EP3446366A1 - Plug contact - Google Patents

Abstract

The invention relates to a plug contact (1) for electrically contacting a printed circuit board (2) by plugging the plug contact (1) into a contact hole (3) of the printed circuit board (2), comprising two contact limbs (4, 5) which are elastic relative to each other, a terminal region (6), and a connection region (7). The connection region (7) connects the two contact limbs (4, 5) together and to the terminal region (6), and the plug contact (1) is punched out of a flat metal material and is bent. The plug contact (1) according to the invention ensures multiple plugging and pulling cycles without the inner wall (9) of the contact hole (3) being damaged in that each of the two contact limbs (4, 5) has a contacting region (4a, 5a) which contacts the contact hole (3) in the plugged-in state. The outer contour (8) of each of the two contact limbs (4, 5) has the shape of a segment of a circle in a cross-sectional view in the contacting region (4a, 5a), and the radius of the outer contour (8) is smaller than the radius of the corresponding contact hole (3) of the printed circuit board (2).

Description

 plug contact

The invention relates to a plug contact for making electrical contact with a printed circuit board by inserting the plug contact into a contact hole of the printed circuit board, with two relatively resilient contact legs, a connection region and a connection region, wherein the connection region connects the two contact legs with each other and with the connection region, and wherein the plug contact is formed of a metallic sheet.

In addition, the invention also relates to an electrical connection terminal with a housing, with a conductor connection element and with a conductor rail piece, wherein a conductor to be connected by means of the conductor connection element with the conductor rail piece is electrically conductively connected and wherein in the housing a conductor insertion opening for insertion of an electrical conductor to be connected is formed ,

Plug contacts for the production of electrical connections between conductors, various electrical or electronic components and busbars are known in various embodiments and for various applications. The plug contacts are plugged into corresponding Aufhahmekontakte or socket elements, which may be, for example, openings in busbars in the Aufhahmekontakten. The plug contacts themselves can be connected to electrical components or be provided for connection to electrical conductors, for which purpose then the connection region of the plug contacts is designed accordingly.

There are various techniques for the connection between a printed circuit board and an electrical component or the connection of a conductor to a printed circuit board, with soldering and press-fitting in particular having become established in practice. Both techniques have proven themselves over the years, as they ensure a good and lasting electrical contact between the contact partners. A disadvantage of both soldering and pressing in is that both joining techniques are not reversible, so that once a compound is not prepared - or only with increased effort - can be separated again. In addition, additional work steps and / or special tools are required to make the connection. Here, connectors that have been used in other applications for decades, an alternative, since the compound is easily made by hand and also can be separated again when needed, so it is reversible.

Also electrical terminals are known in a variety of variants for decades. The connection terminals can be designed, for example, for connecting an electrical conductor or a plurality of conductors to a printed circuit board as a so-called print terminal, for which purpose the connection terminals have corresponding contact pins which are pressed or soldered into corresponding holes in the printed circuit board. As a conductor connection element may for example be provided a tensile sleeve, which is part of a screw and through which a conductor to be connected to the busbar piece can be electrically connected. Likewise, the conductor connection element may also be formed as a crimp terminal, to which the stripped end of a conductor to be connected can be fastened, wherein the crimp connection is then formed at one end of the conductor rail piece and the contact pin at the other end of the conductor rail piece. A cutting connection, in which an insulated end of a conductor is pressed into the cutting edges of the cutting connection, is also possible as a conductor connection element. In addition, clamping springs can also be used as conductor connection elements, wherein both loop-shaped clamping springs, so-called spring-loaded terminals, and U-shaped or V-shaped clamping springs are used. In U-shaped or V-shaped clamping springs, rigid conductors or conductors provided with a wire end sleeve can be inserted directly, ie without the clamping point having to be opened beforehand with a tool. In the known U-shaped or V-shaped clamping springs, the conductor to be connected is pressed by the clamping leg of the clamping spring against the busbar piece, whereby the electrical connection between the conductor and the busbar piece is produced. For connecting flexible conductors, the clamping point between the clamping leg and the conductor rail piece must be opened, for which purpose an actuating element is provided in the housing. tion opening for importing a tool, for example, the tip of a screwdriver is formed. The Betätigungsöffhung also serves to open the terminal point to pull a connected conductor back out of the terminal can.

From practice for some time designed for use with circuit boards plug contact is known, which is designed in the manner of a fork and has two flat, relatively resilient contact legs, which are connected to each other via a common connection area. The plug contact is punched out of a metallic flat material and bent, wherein for the production of the two contact legs a narrowest possible area between the contact legs is punched out. In the inserted state, the contact legs each press with their two outer edges against the inner wall of the contact hole into which the plug-in contact is inserted. The contact region opposite the terminal region is formed as a crimp, so that in each case a conductor can be connected to a plug contact.

A terminal with a plurality of plug contacts described above is known from DE 10 2011 011 017 AI. The individual plug contacts are arranged in several rows next to each other in chambers of the terminal housing so that the plug contacts extend perpendicular to the plane of the circuit board. To connect individual conductors, the connection areas are designed as crimp terminals for the individual plug contacts. As a result, a plurality of conductors can be connected to a printed circuit board in which the individual contact holes have a small distance from each other.

A fork-shaped plug contact for contacting a circuit board is also known from DE 202 18 295 Ul. Also in this plug contact the contact legs press with their punching edges against the inner wall of the contact hole, wherein the two contact legs each have two outer edges which dig when pressing the plug contact in the contact hole of the circuit board in the metallization of the bore wall. Preferably, cold welding between the metallization of the bore wall and the contact legs should occur in order to ensure good electrical contact. The disadvantage here, however, that the sharp edges the contact legs can damage the inner wall of the contact hole during the insertion process, so that a coating applied in the contact hole, for example made of tin, is wiped after a few mating cycles. The present invention has for its object to provide a plug-in contact described above, which allows a secure and good contact with the contact hole even with multiple mating cycles, so that the connector ensures good electrical contact between the contact partners. In addition, an electrical connection terminal is to be specified with which an electrical conductor can be connected in a simple manner to a printed circuit board.

This object is achieved in the case of the plug contact described at the outset with the features of patent claim 1 in that the two contact legs each have a contact area contacting the contact hole in the inserted state, wherein the outer contour of the two contact legs in the contact area is circular-segment-shaped in cross-section , The outer contour of the contact legs is thus processed, in particular in the region in which the contact legs in the inserted state contact the contact hole, that it has no sharp edges that dig into the metallization of the bore wall upon insertion of the plug contact in the contact hole. This makes it possible to repeatedly plug in and pull the plug-in contact, without causing damage to the inner wall of the contact hole in the circuit board.

The cross-sectionally circular outer contour of the contact legs in this case has a radius which is smaller than the radius of the contact hole. This advantageously results in that between the contact legs and the contact hole in each case only a linear contact exists, instead of two linear contacts as in the known from the prior art plug contacts, in which the two contact legs contact the contact hole in each case with its two outer edges.

According to a particularly preferred embodiment of the plug contact according to the invention, the outer contour of the two contact legs in the contacting region not only in cross section but in the longitudinal direction kreissegment- shaped, so that the contacting areas of the two contact legs are formed crowned. The two contact legs thus have a rounded outer contour in the contacting region, both in the insertion direction of the contact limbs and perpendicular to the insertion direction, so that there is only one substantially punctiform contact between the contact limbs and the contact hole in the contacting region.

The spherical shape of the contacting areas can be easily generated by means of a die, in which the contacting areas of the contact legs are pressed out of a metallic flat material after punching out of the plug contact or which is pressed against the contact legs. Such stamping or reshaping of the outer contour of the contact limbs produced by the punching out has the additional advantage that the roughness of the outer edges of the contact limbs generated during punching is smoothed, thereby further increasing the risk of damaging a coating applied to the inner wall of a contact hole is reduced. Finally, the desired crowning of the outer contour of the contact limbs can be produced in a simple manner by impressing, wherein the radii of the outer contour of the contacting regions can be predetermined by the shape of the die, which is pressed against the outside of the contact limbs. Preferably, the radius of the circular segment-shaped outer contour in the longitudinal direction is greater than the radius of the circular segment-shaped outer contour in cross section. According to a further preferred embodiment of the invention, the two contact legs have different lengths, ie there is a first, longer contact leg and a second, shorter contact leg. At the free end of the longer contact leg, a guide portion is formed, which is arranged in the insertion direction of the plug contact in front of the free end of the shorter contact leg. The guide section serves as an insertion and centering when inserting the plug contact in the corresponding contact hole in a circuit board. For this purpose, the guide section preferably has a wedge-shaped or semicircular outer contour on its side facing away from the connecting region and thus facing the contact hole during insertion. Upon insertion of the plug contact in the contact hole thus first slides the guide portion of the first, longer contact leg into the contact hole, before the second, shorter contact leg dips into the contact hole, the two contact legs are then pushed towards each other through the contact wall of the contact hole to each other, so that the distance between the two contact legs - in comparison to the unplugged state - reduced.

In a first embodiment of the plug contact according to the invention, the two contact legs extend in a plane, wherein the main extension direction of the plug contact runs parallel to the insertion direction. According to a second embodiment of the plug contact, the two contact legs are angled, wherein the two contact legs each have a first region and a second region, which are arranged at an angle α to each other. Preferably, the angle α between the two regions of the contact legs is about 90 °, so that the contact legs are bent approximately L-shaped. The respective first region of the two contact limbs adjoins the connection region, while the contacting regions are formed on the second regions and the ends of the second regions form the free ends of the contact limbs, with which the contact limbs are inserted into the corresponding contact hole in the printed circuit board.

Due to the bending of the contact legs results in a reduction in the height of the plug contact. In addition, a plug-in contact with angled contact legs has the advantage that the working region of the plug-in contact which is effective when the contact legs are inserted into the contact hole, ie the region which generates the restoring force of the plug-in contact, lies substantially in the first region of the contact legs. The contact legs are primarily stressed in this area to torsion and not to bending, which results in that the plug contact is more elastic, compared to a plug contact with straight, not angled contact legs. As a result, the plug-in contact can be inserted more easily into a contact hole or pulled out of the contact hole again. Irrespective of whether the two contact limbs are bent or extend in one plane, there are various possibilities, such as the End region of the plug-in contact according to the invention may be formed. According to a first variant, the connection region is designed as a crimp connection, by means of which the stripped end of a conductor to be connected can be electrically connected. Alternatively, the connection region can also be formed as a cutting connection, so that the connection region has two mutually opposite cutting edges, between which the insulated end of a conductor to be connected is pressed, so that the cutting edges penetrate the insulation of the conductor and contact the metallic conductor.

According to another preferred embodiment of the plug-in contact according to the invention, the connection region is designed as a flat current bar, which forms a screw connection together with a tension sleeve or together with a clamping spring a Federkraftklemmanschluss. In order to increase the surface pressure between an inserted conductor and the current bar, a plurality of grooves or indentations are preferably formed on the side of the current bar facing the conductor, whereby the contact resistance between the conductor and the current bar is reduced. The object mentioned above is achieved in the electrical terminal according to the invention with the features of claim 7. The electrical terminal has a plug-in contact according to the invention, which is at least partially disposed in the housing of the terminal, that the busbar piece is formed by the terminal portion of the plug contact, and protrude the contact legs of the plug contact with their Kontaktierungsbereichen from the bottom of the housing. As the bottom of the case while the side is called, which faces the circuit board, when the terminal is placed on the circuit board. With regard to the advantages of the electrical connection terminal according to the invention, reference is made to the previous statements in connection with the plug-in contact according to the invention.

Different connection techniques can be used for connecting a conductor to the connection terminal, ie the plug-in contact according to the invention can be used with connection terminals with different connection techniques or different conductor connection elements. the. According to a preferred embodiment, a clamping spring is provided as a conductor connecting element, which has a clamping leg and a bearing limb, wherein the clamping limb together with the connection region of the plug contact forms a spring force clamping connection for the conductor to be connected. The use of a clamping spring as a conductor connection element has the additional advantage that a conductor to be connected via the Federkraftklemmanschluss are very easily connected to the terminal and thus also with a circuit board. If required, the electrical conductor can also be pulled out of the terminal again when the spring terminal is opened. The electrical connection between the conductor and the circuit board can thus be solved both between the conductor and the terminal region of the plug contact and between the contact legs of the plug contact and the circuit board.

According to an alternative embodiment, the electrical connection terminal may for example also be designed as a screw terminal, so that a tension sleeve is arranged in the housing, which forms a screw connection for the conductor to be connected together with the connection region of the plug contact, which is designed as a flat current bar. The tension sleeve is actuated by means of a screw which is accessible via an actuating opening in the housing of the terminal. Alternatively, the conductor connection element can also be designed as a crimp connection, to which the stripped end can be attached to a conductor to be connected.

If, in the case of the electrical connection terminal, the connection area extends in the longitudinal direction of the contact legs, the conductor insertion opening is arranged on the upper side of the housing and an electrical conductor to be connected is inserted into the connection terminal perpendicular to the plane of the circuit board. In addition, however, it is also possible that the connection region of the plug contact is bent perpendicularly or at an angle not equal to 90 ° to the longitudinal direction of the contact legs, so that the conductor insertion opening is then arranged correspondingly on an end face of the housing. For easy mounting of the electrical terminal on a circuit board is provided according to a further advantageous embodiment that on the underside of the housing a plurality of adjusting elements are formed, which are introduced when placing the terminal on the circuit board in corresponding recesses in the circuit board. The ends of the adjusting elements are preferably formed cone-shaped, which facilitates the insertion of the adjusting elements in the corresponding recesses in the circuit board. In addition, the length of the adjusting elements is selected so that when placing the terminal on the circuit board first the adjusting elements engage with their free ends in the corresponding recesses in the circuit board, before the contacting areas of the contact leg of the plug contact in the corresponding contact holes in the circuit board plunge.

According to a further embodiment of the electrical terminal according to the invention at least two detent detents are formed on the underside of the housing in addition to the adjusting elements, which engage in corresponding recesses in the circuit board. By appropriate locking projections or locking lugs on the locking elements can be ensured that the electrical terminal is securely attached to this after mounting on a circuit board. Preferably, the locking elements are designed so that they can be transferred from a first non-latching state to a second, latching state and vice versa. This makes it possible to loosen the locking between the housing of the electrical terminal and the circuit board again, so that the electrical terminal can be lifted off the circuit board again if necessary.

In particular, there are now a plurality of possibilities to design and further develop the plug-in contact according to the invention and the electrical terminal according to the invention. Reference is made to the claims subordinate to the patent claims 1 and 7 and to the following description in conjunction with the drawings. In the drawings show

1 is a perspective view of an embodiment of a plug-in contact according to the invention, 2 shows a section of a printed circuit board with a plug-in contact according to FIG. 1 inserted in a contact hole, FIG.

3 is an enlarged detail of a plugged into a contact hole contact leg, in cross section,

Fig. 4 shows two alternative exemplary embodiments of the plug contact according to

 Fig. 1,

5 shows a variant of the two plug contacts shown in FIG. 4,

Fig. 6 shows an exemplary embodiment of an electrical according to the invention

 Terminal block, in cross-section,

Fig. 7 shows two views of the plug contact according to FIG. 1, with two different conductor connection elements, and

Fig. 8 each show a variant of the two plug contacts shown in Fig. 7, with two different conductor connection elements.

1 and 2 show a plug contact 1 for contacting a circuit board 2, to which the plug contact 1 is inserted into a corresponding contact hole 3 in the circuit board 2. The punched out of a metallic sheet and plug connector 1 has two relatively resilient contact legs 4, 5, a connection region 6 and a connection region 7, wherein the two contact legs 4, 5 are connected to each other and the connection region 6 via the connection region 7.

The contact legs 4, 5 each have a in the inserted state shown in FIG. 2, the contact hole 3 contacting contacting region 4a, 5a, wherein the outer contour 8 of the two contact legs 4, 5 in the contacting region 4a, 5a, each in cross-section circular segment-shaped, as this From the enlarged cross-sectional view of an inserted into a contact hole 3 contact leg 4 of FIG. 3 can be seen. It can also be seen that the radius of the outer contour 8 of the contact leg 4 is slightly smaller than the radius of the contact hole 3, so that damage to the inner wall 9 of the contact hole 3 when inserting the contact legs 4, 5 are prevented in the contact hole 3. As a result, a plug contact 1 formed in this way enables significantly more plugging and pulling cycles than a plug contact, in which the outer contour of the contact legs is straight in cross section. In the case of a plug-type contact whose contact limbs in the contacting region have a straight outer contour, grooves may form in the inner wall 9 of the contact hole 3 after a few mating cycles, so that the surface of the inner wall 9 of the contact hole 3, in particular if it has a coating, is damaged.

1 and 2 it is also apparent that the outer contour 8 of the two contact legs 4, 5 in the contacting area 4a, 5a is also circular-segment-shaped in the longitudinal direction, so that the contacting areas 4a, 5a are crowned. The contacting regions 4a, 5a thus contact the inner wall 9 of the contact hole 3 only with their central region, so that ideally only a point contact between the contact legs 4, 5 and the contact hole 3 exists. In practice, this theoretically punctiform contact due to the surface pressure between the contact legs 4, 5 and the inner wall 9 of the contact hole 3 increases to a small substantially circular area. Since the contacting areas 4a, 5a have no sharp edges due to the spherical formation, which come into contact with the inner wall 9 of the contact hole 3, damage to the inner wall 9 of the contact hole 3 during insertion and removal of the plug contact 1 are avoided. As a result, a coating applied to the inner wall 9, for example made of tin, is still retained even after several insertion and removal cycles of the plug-in contact 1 according to the invention. In the exemplary embodiments of the plug-in contact 1 according to the invention, the two contact legs 4, 5 have different lengths, wherein at the free end 4b of the longer contact leg 4, a guide portion 10 is arranged in the insertion direction E of the plug contact 1 before the free end 5b of the shorter, second contact leg 5 is located. The guide section 10 serves as an insertion and centering aid when inserting the plug-in contact 1 in the corresponding Kon- For this purpose, the guide portion 10 on its side facing away from the connection area 6, which faces the contact hole 3 when plugged in, a wedge-shaped outer contour, which dips when inserting the plug-in contact 1 in the first contact hole 2.

In the embodiments of the plug-in contact 1 according to the invention shown in FIGS. 1, 2, 4 and 7, the two contact legs 4, 5 each have a first region 4c, 5c and a second region 4b, 5b, which are arranged at an angle α to each other , The angle α is approximately 90 ° in the embodiments shown in the figures, so that the two contact legs 4, 5 are bent approximately L-shaped. The two first regions 4c, 5c of the contact legs 4, 5, which run horizontally in the orientation shown in the figures, connect to the connection region 7, while the ends of the two second regions 4d, 5d, the free ends 4b, 5b of the contact legs. 4 , 5 form. The contacting areas 4a, 5a are formed on the second regions 4d, 5d, wherein the width of the plug contact 1 in the region of the contacting regions 4a, 5a is the largest, so that in the inserted state of the plug contact 1, the two contact legs 4, 5 maximum are bent towards each other, so that the contact normal force between the contact legs 4, 5 and the contact hole 3 is maximum.

The plug-type contact 1 shown in FIGS. 1 and 2 differs from the two variants of the plug-in contact 1 illustrated in FIG. 4 by another embodiment of the connection region 6. While in the embodiment illustrated in FIGS. 1 and 2, the connection region 6 is shallower Current bar 6 'is formed, the terminal portion 6 in the embodiment of FIG. 4a as crimp 6 "and in the embodiment of FIG. 4b as a cutting terminal 6'" is formed. In order to increase the surface pressure between a connected conductor and the current bar 6 ', it has a plurality of grooves 11 on the side facing the conductor. Depending on the type of training of the connection region 6, an electrical conductor can thus be electrically connected to the plug contact 1 in different ways. Fig. 5 shows in each case a variant of the two plug contacts 1 shown in Fig. 4, in which the two contact legs 4, 5 of the plug contact 1 are not angled, but extend in a plane. In the plug-in contact 1 according to FIG. 5 a, the connection region 6 - corresponding to the plug-in contact 1 according to FIG. 4 a - is designed as crimp connection 6 ", while in the plug-in contact 1 according to FIG. 5 b - corresponding to the plug-in contact 1 according to FIG. 4 b - the connection region 6 is designed as a cutting connection 6 "'. The possible formation of the connection region 6 is thus independent of whether the contact legs 4, 5 are angled, or extend in a plane.

FIG. 6 shows a preferred exemplary embodiment of an electrical connection terminal 12 according to the invention, which has a housing 13, which is usually made of plastic. A plurality of conductor insertion openings 14 and a corresponding number of plug contacts 1 are arranged in the housing 13, wherein the contact legs 4, 5 of the individual plug contacts 1 with their contacting areas 4a, 5 a protrude from the underside 15 of the housing 13 facing a printed circuit board 2 ,

In the exemplary embodiment illustrated, a number of clamping springs 16 corresponding to the number of plug contacts 1 are also arranged in the housing 13 of the connection terminal 12 as conductor connection elements, each having a clamping leg 17 and a contact leg 18. In this case, each clamping spring 16 is associated with a plug-in contact 1 such that the connection region 6 of a plug-in contact 1 formed as a flat current bar 6 'together with the free end of the clamping leg 17 of the clamping spring 16 provides a spring-force clamping connection for a conductor opening 14 in the housing through a conductor insertion opening 14 13 inserted electrical conductor forms. Since the terminal 12 is provided for connecting five conductors, five lead insertion openings 14 are also formed in the housing 13 accordingly. To open the individual spring terminal connections, five actuation levers 19 are arranged in the housing 13 in a displaceable manner. If an actuating push-button 19 is pressed into the interior of the housing 13, the actuating push-button 19 deflects the clamping leg 17 of the clamping spring 16 against its spring force, so that the clamping point can be opened and thus a connected conductor can be pulled out of the clamping point. If the nip is removed with the aid of In addition, a flexible conductor can be introduced into the clamping point.

As an alternative to the configuration shown in FIG. 6 with a clamping spring 16 as a conductor connection element, the connection terminal 12 can also have a tension sleeve 20 as a conductor connection element which, together with the connection region 6 of a plug-in contact 1, forms a screw connection for an electrical conductor to be connected. These two possible alternative connection types - spring terminal connection and screw connection - are shown in FIGS. 7 and 8, wherein there is only one plug contact 1 together with a clamping spring 16 (FIGS. 7a and 8a) or with a tension sleeve 20 (FIGS 8b) are shown, that is, without the plug contact 1 and the respective conductor terminal receiving housing. 7 shows two plug contacts 1 according to FIGS. 1 and 2, in which the two contact legs 4, 5 are each bent in an L shape. In contrast, in the two exemplary embodiments according to FIG. 8, the plug contacts 4, 5 are not bent, but extend continuously in one plane, namely in the plug-in direction E. The screw connection illustrated in FIGS. 7b and 8b also has a screw 21 on, with which the screw can be actuated, so that the inserted into the tension sleeve 20 stripped end of a conductor by means of the tension sleeve 20 against the current bar 6 'is pulled.

For fixing the housing 13 of the electrical terminal 12 on a printed circuit board 2 a plurality of mutually offset adjusting elements 22 are formed on the underside 15 of the housing 13, each protrude beyond the bottom 15 of the housing 13 and can be inserted into corresponding recesses in a printed circuit board 2 , In addition, on the housing 13 also suitable locking elements may be formed, with which the housing 13 can be latched to a circuit board.

Claims

claims:

1. plug contact (1) for electrical contacting of a printed circuit board (2) by inserting the plug contact (1) in a contact hole (3) of the printed circuit board (2), with two relatively resilient contact legs (4, 5), a connection area (6) and a connection region (7), wherein the connection region (7) connects the two contact limbs (4, 5) to one another and to the connection region (6) and wherein the contact contact (1) is formed from a metallic flat material,

characterized,

in that the two contact limbs (4, 5) each have a contacting region (4a, 5a) contacting the contact hole (3) in the inserted state, and

the outer contour (8) of the two contact limbs (4, 5) in the contacting region (4a, 5a) is circular-segment-shaped in cross-section, the radius of the outer contour (8) being smaller than the radius of the corresponding contact hole (3) of the printed circuit board (2 ).

Second plug contact (1) according to claim 1, characterized in that the outer contour (8) of the two contact legs (4, 5) in the contacting region (4a, 5a) is formed in each case in the longitudinal direction circular segment, so that the contacting regions (4a, 5a) are formed spherical.

3. plug contact (1) according to claim 1 or 2, characterized in that the two contact legs (4, 5) have different lengths, wherein at the free end (4b) of the longer contact leg (4) in the insertion direction (E) of the plug contact ( 1) in front of the free end (5b) of the shorter contact leg (5) arranged guide portion (10) is formed.

4. Plug contact (1) according to one of claims 1 to 3, characterized in that the two contact legs (4, 5) each have a first region (4c, 5c) and a second region (4d, 5d), which at an angle α are arranged to each other, so that the two contact legs (4, 5) are bent approximately L-shaped, wherein the two first portions (4 c, 5 c) to the Connect connecting region (7) and the contacting regions (4a, 5a) are formed on the second regions (4d, 5d).

5. Plug contact (1) according to one of claims 1 to 4, characterized marked, that the connection region (6) as a flat current bar (6 ') is formed, which preferably has on one side a plurality of grooves (11) or notches.

6. plug contact (1) according to one of claims 1 to 4, marked thereby, that the connection region (6) as a crimp connection (6 ") or as a cutting connection (6" ') is formed.

7. Electrical connection terminal (12) with a housing (13), with a conductor connection element and with a conductor rail piece, wherein a conductor to be connected by means of the conductor connection element with the conductor rail piece is electrically conductively connected and wherein in the housing (13) has a conductor insertion opening (14 ) is designed for insertion of the electrical conductor to be connected,

characterized,

a plug-in contact (1) according to one of claims 1 to 6 is arranged in the housing (13) such that the busbar piece is formed by the connection region (6) of the plug-in contact (1) and the contact legs (4, 5) with their contacting regions (4a, 5a) protrude from the underside (15) of the housing (13) facing a printed circuit board (2).

8. Electrical terminal (12) according to claim 7, characterized in that a clamping spring (16) in the housing (13) is arranged as a conductor connecting element, wherein the clamping spring (16) has a clamping leg (17) and a plant leg (18) and the Clamping leg (17) with the connection region (6) of the plug-in contact (1) forms a Federkraftklemm- connection for an electrical conductor to be connected.

9. Electrical connection terminal (12) according to claim 7, characterized in that as a conductor connection element a tension sleeve (20) in the housing (13) is arranged, which together with the connection region (6) of the Steckkon- Takts (1) forms a screw terminal for an electrical conductor to be connected.

10. Electrical terminal (12) according to any one of claims 7 to 9, character- ized in that on the underside (15) of the housing (13) a plurality of adjusting elements (22) for insertion into corresponding recesses in a printed circuit board (2) are formed ,