EP1699113A2 - Electrical connector - Google Patents

Abstract

The connector has a contact partner fixed into a housing. The partner is arranged at an end of an electrical conductor (4), and is in electrical contact with the conductors. The housing is surrounded with an injection molding material (5) in a position, at which the conductor is guided into the housing. A fixing unit (7) is fixable together to the conductor in a given position, and is surrounded partly or completely with the material.

Description

The invention relates to a connector, preferably for use in the automotive sector, according to the features of the preamble of patent claim 1.

From EP 1 122 840 A1 connectors, in particular plugs or sockets are known which have a prefabricated housing. This prefabricated housing is made of an electrically non-conductive material and is produced for example in a plastic injection molding process. This housing has contact chambers into which contact partners (eg contact pins or contact sockets) can be inserted and fixed there. The contact partners are located at the end of an electrical conductor and are electrically contacted with this. The electrical contacting of the contact partner to the electrical conductor is preferably carried out by a crimped connection, which is advantageous in terms of contact reliability and durability, especially in automotive applications. In order to achieve a longitudinal water-tightness, which is of great importance precisely when using such connectors in the automotive sector, it is necessary that the region in which the at least one electrical conductor is guided into the housing is provided with a seal, so that water or Moisture, which is located on the electrical conductors, not in the direction of Kontaktkammem, in which the contact partners are, can get. For this purpose, it is provided in EP 1 122 840 A1 that the housing in the region in which at least one electrical conductor is guided into the housing, with an injection molding compound is umber. Thus, in the one end portion of the connector, a seal is made in an injection molding process, so that no water or moisture from the direction of the electrical conductor in the direction of Contact chambers can get. In EP 1 122 840 A1 it is further realized that this injection molding compound also surrounds the contact point (crimp area) at which the contact partner is electrically contacted with electrical conductor ends. This leads to a further increase in contact reliability and their durability. When shaping and processing the injection molding compound, however, care must be taken that this injection molding compound can not get in the direction of the contact chambers. In order to prevent that the injection molding compound can penetrate into the contact chambers, it is provided that the prefabricated housing, which is pre-equipped with the contact partners and the electrical conductors, is inserted into an injection molding tool, wherein this has a slider which is arranged in the injection molding tool is that is prevented by its arrangement that injection molding compound can penetrate during their processing in the contact chambers of the housing. Such a slide must be made separately for each housing variant, whereby the tool costs are high. In addition, it is necessary to provide a matched slider for each construction of a housing in the injection mold, so that with each injection mold and only a particular connector can be produced.

Moreover, EP 1 122 840 A1 requires that the electrical conductors, which may be, for example, strands or wires with an insulating jacket, have to be inserted into the injection molding tool in a predeterminable arrangement. This is necessary so that the injection molding compound can effectively form the seal. So far, these electrical conductors have been clamped together, but it can come through the resulting gusset in the Zusammenkleemmung to overjections in the outlet area, ie the transition from the prefabricated housing in the direction of the electrical conductors. As a result of the resulting gussets, movements of the plug connection which are typical for use in the automotive sector as a result of vibrations result in damage to the electrical conductors, so that the continuous electrical contact is no longer reliably ensured. In addition, the shape and processing (the encapsulation process) depending on the design of the electrical conductor is problematic. This includes that in versions with common clamping the length of the injection molding compound (Umspritzlänge) must be increased because the area where the individual electrical conductors are superimposed, can not be used as Umspritzlänge for the tightness.

The invention is therefore based on the contract, to avoid the disadvantages described above, in particular to reduce the tooling costs and thus the manufacturing cost of a connector to simplify the injection molding and thereby maintain the sealing effect with respect to the longitudinal water-tightness or even increase.

This object is solved by the features of claim 1.

According to the invention, it is provided that a plurality of electrical conductors is provided in a predeterminable position to each other festlegbares element, said element is at least partially, in particular completely, umvorbar with the injection molding compound. This element has the task of positioning the several electrical conductors to one another in a predeterminable position relative to one another, so that over-spraying in the outgoing region is avoided. In addition, can be shortened by the position positioning of the individual electrical conductors to each other in common clamping by the element according to the invention, the Umspritzlänge. Such an element comes in single-row connectors into consideration when the electrical conductors strands, cables or the like, ie individual conductors are. Even with foil conductors, optical waveguides and the like, the element according to the invention can be used in a single-row design of the connector, since this defines the transition region of the electrical conductor in the direction of the housing of the connector. Particularly advantageous is the application of the element according to the invention in two- or multi-row versions of the connector, since it is particularly important to achieve the longitudinal water-tightness by the plurality of individual electrical conductors or the presence of several superimposed films, optical fibers, or the like defined position of the electrical conductors in the transition region is achieved. By the use of this also designed as a spacer element according to the invention between the individual electrical conductors (strands, cables, films, optical fibers and the like) in the clamping region of the injection molding tool, the clamping and the position positioning is significantly improved. As a result, no gussets arise. In addition, a lower temperature stress on the electrical conductor is given, since the temperature can be distributed over a larger area and, if appropriate, can also be dissipated in the direction of the electrical conductors and in the direction of the housing. In addition, surrounded by the positional fixing and the resulting separation of the individual electrical conductors from each other by the inventive element optimally with injection molding compound (umspolt), so that the best possible longitudinal water resistance is achieved.

The element according to the invention for fixing the position and fixing the individual electrical conductors is part of the housing and manufactured in one piece with this. This has the advantage that the housing can already be made in one piece, in particular in an injection molding process, with the element for fixing the position, thereby further simplifying the manufacturing process of the connector. Because after the contact partners have been used in the individual contact chambers of the housing, can manually or automatically, the electrical conductors are fixed to the element, in particular clamped. The resulting advantages have already been described above.

Furthermore, the invention provides that a usable before the start of the injection molding process in the prefabricated housing latch is provided, which prevents penetration of injection molding in a contact region of the at least one contact partner, said bar is not part of an injection molding tool for shaping and processing of the injection molding compound. This solution has the advantage that such bars can be prefabricated with the described function easily and inexpensively, for example, in a plastic injection molding process, what they after their production only in a corresponding recess in the prefabricated housing must be used after there the contact partners have been used in the contact chambers. The geometric shape of a bolt can be readily adapted to any housing shape, so that in a particularly advantageous manner with changes in the housing shape and correspondingly changed latch can be used without the injection mold must be adjusted. This is effectively prevented in single-row or multi-row connectors that the injection molding compound in the front contact region of the housing, so in the direction of Kontaktkammem, can penetrate, but at the same time the contact area, ie the area where the electrical conductors are contacted with the contact partners , effectively sealed. In two- or multi-row connectors, the latch between the two rows of contacts or the plurality of contact rows is introduced in order to achieve sufficient sealing. This can be dispensed with by the presence and the onset of the bolt in the prefabricated housing in the injection molding on the previously known lateral slide. The latch according to the invention is a simple component which is inserted into the prefabricated housing prior to encapsulation and, after the molding and processing of the injection molding compound to form a seal in the housing or can be removed from this. The bolt is clamped during the encapsulation process in order to prevent penetration of the encapsulation material in the contact chambers. Due to the clamping and the direct contact with encapsulation material, the bolt can not always be easily removed. From an electrical point of view, a separation of the two rows of contacts is given by the bolt and to see as an advantage. Usual are injection molds, but in principle can be applied by a casting the bolt technology also.

In a further development of the invention, the bolt to prevent the ingress of injection molding compound into the contact chambers and the element for fixing the individual electrical conductors in a predetermined position to each other form a one-piece component, wherein the bolt is connected via a spacer element with the element for fixing the position. This embodiment has the particular advantage that two effects can be achieved with one and the same element.

Because this one-piece component, which is also inexpensive to produce in a plastic injection molding process, on the one hand prevents the penetration of the injection molding compound in the contact chambers when surrounding the end portion of the housing with the injection molding compound, but at the same time allows the determination of the individual electrical conductors to each other and with respect to a predetermined position on the housing, so that thereby the shaping and processing of the injection molding compound to achieve the seal and the longitudinal water-tightness can be optimally performed.

Embodiments of the invention, to which this is not limited, are described below and explained with reference to the figures.

Show it:

FIG. 1:

A connector with a latch according to the invention,

FIG. 2:

A connector with a position fixing element according to the invention,

Figures 3 u. 4:

An inventively designed connector and socket housing,

FIG. 5:

a connector with a latch according to the invention in section according to FIG. 1

FIG. 1 shows a connector 1 according to the invention before and after encapsulation with an injection molding compound. In the left-hand figure it can be seen that the connector 1 has a prefabricated housing 2, wherein this prefabricated housing 2 is produced with an opening 22 in a plastic injection molding process and is formed in two rows in this example. Alternatively, single-row versions and more than two-row versions are also conceivable. The prefabricated housing 2 has according to the number of used contact partners (not shown here) contact chambers 3, in which these contact partners are used and fixed there. The Contact partners themselves are arranged at the end of electrical conductors 4 and contacted with these electrically, wherein the electrical contact preferably via a crimped connection, but alternatively also via other connections (eg soldering) are connectable. A connector 1 prepared in this way and shown in the left-hand illustration of FIG. 1 is inserted into an injection molding tool, an injection molding compound 5 (see right-hand illustration in FIG. 1) surrounding the housing 2 and the end region of the electrical conductors 4 with the injection molding step to be carried out. This injection molding compound 5 has the task of sealing the transition region from the housing 2 in the direction of the electrical conductors 4 and to produce longitudinal water-tightness there. The injection molding tool has for shaping and processing corresponding inner contours, wherein prior to insertion of the prepared connector 1 in the injection mold still in a recess in the prefabricated housing 2, an inventive latch 6 must be used. This bar 6 causes that after insertion of the prepared connector 1 in the injection mold and the subsequent shaping and processing of the injection molding compound 5, this can not penetrate in the direction of the contact region of the contact partners, ie in the direction of the contact chambers 3.

Figure 2 shows an inventive element for fixing the position in a predetermined position to each other of the electrical conductors 4, wherein this element 7 can also be produced in a plastic injection molding process. The shape of the element 7 is such that it receives the individual electrical conductors 4 (for example, by a clamping operation) and fixes their position relative to one another. In Figure 2 (second illustration from the left) is further seen that the latch 6 and the element 7 for fixing the position of the electrical conductors 4 form a one-piece component, wherein bolt 6 and element 7 are connected to each other via a spacer 8. By this configuration, the injection molding process for the production of the connector 1 is further improved, as are protected by the latch 6 on the one hand, the contact chambers from ingress of injection molding compound, but on the other hand, the individual electrical conductors 4 have a defined position to each other, so in the subsequent injection molding process, the injection molding 5 electrical conductor 4 flows around optimally. This Injection molding process with the injection-molding compound 5 is shown in the second illustration from the right of Figure 2. In the right-hand illustration of FIG. 2 it can be seen that after the executed injection-molding process, the spacer 8 has been removed. This is not necessarily required, but offers itself to increase the compactness of the manufactured connector 1. If the spacer 8 are to be removed, it is formed according to the invention via predetermined breaking points on the latch 6 and / or the element 7 in order to be able to break it off easily. It is also conceivable that such a predetermined breaking point is present only on the element 7, so that there the spacer element 8 can be canceled while the latch 6 is to remain on the spacer 8 when the latch 6 is to be removed from the housing 2.

FIGS. 3 and 4 show plug connectors 1 according to the invention, a plug being shown in FIG. 3 and a socket in FIG. 4. These embodiments differ by the prefabricated housing, but the basic principle of the bolt 6 and the element 7 and their operation is maintained. The separately produced plug according to Figure 3 and sockets of Figure 4 are plugged together in their subsequent use, on the one hand is ensured by this mating operation and the design of the prefabricated housing that in the mating area and thus in the contact area no water or moisture can penetrate. So that this does not take place from the direction of the electrical conductors 4, just the injection-molding compound 5 is present in the transition region of the housing 2 in the direction of the electrical conductors 4. In the embodiment of Figure 4, the latch 6 is not shown, but present. In contrast to the embodiments shown in the preceding figures, the element 7 for fixing the position of the individual electrical conductors 4 is integrally formed with the housing 2 and manufactured together with this. In Figure 3, a bolt 6 is not necessarily present, since a bolt is not necessarily required on the plug side, since it is possible to press the pin contacts. Nevertheless, the latch 6 may be present in such a case with a plug.

This means in summary that the latch 6 and the element 7 can be separate components, are integrally connected to one another (in particular via the spacer 8) or combinations thereof can be realized.

Figure 5 shows a connector with a latch according to the invention in section according to Figure 1. Visible is the prefabricated housing 2 with its contact chambers 3, in each of which a contact partner 9 is inserted, which is arranged at the end of the electrical conductor 4 and electrically contacted with this. The finished connector 1 shown already has the injection molding compound 5 as a seal, wherein the latch 6 has prevented that the injection molding compound 5 penetrates into the contact chambers 3 and thus into the contact region of the contact partner 9. Likewise, the element 7 for fixing the position of the electrical conductor 4 is present to each other.

LIST OF REFERENCE NUMBERS

1.

Connectors

Second

casing

Third

contact chamber

4th

electrical conductor

5th

injection molding compound

6th

bars

7th

Element for fixing the position

8th.

spacer

9th

Contact partner

Claims (8)

Connector (1) having at least one contact partner (9) which can be fixed in a prefabricated housing (2) and which is arranged at one end of an electrical conductor (4) and is in electrical contact therewith, wherein the housing (2) in the region in which the at least one electrical conductor (4) is guided into the housing (2), can be surrounded by an injection molding compound (5), characterized in that a plurality of electrical conductors (4) is provided in a predeterminable position relative to each other element (7) , wherein this element (7) at least partially, in particular completely, with the injection-molding compound (5) is umvorbar. Connector (1) according to claim 1, characterized in that the latch (6) after the processing of the injection molding compound (5) from the housing (2) is removable or remains in the housing (2). Connector (1) according to claim 1 or 2, characterized in that in the prefabricated housing (2) insertable latch (6) is provided which prevents penetration of injection molding compound (5) in a contact region of the at least one contact partner (9), wherein this bar (6) is not part of an injection molding tool for shaping and processing the injection molding compound (5). Connector (1) according to claim 1, characterized in that the element (7) is part of the housing (2) and is manufactured in one piece therewith. Connector (1) according to one of the preceding claims, characterized in that the bolt (6) and the element (7) for fixing the position form an integral component, wherein the bolt (6) via a spacer (8) with the element (7) connected to the position fixing. Connector (1) according to claim 4, characterized in that the one-piece component can be produced in an injection molding process. Connector (1) according to claim 4 or 5, characterized in that the spacer (8) is not surrounded by the injection molding compound (5) and after the processing of the injection molding compound (5) is removable. Connector (1) according to any one of claims 4, 5 or 6, characterized in that the spacer member (8) via a predetermined breaking point on the bolt (6) and / or on the element (7) is formed for fixing the position.

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