WO2013135848A1 - Electrical connector assembly - Google Patents

Abstract

An electrical connector comprises: a carrier (C) to receive a first and a second independent housings (H1, H2), each movable with respect to the carrier between an intermediate position and an assembled position; each housing (H1) defining rows of receptacles adapted to receive electrical wires with electrical contacts. The second housing includes a holding portion (17) with a guiding portion to gather electrical wires of the second housing (H2) and an attachment portion (18) provided to attach these electrical wires to the guiding portion by an attachment device.

Description

ELECTRICAL CONNECTOR ASSEMBLY

FIELD OF THE INVENTION

The present invention relates to electrical connector .

BACKGROUND OF THE INVENTION

In particular, the present invention is related to an electrical connector having an outside or encompassing enclosure with interior space that is divided by walls wherein at least two independent modules can be inserted which can receive electrical contacts.

Such a module comprises at least one housing with plurality of receptacles each adapted to receive a respective electrical contact.

For this type of connector an electrical connector with an inner housing and a surrounding carrier is known. The inner housing has receptacles for contact elements and also at least one longitudinal separating wall. All wires are usually gathered and held together by an attachment rope, or similar.

The present invention has notably for object to enhance the modularity of such connectors.

SUMMARY OF THE INVENTION:

To this aim, according to the invention, such an electrical connector comprises a carrier to receive at least a first and a second independent housings.

The connector comprises a first housing defining at least one row of at least one receptacle each adapted to receive at least one electrical wire with a respective electrical contact.

The connector comprises a second housing defining at least one row of at least one receptacle each adapted to receive at least one electrical wire with a respective electrical contact. The housings are each movable with respect to the carrier between an intermediate position and an assembled position.

The second housing includes a holding portion with a guiding portion to gather at least one (namely at least two) electrical wire of the second housing, and an attachment portion provided to attach said electrical wires to the guiding portion by an attachment device.

With these features, it is provided a simple and reliable electrical connector enabling to assemble independently housings into a carrier, wherein a holding portion with a guiding portion is adapted to gather electrical wires of a singular housing, and an attachment portion is provided to attach said the electrical wires of this housing with an attachment device.

In some embodiments, one might also use one or more of the features as defined in the dependant claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Other characteristics and advantages of the invention will readily appear from the following description of three of its embodiments, provided as a non- limitative example, and of the accompanying drawings:

Figure 1 illustrates a perspective view of a such electrical connector according to a first embodiment comprising a carrier, three housings, a pivotable lever;

- Figure 2 illustrates a perspective view of the carrier ;

Figures 3-5 illustrate a perspective and a top views of the housings;

Figure 6 shows a cross section of the housing ;

- Figure 7 shows a cross section of the housing without the flexible lance;

Figure 8 is a perspective view of a connector assembly for a second embodiment;

Figure 9 is a perspective view of the holder for the second embodiment ;

Figure 10 is a perspective view of a complementary connector ;

Figure 11 is a perspective view of a housing for the second embodiment;

Figure 12 is a lateral view of the connector assembly of Fig. 8 ; and

Figure 13 is a view similar to Figure 11 for a third embodiment.

On the different Figures, the same reference signs designate like or similar elements.

DETAILED DESCRIPTION

The electrical connector comprises a carrier C and a plurality of housings H which, in assembled position are inserted into the internal portion of the housing, more clearly visible on Figure 1. For the further explanation the basis 12 of the carrier will be defined which will be in a mating plane for mating with a counterpart connector, more clearly on seen Figure 2. Furthermore this plane with its axis will serve as a reference frame, wherein we will define the axis as follows. The normal to this plane will be the axis Z, which will represent the height, and axis X and Y will be inside the plane perpendicular to each other and to the axis Z, so they will form a right-handed coordinate system, as seen on Figure 2. The direction X is defined as a direction of insertion of a housing in the carrier. The basis 12 comprises openings 5, which are cooperating with the receptacles 6 on the housing. The openings 5 and the receptacles are facing each other in assembled position. The interior space of the carrier C is divided by vertical walls lb, lc which are separating the housing receiving spaces from each other. The carrier C has a cuboid shape with a rectangular base 12, two flat side walls la, Id, one curved side wall le which smoothly joins the top side so copying a shape of a circle. The interval of bending starts from the top and ends before the half of the height of the connector. The opposite side with respect to the curved side is open, thereby enabling the housings H to be introduced in the carrier C.

The housings are cuboid shaped and they are able to receive at least two types of respective electrical contacts. The housings are including receptacles 6 able to receive respective electrical contacts. This means that the shape of the housing Ha and Hb is corresponding to the respective electrical contacts. For bigger contacts, the vertical walls of the housings are higher and for the smaller contacts, the walls of the housing are lower, therefore the housing is a junction of a lower Hb and a higher Ha cuboid, as shown on Figures 3, 4, and 5. The housing H includes receptacles 6 extending from the top to the bottom sides, with respect to the basis of the carrier, with a bottom opening 11 adapted to allow access from the carrier when the openings 5 are facing the bottom opening 11 in assembled position. On the internal sides of the housings, more precisely, the sides which are parallel with the X-Z plane, according to our reference frame previously defined, the housings are incorporating at least one longitudinal groove 9, 9a, 9b, parallel with axis X. Each vertical wall 1 of the carrier comprises at least one longitudinal protrusion 2, which are in correspondence with a corresponding side groove 9 of the housings H, and in assembled position they are cooperating and complementing the interior space of the carrier C.

The interior space of the carrier is divided by vertical walls 1 into chambers able to receive housings H. One embodiment of the interior space might be constructed as follows. Each chamber comprises a longitudinal central rib 4 extending from the basis 12, and parallel with the X axis. The housings incorporate a longitudinal central groove 8 parallel with the X axis. The longitudinal central groove 8 of the housings and the longitudinal central rib 4 of the carrier are in correspondence and are cooperating and complementing the interior space of the carrier in assembled position. In assembled position the longitudinal central rib 4 and the longitudinal protrusions 2 of the carrier are cooperating with the correspondent longitudinal central groove 8 and with the longitudinal grooves 9 on the sides of the housing, for maintaining the housing H in the carrier. As can be seen in Figure 2, each lateral wall la- Id comprises a long protrusion 2a and a short protrusion 2b. Both extend along the axis X, but with different lengths. Further, both extend from the bottom wall le of the carrier. The length of the long protrusion is about the whole length from the bottom wall le to the open wall. The short protrusion is shorter by at least the width of one receptacle. The short protrusion could be provided either above or below the long protrusions along the axis Z. The height of the long protrusion might be bigger than the height of the short protrusion (distance of the protrusion tip from the lateral wall) . The location and sizes of the grooves 9 in the housing match that of the protrusions 2. As can be seen on Figure 7, which is a cross-section view, a receptacle 13 for a small contact 28 in one of the housings extends from a top end to a bottom end and is shaped to receive a contact. It also has a locking shoulder 14 which is provided to receive the back end of an elastic locking lance 29 of the contact, to lock the contact in the receptacle. For the small contacts, the long protrusion 2a interact with the respective groove 9 on the housing H and cooperate directly with the contact. A wire 30 is shown exiting from the receptacle.

For the big contacts, as shown on Fig. 6, a flexible locking lance 10 of the housing maintains the respective electrical contact 25 in the housing H. In the present example, two opposed flexible lances 10 extend from a respective basis 24 of the housing and are maintaining the big contacts, by cooperation with recesses 26 provided in the contact. Further, they are respectively cooperating with the short protrusion 2b and the central rib 4 of the carrier. When the contact is mis-assembled, and the flexible lance is deflected out of its rest position in its unlock condition, as shown on the right hand side of the Fig. 6, it projects in the groove 9 or 8, respectively. Upon moving the housing with respect to the carrier C from a pre-assembly position toward the assembled position, the deflected lance 10 cooperates with the short protrusion 2b or with the central rib 4 to prevent the housing from reaching the assembled position with respect to the carrier C. Thus, the openings 5 and 11 do not face, preventing the complementary contact to enter the receptacle. When the lance 10 is in its lock condition, as shown on the left hand side of Fig. 6, upon moving the housing H with respect to the carrier C from the pre-assembly position toward the assembled position, the lance 10 does not cooperate with the protrusions 2 or the central rib 4, thereby not preventing the housing H from reaching the assembled position with respect to the carrier C, where the openings 5 and 11 face. Electrical wires 27 are shown exiting from the receptacles.

Depending on the type of housing, at least one side protrusion 2 of the carrier is always cooperating with the correspondent groove 9 of the housing in maintaining the respective electrical contacts in lock condition. The flexible lances 10 of the housing are supported by the protrusions 2 of the side walls of the carrier or with the central longitudinal rib 4 in assembled position and thereby are maintaining firmly the respective electrical contacts in the housing.

Furthermore, turning back to Figures 1-2, the side walls la, Id include a pin 3 which is able to support a pivotable lever L in rotation serving as a fulcrum and to assist the assembly with a mating connector. The pivotable lever comprises an elongated portion, a circular portion and a curved portion. The circular portion incorporates a protuberance and cavities on both sides of the said protuberance which is not protruding from the circular shape and can cooperate with a portion of the mating connector which has a correspondent and complementary shape and thereby assists in the assembled position between the two parts.

Other embodiment of the interior space might be constructed as follows. The electrical connector is made at least of main plastic moulded parts being produced separately: carrier C, housings H, which are intended to be inserted into the carrier. The electrical connector is to be connected to a complementary connector B, having electrical contacts E, as seen on Figure 8. The internal space of the carrier is split by vertical walls 1 in internal portions, wherein first and second housings, HI and H2, can be inserted. The first housings HI are provided in the two lateral spaces of the carrier, and are similar to the housings described in relation with the first embodiment. The housing H2 may be independent, and will be described in further details below. It fits in the central space of the carrier. The basis of the carrier includes a plurality of openings 5 through which respective electrical contacts can pass into the housings. Moreover, the basis 12 of the carrier can include second openings 13 provided to receive the projections 14 of the complementary connector B, more clearly seen on Figures 9 and 10. The vertical walls of the carrier 1 comprise longitudinal protrusions 2, which are parallel with respect to the basis of the carrier, in order to cooperate with longitudinal side grooves 9 of the housing. Cooperation of the protrusions 2 with the grooves 9 restricts the movement of the housing H in the internal portion of the carrier C to one direction with respect to the movement from an intermediate position towards an assembled position. The vertical wall lc of the internal portion includes a recess 19 provided to cooperate with a projection of the locking lance 10a of the second housing H2 upon an assembled position. Thus as shown on Fig. 11, a locking system of the housing H2 comprises a flexible lance 10a having a protruding peg 23 shaped to cooperate with the recess 19 of the carrier.

The side walls of the carrier comprise ribs 7, which are normal to the basis of the carrier. The ribs are adapted to be inserted into complementary grooves 19b of the complementary connector and to cooperate in order to assist upon the movement from an intermediate position towards an assembled position between the complementary connector B and the carrier C, as seen on Figure 10. Furthermore, the side walls la, Id include a pin 3 which is able to support a pivotable lever L in rotation serving as a fulcrum and to assist the assembly of the complementary connector B and the carrier C. The pivotable lever L comprises an elongated portion, a circular portion and a curved portion, as can be seen on Figure 12. The circular portion incorporates a protuberance 20 and cavities 21 on both sides of the said protuberance 20 which is not protruding from the circular shape and can cooperate with a toothed portion 22 of the bottom portion which has a correspondent and complementary shape and thereby assists in the assembled position between the bottom portion B and the carrier C. The ribs 7 and the pins 3 are provided symmetrically on the opposite mating sides of the carrier. The top side of the carrier includes a hole 15, intended to receive an attachment device such as tightenable rope or link which is provided in order to gather the wires coming from the first housings. The rope is supported with indentations 16a, 16b in the side walls la, Id.

According to Figures 8 and 9, different housings H can be inserted independently into the internal portion. The electrical wires from the lateral first housings HI are gathered with using an attachment device 31 as described above. The second housing includes a holding portion 17, more clearly seen on Figure 11, which serves for holding the electrical wires of the respective electrical contacts. The upper part of the holding portion acts as a guiding portion and is saddle-shaped to receive the electrical wires. The holding portion also incorporates a hole 18 through which an attachment device 32, such as a thightenable rope or link, can pass and thereby is able to tighten the electrical wires to the saddle-shaped upper part of the holding portion. In this example, the holding portion is located between the receptacles of the housing and the outside of the connector. Thus, considering the housing extends along a longitudinal direction, for example, its insertion direction, the holding portion is provided on a lateral side of the housing.

The system which has just been described in relation to the second embodiment can be operated as follows. Each of the housings HI is wired, and is assembled into a respective space of the carrier C. The wires extending from these two housings are gathered together, and a suitable attachment device such as a tightenable rope, is placed in the indentations 16a, 16b, and through the opening 15, to surround all the wires originated from these two housings. Hence, the wires are guided by the inner wall of the curved portion le, acting as a guiding portion. This connector has an empty slot to receive a supplementary housing.

The housing H2 is wired. The wires are gathered and placed on the saddle shaped upper part of the holding portion 17, and a suitable attachment device, or tightening rope, is passed through the hole 18 and around the wires, so as to neatly attach the wires to the housing H2. Then, the housing H2 is inserted into the central free space (empty slot) in the carrier C. The housing H2 is locked to the carrier C by its locking system, i.e. for example cooperation of the locking peg 23 in the recess 19, or any other suitable way. The window W receives all wires which are attached as two different bundles. Hence, two different harnesses can be used with the same holder.

The number and locations of the housings which are inserted in the carrier are exemplary only.

The connector which has just assembled is placed over a complementary connector B, with the ribs 7 in the grooves 19b and the protrusions 14 in the openings 13. The lever L is actuated, from its original position as seen on Fig. 1, for example, to its mating position as shown on Fig. 12. Cooperations of the tooth 20 with the toothed portion 22 of the complementary connector B enables to move the carrier C toward the complementary connector B.

According to a third embodiment, as shown on Fig.

13, the holding portion 17 is provided on a longitudinal side of the housing H2. This enables an easier access for the wires to the receptacles which are closest to the outside of the connector. The holding portion 18 comprises two protruding pegs 33 which form an upper stop for the tightening rope 32. The pegs 33 can cooperate with a partition wall lc of the carrier to hold the tightening rope 32. In the present example, the locking area 10a carrying the locking peg 32 is provided on the other side, compared to Fig. 11. The recess 19 is placed accordingly.

Claims

1. An electrical connector comprising:

a carrier (C) adapted to receive at least a first and a second independent housings (HI, H2), wherein said housings are each movable with respect to the carrier between a intermediate position and an assembled position;

at least a first housing (HI) defining at least one row of at least one receptacle each adapted to receive at least one electrical wire with a respective electrical contact ;

a second housing (H2) defining at least one row of at least one receptacle each adapted to receive at least one electrical wire with a respective electrical contact, wherein said second housing includes a holding portion (17) with a guiding portion adapted to gather at least one electrical wire of the second housing (H2) and an attachment portion (18) provided to attach said electrical wires to the guiding portion by an attachment device.

2. An electrical connector according to claim 1, wherein said receptacle has a first opening (11) adapted to allow access in the receptacle, said carrier having a second opening (5) associated to said first opening, wherein is an intermediate position, said electrical contact is not connectable with a complementary contact of an associated connector, wherein is the assembled position said electrical contact is connectable with said complementary contact of the associated connector.

3. An electrical connector according to claim 2 wherein, in the intermediate position, said first and second openings (11,5) are not facing, and in the assembled position said first and second openings are facing.

4. An electrical connector according to any of claims 1 to 3, wherein said housing comprises at least one groove (8,9) by a mating side oriented to mate with an associated connector, said groove cooperating with a longitudinal protrusion (2,4) of the carrier.

5. An electrical connector according to claim 4, wherein said longitudinal protrusions (2,4) of the carrier cooperating with said longitudinal grooves (8,9) of said housing restrict movement of the housing with respect to the carrier to one assembly direction upon moving from the intermediate position towards the assembled position, and vice versa, thereby preventing the movement of the housing with respect to the carrier along a direction transverse to the assembly direction.

6. An electrical connector according to claim 5 wherein said longitudinal protrusion (2,4) cooperates with at least one flexible lance (10) of the receptacle in its lock condition to provide an over lock condition for the electrical contact.

7. An electrical connector according to any of claims 1 to 6 wherein said carrier comprises at least one internal portion split by walls (1), separating the first and second housing from one another, wherein each internal portion includes at least one longitudinal protrusion (2,4) .

8. An electrical connector according to any of claims 1 to 7, wherein said second housing extends along a longitudinal axis, and wherein the holding portion (17) is provided on a longitudinal side of the housing.

9. An electrical connector according to any of claims 1-7, wherein said second housing extends along a longitudinal axis, and wherein the holding portion (17) is provided on a lateral side of the housing.

10. Electrical connector according to any of claims 1 to 9, further comprising at least one wire attached to the guiding portion by the attachment device, and with at least a contact received in the receptacle of the second housing (H2 ) .

11. Electrical connector according to any of claims 1 to 10, wherein the carrier (C) comprises a first holding portion (16a, 16b) with a first guiding portion adapted to gather the at least one electrical wire of the first housing, and a first attachment portion (15) provided to attach said at least one electrical wire of the first housing to the first guiding portion by a first attachment device, and wherein said holding portion, guiding portion, attachment portion and attachment device are, respectively a second holding portion, a second guiding portion, a second attachment portion a second attachment device.

12. Electrical connector according to claim 11, further comprising at least one first wire attached to the first guiding portion by the first attachment device, and with at least a contact received in the receptacle of the first housing, and wherein said at least one wire is at least one second wire.

13. An electrical connector according to claim 11 or 12, wherein the first and second guiding portions define a window between them to receive electrical wires.

14. An electrical connector comprising:

a carrier (C) adapted to receive a first housing (HI), wherein said first housing is movable with respect to the carrier between a intermediate position and an assembled position;

a first housing (HI) defining at least one row of at least one receptacle each receiving at least one electrical wire with a respective electrical contact;

- the carrier having a first holding portion (16a, 16b) with a first guiding portion adapted to gather the at least one electrical wire of the first housing, and a first attachment portion (15) provided to attach said at least one electrical wire of the first housing to the first guiding portion by a first attachment device ;

- the carrier having an empty slot adapted to receive a second housing, wherein said second housing is able to be fitted into the housing.