Direct plug-in element with integrated locking mechanism

Abstract

The invention relates to a direct plug-in element comprising: a plug housing (3), a direct contact (4) with a contact tongue (5), the contact tongue (5) having at least one contact section (50) for directly contacting an exposed contact area on a counterpart, and a catch device (6) for an interlocked connection between the plug housing (3) and the direct contact (4), in order to retain the direct contact (4) in the plug housing (3), the direct contact (4) being arranged in the plug housing (3), the contact tongue (5) having a first and second flat side (52, 53) and a first and second narrow side (54, 55), the catch device (6) comprising a first catch element (60) on the direct contact (4) and a second catch element (61) formed on the plug housing (3) complementary to the first catch element (60), the first catch element (60) being arranged on one of the flat sides (52, 53) of the direct contact (4), and the contact section (50) being arranged on one of the narrow sides (54, 55) of the contact tongue (5).

Claims

1. A direct plug-in element, comprising: a plug housing (3), a direct contact (4) having a contact tongue (5), wherein the contact tongue (5) has at least one electrical contact portion (50) for directly contacting an exposed electrical contact region on a counterpart within the plug housing, and a latching mechanism (6) for a latching connection between the plug housing (3) and the direct contact (4) in order to keep the direct contact (4) in the plug housing (3), wherein the direct contact (4) is arranged in the plug housing (3), wherein the contact tongue (5) has a first and second flat side (52, 53) and a first and second narrow side (54, 55), wherein the latching mechanism (6) has a first latching element (60) on the direct contact (4) and a second latching element (61), which is formed in a complementary manner to the first latching element (60), on the plug housing (3), wherein the first latching element (60) is arranged on one of the flat sides (52, 53) of the direct contact (4) and wherein the contact portion (50) is arranged on one of the narrow sides (54, 55) of the contact tongue (5), wherein the contact portion (50) is formed by a contour region (5C) of an outer contour (5B) of the contact tongue (5), and wherein an end portion (5D) of the contour region (5C) is bent round by 180 in the plane of one of the flat sides (52, 53).

2. The direct plug-in element as claimed in claim 1, characterized in that the contact tongue (5) has a first and a second contact portion (50, 51), wherein in each case one of the contact portions (50, 51) is arranged on one of the narrow sides (54, 55) of the contact tongue (5).

3. The direct plug-in element as claimed in claim 2, characterized in that the contact tongue (5) is formed in a curved manner and has resilient characteristics in a direction of the latching mechanism (6).

4. The direct plug-in element as claimed in claim 3, characterized in that the first latching element (60) is arranged on a convex region (5A) of the curved contact tongue (5).

5. The direct plug-in element as claimed in claim 4, characterized in that the latching mechanism (6) is releasable.

6. The direct plug-in element as claimed in claim 5, characterized in that the plug housing (3) has an end-face opening (3A).

7. The direct plug-in element as claimed in claim 1, characterized in that the contact tongue (5) is formed in a curved manner and has resilient characteristics in a direction of the latching mechanism (6).

8. The direct plug-in element as claimed in claim 1, characterized in that the latching mechanism (6) is releasable.

9. The direct plug-in element as claimed in claim 1, characterized in that the plug housing (3) has an end-face opening (3A).

10. The direct plug-in element as claimed in claim 1, characterized in that the direct contact (4) is aligned substantially in a direction of a cable (8) which is fixed on the direct contact (4).

11. An electric arrangement, comprising the counterpart with exposed contact regions and the direct plug-in element as claimed in claim 1.

12. The direct plug-in element as claimed in claim 1, characterized in that the direct contact (4) is aligned substantially in a direction of a cable (8) which is fixed on the direct contact (4).

13. The direct plug-in element of claim 1, wherein the contact portion protrudes laterally parallel to the plane of one of the flat sides.

14. A method for producing a direct contact (4) comprising a contact tongue (5) with at least one electrical contact portion (50, 51) configured to directly contact an exposed electrical contact region on a counterpart within a plug housing, and one latching element (60), said method comprising the steps: punching out an outer contour (5B) of the direct contact (4) from a strip material (10) and punching or embossing a region (60A) for the latching element (60) on a flat side (53) of the direct contact (4), wherein the direct contact (4) is still suspended from a balance of the strip material (10), producing the contact portion (50, 51) by bending round an end portion (5D) of at least one contour region (5C) of the outer contour (5B) by 180 in the plane of one of the flat sides (52, 53), producing the latching element (60) by pressing out the region (60A), rotating the direct contact (4), which is still suspended from the balance of the strip material (10), about an angle with respect to the balance of the strip material (10) such that the contact portion (50, 51) protrudes out of a strip material plane (E), coating the contact portion (50, 51) of the direct contact (4) with an electrically conductive material, and forming a portion of the direct contact in a curved manner such that the latching element is arranged on a convex region of the direct contact.

15. The method as claimed in claim 14, characterized in that the angle is 90.

16. A method for producing a direct contact (4) comprising a contact tongue (5) with at least one electrical contact portion configured to directly contact an exposed electrical contact region on a counterpart within a plug housing, and one latching element (60), said method comprising the steps: embossing a dome-like recess (5E) in a strip material (10), punching out an outer contour (5B) of the direct contact (4) from the strip material (10), the outer contour including a contour region (5F) in which the recess (5E) is embossed, and punching out a region (60A) for the latching element (60) on a flat side (53) of the direct contact (4), punching out the recess (5E) from the strip material, producing the at least one electrical contact portion by bending round the contour region (5F) by 180 in the plane of one of the flat sides (52, 53), rotating the direct contact, which is still suspended from the balance of the strip material (10), about an angle with respect to the balance of the strip material (10) such that the contact portion (50, 51) protrudes out of a strip material plane (E), coating the contact portion (50, 51) of the direct contact (4) with an electrically conductive material, and forming a portion of the direct contact in a curved manner such that the latching element is arranged on a convex region of the direct contact.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) An exemplary embodiment of the invention is described below with reference to the accompanying drawing, in which, in detail:

(2) FIG. 1 shows a schematic sectional view of a direct plug-in element of a preferred exemplary embodiment of the invention in the non-latched state,

(3) FIG. 2 shows a schematic sectional view of the direct plug-in element of FIG. 1 in the latched state,

(4) FIG. 3 shows a schematic sectional view of the direct plug-in element of FIG. 1 during a dismantling operation,

(5) FIG. 4 shows a schematic top view of a contact tongue of the direct plug-in element of the invention of FIG. 1,

(6) FIG. 5 shows a schematic side view of the contact tongue of the direct plug-in element of the invention of FIG. 4,

(7) FIG. 6 shows a schematic front view of the contact tongue of the direct plug-in element of the invention of FIG. 4,

(8) FIG. 7 shows a schematic representation of a first possibility for producing a direct contact of the direct plug-in element of the invention,

(9) FIG. 8 shows a schematic representation of producing the direct contact in an alternative manner and

(10) FIGS. 9 to 11 show schematic representations of operating steps for producing a direct contact of the method of the invention.

DETAILED DESCRIPTION

(11) A direct plug-in element 2 of a preferred exemplary embodiment of the invention is described in detail below with reference to FIGS. 1 to 7.

(12) As can be seen from FIG. 1, the direct plug-in element 2 includes a plug housing 3 and a direct contact 4 which is arranged in the plug housing 3. In addition, a latching mechanism 6 is provided for a latching connection between the plug housing 3 and the direct contact 4 in order to keep the direct contact 4 in the plug housing 3. The direct contact 4 has a curved contact tongue 5 which has resilient characteristics and is connected to a cable 8 by means of a fastening portion 7. The contact tongue 5 has first and second flat sides 52 and 53 (see FIG. 6) as well as first and second narrow sides 54, 55 (see FIG. 4). The latching mechanism 6 has a first latching element 60 which is arranged on the second flat side 53 on a convex region 5A of the curved contact tongue 5 (as is also illustrated in FIG. 5). The latching element 60, in this case, is connected rigidly to the curved (elastically deformable) contact tongue 5. In addition, the latching mechanism 6 has a second latching element 61, which is formed in a complementary manner to the first latching element 60 and is realized on the plug housing 3.

(13) In addition, a first contact portion 50 is arranged on the first narrow side 54 of the contact tongue 5. As can be seen in detail from FIG. 4 and FIG. 6, a second contact portion 51 is arranged on an opposite second narrow side 55. The first and second contact regions 50, 51, in this connection, contact exposed first and second contact regions 21, 22 on a counterpart 20, which is represented by a broken line and in this exemplary embodiment is a printed circuit board. The direct plug-in element 2 and the printed circuit board form an electric arrangement 1 of the invention.

(14) When the direct contact 4, when fitted in the insertion direction P as shown in FIG. 2, is pushed into the plug housing 3, the curved resilient contact tongue 5 is deformed elastically at right angles to the insertion direction P in such a manner that the first latching element 60 of the direct contact 4 slides in the insertion direction P over the second latching element 61 which is arranged on the plug housing 3 and latches automatically with said second latching element.

(15) As can be seen from FIG. 3, the latching connection between the plug housing 3 and the direct contact 4 is able to be released again by means of a dismantling tool 9. To this end, the dismantling tool 9 is pushed into an end-face opening 3A of the plug housing 3 and the first latching element 60 on the contact tongue 5 is lifted at right angles to the insertion direction P over the second latching element 61. The direct contact 4 can then be pulled out of the plug housing 3 again on the fastening portion 7 or on the cable 8 in opposition to the insertion direction P.

(16) By means of the latching mechanism 6, which is integrated in the direct plug-in element 3 of the invention, an automatic locking mechanism or latching mechanism is realized in a simple manner by virtue of the inherent form of the direct contact 4 or of the plug housing 3 with a minimized number of identical parts which can be produced in a cost-efficient and economic manner. In particular, no separate spring element is necessary for latching. Along with a compact design, the achievement above all, as a result, is substantial simplification or acceleration of the fitting operation during production. In addition, tool costs and logistics applications are clearly reduced as a result.

(17) To produce the direct contact 4, as shown in FIG. 7, an outer contour 5B of the contact tongue 5 with two opposite contour regions 5C is first of all punched out from a plane E of a metal strip material 10 (given the reference 4 in FIG. 7). At the same time, a region 60A for the latching element 60 on the flat side 53 of the direct contact 4 is embossed or as an alternative punched in a U-shaped manner.

(18) An end portion 5D of the respective contour region 5C is then bent round by 180 in the plane E (given the reference 4 in FIG. 7). The latching element 60 is subsequently produced by pushing the punched or embossed region 60A out from the flat side 53. As an option, in the event of the latching element being formed by punching, all the punched edges of the contact tongue 5 can also be round embossed. This results in the contact tongue 5 with the bent-around contact regions 50, 51 which project laterally out of the flat side 53 (given the reference 4 in FIG. 7, cf. also FIG. 6). Said produced direct contacts 4 are still connected to a balance of the strip material 10 by means of the fastening portion 7 and can thus be rolled up for example for transport. The direct contacts 4 only have to be separated from the balance of the strip material 10 for the final assembly.

(19) As illustrated in FIG. 8, as an alternative to the above-described production, it is also possible to emboss dome-like recesses 5E in the strip material 10 first of all. The outer contour 5B, the region 60A of the latching element 60 as well as recesses 5E which are embossed in oppositely arranged contour regions 5F are then punched out, the cross sectional form also shown on the left-hand side in FIG. 8 being the result. In a following operating step, the contour regions 5F are then bent around by 180 and the contact tongue 5 is consequently produced. Defined contact portions 50, 51 can be produced by means of the embossing.

(20) A method of the invention for producing the direct contact 4 is described below with reference to FIGS. 9 to 11.

(21) The direct contact 4 including the contact tongue 5 with the contact portions 50, 51 as well as the latching element 60 is produced, as shown in FIG. 9, with first operating steps which are identical to those of the production which has been described beforehand with reference to FIG. 8. However, in this connection, the punched outer contour 5B of the contact tongue 5 is realized such that along with the fastening portion 7 another connecting tongue 10A is provided, by means of which the contact tongue 5 is connected to a balance of the strip material 10 of the strip material 10, whilst the fastening portion 7 has already been separated off. In a subsequent operating step, the contact tongues 5, which are still suspended from the balance of the strip material 10 of the strip material 10, as illustrated in FIG. 10, are rotated (arrow R) by an angle, preferably 90, in relation to the balance of the strip material such that the contact portions 50, 51 protrude at right angles out of the plane E of the strip material 10.

(22) As shown in FIG. 11, the contact portions 50, 51 are then coated in an electroplating cycle, for example using a roll-brush method, by means of coating rollers 100 with an electrically conductive material, such as for example nickel, tin or gold. As an alternative to this, said operating step can also be omitted if the strip material 10 used for example already has partially gold-plated portions at the positions of the contour regions 5F or the recesses 5E to be punched. As an alternative to this, it is also possible to rotate the contact tongues 5, which are suspended from the connecting tongues 10A, back by 90 in an additional operating step. As a result, the balance of the strip material 10 of the strip material 10 including the contact tongues 5 can be rolled up and stored in a simple manner or can be transported for subsequent separating when fitting the direct plug-in elements 2.

(23) In addition, the production of the direct plug-in element of the invention also enables assembly in a plug with a plurality of direct plug-in elements, adjacent direct plug-in elements being able to be fitted in each case alternately rotated by 180 about their longitudinal axis. In this case, it is possible for only one contact portion 50, 51 to be in contact in each case. In the case of this type of alternating fitting, in each case the fastening portion 7 of adjacent direct plug-in elements 2 would be located on the plug alternately at the top and at the bottom. This is a great advantage, in particular where the plug is miniaturized, as small grids are made possible as a result.