CN204333360U

CN204333360U - electrical connector

Info

Publication number: CN204333360U
Application number: CN201520017691.6U
Authority: CN
Inventors: 陈冠吾; 郭家宏; 李星佑
Original assignee: Bellwether Electronic Corp
Current assignee: Bellwether Electronic Corp
Priority date: 2015-01-12
Filing date: 2015-01-12
Publication date: 2015-05-13
Anticipated expiration: 2025-01-12

Abstract

The utility model relates to an electric connector, which comprises an insulating seat, an insulating slider, an elastic element, a conductive terminal and an electrode; the insulating base is provided with a connecting hole and a sliding chute communicated with the connecting hole is formed in the insulating base; the insulation sliding block is accommodated in the sliding groove and can move along the sliding groove; the elastic element is accommodated in the sliding chute, the elastic element is accommodated in the corresponding sliding chute and pushes against one end of the sliding chute and the insulating slide block, and the insulating slide block is abutted against the other end of the sliding chute; the conductive terminal is arranged on the insulating slide block, one end of the conductive terminal penetrates into the connecting hole, and an elastic arm is formed at the other end of the conductive terminal; the electrode is arranged in the insulating seat and is contacted with the elastic arm to be electrically connected with the conductive terminal. The utility model provides an electric connector, its electrode is laid at the circuit board, consequently applicable to the transmission high frequency signal, and the electrode equipment can be accomplished in the slot of inserting the insulating seat with the circuit board moreover.

Description

Electric connector

Technical field

The utility model has the connector about a kind of single needle spring, and particularly a kind of being applicable to transmits high-frequency signals and the electric connector being easy to the single needle spring assembling electrode.

Background technology

Single needle spring connector (Pogo pin) is connector form common on the market, it is generally offer chute in a plastic base body, probe is equipped with in chute, probe can move along chute, and being separately equipped with a spring in chute, spring abuts the inwall of probe and chute respectively.During corresponding with another when connector connector grafting, probe can be pushed by connector accordingly, and makes probe and its close contact by the elastic force of spring.When the connector of correspondence removes, probe can be passed by the elastic force of spring and reset.

Known single needle spring connector, corresponding aforesaid each probe is provided with multiple shell fragment electrode in its plastic base body, each shell fragment electrode abut corresponding probe respectively and with its electric connection.Single needle spring connector is generally welded on a circuit board, and each shell fragment electrode extends respectively and passes plastic base body and be welded in circuit board, and therefore those probes can be electrically connected circuit board by shell fragment electrode.Shell fragment electrode must be assembled in plastic base body when assembling by known single needle spring connector manufacture one by one, therefore considerably time-consuming.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of being applicable to transmit high-frequency signals and the electric connector being easy to the single needle spring assembling electrode.

In order to reach above-mentioned object, the utility model provides a kind of electric connector, comprises:

One insulating base, it offers a connecting hole, and forms the chute being communicated with this connecting hole in this insulating base;

At least one slide block that insulate, it to be placed in this chute and can to move along this chute;

At least one flexible member, it is placed in this chute, and this flexible member pushes against one end and this insulation slide block of this chute, and this insulation slide block abuts the other end of this chute;

At least one conducting terminal, it is arranged on this insulation slide block, and one end of this conducting terminal penetrates this connecting hole, and the other end of this conducting terminal is formed with an elastic arm; And

One electrode, it is arranged in this insulating base, this elastic arm of this electrode contact and be electrically connected this conducting terminal.

Preferably, wherein said electric connector more comprises a circuit board, and this insulating base offers the slot being communicated with this chute, and this circuit board is plugged in this slot, and this pole layout on the board.

Preferably, wherein one end of this chute is provided with one with the insulating lid abutted for this flexible member, and the other end of this chute is then communicated with this connecting hole.

Preferably, wherein this conducting terminal and this electrode parallel configure.

Preferably, wherein this connecting hole is a pair, this chute is a pair, this to chute parallel deployment and respectively this chute be communicated with corresponding connecting hole respectively, this slot configuration is between this is to chute and be communicated with respectively this chute respectively, and this electrode is a pair and this is relatively laid on two of this circuit board electrode.

Preferably, wherein this conducting terminal is embedded in this insulation slide block, and two ends of this conducting terminal protrude this insulation slide block respectively.

Preferably, wherein this flexible member is a spring.

Preferably, wherein this conducting terminal is shunk back to this chute from this connecting hole.

Preferably, wherein this insulation slide block offers a start groove, and this elastic arm is contained in this start groove and protrudes this start groove.

Preferably, wherein the outer surface of this insulating base is arranged with a metal shell.

Electric connector provided by the utility model, its pole layout, at circuit board, is therefore applicable to transmission high-frequency signals, as long as and namely can complete electrode assembling in slot circuit board being inserted insulating base.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the electric connector of the utility model preferred embodiment;

Fig. 2 is a perspective exploded view of the electric connector of the utility model preferred embodiment;

Fig. 3 is another perspective exploded view of the electric connector of the utility model preferred embodiment;

Fig. 4 is the longitudinal sectional view of the electric connector of the utility model preferred embodiment;

Fig. 5 is the schematic perspective view of insulation slide block in the electric connector of the utility model preferred embodiment and conducting terminal;

Fig. 6 is a using state schematic diagram of the electric connector of the utility model preferred embodiment;

Fig. 7 is another using state schematic diagram of the electric connector of the utility model preferred embodiment.

Critical piece title:

The electric connector that 10-is corresponding; 100-insulating base; 101-cephalolateral margin; 102-posterior lateral margin; 110-metal shell;

120-connecting hole; 130-chute; 131-front port; 132-rear port; 133-side opening; 140-slot; 150-insulating lid;

200-insulate slide block; 201-front end; 202-rear end; 203-start groove;

300-flexible member;

400-conducting terminal; 410-elastic arm;

510-circuit board; 511-electrode; 512-electrode; 520-circuit board.

Embodiment

Relevant detailed description of the present utility model and technology contents, be described as follows cooperation accompanying drawing, but accompanying drawing as illustrative purposes only, not for limiting the utility model.

Consult Fig. 1 to Fig. 4, preferred embodiment of the present utility model provides a kind of electric connector, and it comprises an insulating base 100, at least one insulation slide block 200, at least one flexible member 300, at least one conducting terminal 400 and a circuit board 510.In the present embodiment, flexible member 300 and conducting terminal 400 are all multiple, and the quantity of flexible member 300 and conducting terminal 400 is corresponding.

Insulating base 100 is preferably a plastic flat type pedestal and therefore forms a cephalolateral margin 101 and a posterior lateral margin 102 opposing with cephalolateral margin 101, and the lateral surface of insulating base 100 is arranged with a metal shell 110.The cephalolateral margin 101 of insulating base 100 offers the connecting hole 120 that two row configure side by side, in insulating base 100, those connecting holes 120 corresponding form multiple chute 130, and those chutes 130 are parallel to each other and arrange in two row be parallel to each other in pairs.Each chute 130 has a front port 131, rear port 132 and a side opening 133 relative with front port 131 respectively, the front port 131 of chute 130 is communicated with corresponding connecting hole 120, the rear port 132 of chute 130 is communicated to the posterior lateral margin 102 of insulating base 100, and respectively offer a slot 140 between two row chutes 130, and the side opening 133 that slot 140 is communicated with each pair of chute 130 is oppositely disposed.The posterior lateral margin 102 of insulating base 100 is provided with an insulating lid 150 with the rear port 132 of closed chute 130.

Consult Fig. 3 to Fig. 5, in the present embodiment, each insulation slide block 200 is respectively the plastic blocks of a strip, and each insulation slide block 200 to be located in respectively in corresponding chute 130 and can to move along this chute 130.Each insulation slide block 200 has a front end 201 and the rear end 202 relative to front end 201, and the side opening of each insulation slide block 200 is provided with a start groove 203.The front end 201 of insulation slide block 200 configures towards the front port 131 of chute 130,202, the rear end of insulation slide block 200 configures towards the rear port 132 of chute 130, and the side opening 133 of the corresponding chute 130 of start groove 203 configures and the start grooves 203 of two insulation slide blocks 200 set in each pair of chute 130 are oppositely disposed.

In the present embodiment, each flexible member 300 is preferably respectively a spring, and each flexible member 300 is contained in corresponding chute 130 respectively.One end of flexible member 300 is connected to insulating lid 150, and the other end of flexible member 300 then pushes against the rear end 202 of insulation slide block 200 and makes the front end 201 of insulation slide block 200 be connected to the inner edge of the front port 131 of chute 130.

In the present embodiment, conducting terminal 400 for stamping forming one long-bar metal sheet bending and make, be formed with an elastic arm 410 in one end of conducting terminal 400 whereby.Conducting terminal 400 is buried underground and is fixed on insulation slide block 200, protrude start groove 203 in the start groove 203 that the elastic arm 410 of conducting terminal 400 is contained in insulation slide block 200, the other end of conducting terminal 400 then protrudes from the front end 201 of insulation slide block 200 and extends and penetrates in connecting hole 120.

Circuit board 510 is plugged in the slot 140 of insulating base 100, in the present embodiment, two of circuit board 510 are laid with accordingly respectively multiple parellel arranged electrode 511,512, and each electrode 511 respectively with circuit board 510 another side on the corresponding electrode 512 of circuit board 510 wherein in one side is corresponding configuration.When circuit board 510 inserts in slot 140, each electrode 511,512 respectively with corresponding conducting terminal 400 parallel deployment.Each electrode 511,512 contacts corresponding elastic arm 410 respectively and is electrically connected corresponding conducting terminal 400.

Consult Fig. 6, each electrode 511,512 on circuit board 510 also can be electrically connected another circuit board 520 respectively according to the demand of Circnit Layout, but the utility model is not as limit.Consult Fig. 6 and Fig. 7, electric connector of the present utility model is for docking the electric connector 10 of another correspondence, when docked, corresponding electric connector 10 inserts in connecting hole 120 and is electrically connected each conducting terminal 400, and each conducting terminal 400 can be shunk back in the chute 130 of correspondence from the connecting hole 120 at its place.

Electric connector of the present utility model, the elastic arm 410 that its conducting terminal 400 extends can make electrical signals be directly conducted on electrode 511,512 in transmission, number of elements is too much, path is long and cause the problems such as signal attenuation for connecting of avoiding passing through, and therefore can be applicable to transmit high-frequency signals.Moreover conducting terminal 400 is fixed on insulation slide block 200 by the mode of coated ejection formation by its conducting terminal 400 while profiled insulation slide block 200.Electrode 511,512 is laid on circuit board 510, as long as therefore circuit board 510 to be inserted the assembling that namely can complete electrode 511,512 in the slot 140 of insulating base 100.Therefore its assembling of electric connector of the present utility model is more convenient compared to known technology.

The foregoing is only preferred embodiment of the present utility model, and be not used to limit scope of patent protection of the present utility model, other equivalence changes etc. of using the utility model patent spirit to do, all should in like manner belong in scope of patent protection of the present utility model.

Claims

1. an electric connector, is characterized in that, comprises:

2. electric connector as claimed in claim 1, is characterized in that, more comprise a circuit board, and this insulating base offers the slot being communicated with this chute, and this circuit board is plugged in this slot, and this pole layout on the board.

3. electric connector as claimed in claim 1, is characterized in that, one end of this chute is provided with one with the insulating lid abutted for this flexible member, and the other end of this chute is then communicated with this connecting hole.

4. electric connector as claimed in claim 1, it is characterized in that, this conducting terminal and this electrode parallel configure.

5. electric connector as claimed in claim 2, it is characterized in that, this connecting hole is a pair, this chute is a pair, this to chute parallel deployment and respectively this chute be communicated with corresponding connecting hole respectively, this slot configuration is between this is to chute and be communicated with respectively this chute respectively, and this electrode is a pair and this is relatively laid on two of this circuit board electrode.

6. electric connector as claimed in claim 1, it is characterized in that, this conducting terminal is embedded in this insulation slide block, and two ends of this conducting terminal protrude this insulation slide block respectively.

7. electric connector as claimed in claim 1, it is characterized in that, this flexible member is a spring.

8. electric connector as claimed in claim 1, it is characterized in that, this conducting terminal is shunk back to this chute from this connecting hole.

9. electric connector as claimed in claim 1, it is characterized in that, this insulation slide block offers a start groove, and this elastic arm is contained in this start groove and protrudes this start groove.

10. electric connector as claimed in claim 1, it is characterized in that, the outer surface of this insulating base is arranged with a metal shell.