PLUG CONNECTOR FOR FLEXIBLE CONDUCTOR FILMS

Abstract

A plug connector for flexible conductor films having film-insulated conductors, having a plug connector housing, in which at least one plug contact element is arranged, and having a coupling region, in which blades electrically conductively connected to the at least one plug contact element penetrate and fix at least one film-insulating conductor by producing an electrical contact, wherein the plug connector housing comprises two housing parts that can be fitted together, whose first housing part supports the blades and the at least one plug contact element electrically conductively connected to them, and whose second housing part receives and supports the flexible conductor film and has the at least one blade receiver adjusted to the blades, whose boundary surfaces are formed in such a way that at least one part of the blades is bent when fitting the two housing parts together in the direction of the film-insulated conductor, wherein at least one part of the blades is formed flexibly.

Claims

1. A plug connector for flexible conductor films having film-insulated conductors, having a plug connector housing, in which at least one plug contact element is arranged, and having a coupling region, in which blades electrically conductively connected to the at least one plug contact element penetrate and fix at least one film-insulating conductor by producing an electrical contact, wherein the plug connector housing comprises two housing parts that can be fitted together, whose first housing part supports the blades and the at least one plug contact element electrically conductively connected to them, and whose second housing part receives and supports the flexible conductor film and has at least one blade receiver adjusted to the blades, whose boundary surfaces are formed in such a way that at least one part of the blades is bent when fitting the two housing parts together in the direction of the film-insulated conductor, wherein at least one part of the blades has a hollow space, which enables an elastic deformation of the blade edges.

2. The plug connector according to claim 1, wherein the hollow space has a contour adjusted to the shape of the blade.

3. The plug connector according to claim 1, wherein the blades which have a hollow space, are each arranged between the blades which are bent when fitting the two housing parts together in the direction of the film-insulated conductors.

4. The plug connector according to claim 1, wherein the second housing part has a receiving space adjusted to the conductor film, wherein two aligned openings are arranged in two opposite housing walls for receiving the conductor film.

5. The plug connector according to claim 4, wherein the two aligned openings are arranged in such a way that a conductor film arranged in the receiving space comes to rest substantially perpendicularly to the blades.

6. The plug connector according to claim 1, wherein the boundary surfaces of the blade receivers are curved.

7. The plug connector according to claim 6, wherein the boundary surfaces of the blade receivers form gliding surfaces for at least one part of the blades.

8. The plug connector according to claim 7, wherein the boundary surfaces of the blade receivers run in the manner of a funnel in such a way that two blades are bent in relation to each other, while they glide along on the boundary surfaces.

9. The plug connector according to claim 1, wherein the blades are arranged one behind the other in a line in such a way that the film-insulated conductor is cut through at several points when mounting the second housing part on the first housing part.

10. The plug connector according to claim 9, wherein the blades have different lengths, wherein in each case one shorter blade having the hollow space is surrounded by two longer blades in each case, which are spaced apart from one another in such a way and whose length is so great that they come into abutment on the boundary surfaces of a blade receiver.

11. The plug connector according to claim 1, wherein the second housing part has several blade receivers arranged one behind the other in the longitudinal direction of the film-insulated conductors.

12. The plug connector according to claim 1, wherein clamping elements are provided in the first and/or second housing part, which clamp the flexible conductor film in the mounted state of the two housing parts to one another in the region between the film-insulated conductors.

13. The plug connector according to claim 12, wherein the clamping elements are arranged between conductor tracks of the flexible conductor film.

14. The plug connector according to claim 13, wherein the clamping elements are respectively allocated to rows of blades.

15. The plug connector according to claim 12, wherein first clamping elements are arranged in the first housing part and second clamping elements interacting with the first clamping elements are arranged in the second housing part.

16. The plug connector according to claim 15, wherein the first clamping elements are clamping teeth having clamping teeth surfaces extending in the direction of the flexible conductor film, and the second clamping elements are openings adjusted to the clamping teeth and arranged in the second housing element.

17. The plug connector according to claim 16, wherein the clamping teeth have a height in such a way that, in the mounted state of the two housing parts on one another, the flexible conductor film that can be arranged between the first and the second housing part can be deformed in such a way that the deformed regions of the flexible conductor film protrude slightly into the openings arranged in the second housing part.

18. The plug connector according to claim 1, wherein the second housing part is latched with the first housing part in the mounted state.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0036] Exemplary embodiments of the invention are depicted in the drawings and explained in more detail in the description below. Here are shown:

[0037] FIG. 1 a schematic sectional depiction of a plug connector according to the invention for flexible conductor films before mounting the two housing parts;

[0038] FIG. 2 the sectional depiction depicted in FIG. 1 of a plug connector according to the invention after mounting the two housing parts;

[0039] FIG. 3 to FIG. 8, in isometric, partially broken-away depiction, successive steps of the mounting of a flexible conductor film in a plug connector being used by the invention and partially sectional enlargements and

[0040] FIG. 9, in isometric depiction, the complete plug connector depicted in FIG. 3 to 7.

EMBODIMENTS OF THE INVENTION

[0041] A plug connector labelled as a whole with 10 has a housing, which consists of two parts. In a first plug connector housing part 100, plug contacts are arranged in the shape of spring contacts 105 in an inherently known manner. Blades 110, 115 are electrically conductively connected to the plug contacts 105, said blades 110, 115 being arranged one behind the other in a line, wherein in each case one shorter blade 115 is surrounded by respectively two longer blades 110. The shorter blades 115 have an opening 116, through which a flexibility of the blades 115 is achieved, which will be explained in more detail below.

[0042] A second plug connector housing part 200 is formed as a separate part. The second plug connector housing part 200 is formed in such a way that, by inserting into a corresponding opening in the first plug connector housing part 100, it can be fixed on this and latched with this. The second plug connector housing part 200 has an opening 222 on a side wall 220, said opening serving to receive a flexible conductor film 300. An opening 232 is also arranged in the opposite side wall 230, said opening being accessible from the inside of the second plug connector, more exactly from a receiving space 240 arranged inside and adjusted to the conductor film 300. Both openings 222, 232 thus end in the receiving space 240 arranged in the second plug connector housing part and adjusted to the conductor film 300, the size of which receiving space corresponds substantially to the outer dimensions of the conductor film. As can be seen in FIG. 1, in particular, the opening 222 accessible from the outside is introduced into the conductor film, formed in the shape of a funnel in such a way that the introduction of the conductor film 300 into the second plug connector housing part 200 is made easier.

[0043] Moreover, in the second plug connector housing part 200, two blade receivers 210 are provided, which can also be referred to as blade receiving spaces. These blade receivers 210 have boundary surfaces 211, 212 curved in the shape of a funnel, which are spaced apart from one another in such a way that they are adjusted to the spacing of the two longer blades 110, which surround the shorter blade 115. The two longer blades 110, which respectively surround the shorter blade 115, thus “fit”, to some extent, into the blade receiver 210, wherein the longer blades 110 come into abutment with the boundary surfaces 211 or 212. The state before the final mounting of the second plug connector housing part 200 on the first plug connector housing part 100 is depicted in FIG. 1. The mounting now takes place by the second plug connector housing part 200 being pressed in the direction of the first plug connector housing part 100. Here, the blades 110, 115 cut through a film-insulated conductor track of the conductor film and thus contact the conductor film with the plug contact 105. When fitting together, the two outer longer blades 110 surrounding the shorter blades 115 glide on the two boundary surfaces 211, 212 of the blade receivers 210, wherein they are bent in relation to one another, as is depicted in FIG. 2. In the eventually mounted state, in which the second plug connector housing part 200 is locked on the first plug connector housing part 100, the outer blades 110 surrounding the shorter inner blade 115 are bent in relation to each other. Because of this bending, the two outer blades 110 cut in the direction of the conductor film and thus enlarge not only the contact surface, and thus increase the contact safety and also the flow capability, but they are subjected to pretension. In doing so, a pressure is exerted on the contact surfaces and this, in turn, enables a gas-tight contacting. This kind of contacting thus enables an electrical contacting that is resistant to external influences, in particular mechanical loads and that—and this is to be highlighted in particular—can also take place automatically. The shorter inner blades 115 each have a hollow space 116, which enables the blade edges to be pressed together. This hollow space 116 is substantially adjusted to the contour of the blades, such that the blade walls 117 substantially have a thickness that forms equally. As a result of these hollow spaces 116, a flexible formation of the blades 115 is achieved. Here, flexible means that the blades 115 elastically yield under pressure, i.e. can be pressed in the direction of the inside of the hollow space 116. As a result of this flexibility or malleability of the blades 115, in particular with very thin film conductors, which are generated by galvanic deposition of copper and have thicknesses of the conductor tracks or layers ranging from 12 to 70 micrometres, optimum contacting results can be obtained. With this technique, the contacting of two-layer systems is also possible, wherein the layers can be formed as conductor track or shielding layers. As a result of the elastic blades 115, with very thin copper films, a substantially better contacting is obtained than with non-flexible blades.

[0044] In FIG. 3, 4, 5, 7, different steps of the mounting of the flexible conductor film 300 are shown in an isometric and partially broken away depiction. FIG. 9 shows the flexible conductor film 300 in a completely mounted plug connector, i.e. after the fixing of the housing part 200 on the housing part 100 by forming the electrical contacting of film-insulated conductors 310 of the conductor film 300 and fixing the conductor film 300 in the manner described above.

[0045] To achieve a strain relief and a secure fixing of the flexible conductor film 300 in the plug connector housing, formed from the first housing part 100 and the second housing part 200 fastened on this, fastening elements are provided in the first housing part in the form of clamping teeth 410, which have rounded clamping teeth surfaces 415. These clamping teeth 410 are each positioned in the intermediary spaces between the film-insulated conductors 310 in order to clamp the flexible conductor films 300 there. As can be seen in FIG. 3, the film-insulated conductors 310 are arranged one next to the other in the flexible conductor film 300. In each case, blades 110, 115 are allocated to each film-insulated conductor 310 in order to contact and to clamp the film-insulated conductors 310. Here, in each case, clamping teeth 410 are allocated to each row of blades 110, 115. The clamping teeth 410 thus lie between the blades 110, 115, for example in the region of the flexible conductor film 300, in which no film-insulated conductor 310 is arranged. In FIG. 3, in each case four rows of blades 110, 115 and rows of clamping teeth are depicted, which are also arranged one behind the other and run substantially in parallel to the rows of the blades 110, 115.

[0046] Openings 510 respectively allocated to the clamping teeth 410 are arranged in the second housing part 200, said openings being adjusted to the clamping teeth 410 in such a way that the clamping teeth can be received by these openings 510.

[0047] Firstly, the conductor film 300 is mounted in the second housing part 200 by it being introduced in the receiving space 240 in the manner described above. This is schematically depicted in FIG. 4.

[0048] Then, the second housing part 200 is moved in the direction of the first housing part 100. Here, the electrical contacting is produced in the manner described above by the blades 110, 115 penetrating the film-insulated conductor tracks 310 and then being bent in the direction of the film-insulated conductors 310, i.e. in the conductor direction.

[0049] This step is schematically depicted in FIG. 5. FIG. 6 shows an enlargement of the cut-out labelled with VI in FIG. 5. In particular in this enlarged cut-out, it is depicted how the clamping teeth surfaces 415 of the clamping teeth 410 are formed tapering upwards in the manner of a roof. Of course the invention is not limited to this; rounded clamping teeth or those tapering upwards in a different manner can be also be provided. This tapering serves for the optimum clamping of the flexible conductor film 300. This clamping is schematically shown in FIG. 7 and FIG. 8, which depicts an enlargement of the cut-out labelled with VIII in FIG. 7.

[0050] FIG. 7 shows the completely mounted plug connector with flexible conductor film 300. The isometric depiction shows how the clamping teeth 410 having their regions 415 tapering upwards marginally deform the conductor film 300, wherein the deformed regions 333 protrude somewhat into the openings 510, which are provided in the second housing part 200. To do so, the clamping teeth 410 have a height, which is measured in such a way that, in the mounted state of the two housing parts to each other, the flexible conductor film 300 arranged between the first and second housing part is deformed in such a way that the deformed regions 333 of the flexible conductor film 300 protrude slightly into the openings 510, as is depicted in FIGS. 7 and 8. This kind of clamping takes place regularly distributed over the entire conductor film 300, whereby a very stable fastening of the conductor film 300 emerges by forming a strain relief.

[0051] The plug connector eventually mounted in its complete state, i.e. without partially cut-away regions, is depicted in FIG. 9.

[0052] The interaction of the contacting by the blades 110 as well as the flexible blades 115 with the clamping by the clamping teeth 410 enables a very good, reliable, durable and stable fixing and contacting of a flexible conductor film in a plug connector with a simple mounting.