EP2606538A1

EP2606538A1 - Plug-in connector

Info

Publication number: EP2606538A1
Application number: EP11782368.2A
Authority: EP
Inventors: Jürgen Lappöhn
Original assignee: ERNI Electronics GmbH and Co KG
Current assignee: ERNI Production and Co KG GmbH
Priority date: 2010-08-18
Filing date: 2011-08-16
Publication date: 2013-06-26
Anticipated expiration: 2031-08-16
Also published as: KR101784375B1; US20130183865A1; HUE026389T2; JP5770849B2; DK2606538T3; US8870607B2; CN103109418A; TW201230513A; KR20130108296A; TWI536677B; DE102010034789B3; JP2013534357A; PL2606538T3; CN103109418B; WO2012022302A1; EP2606538B1; ES2556456T3

Abstract

Disclosed is a plug-in connector (100) comprising at least one contact element (200) arranged in a base element (110) of the plug-in connector, and a crimp connection. At least one secondary locking recess (205, 206) is arranged in the contact element (200), extending transverse to the plug-in direction (R). A locking stud (305, 306) of a secondary locking element (300) engages with the secondary locking recess (205, 206) in the locked position of the secondary locking element (300). The disclosed plug-in connector (100) is characterized by a fixing element (215) which is arranged at the end of a crimp region and which engages with a mating recess (115) in the base element (110) of the plug-in connector.

Description

Connectors

The invention relates to a connector according to the preamble of independent claim 1.

State of the art

A generic connector is shown in DE 10 2006 030 784 A1. In this connector, a arranged in a connector base element contact element is held by a secondary latch. For this purpose, at least one arranged transversely to the insertion direction secondary locking recess is provided in the contact element, in which engages a locking cam of a secondary locking element in the locking position of the secondary Verrieglungselements. The contact element of this connector has a Crimpfahne, which serves for contacting a stripped electrical conductor.

Such connectors are also used in the automotive field. In motor vehicles, the connectors and, in particular, the crimp terminals of the conductors are subject to considerable loads, for example, jarring

CONFIRMATION COPY loads, vibration loads and the like. This leads to a considerable load on the transition region between knife or spring contacts and the crimping area. For example, these vibrations can cause breakage. In addition, it has been found that due to large vibrations, contact corrosion of a copper conductor occurs in the crimp terminal, which acts as an insulator and thereby unacceptably increases the resistance.

The invention is therefore the object of developing such a connector so that the above-described disadvantages do not occur and that in particular such a connector and considerable vibration loads and / or vibration loads, such as occur in vehicles can be suspended.

The object is solved by the features specified in the independent claim 1.

Disclosure of the invention

The connector according to the invention is characterized by an end of a

Crimp range arranged fixing element, which engages in a gegengleiche recess in the connector base member.

The basic idea of the invention is not only to secure and fix the connector by means of the primary and secondary locking, but to provide a fixing element which is arranged at a maximum possible distance from the secondary locking element and thus fixes the contact element in the Connector base element at two points and in particular ensures a fixation of the crimping of the contact element. In this case, a locking of this fixing is made possible in the opposite recess in the locking position of the secondary Verriegeiungselements, so that at the same time a fixation and locking of the fixing element in the recess in the connector base element is achieved in a very advantageous manner by the operation of the secondary Verriegeiungselements.

Advantageous developments and refinements of the connector according to the invention are the subject of the dependent claims on claim 1.

Thus, an advantageous embodiment provides that the at least one secondary locking recess is conical and the locking cam with respect to this secondary locking recess has a (slight) oversize, so that upon engagement of the secondary locking cam in the secondary locking recess at a simultaneous Movement of the contact element in the connector base parallel to the insertion direction a clamping of the locking cam in the secondary locking recess is caused. When the locking cam engages in the secondary locking recess, therefore, a minimal movement of the contact element in the plug connector basic element is initially caused parallel to the plugging direction and then the contact element in the plug connector basic element is secured by a complete engagement of the cam in the secondary locking recess.

In this case, the fixing element with the opposing recess acts very advantageously together so that the fixing element comes into contact with the above-described movement of the contact element in the insertion direction on a surface of the opposite recess in the connector base element by applying a bias voltage. Through this preloaded Positioning a jolt and vibration-proof locking of the contact element is achieved in the connector base element.

The arrangement of the fixing element on the contact element can be done purely in principle in a variety of ways.

A very advantageous embodiment, which in particular also allows for easy contacting of the conductor in the crimp region of the contact element, provides for arranging the fixing element on a bend extending perpendicularly to the plug-in direction. By this arrangement, the maximum opening cross section for receiving the conductor in

Not only provided Crimpbereich, but the turn even fulfills the task of an insertion aid for the conductor in the crimping, since in a mispositioning of the conductor, this is guided along the bend until it enters the crimping.

Preferably, the bend includes an angle of 90 ° with the plugging direction. However, it is also possible to form the angle slightly smaller than 90 °. An angle of 90 ° allows the best training of an abutment.

The fixing element itself preferably has a substantially T-shaped form. As a result, a lateral, that is perpendicular to the direction of insertion fixation achieved in a very advantageous manner due to the opposite education in the connector base.

According to an advantageous embodiment, a locking spring for deflection into a provided in the connector base element primary locking recess is arranged on the contact element.

The pull-out force can by a variation of the number of recesses, in which each locking cam of the secondary locking element engage in the locking position of the secondary locking element, be adapted to predetermined pull-out requirements. As a result, very high pull-out forces of, for example, 100 Newton or more can be achieved.

One embodiment provides that a secondary locking element recess is provided in the connector base element, which receives the secondary locking element in the locking position. The secondary locking element is with this measure in the locking position an integral part of the connector.

A particularly advantageous embodiment provides that the secondary locking element at the front end has a coding surface which prevents plugging of the connector when the secondary locking element is positioned outside the locking position. With this measure, the safety of the connector is increased. The insertion of the connector according to the invention in the connector corresponding to the second connector according to the invention is only possible if the secondary locking element is positioned in the locking position.

An advantageous embodiment provides that in the front region of the secondary locking element at least one arranged in the insertion direction coding rib is provided. The Codier-rib prevents incorrect production of the connector when the secondary locking element is positioned in the locking position.

drawings

Embodiments of the invention are illustrated in the drawings and explained in more detail in the following description. Show it:

Figure 1 is an isometric sectional view of a connector according to the invention with a non-locked secondary locking element.

FIG. 2 shows the isometric illustration of the connector with locked secondary locking element shown in FIG. 1; FIG.

Fig. 3 is a side sectional view of a connector according to the invention before the locking of the secondary locking element;

FIG. 4 shows the side sectional view shown in FIG. 3 in the locking position of the secondary locking element; FIG.

Fig. 5 is an isometric view of the connector base member;

Fig. 6 is an isometric view of the contact element and

Fig. 7 is an isometric view of the contact element from another view.

Description of embodiments

As a whole, designated 100, shown in Figures 1 to 4 in different views connector has a connector base element 1 10, which consists of an insulating material, in particular of plastic. In this connector base element 1 10 a contact element 200 is arranged. Furthermore, a secondary locking element 300 is arranged in the plug connector base element 110, wherein the secondary locking element 300 has locking cams 305, 306 which in the locked state (FIGS. 2, 4) are in secondary position.

Locking recesses 205, 206 of the contact element 200 engage. As can be seen in particular in FIG. 3 and FIG. 4, the

Secondary locking recess 205, 206 conically formed, whereas at least one locking cam 305 relative to the secondary locking recess 205 has a (slight) oversize, that is, is slightly larger than the secondary Locking recess 205. The conical shape of the secondary locking receptacles 205, 206 causes, during the engagement of the locking cams 305, 306, a movement of the contact element against the insertion direction, which is indicated in Fig. 3 and Fig. 4 with an arrow R, is caused , After complete engagement of the Veregelungsnocken 305, 306 in the secondary locking recess 205, 206, which is effected by exerting a force along a direction indicated in Fig. 3 with arrow 301 direction, the contact element 300 is fixed in the connector base member 200 and locked. The exercise of a contrary to the direction of insertion R movement of the contact element 200 in the connector base 110 but at the same time causes a on the contact element (see Fig. 6, Fig. 7) arranged fixing 215 engages in a gegengleiche recess 115 of the connector base 110 and there comes to a stop surface 1 16 while exerting a bias to the plant comes (Fig. 1, Fig. 2). By this bias, a fixation of the contact element 200 is accomplished in the connector base element 1 10 at a second position. In this way, the contact element 200 is fixed in two places in the connector base element 10, firstly by the secondary locking means of the cams 305, 306 in the corresponding conical openings 205, 206 in the contact element 200, on the other hand by the fixing element 215 in FIG the openings 115 of the connector base element 1 10 under bias. The fixation by the fixing element 215 causes in particular that even with a strong vibration or shaking exposed operation of the connector 100 no breakage of the contact element 200, for example in the area directly between the secondary locking recesses 205, 206 and the Crimflügeln 240 occurs and that in particular no Contact corrosion in the crimping area is caused by continuous very strong vibrations. Rather, the contact element 200 and in particular the crimping area is held completely immovable and also stationary with respect to vibrations in its position in the connector base element 110. The connector base element 110 has, in a known manner, a primary locking recess 127, which can be produced by injection molding or by milling and the like. The secondary locking element 300 has on its side facing the contact springs 210 of the contact element 200, that is, on the plug side an encoder rib 330, which extends in the plugging direction R. This at least one coding rib 330 prevents an erroneous mating operation when the secondary locking element 300 is already positioned in the locking position.

In addition, a coding element 1 1 1 can also be arranged on the connector base element 110, in particular that prevents a wrong orientation of the connector with respect to a corresponding connector (not shown). This coding element 11 1 also cooperates with the secondary locking element 300. Namely, an encoding surface 332 is arranged on the coding rib 330, which prevents insertion of the connector when the secondary locking element 300 is positioned outside the locking position, as illustrated, for example, in FIGS. 1 and 3. In this case, a complementary connector (not shown) abuts the coding surface 332. Only in the locked state (shown in Fig. 2 and Fig. 4) is the coding rib 330 aligned with the coding element 1 1 1 of the connector base element 10 and the coding surface 332 no longer communicates with this coding element 11 1. In this case, the secondary locking element 300 lies in a secondary locking element recess 119 arranged in the connector base element 110 and is received by the latter.

In addition, coding ribs 191, 192 are arranged in the plug connector base element 110, which prevent an incorrect connection with a corresponding further plug connector (FIG. 5). The contact element 200 has on its contact elements, in the case shown, this spring elements 210, side facing a substantially rectangular positioning frame 21 1 with an opening 212. This positioning frame is received in a corresponding recess 123 of the connector base element 1 10 and allows an exact positioning of the spring elements 210 in a known per se.

The contact element 200 also has a locking spring 220, which also springs in a known manner in the inserted state of the contact element 200 in the Primärverriegelungsausnehmung 127 and the contact element 200 is supported against pulling on a Primärver- locking abutment 128 in a known per se.

As shown in particular in FIGS. 6 and 7, the fixing element 215 is arranged on a curved bend 216 which encloses an angle of 90 ° with the plug-in direction R. This has the advantage that the opening for the introduction of a cable 204 is easily accessible. The cable is stripped in a known manner, the stripped part is contacted in the crimping area 240 by crimping. The non-stripped cable sheath is clamped in a clamping region 243 and thus provided a strain relief.

The advantage of the above-described connector 100 is that by fixing the connector by means of primary locking element, formed from spring 220 and Primärverriegelungswider- bearing 125, secondary locking element formed of secondary locking recesses 205, 206 which are conical, and cams 305, 306 of the secondary locking element 300, whose at least one opposite a secondary locking recess 205 has a (slight) excess, and formed by the fixing element 215, which engages in a corresponding counter-recess 1 15 in the secondary locking base element 1 10 and a preloaded Fixing of the contact element 200 in the connector base element 110 mediates, a fixing and locking at a plurality of points of the contact element 200 in the connector base element 1 10 and in particular also ends of the crimping is achieved. In this case, the curved right-angled bend 216 also proves to be particularly advantageous with regard to the exertion of the prestressing, as a result of this a spring effect can be achieved. The contact element 200 is in this way at two points spaced from each other spatially, namely the secondary locking, formed by the secondary locking recess 205, 206 and the cams 305, 306 and the end of the crimping region arranged fixing element 215, which in the opposite opening 1 15 of the secondary locking element 1 10 engages fixed. This will be a

Preventing vibration of the crimping 240 and the clamping portion 242, which can lead to a disruptive contact corrosion and thus an interruption of the electrical contact by resistance increase or even to a breakage of the contact element 200.

The fixing element is essentially T-shaped. As a result, not only the contact surface is increased in the insertion direction, but also conveys an optimal locking perpendicular to the direction of insertion.

At this point, it should be noted that the number of secondary locking recesses 205, 206 is selected depending on the pull-out force. If the pull-out force is smaller, one of the two pull-outs is sufficient. In addition, more than two recesses could be provided.

Claims

claims

1. Connector (100) having at least one in a connector base element (1 10) arranged contact element (200) and with a crimp connection, wherein at least one in the contact element (200) transversely to the insertion direction (R) arranged secondary locking recess (205, 206), in which a locking cam (305, 306) of a secondary locking element (300) engages in the locking position of the secondary locking element (300), characterized by a frangible element (215) arranged at the end of a crimping area, which engages in a diametrically opposite recess (1 15) in the connector base element (1 10) engages.

2. Connector (100) according to claim 1, characterized in that the at least one secondary locking recess (205, 206) is conical and the locking cam (305) with respect to the secondary locking recess (205) has an oversize, so at an engagement of the locking cam (305) in the secondary locking recess during a simultaneous movement of the contact element in the connector base parallel to the direction of insertion (R), a clamping of the locking cam (305) in the secondary locking recess (205) is caused.

3. Connector (100) according to claim 1 or 2, characterized in that the fixing element (215) by the movement of the contact element (200) parallel to the plugging direction (R) on a surface (1 16) of the opposite recess (1 15) in the connector base element (1 0) comes under the exercise of a bias to the plant.

4. Connector (100) according to any one of the preceding claims, characterized in that the fixing element (215) at a substantially borrow perpendicular to the direction of insertion (R) extending bend (216) is arranged.

5. Connector (100) according to claim 4, characterized in that the bend (216) forms an angle of 90 ° with the plugging direction (R).

6. Connector (100) according to any one of the preceding claims, characterized in that the fixing element (215) has a substantially T-shaped configuration.

7. Connector (00) according to any one of the preceding claims, characterized in that on the contact element (200) a locking spring (220) for deflection in a in the connector base element (1 10) provided primary locking recess (127) is arranged.

8. Connector (100) according to any one of the preceding claims, characterized in that the number of secondary locking recesses (205, 206) is determined in dependence on the predetermined pull-out force.

9. Connector (100) according to any one of the preceding claims, characterized in that in the connector base member (110) has a secondary locking element recess (1 19) is provided, which receives the secondary locking element (300) in the locking position.

10. Connector (100) according to claim 1, characterized in that the secondary locking element (300) at the front end a Codierfläche (332), which prevents plugging of the connector (100) when the secondary locking element (300) outside the locking position is positioned. Connector (100) according to claim 1, characterized in that in the front region of the secondary locking element (300) at least one in the insertion direction (R) extending coding rib (330) is provided.