CN111130809A

CN111130809A - Wireless communication interconnection system

Info

Publication number: CN111130809A
Application number: CN201811294374.3A
Authority: CN
Inventors: 刘家豪; 许修源; 许硕修; 杨竣杰; 柯彦旭
Original assignee: Fu Ding Precision Industry Zhengzhou Co Ltd; Foxconn Interconnect Technology Ltd
Current assignee: Fu Ding Precision Industry Zhengzhou Co Ltd; Foxconn Interconnect Technology Ltd
Priority date: 2018-11-01
Filing date: 2018-11-01
Publication date: 2020-05-08
Anticipated expiration: 2038-11-01
Also published as: TW202037092A; CN111130809B; TWI791915B

Abstract

A wireless communication interconnection system comprises a first communication module and a second communication module which are mutually butted, wherein the first communication module comprises a wireless transmitting element and a first magnetic attraction element, the second communication module comprises a wireless receiving element which is butted with the wireless transmitting element to perform signal wireless transmission and a second magnetic attraction element which is mutually attracted and matched with the first magnetic attraction element, and the first communication module and the second communication module can simultaneously rotate to a first position and a second position at least at two different angles after being butted and matched, so that multiple use modes of the wireless communication interconnection system are realized, and diversified matching requirements of the wireless communication interconnection system are met.

Description

Wireless communication interconnection system

[ technical field ] A method for producing a semiconductor device

The present invention relates to a wireless communication interconnection system, and more particularly, to a wireless communication interconnection system having a first communication module and a second communication module that are connected to each other.

[ background of the invention ]

At present, consumer electronic products on the market, such as displays, televisions and the like, are generally used as receiving terminals (Sink) to be connected with Source terminals (Source), such as computers, set top boxes and the like. The source end is provided with a first communication module for transmitting various signals including data, audio, video and the like and providing power supply, the receiving end is provided with a second communication module for receiving various signals transmitted by the first communication module of the source end and providing power, and the first communication module and the second communication module are often connected together through various cables to transmit various signals and power, so that a consumer electronic product serving as the receiving end can be fixed on a wall or a support only in a horizontal or vertical alternative mode.

Therefore, there is a need to provide an improved wireless communication interconnection system to solve the above problems.

[ summary of the invention ]

The invention mainly aims to provide a wireless communication interconnection system capable of realizing multiple use modes.

In order to achieve the purpose, the invention adopts the following technical scheme: a wireless communication interconnection system comprises a first communication module and a second communication module which are mutually butted, wherein the first communication module comprises a wireless transmitting element and a first magnetic attraction element, the second communication module comprises a wireless receiving element which is butted with the wireless transmitting element to carry out signal wireless transmission and a second magnetic attraction element which is mutually attracted and matched with the first magnetic attraction element, and the first communication module and the second communication module can simultaneously rotate to a first position and a second position at least at two positions with different angles after being butted and matched.

Furthermore, the first communication module comprises a first circuit board, and the second communication module comprises a second circuit board; the wireless transmitting element comprises a plurality of transmitting wafer modules which are arranged on the first circuit board and used for converting the electric signals of the first circuit board into electromagnetic signals to transmit the signals; the wireless receiving element comprises a plurality of receiving chip modules which are arranged on the second circuit board and used for converting the received electromagnetic signals into electric signals so as to transmit the received signals to the second circuit board; when the transmitting wafer module is aligned with the receiving wafer module, the wireless transmission of point-to-point extremely high frequency signals can be realized.

Furthermore, the wireless communication interconnection system comprises a fixed seat and a rotary table which can rotate relative to the fixed seat, and the first communication module is fixedly arranged on the rotary table and rotates along with the rotary table.

Furthermore, the fixed seat, the rotary disc and the first circuit board are all arranged annularly; and the turntable is positioned in the annular area of the fixed seat, and the first circuit board is positioned in the annular area of the turntable.

Furthermore, the first communication module further comprises a first sub-board assembled in the center of the first circuit board and a spring ejector pin fixedly installed on the first sub-board, and the transmitting wafer module is located outside the spring ejector pin; the second communication module further comprises a second sub-board assembled in the center of the second circuit board and a butt-joint terminal fixedly installed on the second sub-board, and the receiving wafer module is located outside the butt-joint terminal; the butt joint terminal is matched with the spring thimble in a compression joint mode so as to achieve transmission of a power supply and a low-speed signal.

Furthermore, the wireless communication interconnection system further comprises a positioning pin assembled to the fixed seat, the rotary plate is provided with a first positioning groove and a second positioning groove which are located at different positions, and the positioning pin is respectively inserted into the corresponding first positioning groove and the corresponding second positioning groove when the rotary plate and the first communication module rotate to the first different position and the second different position so as to fix the rotary plate to the fixed seat.

Furthermore, a slot for the positioning pin to pass through is formed in the fixing seat, and the wireless communication interconnection system further comprises a spring which supports the fixing seat along a direction far away from the slot so as to provide elastic supporting force for the positioning pin to enter the slot.

Furthermore, the wireless communication interconnection system further comprises a cable connected to the first communication module and extending out of the fixed seat, the turntable is provided with a wire arranging rod, and when the turntable and the first communication module rotate to the first position and the second position, the cable can be wound on the turntable under the driving of the wire arranging rod.

Furthermore, a stop block is arranged on the fixed seat and is matched with a wire arranging rod on the rotary disc so as to prevent the rotary disc from over rotating beyond the first position and the second position.

Furthermore, the first magnetic element comprises a first magnet surrounding the first circuit board, the second magnetic element comprises a second magnet surrounding the second circuit board, and the second communication module is magnetically matched with the corresponding first magnet through the second magnet so as to be fixed with the first communication module; when the first communication module and the second communication module are matched with each other at the first position and the second position, the polarities of the first magnet and the second magnet are opposite, so that magnetic attraction matching is generated; when the first communication module is fixed and the second communication module rotates to a position between the first position and the second position relative to the first communication module, the polarities corresponding to the first magnet and the second magnet are the same so as to repel each other and separate the first communication module and the second communication module.

Compared with the prior art, the first communication module and the second communication module can rotate to the positions of at least two different angles of the first position and the second position after butt joint and matching, so that multiple use modes of the wireless communication interconnection system are realized, and diversified matching requirements of the wireless communication interconnection system are met.

[ description of the drawings ]

Fig. 1 is a perspective view illustrating a first communication module of the wireless communication interconnection system of the present invention mounted on a turntable and a fixing base.

Fig. 2 is a perspective view of fig. 1 from another angle.

Fig. 3 is a partially exploded schematic view of fig. 1.

Fig. 4 is a partially exploded view from another angle of fig. 3.

Fig. 5 is a perspective view of an electronic product having a second communication module of the wireless communication interconnection system of the invention.

Fig. 6 is a partially exploded schematic view of fig. 3.

Fig. 7 is a schematic diagram of the first communication module and the second communication module before the first position is matched according to the present invention.

Fig. 8 is a schematic diagram of the first communication module and the second communication module before the first communication module and the second communication module are mated at the second position according to the present invention.

Fig. 9 is a schematic diagram of the first communication module and the second communication module of the present invention after being mated at the first position.

Fig. 10 is a schematic diagram of the first communication module and the second communication module of the present invention after being mated at the second position.

[ description of main element symbols ]

Wireless communication interconnect system 500 first communication module 100

First circuit board 10 wireless transmitting element 11

The first magnetic attraction element 12 of the transmitting chip module 110

First magnet 120 first sub-plate 13

Spring thimble 131 polygonal hole 17

Notch 18 second communication module 200

Wireless receiving element 21 of second circuit board 20

The second magnetic attraction element 22 of the receiving chip module 210

Second magnet 220 and second sub-plate 23

Polygonal groove 27 of butt terminal 231

Fixing seat 30 positioning pin 31

Slotted 32 spring 33

Stop 34, turntable 40

First positioning groove 41 and second positioning groove 42

Wire arranging rod 43 with hole 44

Cable 50 electronic product 600

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

[ detailed description ] embodiments

For a better understanding of the objects, structure, features, and functions of the invention, reference should be made to the drawings and detailed description that follow.

Referring to fig. 1-6, the wireless communication interconnection system 500 of the present invention includes a first communication module 100, a second communication module 200, a fixed base 30 and a turntable 40 capable of rotating relative to the fixed base 30, wherein the first communication module 100 is fixed to the turntable 40 and rotates with the turntable, the second communication module 200 is fixed to an electronic product 600 such as a tv or a computer display, and various power supplies and signal transmissions of the electronic product 600 can be realized by the connection of the first and

second communication modules

100 and 200.

Referring to fig. 7-10, after the first communication module 100 and the second communication module 200 are mated, they can rotate to at least two different angles of the first position and the second position, so as to implement multiple usage modes of the wireless communication interconnection system 500 and meet the diversified mating requirements of the wireless communication interconnection system 500. In this embodiment, the first position and the second position are 90 degrees, the first position is horizontal, and the second position is vertical, so the electronic product 600 having the second communication module 200 can be installed on the fixing base 30 in two horizontal or vertical modes, and the installation and use of the electronic product 600 are diversified. In other embodiments, three or more different angular positions may be provided, and the first position, the second position, and the angle therebetween may be set in various different positions according to specific requirements of the electronic product 600.

Referring to fig. 1-6, the first communication module 100 includes a first circuit board 10, a wireless transmitting element 11 and a first magnetic element 12, wherein the wireless transmitting element 11 includes a plurality of transmitting chip modules 110 mounted on the first circuit board 10 for converting an electrical signal of the first circuit board 10 into an electromagnetic signal for signal transmission. The second communication module 200 includes a second circuit board 20, a wireless receiving element 21 connected to the wireless transmitting element 11 for wireless signal transmission, and a second magnetic attracting element 22 connected to the first magnetic attracting element 2 in an attracting and matching manner, wherein the wireless receiving element 21 includes a plurality of receiving chip modules 210 mounted on the second circuit board 20 for converting the received electromagnetic signals into electrical signals and transmitting the received signals to the second circuit board 20. The transmitting wafer module and the receiving wafer module are in signal transmission in a non-contact close-distance alignment mode, point-to-point wireless transmission of Extremely high frequency signals can be realized during alignment, the Extremely High Frequency (EHF) signals referred to by the invention are electromagnetic wave signals with the wavelength shorter than ultra high frequency (SHF), and the wavelength range is 1mm to 10 mm.

The first magnetic attraction element 12 includes a plurality of first magnets 120 surrounding the first circuit board 10, the second magnetic attraction element 22 includes a plurality of second magnets 220 surrounding the second circuit board 20, and the second communication module 200 is magnetically attracted and matched with the corresponding first magnets 120 through the second magnets 220 to be fixed to the first communication module 100. The wireless communication interconnection system 500 of the present invention does not require mechanical insertion and removal of the first communication module 100 and the second communication module 200, and thus does not wear the appearance structure of the first communication module 100 and the second communication module 200.

The fixing base 30 can be fixed on a wall or a support, and the first communication module 100 is fixed on the rotary plate 40 and rotates together with the rotary plate 40, so that the second communication module 200 and the first communication module 100 rotate together to a first position and a second position after being in butt joint and matched.

The fixing base 30, the rotating disc 40 and the first circuit board 10 are all arranged annularly. The rotary plate 40 is located in the annular region of the fixing base 30, and the first circuit board 10 is located in the annular region of the rotary plate 40. The first communication module 100 further includes a first sub-board 13 assembled in the center of the first circuit board 10 and a pogo pin 131 fixedly mounted on the first sub-board 13, the transmitting die set 110 is located outside the pogo pin 131, a polygonal hole 17 is formed in the center of the first circuit board 10, and the first sub-board 13 is polygonal and assembled in the polygonal hole 17. The first communication module 100, the fixing base 30 and the turntable 40 are arranged in a novel and reasonable manner by fully utilizing respective annular spaces. The second communication module 200 further includes a second sub-board 23 assembled in the center of the second circuit board 20, and a mating terminal 231 fixedly mounted on the second sub-board 23, the receiving die set 210 is located outside the mating terminal 231, a polygonal groove 27 is formed in the center of the second circuit board 20, and the second sub-board 23 has a polygonal shape and is assembled in the polygonal groove 27. The pogo pins 131 and the docking terminals 231 are respectively arranged in the circular areas of the corresponding first sub-board 13 and second sub-board 23, and the docking terminals 231 are in press-fit with the pogo pins 131 to realize transmission of power and low-speed signals. Therefore, the layout of the wireless communication interconnection system 500 of the present invention from inside to outside along the radial direction is sequentially the pogo pin 131 and the docking terminal 231 for transmitting power and low-speed signals; the transmitting and receiving

wafer modules

110 and 210 for transmitting the extremely high frequency signals, and the first and

second magnets

120 and 220 which are mutually attracted and matched make full use of the structural space of the wireless communication interconnection system 500, and the layout is reasonable.

The wireless communication interconnection system 500 further includes a positioning pin 31 assembled to the fixed base 30, the rotary plate 40 has first and

second positioning slots

41 and 42 located at different positions, when the positioning pin 31 is pulled out from the corresponding first positioning slot 41 or second positioning slot 42, no interference is generated between the positioning pin 31 and the rotary plate 40, and the rotary plate 40 and the first communication module 100 can be rotated, and when the rotary plate 40 and the first communication module 100 are rotated to the first and second different positions, the positioning pin 31 is respectively inserted into the corresponding first and

second positioning slots

41 and 42, and the rotary plate 40 is fixed to the fixed base, which is simple in structure and reliable in positioning.

The fixing seat 30 is provided with a slot 32 through which the positioning pin 31 passes, and the wireless communication interconnection system 500 further includes a spring 33 that abuts against the fixing seat 30 in a direction away from the slot 32 to provide an elastic supporting force for the positioning pin 31 to enter the slot 32.

The wireless communication interconnection system 500 further includes a cable 50 connected to the first communication module 100 and extending out of the fixing base 30, the turntable 40 is provided with a wire arranging rod 43 for arranging the cable 50, when the turntable 40 and the first communication module 100 are rotated to the first and second positions, the cable 50 can be wound on the turntable 40 under the driving of the wire arranging rod 43 to arrange the cable 50, and the cable 50 can be prevented from being exposed or even knotted. The fixed seat 30 is provided with a stop block 34, and the stop block 34 is matched with a wire arranging rod 43 on the rotating disc 40 to prevent the rotating disc 40 from over rotating beyond the first position and the second position.

In this embodiment, the number of the first magnets 120 is 7, the first magnets are arranged around the first circuit board 10 and form a circle, and a gap 18 is formed in the middle of the lower 2 first magnets 120, and the gap 18 can provide an arrangement space for the cables 50 to enter and exit. The turntable 40 is provided with a plurality of openings 44, and the first magnet 120 is received and fixed in the openings 44 of the turntable 40 and rotates together with the turntable 40. The number of the second magnets 220 is also 7, and the second magnets are jointly arranged into a circle on the periphery of the second circuit board 20, when the first communication module 100 and the second communication module 200 are mutually matched at the first position and the second position, the polarities of the first magnet 120 and the second magnet 220 are opposite, so that magnetic attraction matching occurs; when the turntable 40 is fixed to the fixing base 30 by the positioning pin 31, the first communication module 100 is fixed, and the second communication module 200 rotates to a position between the first position and the second position relative to the first communication module 100, the polarities of the first and

second magnets

120 and 220 are the same to repel each other, so as to separate the first communication module 100 from the second communication module 200, thereby facilitating the separation of the wireless communication interconnection system 500 of the present invention.

The wireless communication interconnection system of the invention has the following beneficial effects:

(1) the first communication module 100 and the second communication module 200 of the present invention can rotate to the first position and the second position at least two different angles after being butt-jointed and matched, thereby realizing multiple usage modes of the wireless communication interconnection system 500 and meeting the diversified matching requirements of the wireless communication interconnection system 500.

(2) The first magnetic component 12 of the present invention comprises a plurality of first magnets 120 surrounding the first circuit board 10, the second magnetic component 22 comprises a plurality of second magnets 220 surrounding the second circuit board 20, the second communication module 200 is magnetically coupled with the corresponding first magnets 120 through the second magnets 220 to achieve mutual fixation with the first communication module 100, so that the wireless communication interconnection system 500 of the present invention does not wear the appearance structure when used in cooperation, the service life of the wireless communication interconnection system 500 is increased, and when the turntable 40 is fixed on the fixing base 30 through the positioning pin 31, the first communication module 100 is fixed, and when the second communication module 200 rotates to a position between the first position and the second position relative to the first communication module 100, the polarities corresponding to the first and

second magnets

120, 220 are the same to repel each other to separate the first communication module 100 and the second communication module 200, the wireless communication interconnect system 500 of the present invention is easily separated.

(3) The layout of the wireless communication interconnection system 500 of the present invention from inside to outside along the radial direction is a pogo pin and a butt terminal for transmitting power and low-speed signals in sequence; the transmitting and receiving

wafer modules

second magnets

(4) The fixing seat 30, the rotating disc 40 and the first circuit board 10 are all arranged in an annular shape, the rotating disc 40 is located in the annular area of the fixing seat 30, and the first circuit board 10 is located in the annular area of the rotating disc 40, so that the first circuit board 10, the fixing seat 30 and the rotating disc 40 are arranged by fully utilizing respective annular spaces, the layout is novel and reasonable, and the space is saved.

(5) The positioning pin 31 of the present invention is inserted into the corresponding first and

second positioning grooves

41, 42 respectively when the turntable 40 and the first communication module 100 rotate to the first and second different positions, so as to fix the turntable 40 to the fixing base 30, and the structure is simple and the positioning is reliable.

(6) The cable 50 of the present invention can be wound on the turntable 40 under the driving of the wire rod 43 to straighten the cable 50 and prevent the cable 50 from being exposed and even knotted.

(7) The fixed seat 30 of the invention is provided with a stop block 34, and the stop block 34 is matched with a wire arranging rod 43 on the rotating disc 40 to prevent the rotating disc 40 from over rotating beyond the first position and the second position.

The above description is only for the preferred embodiment of the present invention, and should not be taken as limiting the scope of the present invention. All such modifications and variations are intended to be included herein within the scope of this disclosure and the present invention and protected by the following claims.

Claims

1. The utility model provides a wireless communication interconnected system, includes first communication module and the second communication module of mutual butt joint, first communication module includes that wireless transmitting element and first magnetism inhale the component, the second communication module include with wireless transmitting element butt joint is in order to carry out signal wireless transmission's wireless receiving element and inhale the component with first magnetism and inhale the component with the second of the component mutual adsorption complex of inhaling, its characterized in that: the first communication module and the second communication module can rotate to a first position and a second position at least at two positions with different angles after being in butt joint and matched.

2. The wireless communication interconnect system of claim 1, wherein: the first communication module comprises a first circuit board, and the second communication module comprises a second circuit board; the wireless transmitting element comprises a plurality of transmitting wafer modules which are arranged on the first circuit board and used for converting the electric signals of the first circuit board into electromagnetic signals to transmit the signals; the wireless receiving element comprises a plurality of receiving chip modules which are arranged on the second circuit board and used for converting the received electromagnetic signals into electric signals so as to transmit the received signals to the second circuit board; when the transmitting wafer module is aligned with the receiving wafer module, the wireless transmission of point-to-point extremely high frequency signals can be realized.

3. The wireless communication interconnect system of claim 2, wherein: the wireless communication interconnection system comprises a fixed seat and a rotary table capable of rotating relative to the fixed seat, and the first communication module is fixedly installed on the rotary table and rotates together with the rotary table.

4. The wireless communication interconnect system of claim 3, wherein: the fixed seat, the rotary disc and the first circuit board are all arranged annularly; and the turntable is positioned in the annular area of the fixed seat, and the first circuit board is positioned in the annular area of the turntable.

5. The wireless communication interconnect system of claim 4, wherein: the first communication module further comprises a first sub-board assembled in the center of the first circuit board and a spring ejector pin fixedly installed on the first sub-board, and the transmitting wafer module is located outside the spring ejector pin; the second communication module further comprises a second sub-board assembled in the center of the second circuit board and a butt-joint terminal fixedly installed on the second sub-board, and the receiving wafer module is located outside the butt-joint terminal; the butt joint terminal is matched with the spring thimble in a compression joint mode so as to achieve transmission of a power supply and a low-speed signal.

6. The wireless communication interconnect system of claim 3, wherein: the wireless communication interconnection system further comprises a positioning pin assembled to the fixed seat, the rotary plate is provided with a first positioning groove and a second positioning groove which are located at different positions, and the positioning pin is respectively inserted into the corresponding first positioning groove and the corresponding second positioning groove when the rotary plate and the first communication module rotate to the first different position and the second different position so as to fix the rotary plate to the fixed seat.

7. The wireless communication interconnect system of claim 6, wherein: the fixing seat is provided with a slot for the positioning pin to pass through, and the wireless communication interconnection system further comprises a spring which supports the fixing seat along the direction far away from the slot so as to provide elastic supporting force for the positioning pin to enter the slot.

8. The wireless communication interconnect system of claim 6, wherein: the wireless communication interconnection system also comprises a cable connected to the first communication module and extending out of the fixed seat, the turntable is provided with a wire arranging rod, and when the turntable and the first communication module rotate to the first position and the second position, the cable can be wound on the turntable under the driving of the wire arranging rod.

9. The wireless communication interconnect system of claim 8, wherein: the fixed seat is provided with a stop block, and the stop block is matched with the wire arranging rod on the rotary disc to prevent the rotary disc from exceeding the first position and the second position to generate excessive rotation.

10. The wireless communication interconnect system of claim 2, wherein: the first magnetic element comprises a first magnet surrounding the first circuit board, the second magnetic element comprises a second magnet surrounding the second circuit board, and the second communication module is magnetically matched with the corresponding first magnet through the second magnet so as to be fixed with the first communication module; when the first communication module and the second communication module are matched with each other at the first position and the second position, the polarities of the first magnet and the second magnet are opposite, so that magnetic attraction matching is generated; when the first communication module is fixed and the second communication module rotates to a position between the first position and the second position relative to the first communication module, the polarities corresponding to the first magnet and the second magnet are the same so as to repel each other and separate the first communication module and the second communication module.