CN110165391A - The three of four feed-ins stack antenna structure - Google Patents

Abstract

A kind of three stacking antenna structures of four feed-ins a, comprising: first antenna, one second antenna and a third antenna.First antenna has one first feed-in element, which passes through the first matrix of first antenna and the first radiation metal layer is electrically connected, and is not electrically connected with ground metal layer.Second matrix of the second antenna is stacked on the first matrix, is passed through being electrically connected with the second radiation metal layer for the second matrix and the first matrix with 2 second feed-in elements, is not electrically connected with ground metal layer.The third matrix of the third antenna is stacked on the second matrix, being electrically connected with third radiation metal layer for third matrix, the second matrix and the first matrix is passed through with third feed-in element, it is not electrically connected with ground metal layer, has the three of four feed-ins for receiving various wireless telecommunication systems to stack antenna structure to be formed.

Description

The three of four feed-ins stack antenna structure

Technical field

System of the present invention is in relation to a kind of antenna, espespecially a kind of three stackings with four feed-ins for receiving different communication system frequencies Antenna structure.

Background technique

Current wireless telecommunication system used on the market, which includes at least, to be had: a Global Navigation Satellite System (GNSS), one Dedicated short-range communication technological system (DSRC), a satellite numerical digit message radio service system (SDARS), a Long Term Evolution System (LTE), radio network system (WLAN/BT) 60 etc..It and include the whole world, region in the Global Navigation Satellite System And enhancing, such as global positioning system (Global Positioning System, GPS), GLONASS (GLONASS) Be the Global Satellite Navigation System (GLOBAL NAVIGATION SATELLITE SYSTEM) in Russian abbreviation, Galileo it is fixed Position system (Galileo), Beidou satellite navigation system and relevant enhancing system, such as WAAS(wide area enhancement system), EGNOS(geostationary navigates in Europe eclipse system) and MSAS(Multi-functional transporting Satellite Augmentation System) etc. wireless telecommunication systems.These In wireless telecommunication system, receiving antenna that each wireless telecommunication system has connection to match receives signal.

Under the continuous progress of science and technology in recent years, above-mentioned various wireless telecommunication systems are incorporated into an electronic equipment (example Such as the car running computer of automobile) in, make the electronic equipment regardless of marketing is to all over the world, which is all not required to redesign i.e. Use can be started.Since electronic equipment incorporates a variety of wireless telecommunication systems, relatively on the circuit board of the electronic equipment It needs to fill more antennas, just can receive the signal of various wireless telecommunication systems.

Although such Integration Design by electronic equipment less by use place and region limited, electronic equipment Circuit board on need to integrate more antennas, and each antenna has a certain size, and the position that dispersion is set up is all not to the utmost It is identical and take up space, it will cause the area of circuit board to become larger, but also be installed on the circuit board shell or space it is also opposite Become larger, therefore also results in the difficulty in integration.

Summary of the invention

Therefore, the main object of the present invention is to solve traditional missing, a kind of by three antenna heaps the invention reside in providing It stacks to form the three stacking antenna structures with four feed-ins, the signal of various wireless telecommunication systems can be received, and make to stack Three stacking antennas afterwards can be integrated with electronic equipment easily, made simpler on Integration Design, will not be caused circuit board Area become larger.

For up to above-mentioned purpose, the present invention provides a kind of three stacking antenna structures of four feed-ins, comprising: a first antenna, One second antenna and a third antenna.The first antenna has one first matrix thereon, and the surface of first matrix has one the The bottom surface of one radiation metal layer, first matrix has a ground metal layer, has one to pass through first base in the first antenna First feed-in element of body, the first feed-in element pass through first matrix and the first radiation metal layer and are electrically connected, this One feed-in element passes through the first matrix bottom surface and is not electrically connected with the ground metal layer.There is one second base on second antenna Body, the second matrix system is to be configured on the surface of the first radiation metal layer of first matrix, on second matrix surface With one second radiation metal layer, which has 2 second feed-in elements, which is each passed through this Second matrix and first matrix and the second radiation metal layer are electrically connected, which is passing through first base It is not electrically connected with the ground metal layer outside body bottom surface.On the third antenna have a third matrix, the third matrix system with Be configured on the surface of the second radiation metal layer of second matrix, on the third matrix surface have a third radiation metal Layer, after which there is a third feed-in element, the third feed-in element and third radiation metal layer to be electrically connected, respectively Across the third matrix, second matrix and first matrix, passed through outside the first matrix bottom surface in the third feed-in element It is not electrically connected with the ground metal layer.

In one embodiment of this invention, it is logical that a first through hole, one second through-hole, a third are offered on first matrix Hole and a fourth hole, the first through hole, second through-hole, the third through-hole and the fourth hole penetrate through first matrix, One radiation metal layer and the ground metal layer.

In one embodiment of this invention, which runs through first matrix by the first through hole.

In one embodiment of this invention, which, which is equipped with, runs through second matrix and the second radiation metal layer A fifth hole, one the 6th through-hole and one the 7th through-hole, those fifth holes, the 6th through-hole and the 7th through-hole respectively correspond Those second through-holes, third through-hole and fourth hole of first matrix.

In one embodiment of this invention, which is each passed through the fifth hole and the 7th through-hole After being electrically connected with the second radiation metal layer, which is then passed through second through-hole and the fourth hole respectively Extend outside the first matrix bottom surface and not to be electrically connected with the ground metal layer.

In one embodiment of this invention, which, which is equipped with, runs through the third matrix and the third radiation metal layer One the 8th through-hole, the 8th through-hole corresponds to the 6th through-hole of second matrix and the third through-hole of first matrix.

In one embodiment of this invention, the third feed-in element across the third matrix the 8th through-hole, this second Outside 6th through-hole of matrix and the third through-hole to the bottom surface of first matrix of first matrix, worn in the third feed-in element It is electrically connected when crossing eight through-holes with the third radiation metal layer, is passed through outside the first matrix bottom surface in the third feed-in element Portion is not electrically connected with the ground metal layer.

In one embodiment of this invention, the third feed-in element t shape, the third feed-in element have a head, The head extends a body of rod.

In one embodiment of this invention, the area of second matrix is less than the area of the first radiation metal layer, at this When second matrix is configured at the surface of the first radiation metal layer, keep the first radiation metal layer exposed.

In one embodiment of this invention, the area of the third matrix is less than the area of the two radiation metals layer, this When three matrixes are configured at the surface of the second radiation metal layer, keep the second radiation metal layer exposed.

In one embodiment of this invention, first matrix, second matrix and the third matrix are ceramic medium material The plate body or blocks of manufactured flat.

Detailed description of the invention

Fig. 1 is three stacking antenna structure decomposition diagrams of four feed-ins of the invention.

Fig. 2 is three stacking antenna structure combination diagrams of four feed-ins of the invention.

Fig. 3 is three stacking antenna structure elevational schematic views of four feed-ins of the invention.

Fig. 4 is the schematic rear view of the first matrix of the invention.

Fig. 5 is three stacking antenna structure side schematic cross-sectional views of four feed-ins of the invention.

Fig. 6 is the other side schematic cross-sectional view of three stacking antenna structures of four feed-ins of the invention.

Fig. 7 is the three of the four feed-ins of the invention circuit board electric connection schematic diagrames for stacking antenna structure and electronic equipment.

Symbol description:

Three stack antenna 10,

First antenna 1,

First matrix 11,

First radiation metal layer 12,

Ground metal layer 13,

First through hole 14,

Second through-hole 15,

Third through-hole 16,

Fourth hole 17,

First feed-in element 18,

Second antenna 2,

Second matrix 21,

Second radiation metal layer 22,

Fifth hole 23,

6th through-hole 24,

7th through-hole 25,

Second feed-in element 26a, 26b,

Third antenna 3,

Third matrix 31,

Third radiation metal layer 32,

8th through-hole 33,

Third feed-in element 34,

Head 341,

The body of rod 342,

Circuit board 20.

Specific embodiment

Hereby the technical content and a detailed description for the present invention cooperate Detailed description of the invention as follows now:

Fig. 1-4 is please referred to, the three stacking antenna structures for four feed-ins of the invention are decomposed, combined, looking up and the back of the first matrix Face schematic diagram.As shown in the figure: the three of four feed-ins of the invention stack antenna structure, comprising: a first antenna 1, one second antenna 2, a third antenna 3.Wherein, the first antenna 1, second antenna 2 and the third antenna 3 are stacked to three stackings in nearly cone cell Antenna 10 stacks antenna structure with form four feed-ins that can receive different communication system frequencies three.

The first antenna 1, has one first matrix 11 thereon, and the surface of first matrix 11 has one first radiation metal Layer 12, the bottom surface have a ground metal layer 13, offer on first matrix 11 first through hole 14, one second through-hole 15, One third through-hole 16 and a fourth hole 17, the first through hole 14, second through-hole 15, the third through-hole 16 and the fourth hole 17 penetrate through first matrix 11, the first radiation metal layer 12 and the ground metal layer 13.In addition, having been further included in the first antenna 1 One first feed-in element 18, the first feed-in element 18 by the first through hole 14 through first matrix 11 and with this first radiation Metal layer 12 be electrically connected, the first feed-in element 18 pass through the first matrix bottom surface outside after not with the ground metal layer 13 It is electrically connected.In detail in this figure, which is the plate body or blocks of flat made of ceramic medium material.

Second antenna 2 has one second matrix 21 thereon, and 21 system of the second matrix is to be configured at first matrix 1 On the surface of first radiation metal layer 11, the area of second matrix 21 is less than the area of the first radiation metal layer 12, at this When second matrix 21 is configured at the surface of the first radiation metal layer 12, keep the first radiation metal layer 12 exposed.In addition, in this There is one second radiation metal layer 22 on two matrixes, 21 surface, second matrix 21 be equipped with through second matrix 21 and this A fifth hole 23, one the 6th through-hole 24 and one the 7th through-hole 25 of two radiation metal layers 22, the fifth hole the 23, the 6th are logical Hole 24 and the 7th through-hole 25 respectively correspond those second through-holes 15, third through-hole 16 and fourth hole of first matrix 11 17.Also, second antenna 2 further includes 2 second feed-in element 26a, 26b, the 2 second feed-in element 26a, 26b are each passed through After being electrically connected with the second radiation metal layer 22 of the fifth hole 23 and the 7th through-hole 25, the 2 second feed-in element 26a, 26b are then passed through the second through-hole 15 of first matrix 11 respectively and the fourth hole 17 extends 1 bottom of the first matrix It is not electrically connected with the ground metal layer 13 behind the outside of face.In detail in this figure, which is made of ceramic medium material The plate body or blocks of flat.

The third antenna 3 has a third matrix 31 thereon, and 31 system of third matrix is to be configured at second matrix 21 On the surface of second radiation metal layer 22, the area of the third matrix 31 is less than the area of the second radiation metal layer 22, at this When third matrix 31 is configured at the surface of the second radiation metal layer 22, keep the second radiation metal layer 22 exposed.In addition, in this There is a third radiation metal layer 32 on three matrixes, 31 surface, the third matrix 31 be equipped with through the third matrix 31 and this One the 8th through-hole 33 of three radiation metal layers 32, the 6th through-hole 24 of corresponding second matrix 21 of the 8th through-hole 33 and this first The third through-hole 16 of matrix 11.Also, the third antenna 3 has further included a third feed-in element 34, which is in T Shape, the third feed-in element 34 have a head 341, which extends a body of rod 342, which passes through the third The third through-hole 16 of 8th through-hole 33 of matrix 31, the 6th through-hole 24 of second matrix 21 and first matrix 11 to this first Outside the bottom surface of matrix 11.Electrically with the third radiation metal layer 32 when the third feed-in element 34 passes through eight through-holes 33 Connection is not electrically connected when the third feed-in element 34 passes through outside 11 bottom surface of the first matrix with the ground metal layer 13. In detail in this figure, which is the plate body or blocks of flat made of ceramic medium material.

Fig. 5,6 are please referred to, is that the three of four feed-ins of the invention stack antenna structure side section view and other side schematic cross-sectional view. As shown in the figure: in first matrix 11 of the invention, the heap poststack of second matrix 21 and the third matrix 31 sequentially, this first Feed-in element 18 passes through the first through hole 14 of first matrix 11, which passes through second matrix Second through-hole 15 and the fourth hole 17 of 21 fifth hole 23, the 7th through-hole 25 and first matrix 11, and should Third feed-in element 34 passes through the 6th through-hole 24 and first base of the 8th through-hole 33 of the third matrix 31, second matrix 21 The third through-hole 16 of body, being formed has the three of four feed-ins to stack antenna structure.

Referring to Fig. 7, the circuit board for stacking antenna structure and electronic equipment for the three of four feed-ins of the invention is electrically connected Schematic diagram.The present invention is in the first antenna 1, second antenna 2 and the 3 heap poststack of third antenna, by the first feed-in element 18, It, should after the circuit board 20 of 2 second feed-in element 26a, the 26b and the third feed-in element 34 and the electronic equipment is electrically connected It is 1100MHZ-1250MHZ that first antenna 1, which forms and can receive GPS L5/L2 signal frequency,.Second antenna 2, which is formed, can receive GPS/GNSS/Beidou signal frequency is 1500MHZ-1650MHZ.The third antenna 3, which is formed, can receive SDARS/WLAN signal Frequency is 2300MHZ-2500MHZ.

Since the three stackings antenna 10 is electrically connected on the circuit board 20 of electronic equipment, different radio communication can receive System frequency, in use, the volume of electronic equipment or area will not be made to become larger on being integrated in electronic equipment.

Only the foregoing is merely presently preferred embodiments of the present invention, is not intended to limit to scope of patent protection of the invention, therefore lifts All equivalence changes carried out by with description of the invention or accompanying drawing content, are similarly all contained in the scope of the present invention Interior, Chen Ming is given in conjunction.

Claims (10)

1. the three of a kind of four feed-ins stack antenna structure, it is electrically connected on the circuit board of electronic equipment, which is characterized in that it is wrapped It includes:

One first antenna has one first matrix thereon, and the surface of first matrix has one first radiation metal layer, this first The bottom surface of matrix has a ground metal layer, has a first feed-in element for passing through first matrix in the first antenna, should First feed-in element passes through first matrix and the first radiation metal layer and is electrically connected, the first feed-in element pass through this first Matrix bottom surface is not electrically connected with the ground metal layer；

One second antenna has one second matrix, first radiation gold of the second matrix system to be configured at first matrix thereon On the surface for belonging to layer, in having one second radiation metal layer on second matrix surface, which has 2 second feed-ins Element, the 2 second feed-in element are each passed through second matrix and electrically connect with first matrix and the second radiation metal layer It connects, which is not electrically connected outside the first matrix bottom surface with the ground metal layer；

One third antenna has a third matrix, second radiation gold of the third matrix system to be configured at second matrix thereon On the surface for belonging to layer, in having a third radiation metal layer on the third matrix surface, which has a third feed-in Element, after the third feed-in element and third radiation metal layer are electrically connected, be each passed through the third matrix, second matrix and First matrix is passed through in the third feed-in element and is not electrically connected with the ground metal layer outside the first matrix bottom surface.

2. the three of four feed-in as described in claim 1 stack antenna structure, wherein it is logical to offer one first on first matrix Hole, one second through-hole, a third through-hole and a fourth hole, the first through hole, second through-hole, the third through-hole and the 4th Through-hole penetrates through first matrix, the first radiation metal layer and the ground metal layer, which is passed through by the first through hole Wear first matrix.

3. four feed-in as claimed in claim 2 three stack antenna structures, wherein second matrix be equipped with through this second One fifth hole of matrix and the second radiation metal layer, one the 6th through-hole and one the 7th through-hole, the fifth hole, the 6th are led to Hole and the 7th through-hole respectively correspond second through-hole, the third through-hole and fourth hole of first matrix.

4. the three of four feed-in as claimed in claim 3 stack antenna structure, wherein the 2 second feed-in element is each passed through this After being electrically connected with the second radiation metal layer of fifth hole and the 7th through-hole, which is then passed through respectively Second through-hole and extending for the fourth hole are not electrically connected outside the first matrix bottom surface with the ground metal layer.

5. the three of four feed-in as claimed in claim 4 stack antenna structure, wherein the third matrix, which is equipped with, runs through the third One the 8th through-hole of matrix and the third radiation metal layer, the 8th through-hole correspond to second matrix the 6th through-hole and this first The third through-hole of matrix.

6. the three of four feed-in as claimed in claim 5 stack antenna structure, wherein the third feed-in element passes through the third Outside 8th through-hole of matrix, the 6th through-hole of second matrix and the third through-hole to the bottom surface of first matrix of first matrix Portion is electrically connected when the third feed-in element passes through eight through-holes with the third radiation metal layer, in the third feed-in member Part is passed through and is not electrically connected with the ground metal layer outside the first matrix bottom surface.

7. the three of four feed-in as described in claim 1 stack antenna structures, wherein the third feed-in element t shape, this Three feed-in elements have a head, which extends a body of rod.

8. four feed-in as described in claim 1 three stack antenna structures, wherein the area of second matrix be less than this first The area of radiation metal layer makes first radiation metal when second matrix is configured at the surface of the first radiation metal layer Layer is exposed.

9. four feed-in as described in claim 1 three stack antenna structures, wherein the area of the third matrix be less than this second The area of radiation metal layer makes second radiation metal when the third matrix is configured at the surface of the second radiation metal layer Layer is exposed.

10. four feed-in as described in claim 1 three stack antenna structures, wherein first matrix, second matrix and should Third matrix is the plate body or blocks of flat made of ceramic medium material.