CN112272391B - Antenna signal adjusting device and terminal signal conversion method - Google Patents

Abstract

The application discloses an antenna signal adjusting device and a terminal signal conversion method. The antenna group and the conversion piece are respectively electrically connected with the main body, the conversion piece is electrically connected with the antenna group, the antenna group comprises a plurality of antennas, and the control piece can control the conversion piece to switch among the plurality of antennas, so that the main body meets the requirements of different operating states. Compared with the prior art, switch on with the antenna group through the converting part in this application to adjust the converting part through control piece and switch between the antenna of difference, in order to satisfy the main part in the requirement of different running state, and then can switch over the signal more nimble, and can effectively reduce occupation space, use the commonality strong, more accord with the market to the operation requirement of terminal product.

Description

Antenna signal adjusting device and terminal signal conversion method

Technical Field

The present application relates to the technical field of terminal antenna signal adjustment, and in particular, to an antenna signal adjustment apparatus and a terminal signal conversion method.

Background

In the aspect of current 5G mobile phone communication, the design of a mobile phone antenna is more and more complex and more due to the compatibility of various communication systems of 2G/3G/4G/5G. In addition, the application of a full-screen mobile phone brings greater challenges to the originally tense antenna space, especially in the design of the existing 5G mobile phone antenna, at least 7 independent antennas are needed to meet the existing mobile phone system, each independent antenna needs one mobile phone space to meet the requirement of isolation, so that the area available for the antenna on the mobile phone becomes more limited, if signal switching needs to be realized among different antennas, a larger internal space in the mobile phone needs to be occupied, and the switching is not flexible, and contradicts the existing market requirement.

Disclosure of Invention

In order to solve the technical problems of large internal space occupied by switching among a plurality of antennas in a mobile terminal and inflexible switching in the prior art, an antenna signal adjusting device and a terminal signal conversion method which occupy small internal space and are flexible in switching are provided.

In order to achieve the purpose of the invention, the following technical scheme is adopted in the application:

according to an aspect of the application, an antenna signal adjusting device is provided, which comprises a main body, a control component, an antenna group and a conversion component, wherein the antenna group and the conversion component are respectively and electrically connected with the main body, the conversion component is electrically connected with the antenna group, the antenna group comprises a plurality of antennas, and the control component can control the conversion component to switch among the plurality of antennas, so that the main body can meet the requirements of different operating states.

According to an embodiment of the present application, the switching element includes a driving element and a contact element, one end of the driving element is connected to the contact element, and the driving element can drive the contact element to switch between a plurality of antennas.

According to an embodiment of the application, wherein the main part is provided with the slide corresponding to the extending direction of antenna group, driving piece can drive the contact part slides in the slide.

According to an embodiment of the present application, wherein the contact is provided with a plurality of crimping pieces, the plurality of crimping pieces being electrically connected with the plurality of antennas, respectively, the contact being electrically connectable with the antennas through the crimping pieces.

According to an embodiment of the present application, the slide way includes a clamping arm and a sliding slot, the clamping arm is disposed on two sides of the sliding slot, the driving member can move in the sliding slot, and the clamping arm is pressed to the converting member.

According to an embodiment of the application, one side of the slideway far away from the antenna is provided with an elastic piece, and the contact piece can be electrically connected with the plurality of antennas through the elastic piece.

According to an embodiment of the application, the driving member may be provided as an electric push rod, the electric push rod may reciprocate along an extending direction of the plurality of antennas, the contact member may be provided at one end of the electric push rod, and the contact member may be switched between the plurality of antennas by the electric push rod.

According to an embodiment of the present application, the plurality of antennas are disposed on the main body in a first direction, and the control component can control the converting component to switch between the plurality of antennas in the first direction.

According to an embodiment of the application, a side of the antenna facing the transition piece is provided with a contact point through which the transition piece can be electrically connected with the antenna.

According to an embodiment of the present application, the antenna system comprises a plurality of antenna groups, and further comprises a detecting element, the detecting element is in signal connection with a control element, and the detecting element can control the converting element to switch between the plurality of antennas according to a signal frequency.

According to another aspect of the present application, there is provided a terminal signal conversion method, including the steps of:

acquiring signal environment information of a terminal, and switching a conversion piece among a plurality of antennas according to the signal environment information so as to enable the terminal to have different working states;

acquiring the actual working signal frequency of the terminal after the conversion piece is electrically connected with the antenna, and comparing the actual working signal frequency with a preset frequency threshold corresponding to the antenna;

and if the working signal frequency exceeds a preset frequency threshold corresponding to the antenna, controlling the conversion piece to switch.

According to an embodiment of the present application, acquiring signal environment information of a terminal, and switching a switching element between a plurality of antennas according to the signal environment information, so that the terminal has different operating states, includes:

and acquiring a signal frequency parameter of the terminal, and switching the conversion piece among the plurality of antennas according to the signal frequency parameter so as to enable the terminal to have different working states.

According to the technical scheme, the antenna signal adjusting device and the terminal signal conversion method have the advantages and positive effects that:

in the application, the antenna group is electrically connected by using the conversion piece, and the conversion piece is controlled by the control piece to be switched among the plurality of antennas, so that the main body meets the requirements of different running states. Compared with the prior art, switch on with the antenna stack electrical property through the converting part in this application to adjust the converting part and switch between the antenna of difference according to the requirement with the main part at different running state through the control piece, and then can switch the signal more nimble, and can effectively reduce occupation space, and the usage commonality is strong, more accords with the use requirement of market to the terminal product.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

Fig. 1 is a schematic diagram illustrating an overall structure of an antenna signal conditioning apparatus according to an exemplary embodiment.

Fig. 2 is a schematic diagram illustrating a partial cross-sectional structure of an antenna signal conditioning device according to an exemplary embodiment.

Fig. 3 is a schematic diagram illustrating a partial overall structure of an antenna signal conditioning device according to an exemplary embodiment.

Wherein the reference numerals are as follows:

1. a main body; 2. a control member; 3. an antenna group; 301. an antenna; 302. a contact; 4. a conversion member; 401. a drive member; 402. a contact member; 5. a slideway; 501. clamping arms; 502. a sliding groove; 503. an elastic member; 504. salient points; 6. a crimping member; 7. a detection member; 100. a first direction.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but 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 application.

Because a plurality of communication systems are recorded in the mobile terminal in the prior art, a plurality of antennas 301 need to be integrated inside the terminal, and as the number of the antennas 301 increases, the challenge is increased for the conversion among the plurality of antennas 301, so that with the development of technology, the internal space of the mobile terminal, such as a mobile phone, is more limited, and due to the development and application of a full-screen, the internal space of the terminal is limited, which puts higher requirements on the design and layout of the antennas 301 and the conversion among the plurality of antennas 301. For providing an antenna 301 signal adjusting device and terminal signal conversion method that an occupation space is little, can be nimble switch between different antennas 301 in this application, the antenna 301 signal adjusting device that this application discloses includes main part 1, control piece 2, antenna group 3 and converting part 4, antenna group 3 reaches converting part 4 electricity respectively connects main part 1, converting part 4 electricity is connected antenna group 3, antenna group 3 includes a plurality of antennas 301, control piece 2 is steerable converting part 4 is in a plurality of switch between the antenna 301, so that main part 1 satisfies different operating condition demands.

Referring to the overall structure diagram of an antenna 301 signal conditioning device shown in fig. 1, it should be understood that when the converter 4 is conductively connected to the antenna group 3, a closed-loop signal transmission path can be formed among the antenna group 3, the converter 4 and the main body 1; on the contrary, when the conversion piece 4 is not electrically connected to the antenna group 3, a closed-loop signal transmission path cannot be formed among the antenna group 3, the conversion piece 4 and the main body 1.

As an example, the antenna group 3 may include 7 antennas 301, the control component may control the converting element 4 to switch between a plurality of antennas 301, the main body 1 may be configured as a circuit board, both the antenna group 3 and the converting element 4 are connected to the circuit board, a person skilled in the art may preset a plurality of different signal frequency ranges, and the control element 2 may control the converting element 4 to correspond to different antennas 301 according to different signal frequency ranges.

As an example, a person skilled in the art may dispose a plurality of antennas 301 of the antenna group 3 at an edge of a terminal device, and sequentially arrange the plurality of antennas 301 along the same direction, and after the converter 4 is electrically connected to one antenna 301, the main body 1 may be in a preset operation state.

And the converting part 4 in this application adopts signal contact conversion, as an example the converting part 4 can be set up as signal trigger switch, after the signal trigger switch receives the signal instruction that control part 2 sent, signal trigger switch can be with corresponding antenna 301 turn-on connection, just also can make main part 1 is in under corresponding running state, in this embodiment, a plurality of antenna 301 can independently set up in the disadvantage, and technical personnel in the art can according to the actual use condition, will antenna 301 sets up in any position of terminal inner space, improves the utilization ratio of terminal inner space, and then increase the suitability and the practical commonality of antenna 301 signal conditioning equipment overall structure.

According to an embodiment of the present application, the switching element 4 includes a driving element 401 and a contact element 402, one end of the driving element 401 is connected to the contact element 402, and the driving element 401 can drive the contact element 402 to switch between a plurality of antennas 301.

As an example, the driving unit 401 drives a combined structure of a ball screw by a motor, and the contact unit 402 is configured as a spring structure, so that the plurality of antennas 301 extend along one side of the ball screw, the ball screw structure can drive the spring to linearly reciprocate along an axial direction of the screw, and the ball screw can drive the rotation of the ball by the motor, so that the contact unit 402 linearly reciprocates along the axial direction of the screw, when the contact unit 402 can elastically contact the antennas 301, the electrical conduction among the antennas 301, the contact unit 402 and the main body 1 can be realized, and the main body 1 is further controlled to operate in a corresponding operating state.

According to another embodiment of the present application, a plurality of antennas 301 may be disposed in a sector area, and a driving member 401 drives a contact member 402 to rotate by a set angle, so that the contact member 402 is in contact with the corresponding antenna 301, thereby achieving electrical conduction.

As an example, a plurality of antennas 301 may be disposed at arc positions with the same radius and the same circle center position, the driving member 401 may include a motor and a rotating rod (not shown in the figure), and the rotating rod may be controlled by an eccentric wheel and a transmission gear assembly to rotate along the arc positions, so that the contact member 402 may be disposed at an end portion of the rotating rod, and then the motor drives the rotating rod to contact with the antennas 301 at corresponding positions and achieve electrical conduction in a rotating process, thereby achieving flexible switching between different electric wires.

It should be understood that the motor may be disposed at the center of the rotation, so as to improve the stability of the switching process and further reduce the occupied space.

Preferably, can with antenna 301 set up in sector area is crisscross to be set up, namely make antenna 301 set up in the radius position department that different central angles correspond in sector area, and the extension of dwang sets up a plurality ofly contact piece 402, so that the dwang can lie in the antenna 301 electric conduction at different circular angles place after the rotation, and then effectively avoids the dwang is in the unstable problem of signal that causes after rotating the in-process and contacting each antenna 301.

It should be understood that a person skilled in the art may provide a moving slider (not shown in the drawings) on the ball screw, so that the contact piece 402 is fixedly mounted on the moving slider, and the moving slider may be electrically connected to the main body 1 or the control piece 2, thereby improving the stability of the electrical connection during the driving of the contact piece 402 by the driving piece 401 in the moving contact between the plurality of antennas 301, and improving the control accuracy of the control piece 2 or the main body 1 on the converting piece 4.

It should be understood that, a person skilled in the art may set the number of the antennas 301 according to the actual use situation, and the antennas 301 are spaced by a predetermined distance, and the length of the thread rolling rod is controlled to be sufficient to cover all the antennas 301, and the person skilled in the art may adjust the number according to the actual use situation to meet the actual use requirement.

According to an embodiment of the present application, wherein the main body 1 is provided with a slide way 5 corresponding to the extending direction of the antenna group 3, and the driving member 401 can drive the contact member 402 to slide in the slide way 5.

It should be understood that the slide 5 is disposed in the extending direction of the plurality of antennas 301, and the driving member 401 can change the position of the contact 402 through the slide 5. For example, the ball screw may be moved in the slide 5, so that the stability of the ball screw during linear movement and the stability of the electrical connection between the contact 402 and the antenna 301 may be improved.

Referring to fig. 2, a schematic diagram of a partial cross-sectional structure of a signal conditioning device of an antenna 301 according to an exemplary embodiment is shown, according to an embodiment of the present application, wherein a plurality of crimping pieces 6 are provided on the contact 402, the plurality of crimping pieces 6 are electrically connected to a plurality of antennas 301 respectively, and the contact 402 can be electrically connected to the antenna 301 through the crimping pieces 6.

It should be understood that the crimping pieces 6 may be disposed at intervals on the periphery of the contact piece 402, the contact piece 402 may be disposed as a spring piece, one surface of the contact piece 402 facing the antenna 301 is provided with a plurality of crimping pieces 6 at even intervals, so as to enable stable contact between the crimping pieces 6 and the antenna 301, and one skilled in the art may dispose the crimping pieces 6 as a circular convex conductive structure, so as to achieve stable electrical connection.

It should be appreciated that the contact 402 is made of a conductive material, and the crimping member 6 may be integrally formed with the contact 402, so as to further improve the stability of the connection.

Preferably, the crimping member 6 may be made of a magnetic conductive material, so that after the crimping member 6 is moved to the position of the antenna 301, the stability between the crimping member 6 and the antenna 301 can be improved after the contact is electrically conducted, and the problem of poor electrical connection contact during the movement of the terminal structure position is effectively avoided.

According to an embodiment of the present application, the chute 5 includes a clamping arm 501 and a sliding slot 502, the clamping arm 501 is disposed at two sides of the sliding slot 502, the driving element 401 can move in the sliding slot 502, and the clamping arm 501 is pressed against the converting element 4.

As an example, the driving member 401 can further fix the stability of the contact member 402 during the reciprocating movement by the clamping arms 501 at both sides of the slideway 5 during the stable sliding movement in the sliding slot 502. Preferably, the clamping arm 501 may be a continuous arc-shaped clamping arm 501, and for example, the clamping arm may be configured in a wave shape, an S-shape, or the like, so as to increase the elastic crimping force between the contact member 402 and the clamping arm 501, and thus reduce the elastic crimping force.

It should be understood that the control member 2 can control the moving speed of the contact member 402 by controlling the driving member 401, and the main body 1 can determine the corresponding operating state by the contact time of the contact member 402 with the corresponding antenna 301, and adjust the operating state according to the determination result.

For example, the moving speed of the driving element 401 may be preset, and after the contact element 402 moves to the position of the target antenna 301, the driving element 401 is controlled to stop driving, and after the contact element 402 and the antenna 301 at the position can be stably electrically connected, the working state may be adjusted to a corresponding operation mode, so as to avoid the problem of mutual interference between the antennas 301 during moving.

Referring to fig. 2, a schematic cross-sectional view of a part of a signal conditioning device of an antenna 301 according to an exemplary embodiment is shown, according to an embodiment of the present application, wherein a side of the chute 5 away from the antenna 301 is provided with an elastic member 503, and the contact 402 can be electrically connected to a plurality of antennas 301 through the elastic member 503.

It should be understood that the elastic member 503 may be configured as a spring or a leaf spring structure, and during the driving member 401 drives the contact member 402 to move, the elastic member 503 further defines the position of the driving member 401 during the moving process, so as to improve the moving stability.

Preferably, the elastic member 503 may be disposed along the extending direction of the sliding way 5, so that the driving member 401 may be adjusted in position during the whole moving process, and the stability of the driving member 401 moving at different driving speeds is improved.

Firstly, in order to reduce the frictional resistance of the driving member 401 during the moving process, a plurality of corresponding bumps 504 may be further disposed on one side of the sliding way 5, and the plurality of bumps 504 are disposed along the moving direction of the driving member 401, so as to effectively reduce the friction between the driving member 401 or the push rod and the sliding way 5, and further improve the flexibility of the converting member 4 during the conversion between different antennas 301.

According to an embodiment of the present application, the driving member 401 may be configured as an electric push rod, the electric push rod may reciprocate along the extending direction of the plurality of antennas 301, the contact member 402 may be disposed at one end of the electric push rod, and the contact member 402 may be switched among the plurality of antennas 301 through the electric push rod.

It should be understood that the electric push rod of the driving member 401 moves linearly back and forth along the extending direction of the antenna 301, so that the contact member 402 is disposed at the end position of the electric push rod, and a person skilled in the art can move the push rod in the slide way 5, so that the contact member 402 moves along with the slide way 5.

The electric push rod can be electrically connected with the main body 1 by a person skilled in the art, and the structural size and the arrangement position of the electric push rod can be set according to actual conditions.

Referring to fig. 3, a partial overall structure diagram of an antenna 301 signal conditioning device according to an exemplary embodiment is shown, according to an embodiment of the present application, wherein a plurality of antennas 301 are extended along the first direction 100 and disposed on the main body 1, and the control component 2 can control the converting component 4 to switch among the plurality of antennas 301 along the first direction 100.

According to an embodiment of the present application, a contact 302 is disposed on a side of the antenna 301 facing the converter 4, and the converter 4 can be electrically connected to the antenna 301 through the contact 302.

As an example, the crimping member 6 and the contact 302 may be arranged alternately, which not only improves the flexibility of switching the conversion member 4, but also effectively improves the stability of connecting the conversion member 4 and the antenna 301, and prevents the conversion member 4 from being separated from the antenna 301 after displacement due to movement of the terminal.

It should be understood that, in order to further improve the stability of the connection between the converter 4 and the antenna 301, a plurality of contacts 302 and the crimpers 6 are correspondingly arranged by those skilled in the art according to actual use conditions, and the number of the contacts 302 or the crimpers 6 is not specifically limited in the present application.

According to an embodiment of the present application, the antenna system comprises a plurality of antenna groups 3, and further comprises a detecting element 7, wherein the detecting element 7 is in signal connection with the control element 2, and the detecting element 7 can control the converting element 4 to switch between a plurality of antennas 301 according to signal frequency.

According to another aspect of the present application, there is provided a terminal signal conversion method, including the steps of:

acquiring signal environment information of a terminal, and switching a converter 4 among a plurality of antennas 301 according to the signal environment information so as to enable the terminal to have different working states;

acquiring the actual working signal frequency of the terminal after the converter 4 is electrically connected with the antenna 301, and comparing the actual working signal frequency with a preset frequency threshold corresponding to the antenna 301;

if the working signal frequency exceeds a preset frequency threshold corresponding to the antenna 301, the control element 2 controls the conversion element 4 to switch.

According to an embodiment of the present application, acquiring signal environment information of a terminal, and switching the converter 4 between the plurality of antennas 301 according to the signal environment information, so that the terminal has different operating states, includes:

and acquiring a signal frequency parameter of the terminal, and switching the converter 4 among a plurality of antennas according to the signal frequency parameter so as to enable the terminal to have different working states.

As an example, the combination status range parameter of each antenna 301 may be preset according to the signal frequency range, and the signal environment information may be monitored in real time through software control;

when the terminal needs to replace the state of the antenna 301, the environment information of the monitoring signal is automatically detected and compared in the range parameter of the corresponding combined state, the state of the antenna 301 which is most consistent is matched, and the control part 2 controls the conversion part 4 to be switched to different antenna 301 positions.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. An antenna signal adjusting device is characterized by comprising a main body (1), a control element (2), an antenna group (3) and a conversion element (4), wherein the antenna group (3) and the conversion element (4) are respectively and electrically connected with the main body (1), the conversion element (4) is electrically connected with the antenna group (3), the antenna group (3) comprises a plurality of antennas (301), and the control element (2) controls the conversion element (4) to switch among the plurality of antennas (301), so that the main body (1) meets different operating state requirements;

the conversion part (4) comprises a driving part (401) and a contact part (402), one end of the driving part (401) is connected with the contact part (402), and the driving part (401) can drive the contact part (402) to switch and connect among the plurality of antennas (301).

2. The antenna signal conditioning device according to claim 1, characterized in that the main body (1) is provided with a slide (5) corresponding to the extending direction of the antenna group (3), and the driving member (401) can drive the contact member (402) to slide in the slide (5).

3. The antenna signal conditioning device according to claim 1, characterized in that a plurality of crimps (6) are provided to the contact piece (402), the plurality of crimps (6) are electrically connected to the plurality of antennas (301), respectively, and the contact piece (402) is electrically connectable to the antennas (301) through the crimps (6).

4. The antenna signal conditioning device according to claim 2, characterized in that the chute (5) comprises a clipping arm (501) and a sliding slot (502), the clipping arm (501) is disposed on both sides of the sliding slot (502), the driving member (401) is movable in the sliding slot (502), and the clipping arm (501) is pressed against the converting member (4).

5. The antenna signal conditioning arrangement according to claim 2, characterized in that the side of the slideway (5) remote from the antennas (301) is provided with a resilient member (503), the contact members (402) being electrically connectable to a plurality of the antennas (301) via the resilient member (503).

6. The antenna signal conditioning arrangement according to any of claims 1-5, characterized in that the driving member (401) is arranged as an electric push rod, which is reciprocatable in the extension direction of a plurality of the antennas (301), and that the contact member (402) is arranged at one end of the electric push rod, by means of which the contact member (402) is switchable between a plurality of the antennas (301).

7. The antenna signal conditioning device according to claim 1, characterized in that a plurality of said antennas (301) are arranged on said main body (1) extending along a first direction (100), said control member (2) being capable of controlling said converting member (4) to switch between said plurality of said antennas (301) along said first direction (100).

8. An antenna signal conditioning arrangement according to claim 1, characterized in that the side of the antenna (301) facing the transition piece (4) is provided with a contact (302), through which contact (302) the transition piece (4) can be electrically connected to the antenna (301).

9. The antenna signal conditioning device according to any of claims 1 to 5, 7 or 8, characterized in that it comprises a plurality of said antenna groups (3), and further comprises a detecting element (7), said detecting element (7) being in signal connection with a control element (2), said detecting element (7) being adapted to control said switching element (4) to switch between a plurality of said antennas (301) according to the signal frequency.

10. A method for converting a terminal signal, comprising the steps of:

acquiring signal environment information of a terminal, and switching a converter (4) among a plurality of antennas (301) according to the signal environment information so as to enable the terminal to have different working states;

acquiring the actual working signal frequency of the terminal after the conversion piece (4) is electrically connected with the antenna (301), and comparing the actual working signal frequency with a preset frequency threshold corresponding to the antenna;

if the working signal frequency exceeds a preset frequency threshold corresponding to the antenna (301), controlling the converter (4) to switch;

and acquiring a signal frequency parameter of the terminal, and switching the converter (4) among the plurality of antennas (301) according to the signal frequency parameter so as to enable the terminal to have different working states.

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