CN204441531U - Electrical cnnector - Google Patents

Abstract

A kind of electrical cnnector, comprising: the shell limiting at least one ingress port, at least one conductor in multiple conductor can extend into shell by this ingress port; Interface structure, it supported by shell, can be connected to another connector to make this connector; And the terminal structure in shell, be electrically connected for connecing to be incorporated in provide between described conductor and interface structure with the end regions of each conductor, wherein said terminal structure comprises at least one spring-loaded element, and it in use applies bias force to push the apparent surface that conductor abuts against terminal structure securely with the insertion of conductor.

Description

Electrical cnnector

Technical field

The utility model relates to electrical cnnector, and especially but be not limited to the electrical cnnector of the end for being connected to multiple fexible conductor, fexible conductor is such as independent electric wire or the conductor of multicore cable.

The utility model relates to especially but is not limited to the electrical cnnector that is suitable for using in house or commercial buildings.

Background technology

Usually, connector in the electric equipment of house and commercial buildings adopts multiple porose brass terminal block with retaining screw (apertured brass terminal blocks), and the direction that wherein end of retaining screw and conductor is inserted in hole extends in each hole at a right angle.Therefore, hole wall can being abutted against against conductor with supportive conductors securely to make this screw by tightening retaining screw, conductor being fixed in place.

Although known connector can have gratifying function, it has the shortcoming needing to expend time in each conductor to be fixed to connector.In addition, also exist and inadvertently do not tighten retaining screw suitably and cause being electrically connected bad risk, and overheated risk.

Other structure proposed or the permanent connection of generation (such as realizing by welding), or make the release of permission conductor become difficulty.

Utility model content

The utility model attempts the electrical cnnector providing improvement, and it is at least alleviated or overcomes some shortcomings of known connector.

According to the utility model, provide a kind of electrical cnnector, it comprises: the shell limiting at least one ingress port, and at least one conductor in multiple conductor can extend into shell by this ingress port, interface structure, it supported by shell, can be connected to another connector to make this connector, and the terminal structure in shell, be electrically connected for connecing to be incorporated in provide between described conductor and interface structure with the end regions of conductor described at least one, wherein said terminal structure comprises at least two elastic biasing limb portions (resiliently biased limbs), in use when conductor is inserted in terminal structure completely, each elastic biasing limb portion deflects with the position at the spaced apart lengths along conductor against conductor, thus each elastic biasing limb portion applies bias force to push the apparent surface (confronting surface) that conductor abuts against terminal structure securely, the first limb portion in described limb portion comprises the part tilting to extend relative to the apparent surface of terminal structure, and be orientated and described first limb portion is relatively easily deflected with the insertion of conductor, pass through to allow the beneath portions of conductor in described limb portion but hinder withdrawing from of conductor, and the second limb portion in described limb portion is orientated: when this conductor engages with the part in described second limb portion, the second limb portion relatively easily can deflect with the insertion of conductor, and compared with the first limb portion in described limb portion, the second limb portion in described limb portion provides less resistance to the withdrawing from of conductor of inserting.

At least one in the apparent surface of elastic biasing limb portion or terminal structure can be made up of electric conducting material and with interface structure electrical contact, but preferably, that each limb portion and described apparent surface are conduction and with interface structure electrical contact.

Interface structure can comprise at least one public structure (pin such as conducted electricity) or at least one parent structure (socket such as conducted electricity).The interface structure of connector can comprise the combination of public structure and parent structure.

Preferably, when applying power is to withdraw from conductor, the second elastic biasing limb portion in described elastic biasing limb portion fully freely tends at the direction upper deflecting away from conductor.In contrast, when applying power is to withdraw from conductor, the first elastic biasing limb quality award from the ministry selection of land in described elastic biasing limb portion is fixed relative to terminal structure, thus forbids that described first elastic biasing limb portion tends at the direction upper deflecting away from conductor.

The first elastic biasing limb portion in described elastic biasing limb portion can comprise the part tilting to extend, and in use, its end directly tends to be retracted in the conductor be inserted into against the conductor be inserted into.Therefore, any being applied on conductor will be tended to cause this limb portion more securely against this conductor with the power tending to withdraw from conductor.

The second elastic biasing limb portion in described elastic biasing limb portion can comprise the part tilting to extend, and its shape limits the conductor engaging zones between the end regions of this part.The described part tilting to extend can comprise end, and described end can be in use away from the position of conductor in this case.Described conductor engaging zones can be opened with described space from end.

Preferably, the second elastic biasing limb portion is positioned at the position closer to interface structure compared with the first elastic biasing limb portion.Therefore, if need to remove conductor, this can be realized by following manner: the end of insertion tool (such as screwdriver) is to engage the part of the inclination extension in the first elastic biasing limb portion and to push this part away from the direction of conductor.Therefore, only apply enough conductor can be removed by the power that conductor pulls out from the below of the conductor engaging zones in the second elastic biasing limb portion described elastic biasing limb portion.Connector can comprise close to device (access means), such as removable casing cover or opening, such as, be to contact with the first limb portion and as those casing covers of cable inlet or opening to be inserted into by instrument.

Preferably, first elastic biasing limb portion of terminal structure and the second elastic biasing limb portion or often pair of first elastic biasing limb portion and the second elastic biasing limb portion fixing relative to terminal structure in position, the isolated distance in position when the distance that these location intervals are opened is greater than that in use, conductor contacts with described limb portion.The orientation in the first elastic biasing limb portion and the second elastic biasing limb portion is preferably so that the insertion due to conductor, tends to move toward each other with the position in each limb portion of conductor contact.

At least one elastic biasing limb portion, preferably each elastic biasing limb portion, is made up of flexible material, and flexible material is such as such as spring steel, brass, or other material allowing limb portion bending.Such as, but alternatively or additionally, at least one limb portion can inflexibility substantially, and fixes relative to shell, and fixed relative to the shell holding terminal structure by elastic biasing means, wherein this elastic biasing means can be pivot.

A pair first elastic biasing limb portions and the second elastic biasing limb portion can be fixed relative to shell independently, but more preferably, can be in one and form.

Preferably, the second elastic biasing limb portion is made up of flexible material, and its shape limits two isolated bending areas along the length in limb portion.Preferably, two bending areas have contrary bending direction.

Usually, to connector known at present, terminal structure needs the interconnection of conductors making two or more introduce, thus conductor is connected separately with in multiple interface structure usually.Usually, this realizes by providing multiple brass terminal block to connector, and each brass terminal block has multiple hole, and each hole receives end conductor, and therefore makes conductor electrical interconnection.But, this need to tighten individually two or three or more retaining screw.In addition, provide the demand of multiple porose terminal block to result in connector to connector and there is undesirable large scale.

According in electrical cnnector of the present utility model, each terminal position can comprise multipair described first elastic biasing limb portion and the second elastic biasing limb portion, often pair of limb portion can deflect independently, thus below a pair first limb portions with the second limb portion, inserts conductor can not make to deflect at another of other terminal position identical or any to the bias force that limb portion applies or be affected.Therefore, after terminal position below a pair limb portion inserts conductor, second conductor than the first conductor with more heavy thickness can be inserted into be positioned at identical terminal position second pair of elastic biasing limb portion below, and do not have any significant risk and cause the first pair of limb portion to stop the power applying enough to be held in place by the first conductor.

Terminal structure can comprise terminal shell, and it limits at least one chamber, and each chamber can comprise at least one pair of elastic biasing limb portion and terminal insertion part.Terminal insertion part can limit the apparent surface of terminal structure, and the bias force effect lower conductor applied at spring-loaded element is pushed against this apparent surface.

Terminal insertion part substantially inflexibility and at least one pair of flexible limb portion is fixed thereon.Each insert and limb portion be conduction and contact with each other conductively.Limb portion is contacted with interface connector conductively by terminal insertion part.

Preferably, ingress port comprises at least one entry position, and this entry position comprises certainly as elastic biasing cable or the conductor clamp device of known type.Therefore, conductor can be fixed relative to the shell of connector, and the end of conductor can be fixed to terminal structure only by the action of inserting and not need to operate other fixing device, such as existing terminal fixing screw.

Accompanying drawing explanation

Referring now to accompanying drawing, in the mode being only example, an embodiment of the present utility model is described, in the accompanying drawings:

Fig. 1 is the perspective view of the part according to connector of the present utility model;

Fig. 2 is the plane graph of the connector of Fig. 1;

Fig. 3 is the plane graph of the connector of Fig. 1 with internal terminal lid;

Fig. 4 is the perspective view of a part for the connector of Fig. 1 to Fig. 3;

Fig. 5 be a part for the connector of Fig. 4 end view and

Fig. 6 illustrates a part for the connector of Fig. 4 and Fig. 5 and the combination of conductor.

Embodiment

Electrical cnnector (see Fig. 1 to 3) comprises and three ingress port 11 shape all-in-one-piece moulded plastics bodies 10, the terminal structure and three interface connectors 13 that comprise four terminals 12.Terminal structure also comprises terminal shell 23 (see Fig. 2), for clarity sake, omitted in the view of Fig. 1, but it fixes in place relative to main body 10 to engage (click fit) mode by means of deflectable shoulder device (deflectable abutments) 24, as shown in Figure 1.

Each ingress port 11 comprises band tooth reaction surface 14 and band tooth offset arm 15, and wherein when conductor 16 is inserted between reaction surface and arm, this band tooth offset arm 15 deflects, and abuts against conductor to stop conductor from connector outwards movement to make tooth.

This terminal shell limits four chambers, each chamber housing support terminals 12, the elastic bias components of spring 17 form that this terminal 12 comprises terminal insertion part 18 and formed by spring steel.This spring 17 comprises two limb portions 20,21, its when the conductor of not inserting directly against terminal insert 18.Spring 17 and insert 18 are all conduction separately.Spring 17 and interface connector 13 are all fixed to the terminal insertion part 18 with its electrical contact separately.

When being with the exposed end 22 of conductor 16 to be inserted in terminal 12, limb portion deflects and therefore contacts with conductor, and under the effect of the bias force of spring 17 applying, conductor is pushed and abuts against terminal insertion part 18.

Limb portion 20 has straight bar shape (see Fig. 5), and extends obliquely from base portion 19 on the direction corresponding with the direction of insertion of conductor.The end 32 in limb portion 20 is square cut form (squarecut form), and therefore end tend to be retracted into conductor surface in and increase the power be applied on conductor when conductor tends to be withdrawn from.

Limb portion 21 is also the shape of bar shaped, but it is formed with three bent section 34,35,36 between base portion 19 and end 33.One of them bent section, namely near portion's section 34 of end 33, limit substantially smooth conductor engaging zones, this region can abut against conductor securely, but compared with the resistance applied with the first limb portion 20, can relatively freely slide at this region lower conductor.

Bent section 35,36 is between portion's section 34 and base portion portion section 19.Portion's section 35,36 has contrary bending direction, and it contributes to limb portion 21 can relatively easily be deflected and whether conductor is being inserted into or is withdrawing from and all can not apply excessive power on conductor.Fig. 6 shows the mode that limb portion 21 is adapted to allow conductor 16 to insert.Bent section 35,36 respective radius of curvature reduce, and end 33 moves into the state against bent section 36.

As best shown in Figure 4, spring 17 comprises three pairs of limb portions 20,21, and each limb portion extends from common base portion portion section 19.Therefore, even if conductor has different cross sectional dimensions, inserting conductor a pair subordinate of terminal position also can not adversely affect other two pairs of limb portions and effectively engage and keep the ability of conductor.

One corresponding to three interface connectors 13 connects for three terminal insertion parts 18, and wherein each interface connector is included by the tubulose extended structure 26 of terminal shell and is supported.Each interface connector 13 shape and position are suitable for engaging with the interface structure of the complementary shape of another connector (not shown).

In the present embodiment of the present utility model, as shown in Figures 1 to 3, the interface connector 13 of each conduction is socket type.Correspondingly, interface structure for the complementary shape of another connector coordinated with illustrated connector generally includes interface connector, and the form of described interface connector is the conductive base pin forming closely be slidably matched (close sliding fit) with socket 13.

4th terminal chamber 27 comprises spring 17 and terminal insertion part 18, and described spring 17 and terminal insertion part 18 are without any connection with interface connector and can use can conductively be interconnected by two or more conductor in known manner.

Inner cap 30 extends thus contributes to spring 17 to remain in corresponding terminal insertion part 18 on terminal 12 and terminal shell 23.

In use, ingress port 11 is extended through and by after in exposed end winding support to terminal springs 17, enclosing cover (not shown) is engaged to connector body 10 being positioned to by conductor.

Claims (24)

1. an electrical cnnector, is characterized in that, comprising:

Limit the shell of at least one ingress port, at least one conductor in multiple conductor can extend into shell by this ingress port; Interface structure, it supported by shell, can be connected to another connector to make this connector; And the terminal structure in shell, be electrically connected for connecing to be incorporated in provide between described conductor and interface structure with the end regions of conductor described at least one, wherein said terminal structure comprises at least two elastic biasing limb portions, in use, when conductor is inserted in terminal structure completely, each elastic biasing limb portion deflects with the position at the spaced apart lengths along conductor against conductor, thus each elastic biasing limb portion applies bias force to push the apparent surface that conductor abuts against terminal structure securely; The first limb portion in described limb portion comprises a part, its apparent surface relative to terminal structure tilts to extend, and be orientated and make described first limb portion relatively easily deflect with the insertion of conductor to allow conductor to pass through at the beneath portions in described limb portion, but hinder withdrawing from of conductor; And the second limb portion in described limb portion is orientated: when conductor engages with the part in described second limb portion, the second limb portion easily can deflect with the insertion of conductor; And compared with the first limb portion in described limb portion, the second limb portion in described limb portion provides less resistance to the withdrawing from of conductor of inserting.

2. electrical cnnector according to claim 1, is characterized in that, at least one elastic biasing limb portion of the apparent surface of terminal structure be made up of electric conducting material and with interface structure electrical contact.

3. electrical cnnector according to claim 1 and 2, is characterized in that, that each elastic biasing limb portion and described apparent surface are conduction and with interface structure electrical contact.

4. electrical cnnector according to claim 1 and 2, is characterized in that, when applying power is to withdraw from conductor, the second elastic biasing limb portion in described elastic biasing limb portion is fully freely at the direction upper deflecting away from conductor.

5. electrical cnnector according to claim 1 and 2, it is characterized in that, when applying power is to withdraw from conductor, the first elastic biasing limb portion in described elastic biasing limb portion is fixed relative to terminal structure, thus forbids that the first elastic biasing limb portion tends at the direction upper deflecting away from conductor.

6. electrical cnnector according to claim 1 and 2, it is characterized in that, the first elastic biasing limb portion in described elastic biasing limb portion comprises the part tilting to extend, and in use, its end directly tends to be retracted in the conductor be inserted into against the conductor be inserted into.

7. electrical cnnector according to claim 1, is characterized in that, the second elastic biasing limb portion in described elastic biasing limb portion comprises the part tilting to extend, and its shape limits the conductor engaging zones between the end regions of this part.

8. electrical cnnector according to claim 7, is characterized in that, the described part tilting to extend comprises end, and described end is in use away from the position of conductor.

9. electrical cnnector according to claim 8, is characterized in that, described conductor engaging zones and described space from end are opened.

10. electrical cnnector according to claim 1 and 2, is characterized in that, the second elastic biasing limb portion in described elastic biasing limb portion is positioned at the position closer to interface structure compared with the first elastic biasing limb portion in described elastic biasing limb portion.

11. electrical cnnectors according to claim 1 and 2, is characterized in that, also comprise close to device, to contribute to being inserted by instrument with the part of the inclination engaging the first elastic biasing limb portion extension and pushing this part away from the direction of conductor.

12. electrical cnnectors according to claim 1 and 2, it is characterized in that, the often pair of first elastic biasing limb portion being in terminal structure is fixed on such position with the second elastic biasing limb portion relative to terminal structure: the distance that these location intervals are opened is greater than the isolated distance in position that in use, conductor is contacted by described limb portion.

13. electrical cnnectors according to claim 1 and 2, is characterized in that, the orientation in the first elastic biasing limb portion and the second elastic biasing limb portion makes the insertion due to conductor, tends to move toward each other with the position in each limb portion of conductor contact.

14. electrical cnnectors according to claim 1 and 2, is characterized in that, at least one elastic biasing limb portion makes by allowing the bending flexible material in limb portion.

15. electrical cnnectors according to claim 1 and 2, is characterized in that, at least one elastic biasing limb portion inflexibility substantially, and are fixed relative to the shell holding terminal structure by elastic biasing means.

16. electrical cnnectors according to claim 1 and 2, is characterized in that, a pair first elastic biasing limb portions and the second elastic biasing limb portion are fixed relative to shell independently.

17. electrical cnnectors according to claim 1 and 2, is characterized in that, a pair first elastic biasing limb portions and the second elastic biasing limb portion are in one and form.

18. electrical cnnectors according to claim 1, is characterized in that, the second elastic biasing limb portion is made up of flexible material, and limit two isolated bending areas along the length in limb portion.

19. electrical cnnectors according to claim 18, is characterized in that, two bending areas have contrary bending direction.

20. electrical cnnectors according to claim 1 and 2, it is characterized in that, each terminal position comprises multipair described first elastic biasing limb portion and the second elastic biasing limb portion, a pair limb portion can independent of another to the deflection of limb portion, thus below a pair first limb portions with the second limb portion, insert conductor can not make to deflect at another of other terminal position identical or any to the bias force that limb portion applies or be affected.

21. electrical cnnectors according to claim 1, it is characterized in that, terminal structure comprises terminal shell, and it limits at least one chamber, and each chamber comprises at least one pair of elastic biasing limb portion and terminal insertion part.

22. electrical cnnectors according to claim 21, is characterized in that, terminal insertion part limits the apparent surface of terminal structure, and the bias force effect lower conductor applied at spring-loaded element is pushed against this apparent surface.

23. electrical cnnectors according to claim 21 or 22, is characterized in that, terminal insertion part substantially inflexibility and at least one pair of flexible limb portion is fixed thereon.

24. electrical cnnectors according to claim 21 or 22, is characterized in that, each insert and limb portion be conduction and contact with each other conductively.