EP1831965A1

EP1831965A1 - Sealing element for flexible flat cables (ffc), fpc and other flat lines with or without round conductors

Info

Publication number: EP1831965A1
Application number: EP05800661A
Authority: EP
Inventors: Gerhard Peter; Markus Kreuter
Original assignee: Hirschmann Automotive GmbH
Current assignee: Hirschmann Automotive GmbH
Priority date: 2004-10-16
Filing date: 2005-10-14
Publication date: 2007-09-12
Also published as: DE102005040941A1; WO2006040183A1; US20080045066A1; WO2006040183A8

Abstract

The invention relates to a sealing element (7) which can be fastened on at least one conductor (2, 4, 6) of at least one line (1, 3, 5) or the line (1, 3, 5) itself and which can be inserted into a housing (12). According to the invention, the sealing element (7) is provided with openings (8, 9, 10) for receiving the conductors (2, 4, 6). The sealing element (7) can be inserted, with or without the mating contact or line (1, 3, 5), into the housing and fastened therein before or after it is positioned on the conductors (2, 4, 6).

Description

Hirschmann Automotive GmbH, Rankweil-Brederis, Austria

DESCRIPTION

Flexible Fiat Cable (FFC), FPC and other Flat Leads with and without round conductors

The invention relates to a sealing element, in particular for a plug or a socket of a plug connection for use in automotive engineering, according to the features of the preamble of claim 1.

Plugs or sockets of connectors for use in the automotive industry are known, wherein at least one conductor which is electrically conductive, a line is present, wherein at the end of the electrical conductor in each case a contact partner is arranged in a contact chamber of a housing of the plug or Bush can be inserted and fixed there. In these known plugs or sockets is then an encapsulation of the end portion of the line and a portion of the housing with a sealing material to ensure that in the plugged and unplugged state of the plug or the socket penetration of ambient media (especially moisture or dirt) between the conductor and the line, the conductor and the housing and the line and the housing is avoided. If correspondingly produced plugs and sockets are plugged together to form a complete plug connection, the longitudinal water-tightness required in automotive engineering is achieved. As a result, a safe and proven, especially tight connector system is given. A disadvantage of this, however, is the high production costs, since for the encapsulation with the sealing material a suitably trained manufacturing plant must be present, their tools and their operation is costly. In addition, the once set plants limit the flexibility, so that a lot of effort in the production line of the plug or the socket is required to

RFSTATIfil INΩSKDPIF Changes (eg when the number of electrical conductors decreases or increases) perform.

The invention is therefore based on the object to provide a sealing element of a connector that still meets the requirements for Längswasserdich¬ activity in the plugged and unplugged state and reduces its effort in the production and manufacturing flexibility is increased.

This object is solved by the features of claim 1.

According to the invention, a sealing element is provided with openings for receiving the conductors, wherein the sealing element before or after arranging the Kontakt¬ partner on the electrical conductors mounted on the line and inserted into the housing and can be fixed there. Thus, a single sealing element is provided, which assumes a sealing effect between the housing and the electrical conductors or the electrical line. Thus, both the longitudinal water-tightness and the seal is given to the housing out. Since the sealing element is a separate part, it can be manufactured independently of the other components of the plug or the socket and installed manually or automatically when assembling the components in a production line. The geometries of the sealing element are chosen so that a secure seal between the housing on the one hand and the electrical conductors or the electrical line on the other hand is given.

In a further development of the invention, the sealing element can be produced from an elastically deformable material. This has the advantage that when arranging the sealing element on the electrical conductors or the electrical line on the one hand and the onset of the sealing element in the housing of the plug or the sleeve on the other hand, the sealing element deformable, in particular permanently, is deformed, so that thereafter constantly a pressure is maintained between the sealing element and the housing or the electrical conductor or the conduit, which leads to the desired housing and Längswas¬ serdichtigkeit. In addition, this tolerances are compensated. to Achieving the elastic deformation and the resulting permanent pressure effect is provided that the outer cross section of the sealing element is slightly larger than the inner cross section of the housing. This causes the sealing element is compressed when inserted into the housing and thus comes to rest anywhere on the housing of the plug or socket. Additionally or alternatively, it is provided that the cross section of the openings in the sealing element corresponds to the cross section of the line or the cross section of the conductor and is selected to be slightly smaller than this. This ensures that the sealing element conforms to the at least one electrical conductor and / or the line and thus also the housing and longitudinal water-tightness is realized between these two.

Overall, therefore, the sealing element according to the invention has the advantages that both a manual and an automatic assembly of the sealing element is possible. In the automatic assembly of the sealing element, this step is very well integrated into a production line, so that expensive tools for the produc- tion of a sealing element can be omitted. Typically, a cable with several conductors are used, such as flat cable (FFC: Flexible Fiat Cable, FPC: Flexible Printed Circuit), grid lines or individual lines, eg with stranded conductors. These usually have a predetermined distance (pitch) between the individual conductors. The seal according to the invention has the advantage here that the grid dimension is not limited by the sealing element. Depending on the embodiment (in particular diameter) of the electrical conductor or the electrical line and the grid dimension and the number of electrical conductors, the sealing element can be prefabricated accordingly. Here it is conceivable to prefabricate several sealing elements with a different number of openings, wherein in the assembly of the plug or the socket always that sealing element is used which has openings with the same number as the number of electrical conductors. Here it could still be thought to use for differentiating different sealing elements, for example, different colors. Further embodiments of the invention are disclosed in the subclaims, described below and explained with reference to the figures, wherein the invention is not limited to these exemplary embodiments.

Show it:

FIGS. 1 to 3: the basic embodiment of a plug or a socket,

FIGS. 4 to 6: the manufacturing method of a jack with ribbon cable,

Figures 7 to 9: an embodiment of a sealing element.

As far as shown in detail, FIGS. 1 to 3 show the basic embodiment of the sealing element according to the invention. It is shown that different lines can be used side by side. As a rule, this serves to visualize the invention, whereby in embodiments only one type of line is used. However, the mixing equipment shown in FIGS. 1 to 3 is not excluded in practice.

The reference numeral 1, a ribbon cable 1 (FFC or FPC) is shown, the parallel and spaced from each other extending electrical conductor 2 (Flachband¬ conductor). Additionally or alternatively, the use of a Rastersteglei¬ device 3 is conceivable, which also has parallel and spaced from each other extending electrical conductor 4. These electrical conductors 4 are formed for example as strands. In addition, in addition or alternatively, the use of a single line 5 is conceivable, which also has an electrical conductor 6, which is for example also designed as a stranded conductor. The shown and described lines 1, 3, 5 thus thus have a plurality of electrical conductors, 2, 4, 6, which are externally surrounded by insulation. According to the invention, a sealing element 7 is now provided which has openings 8, 9, 10, these openings 8, 9, 10 corresponding approximately to the cross section of the electrical conductors 2, 4, 6. For example, it can be seen that the openings 8 have an approximately rectangular cross-section which corresponds to the cross section of the electrical conductor 2 of the ribbon cable 1. This prefabricatable and in particular of an elastically deformable material producible sealing element 7 is pushed over the end region of the lines 1, 3, 5 and fixed there in a predetermined position. Before or after the sliding of the sealing element 7 on the at least one line end is exposed (stripping) of the electrical conductors 2, 4, 6th

FIG. 2 shows that the sealing element 7 has been pushed onto the lines 1, 3, 5 and fixed there. This positional fixation can take place, for example, in that the cross-section of the openings 8, 9, 10 is selected to be somewhat smaller with an elastically deformable sealing element 7 than the cross-section of the lines 1, 3, 5 and / or the electrical conductors 2, 4, 6, wherein it is additionally or alternatively conceivable that the sealing element 7 is fixed in its position by further measures (eg gluing). After (or alternatively before) the sealing element 7 has been pushed onto the electrical lines 1, 3, 5, in this embodiment, a striking of Kontakt¬ partners 11, ie, the arrangement and electrical contacting of Kontaktpart¬ ner 11 to the electrical conductors 2, 4, 6. This is done by means of known Verbin¬ training techniques, such as Soldering, welding, crimping or the like.

FIG. 3 shows that the end region of the lines 1, 3, 5 shown in FIG. 2 is provided with a housing 12, the housing 12 having prefabricated contact chambers 13. The prefabricated according to Figure 2 end portion is inserted into the housing 12 so that the contact partners 11 are inserted into the contact partners 13 and fixed there (locked). In this case, the sealing element 7 is also introduced completely or at least partially into the housing 12, wherein the housing 12 has an inner contour corresponding to the outer contour of the sealing element 7. After this last step, the socket shown in Figure 3 (the contact partners 11 are for this purpose as a socket elements formed), whereby the desired housing and Längswasserdichtig¬ speed is produced by the sealing element 7, which on the one hand to the housing 12 and on the other hand to the lines 1, 3, 5 and the conductors sealingly to the plant. If the socket produced in this way is plugged into a plug connection with an analogue-made plug (for which the contact partners are then designed as plug pins), the longitudinal water-tightness is ensured over the entire longitudinal extension of the plug connection and the lines connected thereto, so that at no point in the lines or the connector environment media can penetrate into the contact area.

FIGS. 4 to 6 again show and describe the entire sealing system and its mounting on the basis of a socket for a ribbon cable. In Figure 4, the prepared end of the ribbon cable 1 with its exposed conductors 2 and the prefabricated sealing element 7 can be seen. FIG. 5 shows that the sealing element 7 has been pushed over the prepared end of the flat band cable 1 and fixed there. For this purpose, in the preceding step, the electrical conductors 2 of the ribbon cable 1 have been freed on such a length of its isolation, that once the contact partner 11 can be posted to the electrical conductor, which takes place in particular by means of a crimp connection 14. This crimp connection 14 has the significant advantage that it is durable and gas-tight, in order to avoid transition resistances or interruptions during the life of the finished socket. On the other hand, the crimp connection 14 has the advantage that no heat is required, so that the adjacent sealing element 7 is not damaged. If the contact partners contacted before pushing the sealing element 7 to the conductor, this can also be accomplished by crimping, soldering or welding. The sealing element 7 is thus protected from the heat by soldering or welding. The sealing element 7 has in turn been pushed over to a part on the belt cable 1 (more precisely about its isolation) and on the other hand via the electrical conductors 2 and nestles there. The prepared according to Figure 5 end portion of the ribbon cable 1 is now, as shown in Figure 6, inserted into the housing 12 of the socket, so that the contact partners 11 in the contact chambers 13 of the housing 12th be determined. In the region of the housing 12 facing away from the contact chambers 13, this is designed to receive the sealing element 7, so that even there the sealing element 7 conforms to the inner contour of the housing 12. The sealing effect between the sealing element 7 on the one hand and the housing 12 and the ribbon cable 1 on the other hand may, but need not, by an adhesive bond (for example, adhesive film on one of the participating elements or both), by the application of an oil, a grease or the like can be improved. For example, a silicone seal already contains an oil film, thereby significantly improving the sealing effect.

In FIGS. 7 to 9, a particularly advantageous embodiment of a sealing element 7 is shown and described. Figure 7 shows a sealing element 7 in cross section, wherein different lip seals 15, 16, 17 can be seen, which are formed in the manufacture of the sealing element 7. The outer contour of the sealing element 7 is provided with at least one, in particular a plurality, parallel lip seals 15 which point in the direction of the housing 12. These lip seals are present at right angles or obliquely on the surface of the sealing element 7 and are deformed upon insertion of the sealing element 7 in the housing 12, so as to produce the sealing effect. Additionally or alternatively, in the inner region of the sealing element 7 (in the region of an opening 8, 9, 10) there are lip seals 16, 17, which are likewise arranged vertically or obliquely. The lip seals 16 point in the direction of the electrical conductors 2, 4, 6 and the lip seals 17 point in the direction of the leads 1, 3, 5. The material and the shape of the lip seals 15, 16, 17 and their material chosen so that they are permanently deformed when placing the sealing element 7 on the electrical line, 1, 3, 5 or when inserted into the housing 12. Thus, the sealing element 7, for example, have an elastically non-deformable core on which the elastically deformable lip seals 15, 16, 17 are arranged. In a particularly advantageous manner, however, the entire sealing element 7, including its lip seals 15, 16, 17, consists of an elastically deformable material, so that a single part can be produced. The lip seals 17 are designed so that they come to rest on the electrical line 1 (Figure 8) and also fill the intermediate areas between the electrical lines (lip seals 17). Figure 9 shows the sealing element 7, which has been pushed onto the end region of the line 1, wherein then the arrangement of the contact partner 11 is carried on the electrical conductor 2. Here, the tightness within the sealing element 7 is already made, the longitudinal water-tightness outside of the sealing element 7 is realized by its insertion into the housing 12. For fixing the position of the sealing element 7 within the housing 12, this has an abutment 18 which cooperates with one of the lip seal 15. The abutment 18 may alternatively or additionally also be intended only for the contact partner. After the sealing element 7 has been inserted into the housing 2, it either disappears completely in the housing 12 or protrudes outwards to some extent, in order to thus also ensure a kink protection. 8, it must be added that one of the plurality of abutments 18 can be arranged in the region (insertion region) of the housing 12, but these can preferably not necessarily correspond with the lip seals 5 of the sealing element 7.

While electrical wiring was described in the foregoing description, the sealing system of the present invention is also applicable to other types of wiring (e.g., optical fibers), taps, housings of electrical or electronic equipment, and the like. A limitation of the application of the particular sealing element according to the invention on plugs or sockets is not provided.

The invention particularly relates to a sealing element for the following applications:

1. Flat cables (FFC, FPC, etc.) and should also be usable for single-pole cables.

2. The combination of several ladders is also possible. 3. Various types of conductors (flat cable, Rasterstegleitung, wire, wire, etc.) summarized in a sealing element is also possible.

4. It is ideal if the combination of identical lines such as stranded cables can be realized.

LIST OF REFERENCE NUMBERS

1. Ribbon cable

2. electrical conductor

3. Raster ridge line

4. electrical conductor

5. Single line

6. electrical conductor

7. sealing element

8. Implementation

9. Implementation

10. Implementation

11. Contact partner

12. Housing

13. contact chamber

14. crimp connection

15. Lip seal (on housing side)

16. Lip seal (on electrical conductor)

17. Lip seal (on ribbon cable)

18. abutment

Claims

PATENT APPLICATIONS

1.

Sealing element (7), fastened on at least one conductor (2, 4, 6) at least one line (1, 3, 5) or the line (1, 3, 5) itself and insertable into a housing (12), characterized in that the sealing element (7) is provided with openings (8, 9, 10) for receiving the conductors (2, 4, 6), the density element (7) being arranged on the electrical conductors (2, 4, 6) before or after the arrangement ) or the line (1, 3, 5) in the housing (12) can be inserted and fixed there.

Second

Sealing element (7) according to claim 1, characterized in that the sealing element (7) before or after arranging the contact partners on the conductors (2, 4, 6) on the line (1, 3, 5) can be pulled.

Third

Sealing element (7) according to claim 1 or 2, characterized in that the

Sealing element (7) made of an elastically deformable material can be produced.

4th

Sealing element (7) according to claim 1, 2 or ^~ 3, characterized in that the cross section of the openings (8, 9, 10) the cross section of the line (1, 3, 5) or the cross section of the conductors (2, 4, 6 ) and slightly smaller than this is selected.

5th

Sealing element (7) according to one of the preceding claims, characterized gekenn¬ characterized in that the outer cross section of the sealing element (7) is slightly larger than the inner cross section of the housing (12).

6th

Characterized in that the sealing element (7) has at least one lip seal (15, 16, 17).

7th

Sealing element (7) according to claim 6, characterized in that the at least one lip seal (15) is designed pointing vertically or obliquely in the direction of the housing (12) and comes to rest thereon.

8th.

Sealing element (7) according to claim 6, characterized in that the at least one lip seal (16) is designed pointing vertically or obliquely in the direction of the conductor (2, 4, 6) and comes to rest thereon.

9th

Sealing element (7) according to claim 6, characterized in that the at least one lip seal (17) is designed pointing vertically or obliquely in the direction of the line (1, 3, 5) and comes to rest thereon.

10th

Sealing element (7) according to claim 5, 6, 7, 8 or 9, characterized in that the housing (12) has at least one abutment (18) for the at least one lip seal (15, 16, 17).

11th

Sealing element (7) according to one of the preceding claims, characterized by the application between a housing (12) of a plug or a socket and a usable there line (1, 3, 5) with conductors (2, 4, 6). wherein at the end of the conductors (2, 4, 6) in each case a contact partner (11) is arranged, which is insertable and fixable in a contact chamber (13) of the housing (12),