WO2016101220A1

WO2016101220A1 - Antenna switching apparatus and wireless communication apparatus

Info

Publication number: WO2016101220A1
Application number: PCT/CN2014/094993
Authority: WO
Inventors: 郭義祥; 郎华敏; 胡坤映; 赵晓彬; 杨华; 高其珍
Original assignee: 海能达通信股份有限公司
Priority date: 2014-12-25
Filing date: 2014-12-25
Publication date: 2016-06-30

Abstract

Disclosed is an antenna switching apparatus, comprising a third interface and a single-pole double-throw switch; the single-pole double-throw switch is arranged inside an accommodation cavity; the third interface comprises a radio frequency metal ring and a ground metal ring which are mutually insulated; the radio frequency metal ring is arranged at the outer side of a second metal shell, and the radio frequency metal ring and the second metal shell are mutually insulated; and the ground metal ring is arranged at the outer side of a first metal shell, and the ground metal ring and the first metal shell are mutually insulated. Through the implementation of the technical solution of the present invention, capacitance coupling is formed between a grounding end of a third interface and grounding ends of a first interface and a second interface via an isolation medium, so that a direct current or the ground backflow of low frequency interference is isolated while the ground backflow of a required signal passes through. Thus, the influence on a wireless device caused by a direct current/low frequency interference passing through an external antenna in an external environment is weakened.

Description

Antenna switching device and wireless communication device

Technical field

The present invention relates to the field of communication antennas, and in particular to an antenna switching device and a wireless communication device.

Background technique

In order to meet the convenience of wireless devices in different environments, antenna switch adapter It is used on wireless devices to switch between different antennas to accommodate wireless communication in different environments (indoor/outdoor or in/outside).

However, the outdoor environment, especially the train environment, due to lightning, high-power DC charging, AC charging, strong low-frequency electromagnetic fields, etc., if improper protection, it is possible to enter and damage wireless devices through an external antenna.

Summary of the invention

The technical problem to be solved by the present invention is to provide an antenna switching device having a DC blocking function, and a wireless communication device having the antenna switching device .

The technical solution adopted by the present invention to solve the technical problem thereof is: constructing a The antenna switching device includes a first interface and a second interface, the first interface includes a first metal housing, and the second interface includes a second metal housing;

The first metal casing is electrically connected to the second metal casing and constitutes a receiving cavity; further comprising a third interface and a single pole double throw switch, wherein the single pole double throw switch is disposed in the receiving cavity;

The movable end of the single-pole double-throw switch is electrically connected to the first interface, and the first static end of the single-pole double-throw switch is electrically connected to the second interface, and the second static of the single-pole double-throw switch The end is electrically connected to the third interface;

The third interface includes a radio frequency metal ring and a ground metal ring insulated from each other, the radio frequency metal ring is disposed outside the second metal outer casing, and the radio frequency metal ring and the second metal outer casing are insulated from each other; The ground metal ring is disposed outside the first metal casing, and the ground metal ring and the first metal casing are insulated from each other.

The antenna switching device of the present invention further includes a first insulating collar, the first insulating collar being disposed between the ground ring and the first metal casing, the bottom of the first insulating ring A first flange for limiting the ground ring is provided.

The antenna switching device of the present invention further includes a first insulating material disposed between the ground metal ring and the first metal casing, the first insulating material having a ring shape.

The antenna switching device of the present invention further includes a second insulating collar and an insulating pressure ring, the second insulating collar being disposed between the RF ring and the second metal casing, the second insulation a bottom of the retaining ring is provided with a second flange for limiting the radio frequency metal ring, and the radio frequency metal ring and the ground metal ring; the insulating pressure ring is disposed on the second metal outer casing The outer side is located above the radio frequency metal ring.

The antenna switching device of the present invention further includes a second insulating material disposed between the RF ring and the second metal casing, the second insulating material having a ring shape.

In the antenna switching device of the present invention, the third interface further includes a third signal wire, one end of the third signal wire is connected to the second static end of the single-pole double-throw switch, and the third signal wire is The other end is connected to the inner side of the radio frequency metal ring.

In the antenna switching device of the present invention, the third interface further includes a conductive material for connecting to the second static end of the single pole double throw switch, the conductive material being disposed in the radio frequency metal ring On the side, the conductive material extends to the second stationary end of the single pole double throw switch.

In the antenna switching device of the present invention, the side of the second metal casing is provided with a first opening for extending the third signal wire, and the side of the second insulating ring is opened corresponding to the first opening There is a second opening for the third signal wire to extend.

In the antenna switching device of the present invention, the first interface further includes a first center conductor and a first insulating ring disposed in the first metal casing; the first insulating ring is disposed at the first center conductor And between the first metal casing.

In the antenna switching device of the present invention, the first interface further includes a first signal wire, one end of the first signal wire is connected to a moving end of the single-pole double-throw switch, and the other end of the first signal wire is Connected to the first center conductor.

In the antenna switching device of the present invention, the second interface further includes a second center conductor and a second insulating ring disposed in the second metal casing; the second insulating ring is disposed on the second center conductor And between the second metal casing.

In the antenna switching device of the present invention, the second interface further includes a second signal wire, one end of the second signal wire is connected to the first static end of the single-pole double-throw switch, and the second signal wire is The other end is connected to the second center conductor.

The present invention also constructs a wireless communication device, including a wireless communication transceiver, a handheld antenna, an external antenna, and the antenna switching device described above;

a signal output end of the wireless communication transceiver is connected to a first interface of the antenna switching device, and the handheld antenna is connected to a second interface of the antenna switching device, and the external antenna is coaxially connected The third interface of the antenna switching device is connected.

The technical solution of the present invention has at least the following beneficial effects: The ground ring of the third interface of the antenna adapter is insulated from the first metal housing and the second metal housing. That is, the grounding end of the third interface forms a capacitive coupling with the grounding end of the first interface and the second interface through the insulating medium, so that the ground return of the direct current or low frequency interference is isolated while returning through the desired signal. Thereby, the influence of DC/low frequency interference in the external environment on the wireless device through the external antenna is weakened.

DRAWINGS

The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

1 is a perspective structural view of an antenna switching device according to an embodiment of the present invention;

2 is a front elevational view showing the antenna switching device in an embodiment of the present invention;

Figure 3 is a cross-sectional view taken along the line A-A in Figure 2;

4 is an exploded view of an antenna switching device in an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a wireless communication apparatus according to an embodiment of the present invention; FIG.

Wherein, 1, the first interface; 11, the first metal casing; 12, the first center conductor; 13, the first insulating ring; , a first signal wire; 2, a second interface; 21, a second metal casing; 211, a first opening; 22, a second center conductor; 23, a second insulating ring; 24, a second signal wire; Third interface; 31, RF metal ring; 32, ground metal ring; 33, third signal wire; 4, single pole double throw switch; 41, moving end; 42, first static end; 43, second static end; 5, the first insulating retaining ring; 51, the first flange; 6, the second insulating retaining ring; 61, the second flange; 62, the second opening; 7, the insulating ring; 100, the antenna switching device ; 200 , wireless communication transceiver; 300, handheld antenna; 400, external antenna; 410, coaxial cable.

detailed description

For a better understanding of the technical features, objects and effects of the present invention, the embodiments of the present invention are described in detail with reference to the accompanying drawings.

1 to 4 show one of the present inventions The antenna switching device can realize the antenna switching function, and can also weaken the influence of the external environment on the wireless device through the external antenna. Especially in the outdoor environment, there are lightning, high-power DC charging, AC charging, and strong low-frequency electromagnetic fields.

1 is a perspective structural view of an antenna switching device in an embodiment of the present invention; 3 is a cross-sectional view of the antenna switching device in an embodiment of the present invention; FIG. 3 is an A-A cross-sectional view of FIG. 2; and FIG. 4 is an exploded view of the antenna switching device in an embodiment of the present invention.

As shown in FIG. 1 to FIG. 4, the antenna switching device includes a first interface 1 and a second interface 2, and the first interface 1 and the second interface 2 It can be a common SMA interface. The interface types of the first interface 1 and the second interface 2 are not limited, and can be commonly used. And the male and female heads can also be set arbitrarily according to actual needs.

The first interface 1 includes a first metal casing 11 and the second interface 2 includes a second metal casing 21, the first metal casing 11 The main function of the second metal casing 21 is as the grounding ends of the first interface 1 and the second interface 2, that is, the grounding ends of the radio frequency signals of the first interface 1 and the second interface 2. First metal casing 11 And the second metal casing 21 The first metal ground ring and the second metal ground ring may be an integrally formed structure or a segmented connection structure, and the first metal ground ring in the present invention may be connected to each other to form a receiving cavity. The second metal ground ring is preferably an integrally formed structure.

Further, the first interface 1 further includes a first center conductor 12 and a first insulating ring 13 disposed in the first metal casing 11. The first insulating ring 13 is disposed between the first center conductor 12 and the first metal casing 11. The second interface 2 further includes a second center conductor and a second insulating ring disposed in the second metal casing 21 The second insulating ring 23 is disposed between the second center conductor and the second metal casing 21.

And the antenna switching device further includes a third interface 3 and a single pole double throw switch 4, the single pole double throw switch 4 There are various ways of setting, and the single-pole double-throw switch in the present invention 4 Preferably, it is disposed in the receiving cavity, and the arrangement has the advantages that the antenna switching device has a more compact structure, a smaller volume, and is more convenient to use.

The main function of the third interface 3 is as the other output of the radio frequency signal, so that the antenna antenna can be connected to the handheld antenna. 300, can also be connected to the external antenna 400, combined with the single-pole double-throw switch 4 The switching function enables wireless devices with the wireless switching device to adapt to different environments by switching to different antennas.

Then, the movable end 41 of the single-pole double-throw switch 4 is electrically connected to the first interface 1, and the first static end of the single-pole double-throw switch 4 The second interface 2 is electrically connected to the second interface 2, and the second static end 43 of the single-pole double-throw switch 4 is electrically connected to the third interface 3. The single-pole double-throw switch 4 has various options, and the single-pole double-throw switch of the present invention 4 Preferred is a magnetically controlled switch.

As shown in FIG. 1 to FIG. 4, the third interface 3 includes a radio frequency metal ring 31 and a ground metal ring 32 insulated from each other, and a radio frequency metal ring. 31 is disposed on the outer side of the second metal casing 21, and the radio frequency metal ring 31 and the second metal casing 21 are insulated from each other; the ground metal ring 32 is disposed on the outer side of the first metal casing 11, and the ground ring 32 It is insulated from the first metal casing 11.

The RF ring 31 and the ground ring 32 are disposed on the side of the antenna adapter, the first interface 1 and the third interface 3 When the single-pole double-throw switch 4 is connected, the RF signal is output from the RF ferrule 31 of the third interface 3 and grounded through the ground ferrule 32. And the ground metal ring 32 It is not in contact with any of the first metal casing and the second metal casing, and is insulated from the first metal casing and the second metal casing. That is, the ground end of the third interface 3 and the first interface 1 and the second interface 2 The grounding ends form a capacitive coupling between the grounding ends through the insulating medium, so that the ground return of DC or low frequency interference is isolated while flowing back through the desired signal. Thereby weakening the DC in the external environment / The effect of low frequency interference on the wireless device through the external antenna.

In some embodiments, as shown in FIG. 1 to FIG. 4, the antenna switching device further includes a first insulating retaining ring 5 and a first insulating retaining ring 5 The main function is to insulate the first metal casing 11 and the ground metal ring 32 from each other, and it is understood that the first metal casing 11 and the ground metal ring 32 are to be made. There are various ways of insulating each other, in addition to using the first insulating collar 5, a sufficient insulating material may be filled between the first metal casing 11 and the ground ring 32, or in the first metal casing 11 A certain amount of inert gas is charged between the ground metal ring 32 and the like.

The first insulating collar 5 is disposed between the ground metal ring 32 and the first metal casing 11, and the first insulating collar 5 of the present invention Preferably, the metal ring 32 is sleeved on the outer side of the first metal casing 11, and the first insulating ring 5 is installed on the outer side of the first insulating ring 5 for easy and convenient installation. The bottom of the bottom is provided with a first flange 51 for the metal ring 32 of the limit. Therefore, when assembling the antenna switching device, only the first metal casing 11, the first insulating collar 5 and the ground ring 32 need to be sequentially disposed. Nested together and fixed.

Further, the antenna switching device further includes a second insulating retaining ring 6 and an insulating pressure ring 7 and a second insulating retaining ring 6 The main function is to insulate the RF ring 31 and the second metal casing 21 from each other, and it is understood that the RF ring 31 and the second metal casing 21 are to be made 21 There are various ways of insulating each other. In addition to using the second insulating collar 6, a sufficient insulating material may be filled between the RF ring 31 and the second metal casing 21, or in the RF ring 31. A certain amount of inert gas or the like is charged between the second metal casing 21.

The second insulating collar 6 is disposed between the RF ring 31 and the second metal casing 21, and the second insulating collar 6 of the present invention Preferably, the RF ring 31 is sleeved on the outer side of the second metal casing 21, and the second insulating collar 6 is installed for easy and convenient installation of the ground ring 32. A second flange 61 for limiting the RF ferrule 31 is provided at the bottom. Therefore, when assembling the antenna switching device, only the second metal casing 21, the second insulating collar 6 and the radio frequency metal ring need to be sequentially disposed. 31 Nested together and fixed. In addition, the second metal casing 21 of the present invention is disposed above the first metal casing 11, and the second flange 61 of the second insulating collar 6 also has a radio frequency metal ring. 31 acts with the ground metal ring 32 to ensure mutual insulation between the RF ring 31 of the third interface 3 and the insulating collar.

Further, the antenna switching device further includes an insulating pressure ring 7 disposed on the second metal casing 21 The outside is located above the RF ring 31. The main function of the insulating ring 7 is to compensate the height difference between the RF ring 31 and the second metal casing 21, and to play a fixed RF ring. The role of 31. It can be understood that there are various ways to fix the RF ring 31 except for using the insulating ring 7 In addition, it can be fixed by screwing the insulating nut over the RF ring, or fixing the RF ring by a plurality of insulating spacers.

In some embodiments, the RF ferrule 31 connecting the third interface 3 and the second static end of the single pole double throw switch 4 are connected. The manner of the third interface 3 in the present invention preferably includes a third signal conductor 33. One end of the third signal conductor 33 is connected to the second stationary terminal 43 of the single pole double throw switch 4, and the third signal conductor is connected. The other end of the 33 is connected to the inner side of the RF ferrule 31. It can be understood that the RF ring 31 of the third interface 3 and the second static end of the single pole double throw switch 4 43 It is also possible to connect via a signal conductor or to provide a common conductive material on the inner side of the RF ring 31 of the third interface 3, the conductive material extending to the second stationary end of the single pole double throw switch 4 To achieve the connection and so on.

Further, a side of the second metal casing 21 may be provided with a first opening 211 for extending the third signal conductor 33, corresponding to the first opening. 211. A second opening 62 for extending the third signal conductor 33 may be formed on a side of the second insulating collar 6.

In some embodiments, the first center conductor 12 of the first interface 1 and the movable end of the single pole double throw switch 4 are connected. The first interface 1 of the present invention preferably includes a first signal conductor 14, one end of which is connected to the movable end 41 of the single pole double throw switch 4, and the first signal conductor 14 The other end is connected to the first center conductor 12.

In some embodiments, the second center conductor of the second interface 2 and the first static end 42 of the single pole double throw switch 4 are connected. The second interface 2 of the present invention preferably includes a second signal conductor 24, one end of which is connected to the first static end 42 of the single pole double throw switch 4, and the second signal conductor The other end of 24 is connected to the second center conductor.

The present invention also provides a wireless communication device having the above-described antenna switching device, which can be adapted to an indoor or in-vehicle environment, and can be adapted to an outdoor or outdoor environment. Moreover, when the external communication antenna is used in the wireless communication device, there is basically no occurrence of lightning or the like entering and damaging the wireless device through the external antenna in the external environment.

FIG. 5 is a schematic structural diagram of a wireless communication device in an embodiment of the present invention.

As shown in FIG. 5, the wireless communication device includes a wireless communication transceiver 200, a handheld antenna 300, and an external antenna 400. And the antenna switching device 100 described above; the wireless communication transceiver 200 is preferably a walkie-talkie.

The signal output end of the wireless communication transceiver is connected to the first interface 1 of the antenna switching device 100, the handheld antenna 300 and the antenna switching device The second interface 2 of the 100 is connected, and the external antenna 400 is connected to the third interface 3 of the antenna switching device 100 via the coaxial line 410. Wherein, the first interface 1 serves as an input terminal, and the second interface 2 And the third interface 3 is used as an output.

In specific use, the first interface 1 is connected to the signal output end of the wireless communication transceiver 200 through a standard adapter, and the second interface 2 Directly connected to the hand-held antenna 300 via a standard adapter, the third interface 3 outputs the signal to the coaxial line 410 in contact contact and is connected to the outdoor antenna outside the vehicle or via the coaxial line 410. 400.

When the wireless communication transceiver 200 is used as a handset, the radio frequency signal enters the antenna switching device 100 from the wireless communication transceiver 200. The first interface 1 and the single-pole double-throw switch 4 sends the radio frequency signal to the hand-held antenna 300 connected to the second interface 2, and the electromagnetic wave is radiated outward from the hand-held antenna 300;

When the wireless communication transceiver 200 is used as a vehicle/base station, the radio frequency signal enters the antenna switching device from the wireless communication transceiver 200. The first interface 1 of 100 passes through the single-pole double-throw switch 4 to send the radio frequency signal to the third interface 3, and the radio frequency metal ring 31 of the third interface 3 and the ground metal ring 32 pass through the coaxial line 410. An external antenna 400 is connected, and an electromagnetic wave is radiated from the external antenna 400 to the space. Specifically, the wire taken from the RF metal ring 31 is connected to the coaxial wire 410 core, and the ground metal ring 32 The outgoing wire is connected to the coaxial 410 housing.

The above description is only the preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications, combinations and changes may be made to the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and scope of the present invention are intended to be included in the present invention. Within the scope of the claims.

Claims

An antenna switching device includes a first interface (1) and a second interface (2), the first interface (1) including a first metal housing (11) The second interface (2) includes a second metal casing (21);

The first metal casing (11) is electrically connected to the second metal casing (21) and constitutes a receiving cavity; and further comprising a third interface (3) And a single-pole double-throw switch (4), the single-pole double-throw switch (4) is disposed in the receiving cavity;

The movable end (41) of the single-pole double-throw switch (4) is electrically connected to the first interface (1), and the first static end of the single-pole double-throw switch (4) (42) The second interface ( 2 ) is electrically connected to the second interface ( 2 ), and the second static end ( 43 ) of the single pole double throw switch ( 4 ) is electrically connected to the third interface ( 3 );

The third interface (3) includes a radio frequency metal ring (31) and a ground metal ring (32) insulated from each other, the radio frequency metal ring (31) Provided on the outer side of the second metal casing (21), and the radio frequency metal ring (31) and the second metal casing (21) are insulated from each other; the ground metal ring (32) Provided on the outer side of the first metal casing (11), and the ground metal ring (32) and the first metal casing (11) are insulated from each other.
The antenna switching device according to claim 1, further comprising a first insulating retaining ring (5), said first insulating retaining ring (5) Provided between the ground metal ring (32) and the first metal casing (11), the bottom of the first insulating ring (5) is provided with a metal ring (32) for limiting the ground ring (32) First flange (51 ).
The antenna switching device according to claim 1, further comprising: said ground metal ring (32) and said first metal casing (11) a first insulating material between the first insulating material having a ring shape.
The antenna switching device according to claim 1, further comprising a second insulating retaining ring (6) and an insulating pressing ring (7), said second insulating retaining ring (6) Between the radio frequency metal ring (31) and the second metal casing (21), the bottom of the second insulating ring (6) is provided for limiting the radio frequency metal ring (31) And a second flange (61) separating the radio frequency metal ring (31) from the ground metal ring (32); the insulating pressure ring (7) being disposed in the second metal casing (21) Outside of the radio frequency metal ring (31).
The antenna switching device according to claim 1, further comprising: said RF ring (31) and said second metal casing (21) a second insulating material between which the shape of the second insulating material is annular.
The antenna switching device according to claim 4, wherein said third interface (3) further comprises a third signal conductor (33), said third signal conductor ( One end of 33) is connected to the second static end (43) of the single-pole double-throw switch (4), and the other end of the third signal wire (33) is connected to the radio frequency metal ring (31) The inner side of the connection.
The antenna switching device according to claim 4, wherein said third interface (3) further comprises a second static end for said single-pole double-throw switch (4) ( 43) a conductive material connected, the conductive material being disposed on an inner side of the radio frequency metal ring (31), the conductive material extending to a second static end of the single pole double throw switch (4) (43) ).
The antenna switching device according to claim 6, wherein a side of the second metal casing (21) is provided with the third signal conductor (33) a first opening (211) extending corresponding to the first opening (211), a side of the second insulating collar (6) is provided with a second for extending the third signal wire (33) Opening (62 ).
The antenna switching device according to claim 1, wherein said first interface (1) further comprises a first metal casing (11) a first center conductor (12) and a first insulating ring (13); the first insulating ring (13) is disposed on the first center conductor (12) and the first metal casing (11) ) between.
The antenna switching device according to claim 9, wherein said first interface (1) further comprises a first signal conductor (14), said first signal conductor ( One end of 14) is connected to the movable end (41) of the single-pole double-throw switch (4), and the other end of the first signal wire (14) is connected to the first center conductor (12) ) Connect.
The antenna switching device according to claim 1, wherein said second interface (2) further comprises a second metal casing (21) a second center conductor and a second insulating ring (23); the second insulating ring (23) is disposed between the second center conductor and the second metal casing (21).
The antenna switching device according to claim 11, wherein said second interface (2) further comprises a second signal conductor (24), said second signal conductor ( One end of 24) is connected to the first static end (42) of the single pole double throw switch (4), and the other end of the second signal conductor (24) is connected to the second center conductor.
A wireless communication device, comprising a wireless communication transceiver (200), a handheld antenna (300), and an external antenna (400) And the antenna switching device (100) according to any one of claims 1 to 12;

a signal output end of the wireless communication transceiver (200) is coupled to a first interface (1) of the antenna switching device (100), the handheld antenna ( 300) connected to a second interface (2) of the antenna switching device (100), the external antenna (400) passing through a coaxial line (410) and the antenna switching device (100) The third interface (3) is connected.