DE102013104394B4 - Conductor connection terminal - Google Patents

Abstract

Conductor connection terminal (1) with an insulating material housing (2) which has at least one conductor insertion opening (11) for inserting an electrical conductor (12) and with at least one clamping spring (5) in the insulating material housing (2) which is assigned to a conductor insertion opening (11) and has a clamping leg (6), a spring bow (9) adjoining the clamping leg (6) and a contact leg (10) adjoining the spring bow (9), the clamping leg (6) for clamping a conductor entry opening ( 11) inserted electrical conductor (12) is formed on a connection contact (7) built into or insertable into the insulating material housing (2), characterized in that the contact leg (10), starting from the spring bow (9), is initially in a first section (25 ) extends parallel to the direction of extent of the associated connection contact (7) and at this first section (25) an oblique to the direction of extent de s associated connection contact (7) is connected to an angled area (13) which is supported on an inclined surface (14) of the insulating material housing (2), and that the contact leg (10) terminates with a free end section (15) after being bent.

Description

The invention relates to a conductor connection terminal with an insulating material housing, which has at least one conductor insertion opening for inserting an electrical conductor, and with at least one clamping spring in the insulating material housing, which is assigned to a conductor insertion opening and a clamping leg, a spring arch adjoining the clamping leg and a spring bend adjoining the Has spring bow adjoining spring bow, the clamping leg being designed to clamp an electrical conductor inserted into an associated conductor insertion opening to a connection contact built into or insertable into the insulating material housing by the spring force of the clamping spring.

Such conductor connection terminals are used to contact electrical conductors without screws with the aid of a spring-loaded terminal connection with an integral or separate connection contact of the conductor connection terminal. The connection contact can be, for example, a contact pin soldered into a printed circuit board, which is inserted into the insulating material housing. However, it is also conceivable that the connection contact is an integral part of the conductor connection terminal and is connected in an electrically conductive manner to a circuit board, an electrical line or a mating connector. An electrical (cross) connection by means of a power rail is also possible, as is used, for example, with box terminals.

DE 34 33 822 A1 discloses a connecting device with an insulating housing, spring devices as a contact device in the housing and a cover closing the insulating material housing. The spring devices have a clamping leg which presses an electrical conductor against a busbar with its free end, a spring bow adjoining the clamping leg and a contact leg which lies flat against a busbar. The free end of the contact leg is bent back in the direction of the electrical conductor with an S-shaped bend, so that the free end of the contact leg also presses the free end of the electrical conductor against the busbar under spring force. This S-shaped bent contact leg is freely movable in order to form an S-shaped spring section for resiliently holding the wire end in a contact position.

A comparable screwless connection terminal is also in the DE 197 35 786 A1 shown. There, too, the second contact leg opposite the upper contact leg is bent in an S-shape at the free end of the clamping spring. Both contact legs are designed to be resilient in order to press an inserted electrical conductor resiliently against a cover and thus to fix it.

Also in GB 2 298 973 A the clamping spring has two clamping legs, the lower clamping leg again being bent in an S-shape and being received in the insulating material housing in a freely movable manner for resilient engagement with the electrical conductor.

DE 10 2006 014 646 B4 shows a connection terminal for printed circuit boards with an insulating housing and a leg spring, the contact leg of which is angled L-shaped and on the one hand rests flat on the rear wall and on the other hand is held with its free end on protruding arms of a busbar section and otherwise floats freely in the space of the insulating housing.

JP 2001-307789 A discloses a conductor connection terminal with a U-shaped leaf spring, the contact leg of which is angled L-shaped and on the one hand rests flat on a busbar section on the rear of the conductor connection terminal and on the other hand flat on a base plate of a busbar section designed as a cage. The base plate and the free end are aligned transversely to the direction of insertion of the electrical conductor. The free end is fixed at the top with a securing block that also extends horizontally.

DE 20 2010 008 485 U1 shows a connection device for electrical conductors with a leaf spring, the contact leg of which is bent in the shape of a part of a circle and rests flat on a busbar wall on the rear and on the other hand tangentially on the base plate of the busbar. The part-circular curved free end of the leaf spring is freely movable in order to exert a spring force on an inserted electrical conductor and thereby increase the clamping force of the leaf spring.

A generic conductor connection terminal is in the DE 10 2009 035 716 A1 described. There, a U-shaped bent leaf spring is installed in an insulating material housing, the contact leg resting flat against a contact wall of the insulating material housing. When an electrical conductor is inserted and possibly also when the clamping spring is actuated, a force is exerted by the clamping spring on the insulating material housing, which force can deform it. Critical areas are in particular the points at which the leaf spring is fixed to the insulating material housing.

EP 0 472 040 A1 and DE 87 04 494 U1 show conductor connection terminals in which the contact leg of a clamping spring is supported on a metal support.

DE 40 03 701 C2 shows an electrical connection terminal with at least two Conductor connection terminals per pole, which are built into a one-piece insulated housing.

U.S. 3,138,421 A discloses a conductor connection terminal with a one-piece insulating material housing that is open at the side and can be closed with a side cover, into which a loop-shaped clamping spring is inserted.

Out DE 10 2010 025 930 A1 a connection terminal with a two-part insulating material housing is known. The clamping spring is inserted with its spring bow into a recess of the main part having the conductor entry opening and is supported there. This trough is located below the conductor entry opening. The abutment limb adjoining the spring bend otherwise rests point-wise on a web extending in the conductor plug-in direction with its free end extending perpendicular to the conductor plug-in direction.

DE 10 2006 005 260 A1 shows an electrical connection terminal with a clamping spring which is bent at a right angle and which has a clamping leg at each of its two opposite ends. The contact legs, which run at right angles to one another, each rest on a wall of a one-piece, laterally open insulating material housing.

Out US 2009/0258546 A1 a terminal block with a one-piece, laterally open insulating material housing is known, into which a leg spring is inserted. The leg spring rests with its contact leg adjoining the spring arch against a wall of the insulating material housing that is oriented at an angle to the conductor insertion direction.

The object of the present invention is therefore to create an improved conductor connection terminal in which the force dissipation from the clamping spring to the insulating material housing is improved.

The object is achieved with the conductor connection terminal having the features of claim 1. Advantageous embodiments are described in the subclaims.

In the case of a generic conductor connection terminal, it is proposed that the contact leg, starting from the spring arch, initially extend in a first section parallel to the direction of extension of the associated connection contact and that this first section is followed by an area angled at an angle to the direction of extension of the associated connection contact, which is connected to an inclined surface of the insulating material housing is supported, and that the contact leg terminates after being bent with a free end portion.

A contact section aligned obliquely to the extension direction of the connection contact and thus obliquely to the conductor entry opening of the extension direction of the electrical conductor in the insulating material housing means that the force exerted on the clamping spring is evenly applied when the clamping leg of the clamping spring is deflected (in particular when an electrical conductor is inserted or when the clamping spring is actuated) the insulating housing derived. This avoids punctual loads on the insulating material housing, which can lead to housing breaks. In contrast to a horizontal support transversely to the conductor insertion direction and the direction of extension of the connection contact, a contact section extending obliquely to it achieves a uniform distribution of force on the insulating material housing.

The insulating material housing is preferably multi-part and has a first main part having the conductor insertion opening and at least one cover part which closes the main part on the side opposite the conductor insertion opening. The cover part has a contact surface that runs obliquely to the direction of extension of an associated connection contact for supporting the at least one area of the contact section that runs obliquely to the extension of the connection contact. The force of the clamping spring is diverted to the cover part by the support of the inclined contact section on a correspondingly inclined contact surface of a cover part, which thus assumes a load-bearing function. The cover part also serves as an assembly aid to guide a pretensioned clamping spring inserted into the main part into the end position.

The contact leg preferably rests with its free end section on a bearing edge of the insulating material housing. In this way, the contact leg of the clamping spring is supported on the one hand by the inclined surface of the insulating material housing. On the other hand, the clamping spring is, so to speak, wedged with the free end section by the bearing edge of the insulating material housing. As a result of the angling of the free end area to the inclined surface, a force transferred to the bearing edge is resiliently absorbed by the free end and a shock load is avoided.

In an optional embodiment, the contact section has a multiply curved section which has at least two areas extending obliquely to the direction of extent of the connection contact. This multiply bent section can be bent in an S-shape, for example. The insulating housing has in this Context, a support for at least one of these areas extending obliquely to the direction of extent of the connection contact. As a result, the section bent several times is not freely movable and therefore does not contribute to the clamping of the electrical conductor as a clamping leg. Rather, the multiply bent section intercepts a force acting on the insulating material housing when an electrical conductor is inserted and clamped via the clamping spring, while reducing the load on the insulating material housing. The embodiment leads to a relatively long clamping spring with improved spring properties and to an enlargement of the contact surface on the insulating material housing, as a result of which the force dissipation is evened out and leads to a reduction in mechanical stresses in the insulating material housing.

In the case of a correspondingly S-shaped bent contact section, the insulating material housing with a correspondingly adapted curved contour dips into at least one bend of the S-shaped area of the contact section to form a support.

The conductor connection terminal can optionally have a movably mounted actuating element for opening a clamping point formed by the clamping legs of the clamping spring and the connection contact for connecting an electrical conductor. This actuating element then interacts with the clamping leg when actuated to open the clamping point and is designed and supported accordingly. Such an actuating element can, for example, be an actuating slide mounted displaceably in the insulating material housing, or z. B. also be a rotatably mounted operating lever.

In a preferred embodiment, at least one connection contact is built into the insulating material housing which, together with the clamping leg of the clamping spring, forms a clamping point for the conductor to be connected. The insulating material housing also has a contact pin / insertion opening for insertion and, opposite to the clamping leg, an electrically conductive contact pin that can be contacted with the connection contact. The connection of the connection contact, which is preferably movably built into the insulating material housing, thus serves as an electrically conductive intermediate element which is arranged between the electrical conductor and the contact pin when an electrical conductor is inserted and clamped on. The electrical conductor is thus pressed via the clamping leg of the clamping spring against the connection contact, which in turn comes into contact with the contact pin that can be inserted into the contact pin insertion opening. Such a separate contact pin can be, for example, a contact pin soldered onto a circuit board or a plug contact pin of a mating connector. The connection contact can also, for. B. can be introduced into the insulating housing via the contact pin insertion opening and contact directly with an electrical conductor without an intermediate plate. A separate contact pin can form the connection contact.

In this context it is advantageous if the contact pin has a contact projection. In this way, the contact between the contact pin and the connection contact, which is designed as an intermediate plate, is concentrated on the contact projection, and the current transfer is thus improved.

• 1 - Perspektivische Schnittansicht einer ersten Ausführungsform einer Leiteranschlussklemme in Schnittansicht;
• 2 - Seiten-Schnittansicht der Leiteranschlussklemme aus 1;
• 3 - perspektivische Ansicht der Leiteranschlussklemme auf 1 und 2 der Schnittansicht von der Rückseite ohne Deckelteil;
• 4 - perspektivische Schnittansicht der Leiteranschlussklemme aus 1 ohne Deckelteil;
• 5 - perspektivische Ansicht einer Klemmfeder für die Leiteranschlussklemme aus 1 bis 4;
• 6 - perspektivische Rückseitenansicht der Klemmfeder aus 5;
• 7 - Seitenansicht eines Deckelteils für die Leiteranschlussklemme aus 1 bis 4;
• 8 - perspektivische Ansicht des Deckelteils aus 7;
• 9 - Seiten-Schnittansicht einer optionalen, nicht zur Erfindung gehörenden Ausführungsform einer Leiteranschlussklemme mit S-förmig gebogenem Anlageschenkel im Ausschnitt.

The invention is explained in more detail below using exemplary embodiments with reference to the accompanying drawings. Show it:

• 1 - Perspective sectional view of a first embodiment of a conductor connection terminal in sectional view;
• 2 - Side sectional view of the conductor connection terminal 1 ;
• 3 - Perspective view of the conductor connection terminal 1 and 2 the sectional view from the back without the cover part;
• 4th - Perspective sectional view of the conductor connection terminal 1 without cover part;
• 5 - Perspective view of a spring clip for the conductor connection terminal 1 to 4th ;
• 6th - Perspective rear view of the clamping spring from 5 ;
• 7th - Side view of a cover part for the conductor connection terminal 1 to 4th ;
• 8th - Perspective view of the cover part from 7th ;
• 9 - Side sectional view of an optional embodiment, not belonging to the invention, of a conductor connection terminal with an S-shaped bent contact leg in the cutout.

1 leaves a perspective sectional view of a first embodiment of a conductor connection terminal 1 recognize in the sectional view. The conductor connection terminal 1 has a two-part insulating housing 2 with a main part 3 and with a cover part that closes this on the underside 4th . The lid part 4th is with the main part 3 latched. It can also be seen that a clamping spring 5 in the insulating housing 2 is built in. This clamp spring 5 has a clamp leg 6th which is provided around an electrical conductor with its free end to a connection contact 7th to clamp. This connection contact 7th is movable in the illustrated embodiment in the insulating housing 2 built-in. The connection contact 7th has a protrusion 8th . In the illustrated Embodiment is the free end of the clamping leg 6th without inserted electrical conductor 12th in the position shown against the protrusion 8th and is fixed in position there. With the electrical conductor inserted 12th this is between the free end of the clamping leg 6th and the bulge 8th clamped so that the force of the clamp spring 5 on the protrusion 8th is concentrated. With this, the current transfer values when connecting an electrical conductor 12th improved.

On the clamp leg 6th a spring bow closes 9 at. The feather bow 9 then goes into an attachment leg 10 above. This investment leg 10 extends from the feather bow 9 from initially parallel to the main direction of extent of the connection contact 7th or through a conductor entry opening 11 in the insulating housing 2 predetermined conductor insertion direction L for an electrical conductor to be clamped 12th .

From this part of the contact leg which is directed vertically downwards in the conductor insertion direction L 10 then goes at an obtuse interior angle (> 90 °) at an angle to the direction of extension of the connection contact 7th or area running at an angle to the conductor insertion direction L. 13th of the contact leg 10 from. This sloping area 13th is on a correspondingly inclined contact surface 14th of the lid part 4th superimposed. Due to the inclined arrangement of the area 13th and the contact surface 14th of the lid part 4th becomes one of the clamp spring 5 on the insulating housing 2 force exerted when the clamping spring is actuated 5 evenly from the insulating housing 2 intercepted.

The clamping spring 5 is in the insulating housing 2 recorded in a fixed position that at an angle to the direction of extent of the connection contact 7th trending area 13th at a further angle a free end section 15th of the contact leg 10 connects. The free end of the free end section 15th is in a bearing edge 16 of the insulating housing 2 , especially the main part 3 brought in. Due to the angled position between the diagonally to the extension direction of the connection contact 7th trending superimposed area 13th and the free end portion 15th it is achieved that the free end section 15th under spring force in the bearing edge 16 can be fixed. When force acts on the clamping spring 5 then becomes one on the clamp spring 5 acting force via the inclined contact surface 14th of the lid part 4th intercepted. The one on the storage edge 16 The residual force acting is in the area of the insulating housing, which is very stable there 2 recorded.

The bearing edge 16 can optionally be present in a pocket that covers the free end section 15th picks up and this on the one hand before evading in the direction of connection contact 7th and on the other hand before evading to the connection contact 7th opposite side fixed in position.

The kink between the sloping area 13th and the free end portion 15th acts as overload protection for the clamping leg 6th , which hits the kink in the outlined deflected position. If the length of the clamping leg is shorter, the sloping area can optionally be used 13th or in the case of a longer clamp leg, the free end section 15th serve as such overload protection. In addition, the free end section, which also runs at an angle to the conductor insertion direction L, is used 15th as a run-on slope for the electrical conductor to be clamped in order to move it towards the connection contact 7th respectively.

It is also clear that the clamping spring is used to open the 5 and the connection contact 7th formed terminal point for an inserted conductor 12th an actuator 17th slidable in the insulating housing 2 is built in. The actuator 17th acts via a free end of actuation 18th onto the clamping leg arched in this area 6th . The actuator 17th is by a spring clip 19th of the insulating housing 2 secured on this and protected from falling out.

On the side of the connection contact 7th that the clamp spring 5 opposite is a contact pin insertion opening 20th in the insulating housing 2 brought in. This contact pin insertion opening 20th is on the side that corresponds to the conductor entry opening 11 opposite, open. In this way, a contact pin 33 over the underside, ie over the side of the cover part 4th , into the contact pin insertion opening 20th to be introduced. The contact pin 33 is then tiltable in the insulating housing 2 built-in connection contact 7th electrically conductive contacted. The force of the clamping spring acts here 5 via an inserted and clamped electrical conductor to the connection contact 7th , which in turn against the contact pin 33 is pressed.

2 omits a side sectional view of the conductor connection terminal 1 detect. From this it is further clear that the connection contact 7th seen in the conductor insertion direction L below the projection 8th one of the clamping spring 5 opposite protrusion 21 as well as another one in the lower area, likewise in the contact pin insertion opening 20th protruding protrusion 22nd Has. Through these two protrusions 21 , 22nd are defined contact points for electrically conductive contact with the connection contact 7th with a contact pin 33 set.

It can also be seen that the connection contact 7th on the side that the contact pin Insertion opening 20th opposite, grooves 23 has, with which the connection of an electrical conductor 12th is improved. In particular, the grooves contribute to an inserted electrical conductor 12th even safer in the conductor connection terminal 1 to keep.

3 leaves a perspective view of the conductor connection terminal 1 out 1 and 2 from the back without cover part 4th detect. It is clear here that the free end of the free end section 15th under spring force in the L-shaped bearing edge 16 of the main part 3 of the insulating housing 2 rests. This will make the clamping spring 5 between the bearing edge 16 and the rear wall of the insulating material housing 2 that the connection contact 7th opposite, in the insulating housing 2 held.

It is also clear that the lower protrusion 22nd of the connection contact 7th as an imprint in the connection contact 7th is formed. This is the material of the connection contact 7th to form the protrusion 22nd pressed out during the forming process to form a contact tip.

4th leaves the conductor connection terminal again 1 from the 1 to 3 now without cover part 4th detect. It becomes clear that on the rear wall of the insulating housing 2 a recess 24 is provided, in which a corresponding locking projection of the cover part 4th dips to the lid part 4th on the main part 3 to lock into place. One over the sloping area 13th of the contact leg 10 on the lid part 4th acting force is then from the cover part 4th on the one hand flat on the main part 3 and on the other hand via the locking recess 24 evenly over the part-circular contour of the locking recess 24 derived.

The conductor connection terminal 1 can consist of any number of connection areas for electrical conductors arranged next to and / or in front of one another 12th consist. This is how the conductor connection terminal can 1 For example, single-pole with only a single clamping spring 5 be. However, it is advantageous if there are multi-pole variants in which several clamping springs are available 5 side by side in the manner shown in the insulating housing 2 are built in. The individual spring clips 5 can then be separated from one another by partitions. For a multi-pole variant of a conductor connection terminal 1 can be for every spring clip 5 its own cover part 4th be provided. However, it is advantageous if the insulating material housing 2 with a single cover part 4th is closed, on which the forces of the several clamping springs 5 Act. This allows the forces to better act on the cover part 4th distributed and with reduced load on the insulating material housing 2 be intercepted over a larger area.

5 leaves a perspective view of a clamping spring 5 for the previously described conductor connection terminal 1 detect. It becomes clear that the clamping spring 5 a clamp leg 6th , one on the clamp leg 6th subsequent spring bow 9 and an adjoining plant section 10 Has. The plant section 10 is on the one on the feather bow 9 subsequent section 25th widened. The side bars 25th showing the widening of the section 25th form, dive into corresponding grooves 35 (please refer 4th ) of the insulating housing 2 one to the clamp spring 5 to be held in a fixed position in the insulating housing. The grooves 35 for the side bars 25 ' are preferably designed with play, so that the clamping spring 5 relative to the insulating housing 1 also in the area of the plant section 10 can move.

It becomes clear that the widened section 25th at an angle the obliquely extending area 13th to be placed on the cover part 4th connects. This inclined area is then joined by an obtuse interior angle (> 90 °) in turn by the opposite clamping leg 6th away angled free end area 15th at.

6th leaves a perspective view of the clamping spring 5 out 5 recognize from the rear. Here it becomes clear again that the clamping spring 5 is essentially U-shaped, with the contact leg 10 is not characterized by areas angled at right angles. Rather, it is the angle between the widened section 25th and the adjacent sloping area 13th to rest on the insulating housing at an obtuse interior angle of more than 90 ° (preferably about 110 ° to 140 °).

Alternative to the connection contact 7th in the insulating housing 1 , which forms an intermediate part, can also rely on the installation of such a connection contact 7th be waived. Then a through the contact insertion hole 20th introduced connection contact z. B. in the form of a contact pin 33 directly with an electrical conductor 12th contacted and via the clamping spring 5 clamped. But it is also conceivable that the connection contact 7th in the insulating housing 2 in the manner of a busbar firmly in the insulating material housing 2 is installed and a connection contact z. B. in the form of one from the insulating housing 2 has outstanding contact pin. But it is also conceivable that the in the insulating housing 2 built-in connection contact 7th is extended in such a way that on the side in the lower region of the cover part 4th a connector for connecting a mating connector is created.

7th leaves a side view of the lid part 4th of the insulating housing 2 detect. It becomes clear that the cover part has a latching projection on a side wall 26th who has in the recess 24 of the main part 3 immersed. It can also be seen that the cover part 4th a protruding platform in the lower area 27 with a support section 28 which has a corresponding contour in the interior of the main part 3 immersed and is preferably supported there. On the one on the support 8th opposite side is above the platform 27 an attack 29 provided with the cover part 4th before sliding out of the main part 3 on the main part 3 is secured.

8th leaves a perspective view of the cover part 4th out 7th for a two-pole conductor connection terminal. It becomes clear that from the common platform 27 two bearing blocks 30a , 30b protrude, each having a locking projection 26th to have. Both bearing blocks 30a , 30b have an inclined contact surface 14th for supporting an inclined area 13th an associated clamping spring 5 .

In the space between the bearing blocks 30a , 30b a divider protrudes 31 from the common platform 27 emerged.

9 leaves an optional embodiment that is not the subject of the present invention, a conductor terminal 1 recognize in a sectional view in the detail. In this embodiment, the insulating material housing 2 designed comparable to the first embodiment. Here, however, is the contact leg 10 bent in an S-shape in its free end area, so that several diagonally to the direction of extension of the connection contact 7th running areas 13th be created. A bearing block 30c of the lid part 4th dips into such a bend with a protrusion adapted to this, around the S-shaped bent contact section 10 and on the sloping areas 13th acting forces of the clamping spring 5 intercept and on the insulating housing 2 to be transferred as evenly as possible.

It is also clear that a material flap 32 from which to the feather bow 9 subsequent section of the contact section extending downward in the conductor insertion direction L 10 is bent out. This flap of material 32 dives into the main part 3 of the insulating housing 2 one to the clamp spring 5 on the insulating housing 2 to be determined.

It can also be seen that the clamping leg 6th in the downwardly deflected state in the conductor insertion direction L in an end position against the free end section 15th of the S-shaped bent area of the contact leg 10 bumps. In this way, overload protection is provided, the force being applied over the sloping areas 13th on the lid part 14th is transmitted.

It is also clear that the sloping area 13th as overload protection for the clamp leg 6th serves, which in the outlined deflected position on the inclined area 13th bumps. The sloping area is also used 13th as a run-on slope for the electrical conductor to be clamped in order to move it towards the connection contact 7th respectively.

For the rest, reference can be made to the statements relating to the first exemplary embodiment.

Claims (8)

Conductor connection terminal (1) with an insulating material housing (2) which has at least one conductor insertion opening (11) for inserting an electrical conductor (12) and with at least one clamping spring (5) in the insulating material housing (2) which is assigned to a conductor insertion opening (11) and has a clamping leg (6), a spring arch (9) adjoining the clamping leg (6) and a contact leg (10) adjoining the spring arch (9), the clamping leg (6) for clamping a conductor entry opening ( 11) inserted electrical conductor (12) is formed on a connection contact (7) built into or insertable into the insulating material housing (2), characterized in that the contact leg (10), starting from the spring bow (9), is initially in a first section (25 ) extends parallel to the direction of extension of the associated connection contact (7) and at this first section (25) an oblique to the direction of extension d it is connected to the terminal contact (7) angled area (13), which is supported on an inclined surface (14) of the insulating material housing (2), and that the contact leg (10) ends after being bent with a free end section (15). Conductor connection terminal (1) Claim 1 , characterized in that the insulating material housing (2) is in several parts and has a first main part (3) having the conductor entry opening (11) and at least one cover part (4) which closes the main part (3) on the side opposite the conductor entry opening (11) ), wherein the cover part (4) has a contact surface (14) which runs obliquely to the direction of extent of an associated connection contact (7) for supporting the at least one region (13) of the contact section which extends obliquely to the direction of extent of the connection contact (7). Conductor connection terminal (1) Claim 1 , characterized in that the free End section (15) of the contact leg (10) abuts the insulating material housing (2) with its end. Conductor connection terminal (1) according to one of the preceding claims, characterized in that the free end section (15), which adjoins the angled area (13) at an obtuse interior angle, extends towards a bearing edge (16) of the insulating material housing (2) and its end abuts the bearing edge (16). Conductor connection terminal (1) according to one of the preceding claims, characterized in that the insulating material housing (2) has at least one movably mounted actuating element (17) for opening a clamping point formed by the clamping leg (6) of the clamping spring (5) and the connection contact (7) Clamping an electrical conductor (12) which, when moved, interacts with the clamping leg (6) to open the clamping point. Conductor connection terminal (1) according to one of the preceding claims, characterized in that at least one connection contact (7) is built into the insulating material housing (2) which, together with the clamping leg (6) of the clamping spring (5), forms a clamping point for a conductor (12) to be connected ) and that the insulating material housing (2) has a contact pin insertion opening (20) for introducing a contact pin (33) which can be placed opposite the clamping leg (6) on the connection contact (7) and electrically conductively contacted with the connection contact (7). Conductor connection terminal (1) after one of the Claims 1 to 5 , characterized in that the connection contact (7, 33) is a separate part from the conductor connection terminal (1), which can be inserted into the conductor connection terminal (1) via a contact pin insertion opening (20) and is designed as a contact pin (33). Conductor connection terminal (1) Claim 6 or 7th , characterized in that the contact pin (33) has a contact projection (34).

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