam, and/or, it is formed with bonding jumper between adjacent described second slit.

10. housing as claimed in claim 9, it is characterised in that the width of described bonding jumper be 0.1mm, Value in the range of 0.5mm or 0.1mm to 0.5mm.

11. 1 kinds of antenna assemblies, it is characterised in that include the first RF transmit-receive circuit, the first match circuit With the housing as described in any one of claim 1 to 10, the district between described first slit band and shell rim Territory constitutes the first conductive region, and described first RF transmit-receive circuit is by described first match circuit and described the One conductive region electrical connection.

12. antenna assemblies as claimed in claim 11, it is characterised in that described housing passes through the first ground connection Line ground connection, described first earth lead is provided with the switch controlling described first earth lead break-make.

13. 1 kinds of antenna assemblies, it is characterised in that include the first RF transmit-receive circuit, the first match circuit, Second RF transmit-receive circuit, the second match circuit and the housing as described in any one of claim 4 to 10, institute State the region between the first slit band and shell rim and constitute the first conductive region, described second slit band and shell Region between body edge constitutes the second conductive region, and described first RF transmit-receive circuit passes through described first Distribution road electrically connects with described first conductive region, and described second RF transmit-receive circuit mates by described second Circuit electrically connects with described second conductive region.

14. antenna assemblies as claimed in claim 13, it is characterised in that described housing also includes that first connects Ground wire and the second earth lead, described first conductive region passes through described first ground connection, and described first connects Ground wire is provided with the first switch controlling described first earth lead break-make, and described second conductive region is by described the Two ground connections, described second earth lead is provided with the second switch controlling described second earth lead break-make.

15. antenna assemblies as claimed in claim 14, it is characterised in that also include frequency-modulation element, described Frequency-modulation element is arranged on described second earth lead, and is connected to described second switch and with reference between ground.

16. 1 kinds of terminal units, it is characterised in that include the antenna as described in any one of claim 11-12 Device, or, including the antenna assembly as described in any one of claim 13 to 15.