EP2067212B1 - Electric plug connector having a guiding - Google Patents

Description

The invention relates to an electrical connector, in particular a plug and a connector housing with a guide.

Plug-in connections, which consist of plugs and associated plug housings, are omnipresent. Especially in the automotive sector, plugs in a wide variety of designs are used everywhere in the wiring of electrical systems. It is often of great importance that the connector has a high robustness against forces that emanate from the connected cables. Under heavy mechanical load, such as those encountered in transport vehicles, vibration and long cable lengths can cause connectors to be damaged. This can lead to malfunction. It is therefore generally desirable to provide as robust as possible and yet spatially small connectors, which allow a comfortable operation, ie a simple release and reconnection of the connector. In addition, it must be ensured that the plug are inserted functionally in the correct housing device. The plug housing generally forms a certain guide for the plug to give this hold in the connector housing.

In addition to the general requirement that, of course, a corresponding connector housing must always exist for a connector, special requirements arise when the connector is inserted, for example, from below into the associated connector housing and the cables are led away from the connector at an angle. Therefore, plug-in connections are known which have a guide length which is more than twice the diameter of the connector face in order to provide the most secure plug connection possible. The guide length is the range in which the plug is at least partially enclosed by the connector housing form fit. In the Electrical contacting in motor vehicles is generally required an additional cable fixation immediately behind the plug. Other known systems employ metal straps, which are strained by force or firmly fixed. This prevents that the connector unintentionally triggers by ground forces of the cable. A disadvantage of the known connectors is the large guide length, which also brings a lot of space with it. With a guide length of, for example, twice the diameter of the connector face, the space required including the required path to solve the connector, about four times the diameter of the connector face, in which case the length of the outside of the guide plug housing is added. Alternative solutions with the metal brackets or fittings described above are associated with a high cost and a high assembly and disassembly effort. It is obvious that such plug connections are uncomfortable just in recurring loosening and connecting.

From the GB 2 161 996 A goes out an electrical connector with a male and a female connector part. From the DE 30 12 292 A1 is an electrical cable, especially for electro-hydraulic construction controls in mining underground operations, out. From the US 4,828,509 is a sealed housing system for modular connectors out. From the DE 36 30 600 C1 go outlets for single and multi-pole coupling devices of circular connectors with the same contact image.

The object of the present invention is to provide a connector that allows a secure connector and still keeps the space required low.

The object is achieved by a connector according to claim 1.

Accordingly, according to the invention a plug is provided with guide having a first guide portion and a second guide portion for guiding the plug in a corresponding connector housing, wherein the second guide portion is further spaced from the plug face than the first guide portion, and the first guide portion and the second guide portion have a mutually different contour of their respective cross-sections. Due to the aforementioned advantageous separation of the plug guide in a first and a second guide portion, the properties of the plug and thus the connector can be designed in an advantageous manner new. It is therefore provided according to the invention to perform the first guide portion shorter than the second guide portion, so as to limit the release stroke of the plug (when pulling out the plug from the corresponding connector housing) to the length of one of the two guide portions. The guide of the plug in the corresponding connector housing can be terminated immediately when the plug has removed either the first or the second guide portion completely from the corresponding guide portions of the connector housing. In particular, the guide sections can be arranged on the handle of the plug, which is usually not used to guide the plug in the connector housing.

According to an advantageous embodiment, the first guide portion and the second guide portion are spaced from each other by a portion which causes no guidance in the corresponding connector housing. By the separation of two guide sections, the first of which, for example, is connected to the plug face (that is the front end of the plug on which the contacts are typically arranged) or is arranged in spatial proximity to the plug face and the second is located further back on the plug housing , the continuous guide is replaced over the entire connector. This results in an effective guide, which achieves the effect of a guide having a length corresponding to the distance from the front end of the first guide portion to the rear end of the second guide portion, but without a continuous therebetween Guide the plug must be provided in the connector housing. As a result, the middle section can be used quite differently. For example, locking means or the like may be used here. are provided, which are pushed in the guideless area around the circumference of the here, for example, constricted connector housing. In addition, there are opportunities to accommodate in this area other elements that do not have to fit positively on the connector housing or interact with the housing in a different manner than in the guide sections. Of course, the connector housing to perform the plug accordingly, so that the guide is formed or omitted between the guide sections.

According to a further advantageous embodiment, the second guide portion is provided by a separate from the first guide portion plug part, which is in particular formed by a connecting element, an encapsulation or a mounted element, which are each - depending on the configuration - rigidly connected to the plug. This advantageous embodiment provides that an encapsulation of a part of the plug receives an additional component, which is designed and used to guide the plug in the connector housing. This requires additional steps in the provision of the encapsulation, or the tools that cause the encapsulation. Since this entails an additional expense in the manufacture of plugs, conventional plugs have no guide means in the grip area of the plug. According to the invention, however, it has been recognized that this can result in an advantage for certain applications, which justifies the additional expense. In that regard, a part of the extrusion coating, which was conventionally provided, for example, only as a handle for pulling out the plug, now configured as a second guide portion for guiding the plug. The further functions of the extrusion coating, such as, for example, the provision of mechanical stability between the plug and the connection cable, remain unaffected by the guiding properties of the second guide section in the grip region, according to an advantageous embodiment.

According to an advantageous embodiment, an inventive plug on the second guide portion on a arranged on the peripheral surface of the connector guide means, wherein the guide means extends in the insertion direction of the plug. The guide means may have an almost arbitrary guide contour. Advantageously, it can be e.g. to act a leadership rib. A guide rib is one of several embodiments, wherein such guide ribs advantageously engage in corresponding guide grooves of the associated plug housings and thus provide the plug with the desired guidance and the desired support. As a result of the design as a guide rib, the interruption according to the invention can be carried out in a particularly advantageous manner into a first and a second guide section. In addition, the length of the guide can be made easy and flexible by means of the rib shape. However, other embodiments are also possible in which e.g. a guide groove is provided in the plug and the plug housing has a corresponding guide rib. Again, the above-described separation into a first guide portion and a second guide portion is basically possible. Of course, embodiments with a plurality of guide ribs or a plurality of guide grooves are also conceivable. In particular, in addition to the rib shape and a design as a dovetail, a design as a trapezoid and various other contours as a guide into consideration.

According to another advantageous embodiment of the plug according to the invention, there is still a further coding rib in the second guide section, which causes an anticipatory coding of the plug. Leading coding in this context means that the coding rib is arranged such that the coding rib engages in a corresponding guide groove already at the highest point, that is to say the first contact with a plug housing. If no corresponding groove is provided, the plug is prevented from fitting into the plug housing. This coding precedes other coding possibilities, for example in the first guide section, because at this point in time, in particular its first guide section, the plug does not yet reach far enough in the first guide section Plug housing is located. Other advantageous embodiments of this aspect of the invention are not limited to the arrangement of a guide rib, but may have different arrangements of ribs and grooves, in particular on the connector housing, which also cause an anticipatory coding.

According to another advantageous aspect of the present invention, it is provided that the plug according to the invention has a smaller cross section in the first guide section than in the second guide section. The term "cross-section" according to this aspect of the present invention relates to a maximum cross section of the first guide portion with respect to a maximum cross section of the second guide portion. More generally, the first guide portion is made smaller or narrower in cross-section than the second guide portion, that the first guide portion in the region of the plug housing, which corresponds to the second guide portion, is movable laterally relative to the insertion direction relatively guide. As a result, when the plug is released, the plug can already be freely removed from the plug housing when only one of the first or second guide sections has left the guide in the plug housing. Depending on the design or on the guide length of the plug in the connector housing, this results in a Lösehub only in the length of the first or second guide portion. Included in this aspect of the present invention are also solutions in which not the full length of the first or second guide portion for guiding in the corresponding connector housing comes into play. In this case, guide lengths can arise that do not correspond to the exact length of the first or second guide portion of the plug. Above all, according to this advantageous aspect of the invention, the first guide section can move freely within the second guide section in the plug housing due to its smaller cross section. In an advantageous embodiment, the release stroke results only from the guide length of the second guide section or a smaller guide length than that of the second guide section.

The invention provides in particular a plug connection with a plug and a corresponding plug housing, wherein the plug housing is designed such that it allows the guidance of the plug according to the guide sections, as described above.

According to an advantageous embodiment of the present invention, guide grooves are provided in the plug housing, which correspond to the guide ribs of the second guide portion of the plug according to the invention. It is considered that the guide grooves of the second guide portion are designed to be open in the insertion direction of the plug to the front. This makes it possible that contamination of the connector housing by inserting the plug, the contamination can be pushed forward out of the grooves. For certain types of connectors, it may be advantageous that the connector is instead designed to carry the dirt when removing the plug and eliminate.

According to a further advantageous embodiment of the connector, consisting of plug and corresponding connector housing, the effective guide length in the main load direction on a guide ratio of about 3 to the diameter of the connector face. The diameter of the connector face in the main load direction is decisive. For example, if a cable led away angularly from the connector housing, then the main load direction is in the pulling direction of the cable. On the plug, a torque is exerted by the cable. The plug requires a guide to resist the pull of the cable. Advantageously, therefore, the guide is designed so that it develops the most effect in this direction. In the connector according to the invention can be due to the two- or multi-part design of the guide achieve a particularly high guide ratio without the leadership must be performed throughout the entire length of the plug housing.

According to an advantageous embodiment, a third guide portion is provided on the plug according to the invention, which between the first and the second guide portion is disposed and separated by a portion of the second guide portion in which no guidance of the plug is effected. According to this advantageous embodiment, the second guide portion can find an extension in the third guide portion, as far as the third guide portion has an outline or a cross section corresponding to the second guide portion. The distance between the two guide sections without direct guiding properties can be used to insert a locking element which holds the plug in a fixed position.

Fig.1

eine perspektivische Ansicht eines Ausführungsbeispiels für einen erfindungsgemäßen Stecker,

Fig. 2

eine perspektivische Ansicht eines Ausführungsbeispiels für ein Steckergehäuse,

Fig. 3

eine Ansicht von oben auf ein Ausführungsbeispiel eines erfindungsgemäßen Steckers,

Fig. 4

eine Schnittansicht des Steckers gemäß Fig. 4, und

Fig. 5

weitere Schnittansichten des Steckers gemäß Fig. 4.

The embodiments of the present invention will be explained below with reference to the accompanying drawings. It shows:

Fig.1

a perspective view of an embodiment of a plug according to the invention,

Fig. 2

a perspective view of an embodiment of a connector housing,

Fig. 3

a top view of an embodiment of a connector according to the invention,

Fig. 4

a sectional view of the plug according to Fig. 4 , and

Fig. 5

further sectional views of the plug according to Fig. 4 ,

Fig. 1 shows a plug 100 according to the invention for connecting a cable or a bundle of electrical lines 101. The electrical line 101 is angled in the housing of the plug 100 by 90 ° and with the contacts on the plug face 113 (contacts not visible) coupled, for example electrically connected. The plug has a first guide portion 102 and a second guide portion 103. The first guide portion 102 is located in close proximity to the plug face 113. Die Guiding in the first guide section 102 is effected, for example, by positive engagement of the first guide section with a corresponding housing section. In the first guide section further markings or labels 112 may be provided. Above the first guide section 102 is a sealing element 111, which surrounds the circumference of the plug to the mounted in a rearwardly closed, pot-shaped opening guide portions and the contacts, which may be arbitrary, and advantageously as flat contacts, round contacts o.Ä. designed to protect against moisture and dirt. Above the sealing element 111 is a third guide section 110 with a guide rib 109. This third guide section 110 can advantageously be designed as a continuation of the second guide section 103. When the plug is inserted into the housing, the guide elements of the third guide section 110 first engage in the corresponding guides of the second guide section. Thus, a pre-adjustment can be achieved, which facilitates the encapsulation of the plug. This is another advantageous aspect of the invention.

The third guide portion is executed spaced from the second overlying guide portion 103, so that a not shown locking element (eg in the form of a Arretierungsschiebers) can be pushed perpendicular to the insertion direction X of the plug. In this way, the locking element can lock the plug in a corresponding housing. Furthermore, the present exemplary embodiment of a plug according to the invention has a second guide section 103, which is located, for example, in the gripping region of the plug. In this area, further guide ribs 106, 108 are provided. The guide ribs of the second guide portion 103 and the third guide portion 110 engage in the insertion of the plug 100 in a corresponding connector housing in the guide ribs corresponding grooves. A further rib in the second guide section 103 can, according to an advantageous embodiment, be used as an anticipatory coding rib 107. The displacement of the coding rib 107 in the front region of the plug (ie, a displacement of the Coding rib in the horizontal direction on the circumference of the plug) causes the plug fits only to certain connector housings. In particular, the coding rib 107 may be arranged so that it allows the insertion of the plug already at the first contact with the plug housing, or prevents, if there is no corresponding groove on the plug housing. This is referred to as an anticipatory coding, because it already acts on the first contact of the plug with the connector housing. In addition, according to an advantageous embodiment of the coding rib 107 is also a guide property added, as they may correspond to the guide ribs 106, 108, if desired. However, the guiding action takes place in the coding rib 107 in a different direction than in the case of guide ribs 106, 108.

Fig. 2 shows a plug housing 100 corresponding to the connector housing 240. At the same time is in Fig. 2 Also shown a possible spatial arrangement of several different embodiments of the invention plug housing 240, 220 and 230 side by side. Only the connector housing 240, so the middle section in Fig. 2 is to accommodate the in Fig. 1 illustrated plug 100 configured. There is a contact area 213 for providing the electrical contact. Starting from this contact region 213, the guide extends along the plug-in direction of the plug 100 and along the first guide section 102, as shown in FIG Fig. 1 is shown. Above this housing part corresponding to the first guide section 102 is a section in which the in Fig. 1 illustrated seal 111 is arranged and so the inner contact area 213 from dirt or similar. protects. The plug sealing element 111 is advantageously designed elastically for tolerance compensation and rests axially on the region 210. The male housing 240 also provides guide grooves 206 and 208 for receiving the guide ribs 106 and 108 of the male connector 100, respectively Fig. 1 , Between the first guide portion and the guide grooves 206 and 208 of the second guide portion, a recess 209 is provided, in which the guide rib 109 (or guide pin 109) of the third guide portion 110 can engage. In this way, an advantageous pre-adjustment (in 208) of the connector for the guide grooves of the encapsulation (106 and 108) in the Connector installation can be achieved. Due to the subdivision into the various guide sections, it is possible to advantageously pre-adjust the plug according to the invention in a tool provided for this purpose for the extrusion coating. Therefore, the third guide portion 110 is advantageously designed like an extension of the second guide portion 103. In addition, it is arranged closer to the first guide portion 102, for example. When the plug is inserted, the sealing element 111 is pressed onto the bearing surface 210 of the plug housing. To lock the plug, for example by means provided for this purpose recesses 214 locking elements, which are also designed as a single locking element, are inserted into the connector housing perpendicular to the insertion direction of the plug, so that these with inserted plug 100 above the third guide portion and guide element 110th reach and so lock it against the support surface 210 with intermediate seal. As a result, in particular a particularly good seal and thus effective protection of the contact area 213 is ensured, as well as prevents the plug 100 from falling out of the plug housing 240 due to external forces.

A special advantage of the in the FIGS. 1 and 2 shown plug connection with a plug 100 according to the invention and a plug housing 210 according to the invention is that the plug guide is divided into a first guide portion 102 and a second guide portion 103. In many applications, especially in the automotive field, a considerable path length of the free cable between the plug and the next attachment point (eg cable ties) occurs, typically about 300 mm. As a result, tensile forces can arise, which mechanically load the connector and thus can cause damage or malfunction. By separating the plug guide into a first guide section 102, which lies in a protected, sealed area, and a second guide section 103, which lies outside the protected area, different concepts and requirements can be taken into account for the two guide sections. In that regard, the inner guide portion may provide a different arrangement of the guide ribs. The second guide portion may, in order to allow the mounting of the cables (eg strands), be mounted after the assembly by a rigid encapsulation. According to the present invention, the second guide portion is made by an overmolding, which causes the connection between the cable, which is connected to the plug, and the actual plug. The guide ribs 106 and 108 are arranged so that in particular tensile forces are absorbed by the cable 101. According to empirically determined values, such plug connections require a guide length which corresponds at least twice to the diameter of the plug face 113. On the other hand, the connector should have the lowest possible height to provide space, eg for underlying pneumatic lines. The relevant diameter of plug face D is measured in the direction in which the load acts. If one takes into account the extent of the 90 ° outlet of the plug and cable, the result is a torque due to the eccentric mass. Accordingly, as a guide ratio, the diameter of the plug face is taken into account in the direction in which the maximum load occurs. For the guide length L, in turn, the starting point of the guide length L1 of the first guide portion 102 on the plug face 113 to be considered until the end of the guide length L2 of the second guide portion, as later with reference to the Fig. 4 is explained. The connector according to the invention, as shown in the FIGS. 1 and 2 is shown, achieved a very large guide ratio of eg L / D = 3, where L is the guide length and D is the diameter of the connector face. This is achieved by providing the inner and outer leadership. The release stroke occupies L2 here, thus corresponds to the guide length L2 of the second guide portion (103).

According to a further advantageous aspect of the present invention, the first guide portion, so the protected inner first guide portion 102, in cross-section smaller than the cross section of the second guide portion 103. This allows a small release stroke when pulling the plug 100 from the connector housing 240, although a large guide length L is realized. This advantage is achieved in that the plug 100 can already be freely removed from the plug housing 240 when the guide sections of the plug are led out of their corresponding guides in the housing 240. Thus, it is only necessary to lead the second guide section 103 out of the corresponding guide area in order to remove the plug entirely from the plug housing 240. The portion of the plug 100 in the first guide portion 102 can move freely due to the smaller cross section in the region of the housing for the second guide portion 103. A small Lösehub is therefore of particular advantage, because it can be prevented that the spatially next cable tie (or similar attachment device) for the cable 101 must also be solved when the plug is pulled.

The plug housings 230 and 220 are configured similarly to the plug housing 240. However, to implement an anticipatory coding, the coding grooves 237 and 227 are offset relative to the coding groove 207. The plug 100 according to Fig.1 Therefore, it can not be inserted into the housing 230, 220.

Fig. 3 shows a top view of a plug 100 according to the invention, as in eg Fig. 1 is shown. In this illustration, the position of the guide ribs 106 and 108 can be clearly seen.

The coding rib 107 is placed exactly centered on the connector housing in this view. For coding purposes, these can each be arranged offset laterally in the present representation so as to realize the already described above leading coding.

Fig. 4 shows a sectional view along the section line AA 'of a plug 100 according to the invention as shown in FIG Fig. 3 , This sectional view shows how the plug 100 fits into the connector housing 240. In the contact area 213 (here is the plug face 113) meet the contacts 413 with corresponding corresponding contact means of the connector housing together. The contacts may be formed as flat contacts. Good to see here is in particular that the diameter D1 of the first guide portion 102 is significantly smaller than the diameter D2 of the second guide portion 103. Also visible is the sealing element 111, which is located above the first protected guide portion 102, and a section through the Locking element 114, which locks the third guide portion 110. Since the guide ribs 106 and 108 with the cross section D2 extend significantly further than the first guide section 102 with the cross section D1, the already explained, low release stroke results when pulling out the plug according to the invention. Also shown here is the ratio of the guide lengths L1 and L2 of the first guide portion 102 and the second guide portion 103 to the entire guide length L. The release stroke is obtained from the guide lengths L1 of the first guide portion and L2 of the second guide portion. Depending on the relationship between these two guide lengths L1 and L2, there is a release stroke which can correspond, for example, to either L1 or L2. In an advantageous embodiment, the release stroke corresponds to the guide length L2.

Fig. 5 shows two further sectional views along the section lines BB 'and C-C', as in Fig. 4 are specified. In Fig. 4 above, the section along the section line BB 'is shown, which again illustrates the arrangement of the guide ribs 106 and 108 to each other. Another guide rib of an adjacent plug according to the invention may be arranged in the guide groove 506. The sectional view along the section line CC 'shows once again the orientation of the relevant cross-section D of the connector face. Accordingly, the determination of the relevant guide ratio of the specified cross section D of the plug face is relevant.

Claims (8)

1. Plug-in connection comprising a plug (100) with a guide and with a plug housing (240) for the plug (100), wherein the plug (100) has a first guide section (102) and a second guide section (103) for guiding the plug in the plug housing (240), wherein the second guide section (103) is spaced further apart from the plug face (113) than the first guide section (102), and the first guide section (102) and the second guide section (103) have respective cross sections which are contoured differently from one another, wherein the guide length (L1) of the first guide section (102) in the insertion direction of the plug and the guide length (L2) of the second guide section (103) in the insertion direction of the plug are configured in such a way that the required release travel for releasing the plug from the corresponding plug housing is smaller than or equal to the guide length (L2) of the second guide section (103), wherein the guide length is in each case the region in which the plug (100) is enclosed in an interlocking manner by the plug housing (240) at least in sections, characterized in that the first guide section (102) is shorter than the second guide section (103), wherein an electrical line (101) in the housing of the plug (100) is angled through 90° and is guided away from the plug (100) at an angle, wherein the plug housing (240) forms a guide for the plug (100), wherein the second guide section (103) is produced by encapsulation by injection moulding which creates the connection between the cable, which is connected to the plug (100), and the actual plug (100).
2. Plug-in connection according to Claim 1, characterized in that the first guide section (102) and the second guide section (103) are spaced apart from one another by a section which does not create any guides in the plug housing (240).
3. Plug-in connection according to either of the preceding claims, characterized in that the second guide section (103) is formed by a plug part which is separate from the first guide section.
4. Plug-in connection according to one of the preceding claims, characterized in that the plug has a smaller maximum cross section (D1) in the first guide section (102) than in the second guide section (103).
5. Plug-in connection according to Claim 1, characterized in that a guide rib (106), which is arranged on the circumferential surface of the plug (100) and runs in the insertion direction of the plug, is provided on the second guide section (103).
6. Plug-in connection according to Claim 4, characterized in that a coding rib (107), which is arranged in an offset manner on the circumferential surface of the plug in such a way that it produces a leading coding of the plug, is provided in the second guide section (103).
7. Plug-in connection according to one of the preceding claims, characterized in that guide grooves (206, 208), which correspond to guide ribs (106, 108) which are provided on the plug (100), are provided in the plug housing (240), wherein the guide grooves (206, 208) are arranged in a second guide section of the plug housing, which second guide section corresponds to the second guide section of the plug (100), and are configured to be open in the insertion direction of the plug.
8. Plug-in connection according to one of the preceding claims, wherein the effective guide length L in a main loading direction in the pulling direction of the cable has a guide ratio of 3 in relation to the diameter D of the plug face.

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