CN204289893U - Circuit connector and grafting body thereof - Google Patents

Abstract

The utility model provides a kind of circuit connector and grafting body thereof, includes: one first grafting body, is provided with at least two first through wires holes and at least two first and moves back line piece; One second grafting body, is provided with at least two second through wires holes and at least two second and moves back line piece; At least two first electric-conductors, are installed in this first grafting body, its outer end to should the first through wires hole and this first move back line piece; At least two second electric-conductors, are installed in this second grafting body, its outer end to should the second through wires hole and this second move back line piece.Circuit connector of the present utility model can utilize respectively that this moves back line piece and electric wire is exited respectively this grafting body, and order respectively this grafting body separately can be used as other electrical equipment and circuit connections, promotes effect of practicality and environmental protection.

Description

Circuit connector and grafting body thereof

Technical field

The utility model, about circuit connection component, in details of the words, means a kind of circuit connector and grafting body thereof.

Background technology

Need be connected with circuit connector between electrical equipment with circuit, to produce the conduction of electricity, be event, creator's number of filing an application No. 200810084635.9 " circuit connector " patent of invention, its structure is simple, electric wire grafting is convenient, can promote speed and the convenience of assembling.By the mutual grafting of male and female grafting body of circuit connector or separation, can be energized or power-off.

But in actual use, this circuit connector still has desirable not to the utmost part, it does not have and moves back line function, refer to Figure 14, when this circuit connector 50 uses, inserted by four electric wires 58 in male and female grafting body 51a, 51b, and the folder being subject to four folder valve parts 52 is respectively pulled, end 53 and four conducting strips 55 is clamping, and electric wire 58 and conducting strip 55 can be contacted with each other.The pull design of end 53 of the folder of this folder valve part 52 allows electric wire 58 to insert, and when electric wire inserts the end 53 and folder touching folder valve part is pulled, presss from both sides and pulls end 53 just flexibly toward interior beat, electric wire 58 is penetrated, and is subject to this folder end 53 of pulling and clamps.Only, once electric wire 58 is pulled after end 53 holds by folder, just cannot be picked out, when covered electric wire 58 is pulled out, drive folder to be pulled end 53 beat outward, but folder is pulled, there is no can the nargin of outside beat for end 53, when being more firmly pulled outwardly electric wire 58, just impel folder to pull tighter by electrical wire clip of end 53, each electric wire 58 cannot be taken out from this circuit connector 50, cause when electrical equipment or circuit damage, no matter whether connected circuit connector is intact, also can only with abandon, not only cause unnecessary waste, also run counter to the environmental protection concept advocated now.

Utility model content

The purpose of this utility model is to provide a kind of circuit connector and grafting body thereof, and it has the function exiting electric wire, and circuit connector can be separated with electric wire by user easily, promotes the practicality of circuit connector, the benefit of environmental protection.

For achieving the above object, the utility model discloses a kind of circuit connector, include:

One first grafting body, its inner is an inserted terminal, and outer end is terminals; One first accommodation space, is located in this first grafting body; At least two first through wires holes, are located at the terminals of this first grafting body and are communicated with this first accommodation space;

One second grafting body, its inner is an inserted terminal, and outer end is terminals; One second accommodation space, is located in this second grafting body; At least two second through wires holes, are located at the terminals of this second grafting body and are communicated with this second accommodation space;

At least two first electric-conductors, respectively the inner of the body of this first electric-conductor is one first contact jaw and outer end is provided with flexible first blocking part of a tool; Respectively the free end of this first blocking part extends towards this first contact jaw; This 2 first electric-conductor is installed in this first accommodation space of this first grafting body, respectively the first blocking part correspondence of this first electric-conductor respectively this first through wires hole;

At least two second electric-conductors, respectively body the inner of this second electric-conductor is one second contact jaw and outer end is provided with flexible second blocking part of a tool, and the free end of this second blocking part extends toward this second contact jaw; This 2 second electric-conductor is installed in this second accommodation space of this second grafting body, respectively the second blocking part correspondence of this second electric-conductor respectively this second through wires hole;

The inserted terminal of this first grafting body and this second grafting body can mutually grafting or be separated and mutually grafting time the first contact jaw of this 2 first electric-conductor and the second contact jaw of this 2 second electric-conductor contact with each other; It is characterized in that: more include:

At least two first move back line piece, be located at a sidewall of this first grafting body respectively, and stretch in this first accommodation space and can along the length travel of this first grafting body thus respectively this first can push the first blocking part of respectively this first electric-conductor and make this first blocking part toward this solid offsetting of the first electric-conductor when moving back line piece displacement;

At least two second move back line piece, be located at a sidewall of this second grafting body respectively, and to stretch in this second accommodation space and can along the length travel of this second grafting body thus respectively this second pushing when moving back line piece displacement respectively this second electric-conductor the second blocking part and make this second blocking part toward this solid offsetting of the second electric-conductor.

Wherein: respectively this first moves back line piece and have one first and move back line portion, respectively this first move back line portion stretch into this first grafting body the first accommodation space and can along the length travel of each this first grafting body thus this first pushing when moving back the displacement of line portion respectively this first electric-conductor the first blocking part and make this first blocking part toward this solid offsetting of the first electric-conductor; Respectively this second moves back line piece and has one second and move back line portion, respectively this second move back line portion stretch into this second grafting body the second accommodation space and can along the length travel of this second grafting body thus this second pushing when moving back the displacement of line portion respectively this second electric-conductor the second blocking part and make this second blocking part toward this solid offsetting of the second electric-conductor.

Wherein: respectively this first moves back line piece and have one and first move back the first clicking section that line portion is connected with this, respectively this first clicking section protrude from this first grafting body a sidewall and can along the length travel of this first grafting body; Respectively this second moves back line piece and has one and second move back the second clicking section that line portion is connected with this, respectively this second clicking section protrude from this second grafting body a sidewall and can along the length travel of this second grafting body; At least two first slotted eyes, are located at a sidewall of this first grafting body respectively, communicate with each this first accommodation space, and arrange along the longitudinal direction of each this first grafting body; Respectively this first move back first of line piece move back line portion through each this first slotted eye stretch into respectively this first accommodation space thus when pushing respectively this first move back the first clicking section of line piece time this first moves back line portion along this first slotted eye displacement; At least two second slotted eyes, are located at a sidewall of this second grafting body respectively, communicate, and arrange along the longitudinal direction of this second grafting body with each this second accommodation space; Respectively this second move back second of line piece move back line portion through each this second slotted eye stretch into respectively this second accommodation space thus when pushing respectively this second move back the second clicking section of line piece time this second moves back line portion along this second slotted eye displacement.

Wherein: at least two first flutings, be located at a sidewall of this first grafting body respectively, and arrange along the longitudinal direction of each this first grafting body; Respectively this first slotted eye is located at wall for respectively this first fluting, and communicates with each this first accommodation space; Respectively this first move back line piece be installed in respectively this first fluting and can along this first fluting displacement; At least two second flutings, are located at a sidewall of this second grafting body respectively, and the longitudinal direction along each this second grafting body is arranged; Respectively this second slotted eye is located at wall for respectively this second fluting, and communicates with each this second accommodation space; Respectively this second move back line piece be installed in respectively this second fluting and can along this second fluting displacement.

Wherein: the terminals of this first grafting body are provided with two respectively to should the first jack of 2 first electric-conductors; The terminals of this second grafting body are provided with two respectively to should the second jack of 2 second electric-conductors;

One first location division, is located in this first grafting body, is positioned at this first jack the inner and is communicated with this first accommodation space; One second location division, is located in this second grafting body, is positioned at this second jack the inner and is communicated with this second accommodation space;

Respectively the body of this first electric-conductor is provided with one first to the portion of pulling, and this first is locked to respectively this first location division to the portion of pulling; Respectively the body of this second electric-conductor is provided with one second to the portion of pulling, and this second is locked to respectively this second location division to the portion of pulling.

Wherein: the internal face of this first accommodation space of this first grafting body is provided with at least two first grooves, respectively through terminals to this first grafting body in one end of this first groove and form one first jack, its other end is that a blind end is to form one first location division; The internal face of this second accommodation space of this second grafting body is provided with at least two second grooves, respectively through terminals to this second grafting body in one end of this second groove and form one second jack, and its other end is that a blind end is to form one second location division;

Respectively the body of this first electric-conductor is provided with one first to the portion of pulling, and respectively this first to stretch into the portion of pulling in respectively this first groove of this first grafting body and to be locked to respectively this first location division; Respectively the body of this second electric-conductor is provided with one second to the portion of pulling, and respectively this second to stretch into the portion of pulling in respectively this second groove of this second grafting body and to be locked to respectively this second location division.

Wherein: the inserted terminal of this first grafting body is provided with one first socket component; The inserted terminal of this second grafting body is provided with one second grafting space; This first socket component and this second grafting space plug.

Wherein: this first grafting body and this second grafting body structure identical; The inserted terminal of this first grafting body has the first grafting space that is close to this first socket component; First contact jaw of this 2 first electric-conductor is between this first socket component and this first grafting space; The inserted terminal of this second grafting body has the second socket component that is close to this second grafting space; Second contact jaw of this 2 second electric-conductor is between this second socket component and this second grafting space; During the mutual grafting of this two grafting body, respective socket component inserts in the grafting space of the other side, and the first contact jaw of this 2 first electric-conductor and the second contact jaw of this 2 second electric-conductor move into this second grafting space and this first grafting space respectively and contact with each other.

Wherein: this first accommodation space has at least two first rooms; Those first electric-conductors are located in those first rooms respectively; Those first through wires holes and those the first slotted eyes are communicated with those the first rooms respectively; This second accommodation space has at least two second rooms; Those second electric-conductors are installed in these second rooms respectively; These second through wires holes and these the second slotted eyes are communicated with these the second rooms respectively.

Also disclose a kind of grafting body of circuit connector, include:

One grafting body, the inner of this grafting body is an inserted terminal, and its outer end is terminals; One accommodation space, is located in this grafting body; At least two through wires holes, are located at the terminals of this grafting body and are communicated with this accommodation space;

At least two electric-conductors, respectively the body of this electric-conductor has an inner and outer end, and its inner is a contact jaw, and outer end is provided with the flexible blocking part of a tool; The free end of this blocking part is toward the oblique extension of this contact jaw; This two electric-conductor is installed in this grafting body, respectively the blocking part correspondence of this electric-conductor respectively this through wires hole; It is characterized in that, more include:

At least two move back line piece, be located at a sidewall of this grafting body respectively, in the accommodation space stretching into this grafting body and can when along the length travel of this grafting body thus respectively this moves back line piece displacement pushing respectively this electric-conductor blocking part and make this blocking part toward this solid offsetting of this electric-conductor.

By this, circuit connector of the present utility model and the utilization of grafting physical efficiency thereof are respectively moved back line piece and electric wire are exited grafting body, electric wire is separated with grafting body, and this circuit connector can be assembled to other electrical equipment or circuit, to reach effect that is practical, environmental protection.

For the effect making auditor understand the purpose of this utility model, feature further and to reach, hereby lift the utility model one preferred embodiment below, and after coordinating graphic being described in more detail in.

Accompanying drawing explanation

Fig. 1: the stereogram of the circuit connector of the utility model one preferred embodiment, and show state when two grafting bodies plug.

Fig. 2: show the first electric conductor, corresponding relation that the first through wires hole and first moves back line piece.

Fig. 3: stereogram during the two non-grafting of grafting body of the present utility model.

The exploded perspective view of Fig. 4: Fig. 1.

The profile of the 5-5 hatching line of Fig. 5: Fig. 4.

The profile of the 6-6 hatching line of Fig. 6: Fig. 3.

The profile of the 7-7 hatching line of Fig. 7: Fig. 3.

The profile of the 8-8 hatching line of Fig. 8: Fig. 1, the electric-conductor showing this two grafting body is contact condition.

The profile of the 9-9 hatching line of Fig. 9: Fig. 7.

The partial enlarged drawing of Figure 10: Fig. 8.

Figure 11: the profile of mode of operation when showing for exiting electric wire.

Figure 12: electric wire departs from the schematic diagram of the first grafting body.

Figure 13: the schematic diagram of electric-conductor is taken off in display.

Figure 14: the profile of known a kind of circuit connector.

Embodiment

Refer to Fig. 1,3 and Fig. 4, one preferred embodiment of circuit connector 10 provided by the utility model, include one first grafting body 20A, one second grafting body 20B, at least two first electric-conductor 30A and at least two second electric-conductor 30B, wherein, this first grafting body 20A and this second grafting body 20B has same structure, only not as limit; After the first grafting body 20A of Fig. 4 is revolved turnback, namely become the second grafting body 20B.This first electric-conductor 30A and this second electric-conductor 30B also has same structure, equally not as limit.The quantity of this first electric-conductor 30A and this second electric-conductor 30B can be two or three, and in the present embodiment, the quantity of this first electric-conductor 30A and this second electric-conductor 30B is two.

Refer to Fig. 2 to Fig. 6, the inner of this first grafting body 20A is an inserted terminal, and outer end is terminals.This inserted terminal has and forms one first grafting space 23A in the first socket component 21A arranged side by side up and down and one first shell portion 22A, this first socket component 21A and between this first shell portion 22A, and this first grafting space 23A is close to this first socket component 21A.This first socket component 21A is made up of at least one plug connector 210A (such as one to three plug connector); This first grafting space 23A is also made up of at least one grafting room 230A (such as one to three grafting room), in the present embodiment, this socket component 21A has at least two plug connector 210A, and this grafting space 23A has at least two grafting room 230A, as shown in Figure 5.

One first accommodation space 24A, between the inserted terminal being located at this first grafting body 20A and terminals, this accommodation space 24A can be formed by least one first room 240A, such as one to three room, if (during three rooms, to be separated by, the mode of 120 degree is located in the first grafting body 20A), the present embodiment is for 2 first room 240A, this 2 first room 240A phase is arranged side by side, lay respectively at two sides of the first grafting body 20A, its one end is communicated with this two grafting room 230A of this grafting space 23A.

Respectively the upper wall surface of this first room 240A has one first groove 25A, as Fig. 6, this first groove 25A is arranged along the longitudinal direction of this first grafting body 20A, the through outer end to this first grafting body 20A, its one end, form one first jack 250A, its other end is a blind end, forms one first location division 251A; This first location division 251A is positioned at the inner of this first jack 250A, and is communicated with the first accommodation space 24A.

At least two first through wires hole 26A, are located at the outer end (terminals) of this first grafting body 20A, and the present embodiment is for two, and respectively this first through wires hole 26A is communicated with the other end of respectively this first room 240A.At least two first fluting 28A, the present embodiment is two, is located at two sidewalls of this first plug connector 20A, and longitudinally arranges along it.Respectively the diapire of this first fluting 28A is provided with one first slotted eye 281A, and this first slotted eye 281A is arranged along the length direction of this first fluting 28A.Respectively this first slotted eye 281A communicates with each this first room 240A.

One end of respectively this first room 240A of this first grafting body 20A has a first gear stop 241A, and it is between this first groove 25A and this first through wires hole 26A.

The outer peripheral face roof of the first socket component 21A of this first grafting body 20A has more one first rail groove 211A, and this first rail groove 211A is located at the outer peripheral face of this first socket component 21A along the longitudinal direction of this first grafting body 20A, and between this two plug connector 210A.One first raised line 221A, is located at the internal face of this first shell portion 22A, and the longitudinal direction along this first grafting body 20A is arranged, and between this 2 first room 240A.

Respectively this first electric-conductor 30A in the form of sheets, and the inner of the body of this first electric-conductor 30A is one first contact jaw 31A, and this first contact jaw 31A is the shell fragment of warpage shape.Respectively the outer end of the body of this first electric-conductor 30A is provided with one first blocking part 32A in the form of sheets, this first blocking part 32A bends in hook-shaped by the body of this first electric-conductor 30A, and there is the elasticity of swing, its free end is toward the oblique extension of this first contact jaw 31A, and the angle between the body of this first blocking part 32A and this first electric-conductor 30A is less than 90 degree.Respectively the body of this first electric-conductor 30A is separately provided with one first to the portion 36A that pulls, and this first is a flexure strip to the portion 36A of pulling, can elasticity beat, and its free end also outwards protrudes out from the body of this first electric-conductor 30A.

First of this first electric-conductor 30A convexedly stretches in this first groove 25A to the portion 36A of pulling, its free end is also locked to this first location division 251A, the outer end of electric-conductor 30A is to terminating in this first gear stop 241A, so, this first electric-conductor 30A is just positioned, in the first accommodation space 24A of this first grafting body 20A, cannot deviate from.

At least two first move back line piece 29A, be installed in respectively respectively this first fluting 28A, its can along respectively this first fluting 28A stir displacement between position and an initial position in one.Respectively this first move back line piece 29A have be connected one first move back line portion 291A and one first clicking section 292A.Respectively this first clicking section 292A is positioned at respectively this first fluting 28A, and protrudes from two sidewalls of this first grafting body 20A.The outside wall surface of this first clicking section 292A is provided with wavy lines, and this first moves back line piece 29A to be available for users to smoothly pushing.This first moves back the internal face that line portion 291A is located at this first clicking section 292A, and outwards protrudes out a distance.This first moves back line portion 291A and stretches into this first room 240A through first slotted eye 281A of this first fluting 28A, and can move with this first clicking section 292A, displacement in this first slotted eye 281A.As user's pushing respectively this first first clicking section 292A moving back line piece 29A, respectively this first moves back line piece 29A and is moved to this when stirring position in order, respectively this first moves back the first blocking part 32A that line portion 291A pushes each this first electric-conductor 30A, make respectively this first blocking part 32A toward this solid offsetting of this first electric-conductor 30A.When user unclamp respectively this first move back the first clicking section 292A of line piece 29A time, respectively this first moves back the resiliency urged that line portion 291A is subject to the first blocking part 32A of respectively this first electric-conductor 30A, and drives respectively that this first moves back line piece 29A and return back to initial position.

Refer to Fig. 3,4 and Fig. 7, the structure of this second grafting body 20B and this second electric-conductor 30B is same as this first grafting body 20A and this first electric-conductor 30A, this the second grafting body 20B also includes one second socket component 21B (having one or more plug connector 210B), one second shell portion 22B and by the one second grafting space 23B formed between this second socket component 21B and this second shell portion 22B (having one or more grafting room 230B), this second grafting space 23B is close to this second socket component 21B; One second accommodation space 24B (having one or more room 240B), is located in this second grafting body 20B.

The terminals of this second grafting body 20B are provided with 2 second through wires hole 26B, and its two sidewall is also provided with 2 second fluting 28B, are respectively provided with one second slotted eye 281B in this second fluting 28B.2 second move back line piece 29A is located at this 2 second fluting 28B, and have respectively be connected one second move back line portion 291B and one second clicking section 292B.This 2 second clicking section 292B is arranged in this 2 second fluting 28B, and protrudes from two sides of this second grafting body 20B respectively.This 2 second moves back line portion 291B and is also each passed through respectively this second slotted eye 281B stretching into respectively in this second room 240B.

Respectively this second room 240B is also provided with one second groove 25B, one second location division 251B and a second gear stop 241B, and this second groove 25B is through to the terminals of the second grafting body, forms one second jack 250B; This second location division 251B is positioned at the inner of this second jack 250B, and is communicated with this second accommodation space 24B.When respectively this second electric-conductor 30B is installed in a room 240B of this second grafting body 20B, second of this second electric-conductor 30B stretches into this second groove 25B to the portion 36B of pulling and is locked to this second location division 251B, the outer end of this second electric-conductor 30B, to terminating in this second gear stop 241B, makes this second electric-conductor 30B can be positioned restfully in this second grafting body 20B.After this second electric-conductor 30B has located, its second blocking part 32B is towards the second through wires hole 26B of this second grafting body 20B, and its lateral surface elasticity is touched this and second moved back first of line piece 29B and move back line portion 291B, as shown in Figure 7.

The second socket component 21B of this second grafting body 20B is provided with one second rail groove 211B, and this second shell portion 22B is also provided with one second raised line 221B.

When the mutual grafting of this first grafting body 20A and this second grafting body 20B, refer to Fig. 8 and Fig. 9, respective socket component 21A or 21B inserts grafting space 23B or 23A of the other side, and raised line 221A, the 221B in each shell portion also connect with rail groove 211B, 211A of the other side.The mutual Elastic Contact of contact jaw 31A, 31B of this 2 first electric-conductor 30A and this 2 second electric-conductor 30B, and conducted electricity.

Below for the first grafting body 20A, using state of the present utility model is described.

Refer to Fig. 1,8 and Figure 10, first grafting body 20A of the present utility model connects the using state of two electric wires 40, this two electric wire 40 penetrates from this 2 first through wires hole 26A, when each electric wire 40 contacts the first blocking part 32A of respectively this first electric-conductor 30A, by this first blocking part of promotion 32A toward this solid offsetting of electric-conductor 30A, make electric wire 40 must slip over the free end of this first blocking part 32A.After having plugged, electric wire 40 is just clamping by this first blocking part 32A, because this first blocking part 32A is hook-shaped, after this electric wire 40 is subject to this first blocking part 32A pinching, just not easily departs from, is fixed on firmly in this first grafting body 20A.

When for extracting electric wire 40, refer to Figure 11, this the first the first clicking section 292A moving back line piece 29A can be touched along the longitudinal direction of this first grafting body 20A, this is made first to move back first of line piece 29A and move back the first blocking part 32A that line portion 291A pushes this first electric-conductor 30A, make this first blocking part 32A toward this solid offsetting of the first electric-conductor 30A, make its away from and do not reclamp this electric wire 40, this electric wire 40 is able to move freely in this first through wires hole 26A, and can take out this electric wire 40 from this first grafting body 20A.After this electric wire 40 takes out, decontrol this again and first move back line piece 29A, this first moves back first of line piece 29A and moves back the first blocking part 32A that line portion 291A no longer oppresses this first electric-conductor 30A, this first blocking part 32A just flexibly returns back to home position, this first moves back the promotion that line portion 291A is subject to this first blocking part 32A, also this is driven first to move back line piece 29A travelling backwards to initial position, as shown in figure 12.

The structure of this second grafting body 20B is identical with this first grafting body 20A, and it is also identical with this first grafting body 20A with the separation method of electric wire 40.

In addition, the utility model also has the design can taking out electric-conductor, for the first electric-conductor 30A, refer to Figure 13, penetrate this first groove 25A with an instrument 60 from the one first jack 250A of this first grafting body 20A, and promote this first to the portion 36A that pulls, away from this first gear stop 241A, so, electric-conductor 30A no longer stopped by this stop section 241A, can take out from this grafting body 20A.

Circuit connector of the present utility model can obviously promote practicality and reusing, when the electrical equipment be connected with this circuit connector or circuit damage or wish does not use, only need touch respectively that this moves back line piece, easily easily circuit connector can be separated with electric wire again, and this circuit connector can be connected other electrical equipment and circuit, increase benefit that is practical and environmental protection widely.

On take off all embodiments and the utility model be only described and unrestricted.Circuit connector provided by the utility model, for ware the structure of initiating, and improving many disappearances of available circuit connector, tool progressive, files an application in whence in accordance with the law.

Claims (10)

1. a circuit connector, includes:

One first grafting body, its inner is an inserted terminal, and outer end is terminals; One first accommodation space, is located in this first grafting body; At least two first through wires holes, are located at the terminals of this first grafting body and are communicated with this first accommodation space;

One second grafting body, its inner is an inserted terminal, and outer end is terminals; One second accommodation space, is located in this second grafting body; At least two second through wires holes, are located at the terminals of this second grafting body and are communicated with this second accommodation space;

At least two first electric-conductors, respectively the inner of the body of this first electric-conductor is one first contact jaw and outer end is provided with flexible first blocking part of a tool; Respectively the free end of this first blocking part extends towards this first contact jaw; This 2 first electric-conductor is installed in this first accommodation space of this first grafting body, respectively the first blocking part correspondence of this first electric-conductor respectively this first through wires hole;

At least two second electric-conductors, respectively body the inner of this second electric-conductor is one second contact jaw and outer end is provided with flexible second blocking part of a tool, and the free end of this second blocking part extends toward this second contact jaw; This 2 second electric-conductor is installed in this second accommodation space of this second grafting body, respectively the second blocking part correspondence of this second electric-conductor respectively this second through wires hole;

The inserted terminal of this first grafting body and this second grafting body can mutually grafting or be separated and mutually grafting time the first contact jaw of this 2 first electric-conductor and the second contact jaw of this 2 second electric-conductor contact with each other; It is characterized in that: more include:

At least two first move back line piece, be located at a sidewall of this first grafting body respectively, and stretch in this first accommodation space and can along the length travel of this first grafting body thus respectively this first can push the first blocking part of respectively this first electric-conductor and make this first blocking part toward this solid offsetting of the first electric-conductor when moving back line piece displacement;

At least two second move back line piece, be located at a sidewall of this second grafting body respectively, and to stretch in this second accommodation space and can along the length travel of this second grafting body thus respectively this second pushing when moving back line piece displacement respectively this second electric-conductor the second blocking part and make this second blocking part toward this solid offsetting of the second electric-conductor.

2. circuit connector as claimed in claim 1, it is characterized in that: respectively this first moves back line piece and have one first and move back line portion, respectively this first move back line portion stretch into this first grafting body the first accommodation space and can along the length travel of each this first grafting body thus this first pushing when moving back the displacement of line portion respectively this first electric-conductor the first blocking part and make this first blocking part toward this solid offsetting of the first electric-conductor; Respectively this second moves back line piece and has one second and move back line portion, respectively this second move back line portion stretch into this second grafting body the second accommodation space and can along the length travel of this second grafting body thus this second pushing when moving back the displacement of line portion respectively this second electric-conductor the second blocking part and make this second blocking part toward this solid offsetting of the second electric-conductor.

3. circuit connector as claimed in claim 2, it is characterized in that: respectively this first moves back line piece and have one and first move back the first clicking section that line portion is connected with this, respectively this first clicking section protrude from this first grafting body a sidewall and can along the length travel of this first grafting body; Respectively this second moves back line piece and has one and second move back the second clicking section that line portion is connected with this, respectively this second clicking section protrude from this second grafting body a sidewall and can along the length travel of this second grafting body; At least two first slotted eyes, are located at a sidewall of this first grafting body respectively, communicate with each this first accommodation space, and arrange along the longitudinal direction of each this first grafting body; Respectively this first move back first of line piece move back line portion through each this first slotted eye stretch into respectively this first accommodation space thus when pushing respectively this first move back the first clicking section of line piece time this first moves back line portion along this first slotted eye displacement; At least two second slotted eyes, are located at a sidewall of this second grafting body respectively, communicate, and arrange along the longitudinal direction of this second grafting body with each this second accommodation space; Respectively this second move back second of line piece move back line portion through each this second slotted eye stretch into respectively this second accommodation space thus when pushing respectively this second move back the second clicking section of line piece time this second moves back line portion along this second slotted eye displacement.

4. circuit connector as claimed in claim 3, is characterized in that: at least two first flutings, is located at a sidewall of this first grafting body respectively, and arranges along the longitudinal direction of each this first grafting body; Respectively this first slotted eye is located at wall for respectively this first fluting, and communicates with each this first accommodation space; Respectively this first move back line piece be installed in respectively this first fluting and can along this first fluting displacement; At least two second flutings, are located at a sidewall of this second grafting body respectively, and the longitudinal direction along each this second grafting body is arranged; Respectively this second slotted eye is located at wall for respectively this second fluting, and communicates with each this second accommodation space; Respectively this second move back line piece be installed in respectively this second fluting and can along this second fluting displacement.

5. circuit connector as claimed in claim 1, is characterized in that: the terminals of this first grafting body are provided with two respectively to should the first jack of 2 first electric-conductors; The terminals of this second grafting body are provided with two respectively to should the second jack of 2 second electric-conductors;

One first location division, is located in this first grafting body, is positioned at this first jack the inner and is communicated with this first accommodation space; One second location division, is located in this second grafting body, is positioned at this second jack the inner and is communicated with this second accommodation space;

Respectively the body of this first electric-conductor is provided with one first to the portion of pulling, and this first is locked to respectively this first location division to the portion of pulling; Respectively the body of this second electric-conductor is provided with one second to the portion of pulling, and this second is locked to respectively this second location division to the portion of pulling.

6. circuit connector as claimed in claim 1, it is characterized in that: the internal face of this first accommodation space of this first grafting body is provided with at least two first grooves, respectively through terminals to this first grafting body in one end of this first groove and form one first jack, its other end is that a blind end is to form one first location division; The internal face of this second accommodation space of this second grafting body is provided with at least two second grooves, respectively through terminals to this second grafting body in one end of this second groove and form one second jack, and its other end is that a blind end is to form one second location division;

Respectively the body of this first electric-conductor is provided with one first to the portion of pulling, and respectively this first to stretch into the portion of pulling in respectively this first groove of this first grafting body and to be locked to respectively this first location division; Respectively the body of this second electric-conductor is provided with one second to the portion of pulling, and respectively this second to stretch into the portion of pulling in respectively this second groove of this second grafting body and to be locked to respectively this second location division.

7. the circuit connector as described in any one of claim 1 to 6, is characterized in that: the inserted terminal of this first grafting body is provided with one first socket component; The inserted terminal of this second grafting body is provided with one second grafting space; This first socket component and this second grafting space plug.

8. circuit connector as claimed in claim 7, is characterized in that: this first grafting body and this second grafting body structure identical; The inserted terminal of this first grafting body has the first grafting space that is close to this first socket component; First contact jaw of this 2 first electric-conductor is between this first socket component and this first grafting space; The inserted terminal of this second grafting body has the second socket component that is close to this second grafting space; Second contact jaw of this 2 second electric-conductor is between this second socket component and this second grafting space; During the mutual grafting of this two grafting body, respective socket component inserts in the grafting space of the other side, and the first contact jaw of this 2 first electric-conductor and the second contact jaw of this 2 second electric-conductor move into this second grafting space and this first grafting space respectively and contact with each other.

9. the circuit connector as described in any one of claim 1 to 6, is characterized in that: this first accommodation space has at least two first rooms; Those first electric-conductors are located in those first rooms respectively; Those first through wires holes and those the first slotted eyes are communicated with those the first rooms respectively; This second accommodation space has at least two second rooms; Those second electric-conductors are installed in these second rooms respectively; These second through wires holes and these the second slotted eyes are communicated with these the second rooms respectively.

10. a grafting body for circuit connector, includes: a grafting body, and the inner of this grafting body is an inserted terminal, and its outer end is terminals; One accommodation space, is located in this grafting body; At least two through wires holes, are located at the terminals of this grafting body and are communicated with this accommodation space;

At least two electric-conductors, respectively the body of this electric-conductor has an inner and outer end, and its inner is a contact jaw, and outer end is provided with the flexible blocking part of a tool; The free end of this blocking part is toward the oblique extension of this contact jaw; This two electric-conductor is installed in this grafting body, respectively the blocking part correspondence of this electric-conductor respectively this through wires hole; It is characterized in that, more include:

At least two move back line piece, be located at a sidewall of this grafting body respectively, in the accommodation space stretching into this grafting body and can when along the length travel of this grafting body thus respectively this moves back line piece displacement pushing respectively this electric-conductor blocking part and make this blocking part toward this solid offsetting of this electric-conductor.