CN109149081B

CN109149081B - External antenna device and terminal

Info

Publication number: CN109149081B
Application number: CN201810786656.9A
Authority: CN
Inventors: 姚德才
Original assignee: Qiku Internet Technology Shenzhen Co Ltd
Current assignee: Qiku Internet Technology Shenzhen Co Ltd
Priority date: 2018-07-17
Filing date: 2018-07-17
Publication date: 2021-04-23
Anticipated expiration: 2038-07-17
Also published as: CN109149081A

Abstract

The invention discloses an external antenna device and a terminal, comprising: the external antenna comprises an external body, an external antenna and an antenna connecting plug; the external antenna is arranged on the external body, the external body is provided with the antenna connecting plug, and the antenna connecting plug is used for being connected with a port of a preset terminal; the external antenna receives radio signals and transmits the radio signals to a preset terminal radio frequency module through the antenna connecting plug. The external antenna device provided by the invention can receive radio signals without damage when the mobile phone is shielded at the top by arranging the external antenna.

Description

External antenna device and terminal

Technical Field

The invention relates to the technical field of communication equipment, in particular to an external antenna device and a terminal.

Background

At present, no external radio frequency module is designed for an electronic terminal, communication of the electronic terminal in a special environment (such as weak signals) cannot be met, for example, when a user holds electronic equipment on a horizontal screen to surf the internet or plays games, because most antennas are arranged at four vertex angles of the electronic equipment, when the electronic equipment is held on the horizontal screen, the antennas are shielded by hands and cannot receive signals, and the experience effect of the user is very poor.

Disclosure of Invention

The invention mainly aims to provide an external antenna device and a terminal, and aims to solve the technical problem that the existing electronic equipment cannot receive radio signals when being held horizontally, so that the use effect of a user is poor.

The invention provides an external antenna device, comprising: the external antenna comprises an external body, an external antenna and an antenna connecting plug;

the external antenna is arranged on the external body, the external body is provided with the antenna connecting plug, and the antenna connecting plug is used for being connected with a port of a preset terminal;

the external antenna receives radio signals and transmits the radio signals to a preset terminal radio frequency module through the antenna connecting plug.

Preferably, the external body includes a wire carrier, a port carrier and an antenna carrier, the external antenna is mounted on the antenna carrier, a wire is disposed in the wire carrier and connected to the port carrier and the antenna carrier, and the port carrier is used for mounting the antenna connection plug;

and a contact point is arranged at the joint of the wire carrier and the port carrier as well as the antenna carrier, and the wire carrier is conducted with the port carrier and the antenna carrier through the contact point.

Preferably, the wire carrier is provided in a plurality of sections, each section of the wire carrier being capable of being snapped together separately.

Preferably, the antenna device further comprises clamping devices respectively arranged on the wire carrier, the port carrier and the antenna carrier, and the clamping devices respectively fix the wire carrier, the port carrier and the antenna carrier on preset terminals.

Preferably, the mobile device is arranged on the antenna carrier and connected with the external antenna, and comprises a steering motor, a translation motor and a guide rail, wherein the translation motor drives the external antenna to move on the guide rail;

the steering motor is used for changing the orientation of the external antenna.

Preferably, a mobile device is further included, the mobile device comprising:

the antenna carrier comprises a power motor, a fixed pulley, a transmission rope and an antenna fixing seat, wherein the power motor and the fixed pulley are respectively arranged at two ends of the antenna carrier, and the transmission rope is sleeved on output shafts of the fixed pulley and the power motor;

an antenna slide way is arranged on the antenna carrier, and the external antenna penetrates through the antenna carrier, is arranged on the antenna fixing seat and moves along the antenna slide way;

the antenna fixing seat is arranged on the transmission rope and connected with the conducting wire on the antenna carrier.

Preferably, the mobile terminal further comprises a switching module, the switching module is arranged on the peripheral body, and the switching module is used for switching signal transmission among a preset terminal, the internal antenna and the external antenna.

Preferably, the antenna connection plug has the same external structure as a standard earphone plug and is used for being connected with an earphone hole seat of a preset terminal;

the antenna connecting plug is internally provided with a through hole with two ends communicated along the axial direction, the through hole is provided with a PIN connecting PIN, and a radio signal received by the external antenna is transmitted to a preset terminal radio frequency module through the PIN connecting PIN.

Preferably, the external antenna and the external body are detachably mounted.

The invention also provides a terminal, wherein an antenna connecting hole seat is arranged on the terminal, a PIN PIN is arranged at the tail end of the antenna connecting hole seat, and the PIN PIN is connected with a radio frequency module in the terminal;

the antenna connecting plug is inserted into the antenna connecting hole seat and then connected with the PIN foot, and the radio signal received by the external antenna is transmitted to the radio frequency module of the terminal.

The antenna peripheral provided by the invention can receive radio signals without damage when the mobile phone is shielded at the top by arranging the external antenna.

Drawings

Fig. 1 is a schematic flow chart of an external antenna device and a terminal according to the present invention;

fig. 2 is a schematic structural diagram of an external antenna device and an external antenna device of a terminal according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of an external antenna device and a terminal translation motor according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an embodiment of an external antenna device and a terminal steering motor according to the present invention;

FIG. 5 is a schematic structural diagram of an embodiment of an external antenna device and a terminal antenna connection plug according to the present invention;

FIG. 6 is a schematic structural diagram of an external antenna device and a terminal antenna connection plug according to another embodiment of the present invention;

fig. 7 is a schematic structural diagram of an embodiment of an external antenna device and a terminal earphone socket according to the present invention;

FIG. 8 is a schematic structural diagram of an embodiment of an external antenna device and a peripheral body of a terminal according to the present invention;

fig. 9 is a schematic structural diagram of another embodiment of the external antenna device and the external body of the terminal according to the invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-2, an external antenna device provided in the present invention includes: the external device comprises an external device body 106, an external antenna 105 and an antenna connecting plug 103; the external antenna 105 is arranged on the peripheral body 106, the peripheral body 106 is provided with an antenna connecting plug 103, and the antenna connecting plug 103 is used for being connected with a port of a preset terminal 107; the external antenna 105 receives radio signals and transmits the radio signals to the radio frequency module 101 of the preset terminal 107 through the antenna connection plug 103. In this embodiment, the terminal 107 is an intelligent handheld device of a user, and the radio signal received by the external antenna 105 may be WIFI, LTE B1/3/38/39/40/41, WCDMA2100, or the like according to the needs of the user; the embodiment provides an antenna peripheral, which is used for solving the problem that when a user holds a terminal 107 in a daily horizontal screen mode, due to the fact that a built-in antenna 104 of the terminal 107 is arranged at the top corner of the terminal 107, when the user holds the terminal 107 in the horizontal screen mode, the built-in antenna 104 is shielded, radio signals received by the terminal 107 are weak, and daily use of the user is affected. The peripheral body 106 may be a protective case of the terminal 107 or a protective ring around the terminal 107. Antenna connection plug 103 on the peripheral hardware body 106 can be through the earphone hole with terminal 107, USB interface and Type-C interface etc. realize the electricity with the inside radio frequency module 101 of terminal 107 and be connected, external antenna 105 receives radio signal, transmit radio signal to terminal 107 radio frequency module 101 through the antenna connection plug 103 of peripheral hardware body 106, external antenna 105 sets up in the position that contacts when can not being held by user's horizontal screen, when user's horizontal screen held terminal 107, replace the inside built-in antenna 104 of terminal 107 to receive radio signal by external antenna 105, it can not be sheltered from to realize that terminal 107 receives radio signal, bring better internet experience for the user.

Referring to fig. 9, in one embodiment, the peripheral body 106 includes a wire carrier 204, a port carrier 205 and an antenna carrier 203, the external antenna 105 is mounted on the antenna carrier 203, a wire is disposed in the wire carrier 204, the port carrier 205 is connected to the antenna carrier 203, and the port carrier 205 is used for mounting the antenna connection plug 103; the connection between the wire carrier 204 and the port carrier 205 and the antenna carrier 203 is provided with a contact, and the wire carrier 204 is electrically connected with the port carrier 205 and the antenna carrier 203 through the contact. The wire carrier 204 is provided in multiple segments connected by wires. In this embodiment, the peripheral body 106 is divided into three parts, the wire carrier 204 is connected to the port carrier 205 and the antenna carrier 203, contacts are disposed at connection points of the wire carrier 204, the port carrier 205 and the antenna carrier 203, so that radio signals among the wire carrier 204, the port carrier 205 and the antenna carrier 203 are conducted through the contacts, the external antenna 105 is disposed on the antenna carrier 203, receives the radio signals, and transmits the radio signals to the radio frequency module 101 of the terminal 107 through the wire carrier 204 and the port carrier 205 by passing through the antenna carrier 203. Wire carrier 204 sets up to the multistage carrier, connect through the wire between every section carrier, the terminal 107 of convenient reply equidimension not uses, for example, the earphone of terminal 107 is at its top, and the length at its top is shorter, select a small amount of wire carrier 204 to splice with port carrier 205, extend to its side and set up and splice etc. at the antenna carrier 203 of side, the mosaic structure can be arbitrary concatenation fixed knot structure, as long as can realize between each carrier quick fixed concatenation and dismantlement can.

In one embodiment, a clamping device is further included on each of the wire carrier 204, the port carrier 205, and the antenna carrier 203, and the clamping device secures each of the wire carrier 204, the port carrier 205, and the antenna carrier 203 to a predetermined terminal 107. In this embodiment, the holding device is a fixing clip provided on each carrier, for example, when the external antenna 105 is mounted, the antenna carrier 203 is held on the terminal 107 in advance, the antenna carrier 203 is fixed, and the external antenna 105 is mounted on the antenna carrier 203. Because the peripheral body 106 is divided into three parts, each part can be independently arranged, a clamping device is arranged on each carrier, each section of carrier can be clamped on the terminal 107 when being used through the clamping device, each section of carrier is fixed firmly, connection between the carriers cannot be disconnected, and radio signals received by the external antenna 105 can reach the radio frequency module 101 of the terminal 107.

Referring to fig. 3-4, in an embodiment, the mobile device is disposed on the antenna carrier 203 and connected to the external antenna 105, the mobile device includes a steering motor 202, a translation motor 201, and a guide rail, and the translation motor 201 drives the external antenna 105 to move on the guide rail; the steering motor 202 is used to change the orientation of the external antenna 105. In this embodiment, be provided with the guide rail on the side of antenna carrier 203, translation motor 201 sets up and is connected with external antenna 105 on the guide rail, according to user's needs, drive external antenna 105 and move on the guide rail, turn to motor 202 and set up on translation motor 201, be connected with external antenna 105, control external antenna 105's turning to, make things convenient for external antenna 105 to receive radio signal, through being provided with the mobile device, realize can be according to the position of use custom adjustment antenna peripheral hardware's installation behind terminal 107 installation antenna peripheral hardware, can not be because the antenna peripheral hardware mounted position of terminal 107 is not good, and cause the influence to the use.

In another embodiment, the steering motor 202 is provided with two steering motors including a first steering motor connected to the external antenna 105 to control the steering of the external antenna 105 and a second steering motor connected to the first steering motor to control the steering of the first steering motor. In this embodiment, the first steering motor can drive the external antenna 105 to rotate up and down, the first steering motor is disposed on the second steering motor, the second steering motor drives the first steering motor to rotate left and right, after the translation motor moves, the second steering motor and the first steering motor are adjusted to enable the external antenna 105 to face the position with a strong signal as far as possible, in this embodiment, the first steering motor can further control the lifting and the contraction of the external antenna 105, in the using process, the first steering motor lifts the external antenna 105 to receive a radio signal, when the external antenna 105 is not used, the external antenna 105 is retracted to enable the external antenna 105 to be parallel to the side of the external body 106, or an antenna recycling groove is formed in the external body 106, and when the external antenna 105 is retracted, the external antenna 105 is retracted to the antenna recycling groove.

In another embodiment, a mobile device includes: the antenna comprises a power motor, a fixed pulley, a transmission rope and an antenna fixing seat, wherein the motor and the fixed pulley are respectively arranged at two ends of an antenna carrier 203, and the transmission rope is sleeved on the fixed pulley and an output shaft of the motor; an antenna slideway is arranged on the antenna carrier 203, and the external antenna 105 penetrates through the antenna carrier 203, is arranged on the antenna fixing seat and moves along the antenna slideway; the antenna fixing seat is arranged on the transmission rope and connected with the conducting wire on the antenna carrier 203. In this embodiment, external antenna 105 sets up on the antenna fixing base, and power motor, fixed pulley and driving rope form the power guide rail, and power motor rotates, drives the driving rope and removes, and the antenna fixing base of setting on the driving rope removes along with the driving rope, realizes external antenna 105's external change.

In one embodiment, the external device further includes a switching module 102, the switching module 102 is disposed on the external device body 106, and the switching module 102 is configured to switch signal transmission between a preset terminal 107 and the internal antenna 104 and the external antenna 105. In this embodiment, the switching module 102 is a radio frequency switch disposed on the external body 106, the radio frequency switch controls the connection between the radio frequency module 101 of the terminal 107 and the external antenna 105 and the internal antenna 104, so as to switch the use between the internal antenna 104 and the external antenna 105 of the terminal 107, if the user uses the terminal daily, the user does not need the external antenna 105, the user can adjust the position of the internal antenna 104 by the radio frequency switch, if the user holds the terminal 107 on a horizontal screen, the radio frequency switch can be adjusted to the position of the external antenna 105, and the external antenna 105 on the antenna carrier 203 receives radio signals. The switching module 102 may also be software disposed inside the terminal 107 to realize the switching of the terminal 107 between the internal antenna 104 and the external antenna 105 of the terminal 107, and control software is disposed in the terminal 107, and the control software controls the radio signal conduction between the radio frequency module 101 of the terminal 107 and the internal antenna 104 and the external antenna 105 according to the selection of the user.

Referring to fig. 5-7, the antenna connection plug 103 has the same external structure as a standard earphone plug, and is configured to be connected to an earphone jack 305 of a predetermined terminal 107; a through hole with two ends communicated is axially formed in the antenna connecting plug 103, a PIN connecting PIN 302 is installed in the through hole, and a radio signal received by the external antenna 105 is transmitted to the preset terminal 107 radio frequency module 101 through the PIN connecting PIN 302. In this embodiment, the preset terminal 107 is an intelligent handheld mobile device of the user, the terminal 107 is taken as an example in this embodiment, and the plug body 301 adopts a standard earphone plug specification of 3.5mm, so that the plug body 301 can be directly adapted to the terminal 107 of the user, and an additional interface port does not need to be formed on the terminal 107. In this embodiment, the plug body 301 sets up the through-hole that both ends switched on along the axial, installs PIN foot in the through-hole and connects needle 302, and the tail end of PIN foot connection needle 302 is used for connecting external antenna 105, and the top is used for radio frequency module 101 in the connection terminal 107, and PIN foot connection needle 302 passes through PIN foot connection needle 302 with the radio signal that external antenna 105 received and transmits to the radio frequency module 101 of terminal 107 on, makes terminal 107 can receive the signal of telecommunication through external antenna 105. And PIN foot connecting PIN 302 passes through insulating material parcel, prevents that other PINs in the terminal 107 earphone hole from influencing the transmission of PIN foot connecting PIN 302 electric signal.

In one embodiment, the external antenna 105 and the external body 106 are detachably mounted, in this embodiment, the external antenna 105 is a plug-in type antenna, when the external antenna 105 is used, the external antenna 105 is mounted on the antenna carrier 203 to receive a radio signal, when the external antenna 105 is not used, the external antenna 105 is pulled out, an accommodating structure is arranged on one side of the antenna carrier 203, and the external antenna 105 is placed in the accommodating device for storage. The external antenna 105 is protected from impact damage when not in use.

In one embodiment, the external antenna 105 is of a folded design and is fixedly mounted on the antenna carrier 203. In this embodiment, the external antenna 105 is mounted on the antenna carrier 203 in a foldable manner, and when not in use, the external antenna 105 is bent and attached to the antenna carrier 203; when the antenna is used, the external antenna 105 is lifted, and the reception of radio signals is realized.

Referring to FIG. 8, in one embodiment, the peripheral body 106 is "I" in design, and the peripheral body 106 is defined by a vertical edge of the "I" shape, two extending edges on one side are fixedly mounted on two opposite top edges of the terminal 107, and the two extending edges on the other side and a vertical edge in the middle of the "I" shape are respectively provided with the external antenna 105. In this embodiment, two extending edges on one side of the peripheral body 106 are fixedly mounted on the top edge of the terminal 107, the device is fixed on the terminal 107, the two extending edges on the other side extend out, the external antenna 105 is disposed on the two extending edges on the other side, and the external antenna 105 can be disposed on a vertical edge in the middle of the "i" shape according to the requirement of the user. The design of the external body 106 can adjust the position of the external antenna 105 according to the user's requirement, so that the external antenna 105 is not limited to move on two sides of the terminal 107.

The invention also provides a terminal 107, wherein an antenna connection hole seat is arranged on the terminal 107, a PIN PIN 3051 is arranged at the tail end of the antenna connection hole seat, and the PIN PIN 3051 is connected with the radio frequency module 101 in the terminal 107; when the antenna connecting plug is inserted into the antenna connecting hole seat and then connected with the PIN PIN, the radio signal received by the external antenna 105 is transmitted to the radio frequency module 101 of the terminal 107. In this embodiment, the antenna connection socket is an earphone socket 305 on the terminal 107, when the external antenna 105 transmits a radio signal to the radio frequency module 101 inside the terminal 107 through the earphone socket 305 of the terminal 107, the PIN 3051 is disposed at the end of the earphone socket 305 of the terminal 107, and the PIN 3051 is connected to the radio frequency module 101 of the terminal 107; the antenna connecting plug 103 is inserted into the earphone jack 305 of the terminal 107, and the PIN connecting PIN 302 is connected with the PIN 3051 to transmit the radio signal to the radio frequency module 101 of the terminal 107.

In one embodiment, the antenna connection plug 103 includes: a PIN connecting PIN 302 and a plug body 301 with the same external structure as a standard earphone plug; the plug body 301 is provided with a through hole with two ends communicated along the axial direction, the PIN connecting PIN 302 is installed in the through hole, the tail end of the PIN connecting PIN 302 is used for connecting the external antenna 105, and the top end of the PIN connecting PIN 302 is used for connecting the radio frequency module 101 in the preset terminal 107. In this embodiment, the preset terminal 107 is an intelligent handheld mobile device of the user, the terminal 107 is taken as an example in this embodiment, and the plug body 301 adopts a standard earphone plug specification of 3.5mm, so that the plug body 301 can be directly adapted to the terminal 107 of the user, and an additional interface port does not need to be formed on the terminal 107. In this embodiment, the plug body 301 sets up the through-hole that both ends switched on along the axial, installs PIN foot in the through-hole and connects needle 302, and the tail end of PIN foot connection needle 302 is used for connecting external antenna 105, and the top is used for radio frequency module 101 in the connection terminal 107, and PIN foot connection needle 302 passes through PIN foot connection needle 302 with the radio signal that external antenna 105 received and transmits to the radio frequency module 101 of terminal 107 on, makes terminal 107 can receive radio signal through external antenna 105. And PIN foot connection PIN 302 passes through insulating material parcel, prevents that other PINs in the terminal 107 earphone hole from influencing PIN foot connection PIN 302 radio signal's transmission.

In one embodiment, further comprises a spring 303 and a pressing clamping structure 304; the PIN connecting PIN 302 is provided with a blocking piece 3021, the PIN connecting PIN 302 penetrates through the spring 303, and the PIN connecting PIN 302 is clamped in the spring 303 through the blocking piece 3021; pressing the snap structure 304 can control the PIN connecting PIN 302 to extend out and retract to the top end of the plug body 301. In this embodiment, the PIN 302 can extend out and withdraw from the top end of the plug body 301, the spring 303 is installed in the plug body 301, the blocking piece 3021 is arranged outside the wire body of the PIN 302, the spring 303 is sleeved on the PIN 302 and blocked by the blocking piece 3021, so that the PIN 302 does not slip out of the spring 303. One end of the pressing clamping structure 304 is in contact with the PIN connecting PIN 302, the other end of the pressing clamping structure protrudes out of the plug body 301, and the PIN connecting PIN 302 is extended out of and retracted into the plug body 301 through the pressing clamping structure 304.

In one embodiment, the plug further comprises a clamping device disposed on the plug body 301, and the clamping device is used for clamping the plug body 301 and the earphone jack 305 when the plug body 301 is inserted into the earphone jack 305. The earphone plug further comprises a plug protective sleeve, and the plug protective sleeve can wrap the plug body 301. In this embodiment, the clamping device is a clip, and after the plug body 301 is inserted into the earphone hole seat 305, the clip clamps the terminal 107 device where the earphone hole seat 305 is located, so as to prevent the plug body 301 from falling off. When the plug protection sleeve is not suitable for the earphone plug, the plug body 301 can be prevented from being damaged.

In summary, the external antenna device provided by the present invention, through the arrangement of the external antenna, can achieve lossless reception of radio signals when the terminal 107 is shielded at the top.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. An external antenna device, comprising: the external antenna comprises an external body, an external antenna and an antenna connecting plug;

the external antenna receives a radio signal and transmits the radio signal to a preset terminal radio frequency module through the antenna connecting plug;

the external device body comprises an antenna carrier and a mobile device, the mobile device is arranged on the antenna carrier and connected with the external antenna, the mobile device comprises a steering motor, a translation motor and a guide rail, and the translation motor drives the external antenna to move on the guide rail;

the steering motor is used for changing the orientation of the external antenna;

the steering motor is provided with two, including first steering motor and second steering motor, first steering motor with external antenna connects, controls external antenna turns to, lifting and shrink, the second steering motor with first steering motor is connected, controls turning to of first steering motor.

2. The external antenna device as claimed in claim 1, wherein the external body includes a wire carrier and a port carrier, the external antenna is mounted on the antenna carrier, a wire is disposed in the wire carrier to connect the port carrier and the antenna carrier, and the port carrier is used for mounting the antenna connection plug;

3. The external antenna device as defined in claim 2, wherein the wire carrier is provided in a plurality of sections, each section of the wire carrier being adapted to be snapped together.

4. The external antenna device as defined in claim 2, further comprising a clamping device respectively disposed on the wire carrier, the port carrier and the antenna carrier, wherein the clamping device respectively fixes the wire carrier, the port carrier and the antenna carrier to predetermined terminals.

5. The external antenna device as defined in claim 2, further comprising a mobile device, the mobile device comprising:

6. The external antenna device as claimed in claim 1, further comprising a switching module, wherein the switching module is disposed on the external body, and the switching module is configured to switch signal transmission between a preset terminal and the internal antenna and the external antenna.

7. The external antenna device as defined in claim 1, wherein the antenna connection plug has the same external structure as a standard earphone plug for connecting with an earphone jack of a predetermined terminal;

8. The external antenna device as defined in claim 1, wherein the external antenna is detachably mounted to the external body.

9. A terminal is characterized in that an antenna connection hole seat is arranged on the terminal, a PIN PIN is arranged at the tail end of the antenna connection hole seat, and the PIN PIN is connected with a radio frequency module in the terminal;

when the antenna connection plug as claimed in any one of claims 1 to 8 is inserted into the antenna connection socket and then connected with the PIN, the radio signal received by the external antenna is transmitted to the radio frequency module of the terminal.