CN202602624U - Wireless module and connector using the same - Google Patents

Abstract

The utility model provides a wireless module and a connector using the same. The connector comprises an electric connector and a wireless module, wherein the wireless module comprises a wireless signal transceiver and a transfer assembly; and when the wireless signal transceiver and the transfer assembly form the wireless module, the wireless module can be assembled on the connector so as to make the connector has a function for receiving and transmitting signals.

Description

Wireless module and use the connector of this wireless module

Technical field

The relevant a kind of connector of the utility model refers to a kind of connector with wireless module especially.

Background technology

Along with science and technology is constantly progressive, many portable electronic equipments have the wireless module of the various signals of transmitting-receiving in all, like notebook computer, panel computer, intelligent mobile phone, satellite navigator etc.

Inner in order to let wireless module can be installed on body or display screen in existing electronic installation; Usually all can be with the circuit board or the display screen volume-diminished of internal body; Make between the housing of this circuit board or display screen and body and remain with the space; Take in antenna with this space, handling the signal processing module that receives or transmit then is to be produced on the circuit board of electronic installation.When if the gap between the housing of circuit board or display screen and body can't be reserved than large space, be exactly volume-diminished further with Anneta module, antenna can be installed in the space of reservation.But, antenna volume is dwindled, and can not influence original emission again and receive quality of signals the time, will increase the degree of difficulty of Antenna Design.

Because antenna is installed in the space of being reserved between circuit board or display screen and the housing; When antenna in emission or when receiving signal; This antenna is vulnerable to circuit board and display screen starts the Electromagnetic Interference that is produced; And cause emission and received signal quality to reduce, therefore must in the zone of module that fixes up an aerial wire, have additional the structural design that prevents Electromagnetic Interference, to suppress the interference of electromagnetic wave to Anneta module.But the structural design of some anti electromagnetic wave is when still effectively the suppressing antenna module receives Electromagnetic Interference; The capital takes external antenna to improve the quality of reception; Some external antenna is that to protrude from the casing of electronic installation outside, let the user use or carry when going out all very inconvenient.

The utility model content

In view of this, the main purpose of the utility model is to solve traditional drawback, and the utility model is installed on the connector wireless signal transceiver and uses, and not only can promote emission and receive quality of signals, can also avoid wireless module to receive Electromagnetic Interference.

For achieving the above object; The utility model provides a kind of wireless module, and this wireless module comprises: wireless signal transceiver has circuit board on it; Have the wireless signal process chip and first connector on this circuit board, this first connector and this wireless signal process chip electrically connect; Adapter assembly has circuit substrate on it, have second connector with the electrical winding of this first connector on this circuit substrate, and an end of this circuit substrate has two above signal transport parts.

Wherein, this wireless signal process chip is a WiFi/ Bluetooth signal process chip.

Wherein, also include at least one first antenna connector on this circuit board, this first antenna connector and this wireless signal process chip electrically connect.

Wherein, has the adapter that at least one and this first antenna connector electrically connect on the one side of this circuit substrate.

Wherein, this adapter is electrically connected with transfer wire and the electric connection of this circuit substrate.

Wherein, has at least one second antenna connector on the another side of this circuit substrate.

Wherein, this circuit substrate one end around be electrically connected with two above antennas.

Wherein, this antenna is the PIFA antenna.

Wherein, this signal transport part is conductive connecting pin or winding displacement.

Wherein, the outer enclosure of this wireless module has housing, and these two above signal transport parts extend this outside.

Wherein, this wireless module also includes external antenna, and this external antenna has drive-connecting shaft, and this drive-connecting shaft and this housing articulate.

Wherein, this external antenna inside also has radiant body, and this radiant body electrically connects a cable, and this cable and this second antenna connector electrically connect.

For achieving the above object, the utility model provides a kind of connector, comprises: electric connector, have pedestal on it, and have at least one electric connector in this pedestal, the upper limb of this pedestal has groove; Wireless module is assembled in this groove, comprises: wireless signal transceiver, have circuit board on it, and have the wireless signal process chip and first connector on this circuit board, this first connector and this wireless signal process chip electrically connect; Adapter assembly has circuit substrate on it, have second connector with the electrical winding of this first connector on this circuit substrate, and an end of this circuit substrate has two above signal transport parts.

Wherein, this wireless signal process chip is a WiFi/ Bluetooth signal process chip.

Wherein, also include at least one first antenna connector on this circuit board, this first antenna connector and this wireless signal process chip electrically connect.

Wherein, has the adapter that at least one and this first antenna connector electrically connect on the one side of this circuit substrate.

Wherein, this adapter is electrically connected with transfer wire and the electric connection of this circuit substrate.

Wherein, has at least one second antenna connector on the another side of this circuit substrate.

Wherein, this circuit substrate one end around be electrically connected with two above antennas.

Wherein, this antenna is the PIFA antenna.

Wherein, this signal transport part is conductive connecting pin or winding displacement.

Wherein, the outer enclosure of this wireless module has housing, and these two above signal transport parts extend this outside.

Wherein, this connector also includes external antenna, and this external antenna has drive-connecting shaft, and this drive-connecting shaft and this housing articulate.

Wherein, this external antenna inside also has radiant body, and this radiant body electrically connects a cable, and this cable and this second antenna connector electrically connect.

Wherein, there is metal-back this pedestal outside.

Wherein, have more than two perforation in this groove, these two above conductive connecting pins pass this perforation and are passed by the bottom of this pedestal.

Wherein, these groove both sides have the location division that is the overhead kick shape, and this this wireless module of location division winding firmly is assembled in this groove.

Wherein, this electric connector is the electric connector of single face or the electric connector of the stack that a plurality of electric connector is formed.

Wherein, this electric connector is any of USB, HDMI, Displayport, PS/2, eSATA, miro-USB, MINI USB, IEEE1394.

Compared to prior art, the utlity model has following effect: the utility model can be installed on the connector this wireless signal transceiver and uses after utilizing adapter assembly switching wireless signal transceiver.And let wireless signal transceiver be in the state of exposing, and not only can promote emission and receive quality of signals, also can avoid wireless module to receive Electromagnetic Interference.

Description of drawings

Fig. 1 is the decomposing schematic representation of the wireless module of the utility model;

Fig. 2 is the combination sketch map of the wireless module of the utility model;

Fig. 3 is the schematic side view of the wireless module of the utility model;

Fig. 4 is the wireless module of the utility model and the decomposing schematic representation of connector;

Fig. 5 is the wireless module of the utility model and the combination sketch map of connector;

Fig. 6 is the side cross-sectional schematic of the wireless module and the connector of the utility model;

Fig. 7 is the combination sketch map of another embodiment of the utility model;

Fig. 8 is the side cross-sectional schematic of another embodiment of the utility model;

Fig. 9 is the action sketch map that the antenna of Fig. 8 rotates;

Figure 10 is the decomposing schematic representation of an embodiment again of the utility model.

Description of reference numerals

Wireless module 10

Wireless signal transceiver 1 circuit board 11

Wireless signal process chip 12 first connectors 13

The first antenna connector, 14 adapter assemblies 2

Circuit substrate 21 second connectors 22

Adapter 23 transfer wires 231

Antenna 24 second antenna connectors 25

Signal transport part 26 housings 3

Connector 20 pedestals 4

Metal-back 41 electric connectors 42

Groove 43 perforation 44

Location division 45 electronic installations 30

Mainboard 301 antenna 24a

Drive-connecting shaft 241a radiant body 242a

Cable 243a

Embodiment

Detailed description of relevant the utility model and technology contents, with the conjunction with figs. explanation as follows, yet appended accompanying drawing is not to be used to limit to the utility model only as illustrative purposes.

See also Fig. 1 and Fig. 2, be respectively decomposition, the combination sketch map of the wireless module of the utility model.As shown in the figure: the wireless module 10 of the utility model comprises: wireless signal transceiver 1 and adapter assembly 2.

This wireless signal transceiver 1 has circuit board 11, has wireless signal process chip 12, first connector 13 and at least one first antenna connector 14 of WiFi/ bluetooth on this circuit board 11.This first connector 13 and this first antenna connector 14 electrically connect with this wireless signal process chip 12.

This adapter assembly 2 has circuit substrate 21, has second connector 22 with the 13 electrical windings of this first connector on this circuit substrate 21, has the adapter 23 that at least one and this first antenna connector 14 electrically connect on the one side of this circuit substrate 21.Be electrically connected with the antenna 24 of two above different patterns around these circuit substrate 21 1 ends.Have at least one second antenna connector 25 on the another side of this circuit substrate 21, this second antenna connector 25 is for the antenna (not shown) that connects circumscribed.In addition, on the other end of this circuit substrate 21, be electrically connected with two above signal transport parts 26, this signal transport part 26 is to do the signal transmission.In this figure, this antenna 24 is PIFA antenna (Planar Inverted F Antenna, a dull and stereotyped inverted F antenna).This signal transport part 26 is conductive connecting pin or winding displacement.

See also Fig. 2 and Fig. 3, be respectively the combination and the schematic side view of the wireless module of the utility model.It is as shown in the figure: when the utility model uses; Second connector 22 on the circuit substrate 21 of first connector 13 on the circuit board 11 of this wireless signal transceiver 1 and this adapter assembly 2 is connected, and this first antenna connector 14 also is connected with this adapter 23 simultaneously.The signal that the external antenna (not shown) that is connected at antenna 24 or the second antenna connector 25 receives reaches on one of them adapter 23 via circuit substrate 21; Again after adapter 23 reaches the first antenna connector 14; Reaching this wireless signal process chip 12 by the first antenna connector 14 again handles; Signal after the processing reaches on second connector 22 via first connector 13, is reached on the mainboard of electronic installation (not shown) by this signal transport part 26 on this circuit substrate 21 again.

Relatively; Signal after mainboard is handled; Reach on the circuit substrate 21 through this signal transport part 26, reach on first connector 13 by second connector 22 again, again after circuit board 11 is passed to these wireless signal process chip 12 processing; Signal is reached on this adapter 23 through the first antenna connector 14, reach antenna 24 emissions or reach the external antenna that this second antenna connector 25 connected through circuit substrate 21 again and launch (not shown).

See also Fig. 4, Fig. 5 and Fig. 6, be respectively decomposition, combination and the side cross-sectional schematic of the wireless module and the connector of the utility model.As shown in the figure: after 10 assemblings of the wireless module of the utility model are accomplished, in the outer enclosure of this wireless module 10 housing 3 is arranged, these two above signal transport parts 26 extend this housing 3 outsides.The wireless module 10 and these connector 20 assemblings that will have this housing 3 again.

This connector 20 has pedestal 4, and these pedestal 4 external packets are covered with metal-back 41, and winding has at least one electric connector 42 in this pedestal 4, can supply the signal transmssion line of pegging graft.In addition, on this pedestal 4, have groove 43, this groove 43 has more than two in this groove 43 and bores a hole 44 in order to assemble this wireless module 10, and this perforation 44 supplies these two above signal transport parts 26 to pass this pedestal 4, and is passed by the bottom of this pedestal 4.In addition, have the location division 45 that is the overhead kick shape in these groove 43 both sides, this location division 45 firmly is assembled in this groove 43 this wireless module 10.This electric connector 42 can be the electric connector of single face; The multiport type that perhaps a plurality of electric connectors are formed, the electric connector of stack; This electric connector 42 is USB (Universal Serial BUS; USB), HDMI (High-Definition Multimedia Interface; HDMI), any of Displayport, PS/2, eSATA (External Serial Advanced Technology Attachment, the configuration of external series high-tech), miro-USB, MINI USB, IEEE1394 etc.

After this wireless module 10 and these connector 20 assemblings are accomplished; This connector 20 can electrically be fixed on the mainboard 301 of this electronic installation 30; This connector 20 is except can supplying this electronic installation 30 to carry out the transmitting-receiving of wireless signal through this wireless module 10 for the grafting signal transmssion line.

See also Fig. 7, Fig. 8 and Fig. 9, Fig. 7 and Fig. 8 are respectively combination and the side cross-sectional schematic of another embodiment of the utility model, and Fig. 9 is the action sketch map that the antenna of Fig. 8 rotates.As shown in the figure.When the adapter assembly 2 of the utility model adopts external antenna 24a, do not have the antenna 24 of PIFA on the circuit substrate 21 of this adapter assembly 2.The antenna 24a of this circumscribed has drive-connecting shaft 241a, and after this drive-connecting shaft 241a and this housing 3 articulated, the inner radiant body 242a of this antenna 24a electrically connects a cable 243a and this second antenna connector 25 electrically connects.

When wireless module 10 carries out the reception of signal or launches; Can pull antenna 24a to adjust best reception or transmit direction, pass to the mainboard 301 of electronic installation 30 or the signal that the mainboard 301 of electronic installation 30 is finished dealing with is emitted to far-end or near-end reception after handling for wireless module 10 receptions.

See also Figure 10, be the decomposing schematic representation of an embodiment again of the utility model.It is as shown in the figure: when the wireless signal transceiver 1 of the utility model receives the restriction of space and position with adapter assembly 2 assemblings; Adapter 23 on the circuit substrate 21 of this adapter assembly 2 is electrically connected with transfer wire 231 and electrically connects with this circuit substrate 21; After this adapter 23 electrically connects with this first antenna connector 14 again; The signal that this wireless signal transceiver 1 is received can pass through the mainboard that this adapter assembly 2 reaches the electronic installation (not shown), and perhaps the mainboard of this electronic installation is passed to wireless signal transceiver 1 through adapter assembly 2 again after with signal processing and is emitted to far-end or near-end and receives.

The above is merely the specifying of preferred embodiment of the utility model, is not the protection range in order to limitation the utility model, and other any equivalent transformation all should belong to the application's claim scope.

Claims (13)

1. a wireless module is characterized in that, this wireless module comprises:

Wireless signal transceiver has circuit board on it, have the wireless signal process chip and first connector on this circuit board, and this first connector and this wireless signal process chip electrically connect;

Adapter assembly has circuit substrate on it, have second connector with the electrical winding of this first connector on this circuit substrate, and an end of this circuit substrate has two above signal transport parts.

2. wireless module as claimed in claim 1; It is characterized in that; The said wireless signal process chip of said circuit board is a WiFi/ Bluetooth signal process chip; Also include at least one first antenna connector on this circuit board, this first antenna connector and this wireless signal process chip electrically connect.

3. wireless module as claimed in claim 2; It is characterized in that; Has the adapter that at least one and the said first antenna connector electrically connect on the one side of said circuit substrate; This adapter is electrically connected with transfer wire and this circuit substrate electrically connects; What have at least one second antenna connector and this circuit substrate one end on the another side of this circuit substrate is electrically connected with two above antennas on every side, and this antenna is the PIFA antenna, and the said signal transport part of this circuit substrate is conductive connecting pin or winding displacement.

4. wireless module as claimed in claim 3 is characterized in that the outer enclosure of this wireless module has housing, and said two above signal transport parts extend this outside.

5. wireless module as claimed in claim 4; It is characterized in that this wireless module also includes external antenna, this external antenna has drive-connecting shaft; This drive-connecting shaft and said housing articulate; This external antenna inside also has radiant body, and this radiant body electrically connects a cable, and this cable and the said second antenna connector electrically connect.

6. a connector is characterized in that, this connector comprises:

Electric connector has pedestal on it, have at least one electric connector in this pedestal, and the upper limb of this pedestal has groove;

Wireless module is assembled in this groove, comprises:

Wireless signal transceiver has circuit board on it, have the wireless signal process chip and first connector on this circuit board, and this first connector and this wireless signal process chip electrically connect;

Adapter assembly has circuit substrate on it, have second connector with the electrical winding of this first connector on this circuit substrate, and an end of this circuit substrate has two above signal transport parts.

7. connector as claimed in claim 6; It is characterized in that; The said wireless signal process chip of said circuit board is a WiFi/ Bluetooth signal process chip; Also include at least one first antenna connector on this circuit board, this first antenna connector and this wireless signal process chip electrically connect.

8. connector as claimed in claim 7; It is characterized in that; Has the adapter that at least one and the said first antenna connector electrically connect on the one side of said circuit substrate; This adapter is electrically connected with transfer wire and this circuit substrate and electrically connects, and has at least one second antenna connector on the another side of this circuit substrate, and this circuit substrate one end around be electrically connected with two above antennas; This antenna is the PIFA antenna, and the said signal transport part of this circuit substrate is conductive connecting pin or winding displacement.

9. connector as claimed in claim 8 is characterized in that the outer enclosure of this wireless module has housing, and said two above signal transport parts extend this outside.

10. connector as claimed in claim 9; It is characterized in that this connector also includes external antenna, this external antenna has drive-connecting shaft; This drive-connecting shaft and said housing articulate; This external antenna inside also has radiant body, and this radiant body electrically connects a cable, and this cable and the said second antenna connector electrically connect.

11. connector as claimed in claim 10; It is characterized in that; There is metal-back said pedestal outside, has more than two perforation in the groove of this pedestal, and said two above conductive connecting pins pass this perforation and passed by the bottom of this pedestal; These groove both sides have the location division that is the overhead kick shape, and this this wireless module of location division winding firmly is assembled in this groove.

12. connector as claimed in claim 11 is characterized in that, said electric connector is the electric connector of single face or the electric connector of the stack that a plurality of electric connector is formed.

13. connector as claimed in claim 12 is characterized in that, said electric connector is any of USB, HDMI, Displayport, PS/2, eSATA, miro-USB, MINI USB, IEEE1394.

Images