DE102015107055B3 - Conductor terminal - Google Patents

Abstract

A conductor terminal (1) having an insulating housing (2) having a conductor insertion opening (15) for inserting an electrical conductor (16) and a contact pin insertion opening (40) for inserting a contact pin (18) with a clamping spring (7), which has a clamping leg (11), a spring bow (10) and a bearing limb (9), and with a busbar piece (8) which has a passage opening (13) for receiving the contact pin (18) and for clamping the electrical conductor (16 ) between the clamping leg (11) and a transverse web (14) of the busbar piece (8) is described will be described. The passage opening (13) has an opening (26) on the side opposite the transverse web (14) at the free end of the busbar piece (8). The plant leg (9) of the clamping spring (7) has two spaced spring arms (20) which engage around the busbar piece (8) on both sides and a spring force terminal point for clamping a in the through hole (13) in the region of the opening (26) plugged contact pin (18) in the busbar piece (8) with the spring force of the spring arms (20) of the contact limb (9) form.

Description

The invention relates to a conductor terminal with an insulating material housing, which has a conductor insertion opening for insertion of an electrical conductor and a contact pin insertion opening for inserting a contact pin, with a clamping spring, which has a clamping leg, a spring bow and a plant leg, and with a busbar piece, the one Through opening for receiving the contact pin and is designed to clamp the electrical conductor between the clamping legs and a crosspiece of the busbar piece.

Conductor terminals for clamping electrical conductors by means of spring force using a clamping spring are well known. Cage tension springs or torsion springs are used in particular as clamping springs. This should be distinguished from spring-loaded terminals with coil springs, which are used in particular for the high current range.

In addition to the clamping of an electrical conductor is often necessary to connect a contact pin as a plug contact to the Federkraftklemmanschluss.

DE 10 2008 049 236 B3 and DE 10 2013 101 533 A1 show spring terminals with a leg spring or a cage spring, which are suspended on a busbar piece and together with the busbar piece form a terminal point for clamping an electrical conductor. An extension of the busbar piece is slotted to form a clamping slot for plug contacting a contact pin. The busbar piece thus provides a clamping contact for a contact pin at its clamping slot.

DE 10 2010 010 260 A1 shows a connector with a leg spring suspended in a bus bar piece and an insulating housing having a contact pin insertion opening for receiving a contact pin at the conductor insertion opening at the top and at the opposite bottom. The contact pin is guided by a breakthrough in the conductor rail piece, in which also the plant leg of the leg spring dips. Thus, the contact pin is clamped by the spring force of the contact leg of the leg spring to a breakthrough of the busbar piece limiting cross bar. The electrical conductor is clamped on the opposite side of the leg spring with a clamping edge at the free end of the clamping leg to a contact edge of the busbar piece, which limits a conductor lead-through opening in the busbar piece frontally.

Furthermore, it is off DE 20 2011 102 996 U1 a spring force clamping contact with a busbar element and with a clamping spring known. The spring bow of the clamping spring has extending in the longitudinal direction of the spring plate material recesses or the spring plate completely penetrating slots. Thus, the spring action of the bending radius of the clamping spring is increased and the properties of the clamping spring are improved.

From the DE 202 10 105 U1 An electrical connection for terminals, connectors or devices is known. From the EP 0 828 314 A1 is a screwless electrical terminal known. From the DE 10 2011 054 418 A1 is a spring body of a spring clamp and a Federkraftklemmanordnung known.

Based on this, it is an object of the present invention to provide a compact conductor terminal as possible with self-supporting, formed from clamping spring and busbar piece spring terminal connection, in which both an electrical conductor, and a pin can be reliably clamped to the Federkraftklemmanschluss independently.

It should be possible to clamp an electrical conductor before inserting a contact pin and vice versa.

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

For a generic conductor connection terminal is proposed that the passage opening in the busbar piece on the crosspiece of the opposite side has an opening at the free end of the conductor rail piece. The busbar piece is thus opened or slotted with the aid of this opening at its free, opposite cross-section end, so that the resulting side webs are movable toward each other transversely to the longitudinal direction of the busbar piece.

The plant leg of the clamping spring has two spaced apart spring arms which surround the busbar piece in the region of the opening on both sides and form a spring force clamping point for clamping a plugged into the through hole in the region of the opening pin in the busbar piece with the spring force of the spring arms of the plant leg. With the help of the breakthrough and thereby caused relatively movability of the passage opening and the breakthrough limiting side webs of the busbar piece, these side bars are acted upon by means of spring arms embracing these with a spring force to provide a spring force clamping connection for a plug inserted into the through hole or the opening. The contact pin can be inserted in the through hole, ie in the opening or adjacent to the opening in the passage opening and plug-contacted by means of the spring force.

This conductor terminal may be single or multi-pole with one or more Federerkraftklemmanschlüssen with associated conductor insertion openings and contact insertion openings in the insulating material. The term "a" is therefore not to be understood as a number word, but in the sense of "at least one".

The electrical conductor is clamped to the clamping leg of the clamping spring on the cross bar, which is diametrically opposite to the opening and the spring arm on the plant leg of the clamping spring.

With this solution, not only an optimal utilization of an additional spring clamping force by the formation of a Federklemmelements on the plant leg, which works transversely to the extension direction to the plant leg succeeds. Rather, the available space below the spring bow is used optimally for receiving the contact pin. Thus, the height of the conductor terminal can be kept low. With the help of acting transversely to the extension direction of the plant leg spring arms on the plant leg, the clamping of a contact pin has no or only a negligible effect on the clamping of the electrical conductor by means of the clamping leg. The clamping forces or contact forces for the electrical conductor and the contact pin are thus independent of each other.

It is particularly advantageous if the bearing limb is slotted in the extension direction of the bearing limb starting from the spring arms towards the spring bow. This is not only between the spring arms a space in the plant leg available. Rather, this space is in a slot, which increases the spring force of the abutment leg transversely to the direction of extension of the plant leg. The slot preferably extends into the spring bow. This increases the available spring arm length and thus improves the resulting spring characteristic. In addition, the spring action of the bending radius of the clamping spring and thus the spring characteristic of the clamping leg is improved by the slotted spring bow.

In an advantageous embodiment, the free end of the clamping leg of the clamping spring immersed at least in the state without clamped electrical conductor through the through hole. This ensures that the clamping leg is held in the rest position without plugged electrical conductors on the crossbar of the busbar section. In addition, this can be achieved by the fact that the clamping force of the clamping spring is optimally concentrated on the crossbar in order to increase the surface pressure. This design also ensures that the strands of a flexible electrical conductor can be securely held in the passage opening.

The contact pin is preferably inserted into a free space of the clamping spring on the plane defined by the plant leg plane between the spring arms. In this variant, the plane spanned by the plant leg is thus used to receive the contact pin. For this purpose, the spring arms forming free space between the spring arms, which must be sufficiently wide over the required insertion length to accommodate the contact pin between the spring arms. An alternative is the insertion of the contact pin between the transverse web or the clamping edge of the clamping leg and the bearing leg adjacent to the plant leg such that the contact pin immersed next to the plant leg below the spring bow in the local space.

It is advantageous if the transverse web, which delimits the passage opening and is provided for clamping an electrical conductor to the clamping edge of the clamping leg, is bent transversely to the plane spanned by the passage opening. For a ladder guide wall is created. In addition, the clamping point for the electrical conductor can be displaced on the transverse web out of the plane of the passage opening in Leitereinsteckrichtung up or down. Thus, the cross bar or its clamping edge can be optimally adapted to the clamping spring and the constructive plug conditions for clamping an electrical conductor.

The contact pin is advantageously received in a Isolierstoffsockel. The Isolierstoffsockel has a trained for immersion in the passage opening of the busbar piece fingers. Thus, not only the contact pin itself, but also at least the adjacent finger of the insulant base is inserted into the insulator housing of the conductor terminal, while the conductor terminal is plugged onto the contact pin. With the help of the case in the Through hole of the busbar piece immersed finger a certain contact protection for the contact pin is achieved in the unplugged state. In addition, the leadership of the contact pin is improved for clamping to the through hole and secured in the plug state, a stable composite of conductor terminal and Isolierstoffsockel.

It can be advantageous in this case if the finger has a length adapted to form an overload stop for the clamping leg of the clamping spring, when the insulating housing is plugged onto the insulating base in the inserted state and the contact pin is clamped to the busbar piece. In the deflection of the clamping leg z. Example, with the aid of an actuating lever, actuating lever or actuating tool for clamping or removal of an electrical conductor of the clamping leg thus abuts the free end of the finger, so as to prevent excessive deflection of the clamping leg and an associated overloading of the clamping spring.

The Isolierstoffsockel preferably has latching elements for latching to the insulating housing when the insulating material plugged in the plug state on the Isolierstoffsockel and the contact pin is clamped to the busbar piece, or contacted with this. This creates a stable bond between the conductor terminal and insulating base in the plug-in state. By means of the latching prevents the conductor terminal z. B. in tensile load on a clamped electrical conductor from the insulating base and the contact pins arranged thereon triggers.

Furthermore, it is advantageous if the busbar has recesses in the region of the opening at its opposite outer edges, in each of which a spring arm of the contact leg is inserted. With the help of these recesses (bays), it is possible to fix the spring arms at the locations defined by the recess on the conductor rail piece or the opposite side webs of the conductor rail piece.

The invention will be explained in more detail with reference to embodiments with the accompanying drawings. Show it:

1 - Side sectional view of a first embodiment of a conductor terminal in the plugged state on a Isolierstoffsockel with contact pin;

2 - Conductor connection terminal off 1 in the operated open state;

3 - Perspective rear view of a spring-loaded terminal with clamping spring and busbar piece;

4 - Cross-sectional view of a section of the conductor connection terminal 1 in the area of the contact pin clamping point;

5 - Side sectional view of a second embodiment of a conductor terminal with adjacent to the plant leg plugged contact pin in the unactuated idle state;

6 - Side sectional view of the conductor connection terminal off 5 in the actuated state;

7 - Cross-sectional view through the spring terminal connection for the conductor terminal from the 5 and 6 ,

1 lets a first embodiment of a conductor terminal 1 detect. The conductor connection terminal has an insulating material housing 2 , the two-piece with a shell 3 and a bottom part 4 is trained. The bottom part 4 is with locking elements 5 in a detent opening 6 of the top 3 locked. In the insulating housing a spring terminal connection is installed, which consists of a clamping spring 7 and a busbar piece 8th is formed. The clamping spring 7 is as a U-shaped leg spring with a plant leg 9 , an adjoining spring bow 10 and a clamping leg 11 educated. The clamping leg 11 has a clamping edge at its free end 12 for clamping an electrical conductor.

The busbar piece has a passage opening 13 running on one side through a crossbar 14 is limited. One in a ladder introduction opening 15 at the top of the insulating material 2 inserted electrical conductor 16 is through the passage opening 13 of the busbar piece 8th guided and with the help of the clamping edge 12 of the clamping leg 11 to a protrusion of the crossbar 14 clamped. This will be the electrical conductor 16 with the help of the spring force of the clamping spring 7 electrically conductive and mechanically fixed to the conductor rail piece 8th clamped. The electrical conductor 16 can without previous deflection of the clamping leg 11 be clamped from the sketched resting state, since the clamping leg 11 by the insertion force of the electrical conductor 16 downwards or in the direction of the plant leg 9 is relocated. Only with finely stranded electrical conductors would the electrical conductor 16 bend at such a plugging. Then there is an opening through the clamping edge 12 and crossbar 14 formed clamping point for the electrical conductor 16 with the help of an actuating element 17 required. This is in the example shown as actuator 17 a displaceable in Isolierstoffgehäuse 2 mounted actuation trigger provided. This is z. B. with an operating tool or by hand in the insulating material 2 pressed in to the clamping leg 11 the clamping spring in the direction of plant leg 9 to shift and thereby open the nip.

The passage opening 13 extends to the free end of the busbar piece 8th towards the crossbar 14 opposite. The passage opening 13 goes in a breakthrough in the busbar piece, which extends in the extension direction of the busbar and at the free end, the crossbar 14 Opposite, terminates. This has the busbar piece 8th two at the parallel to each other in the extension direction of the busbar piece 8th extend and with the passage opening 13 and the breakthrough spaced side webs. These are movable towards each other due to the breakthrough.

It is recognizable that a contact pin 18 from the bottom into a contact pin insertion opening 40 (Receiving opening) in the bottom part 4 in the interior of the insulating material 2 is introduced. This contact pin 18 is on an insulant base 19 arranged. This insulating base 19 forms together with one or more pins 18 a pin header, which can be soldered for example to a circuit board. It is also conceivable that the contact pin 18 with the insulant base 19 is part of a mating connector for the conductor terminal.

It can be seen that the contact pin 18 with its free end in the passage opening 13 of the busbar piece 8th is inserted in the region of the opening at the free end. The plant thigh 9 the clamping spring 7 engages with two opposing spring arms 20 at its free end to the busbar piece 8th to the with the help of the passage opening 13 and the unrecognizable breakthrough the relatively movable side webs of the busbar piece 8th by the spring force of the plant leg 9 to press each other. This is done by the spring arms 20 at the free end of the plant leg 9 a clamping force on the busbar piece 8th applied, with an inserted contact pin 18 to the busbar piece 8th is clamped.

It is clear that from the insulating base 19 a finger 21 protrudes, which is adjacent to the contact pin 18 also through the passage opening 13 in the conductor rail piece 8th extends through. The finger 21 It has a length which is the free end of the contact pin 18 surmounted. For a simple contact protection is achieved, the touch of the contact pin 18 prevented in the unplugged state or at least more difficult. In addition, the leadership of the contact pin 18 in the passage opening 13 or the breakthrough of the conductor rail piece 8th when plugging in the conductor connection terminal 1 on the Isolierstoffsockel 19 improved.

The free front of the finger 21 can be tilted and to the adjacent contour of the bottom part 4 be adjusted. The finger 21 can be an overload stop for the clamping legs 14 provide excessive displacement of the clamping leg 14 downwards or in the direction of the plant leg 9 and thus an overload of the clamping spring 7 prevents when the insulating material 2 in the plug state on the Isolierstoffsockel 19 is plugged.

This is going out 2 more clearly, the one side sectional view of the conductor terminal 1 out 1 in now actuated state shows. It can be seen that at the maximum possible actuation of the clamping legs 14 at the bottom part 4 abuts and on the face at the free end of the finger 21 rests.

Out 1 and 2 will still be clear that the insulant base 19 a locking element 22 on a latch arm 23 Has. This locking element 22 (eg latching lug) engages in the final plug-in state after attaching the conductor connection terminal 1 on the Isolierstoffsockel 19 due to the spring elasticity of the locking arm 23 in a detent opening 24 on the outside of the insulating material 2 one to make a stop. This is a peeling insulating material 2 from the Isolierstoffsockel 19 prevented.

3 shows an example of a spring clamp terminal for such a conductor terminal 1 in perspective rear view. It can be seen that the busbar piece 8th U-shaped and is formed in the longitudinal direction of the busbar piece 8th extending passage opening 13 Has. As a result, two spaced apart, lying on a same plane and in the longitudinal direction of the busbar piece 8th extending side bars 25a . 25b educated. The passage opening 13 is at a free end of the busbar piece 8th with the crossbars 14 limited. On the crossbar 14 opposite side of the busbar piece 8th is a breakthrough 26 present, with which the passage opening 13 to the free end of the busbar piece 8th opens out. As a result, the opposing side bars 25a . 25b movable relative to each other and just not as at the breakthrough 26 opposite side by the crossbar 14 Position-fixed in their distance.

It becomes clear that the plant leg 9 on the clamping spring 7 with one in the spring bow 10 in extending slot 30 is provided, the plant leg 9 divided into two adjacent and arranged on a same level leg arms. These leg arms go into two spaced spring arms 20 over that the busbar piece 8th encompass both sides. The spring arms 20 are with a free space 27 above the level of the conductor rail piece 8th spaced apart, in which a contact pin 18 like in the 1 and 2 shown, can dip.

It becomes clear that the busbar 8th in the area of the breakthrough 26 at their opposite outer edges recesses 28 has, in each case an associated spring arm 20 of the plant leg 9 the clamping spring 7 dips. This is the plant leg 9 at the busbar piece 8th in the longitudinal direction of the conductor rail piece 8th fixed in position.

In addition, the spring arms 20 as in the 1 and 2 indicated, bends that have the immersion of the plant leg 9 limit down to the busbar.

With the help of spaced spring arms 20 that the busbar piece 8th encompass a spring force at least when spreading the side bars 25a . 25b on this in the area of the breakthrough 26 and the adjoining portion of the through hole 13 exercised, with an inserted contact pin 18 is plugged into contact under spring force.

It becomes clear that the spring force of the clamping spring 7 on the clamping leg 11 in the longitudinal direction of the clamping spring 7 through the spring bow 10 is applied. The clamping force on the conductor rail piece 8th in the area of the breakthrough 26 is, however, by the width direction of the clamping spring 7 spaced spring arms 20 and the optional slot 30 , which has a sufficiently large spring travel of the spring arms 20 allows, applied.

4 leaves a sectional view in plan view of the busbar piece 8th out 3 with inserted contact pin 18 and in the through hole 13 dipping fingers 21 of insulating material 19 detect. It is clear that in the illustrated embodiment, the contact pin 18 in the area of the spring arms 20 spanned level in the breakthrough 26 is plugged in. Here are the side bars 25a . 25b through the inserted contact pin 18 spread apart and it is by the spring arms 20 a drag on the contact pin 18 exercised. This will cause the contact pin 18 to the busbar piece 8th clamped.

The finger 21 has one on the breakthrough 13 adapted contour and is with a part-circular gap of the contact pin 18 spaced.

It is also recognizable that the side bars 25a . 25b at the outer edges recesses 28 z. B. in the form of rectangular bays, in which the spring arms 20 plunge.

5 shows a side sectional view of a second embodiment of a conductor terminal 1 detect. Again, the insulating housing 2 two-piece with a top 3 and a bottom part 4 executed. It is also a U-shaped bent leg spring 7 provided for clamping an electrical conductor 16 to the busbar piece 8th is provided. The electrical conductor 16 can turn into a ladder entry opening 15 of the insulating material housing 2 inserted and through a passage opening 13 in the conductor rail piece 8th be passed. With regard to the clamping of the electrical conductor 31 to the nip 12 and the crossbar 14 Reference is made to the previously described embodiment. In the illustrated embodiment, the crosspiece 14 bent only upwards opposite to Leitereinsteckrichtung L, so that the clamping point in an area above the plane of the passage opening 13 is relocated. It is clear that in the illustrated supply state of the clamping legs 11 not in the breakthrough 13 dips.

Unlike the previously described embodiment, the contact pin 18 in the area of the breakthrough 26 at the passage opening 13 ie adjacent to the spring arms 20 and possibly the breakthrough 26 clamped. This will be the slightly wider area of the passage opening 13 for clamping the contact pin 18 used and not the subsequent narrower preferably breakthrough 26 , The contact pin 18 uses the area below the spring bow 10 to save space in the conductor connection terminal 1 to be placed.

It is also clear that in this illustrated embodiment, no insulating material is present in the insulating material 2 dips. The contact pin 18 is rather a single contact pin 18 or as a contact strip with not shown very low Isolierstoffsockel on a circuit board 32 soldered.

Also in this embodiment, the conductor terminal 1 engage around the spaced spring arms 20 of the plant leg 9 the busbar piece 8th on both sides of the outside, with the help of the breakthrough 26 relatively movable side bars 25a . 25b by means of the spring force of the clamping spring 7 with the contact pin 18 to contact.

6 leaves the conductor connection terminal 1 out 5 Detect in open position with open nip. It is clear that here too by pressing down the actuator 17 the clamping leg 11 in the direction of the plant thigh 9 is deflected. This is the through the clamping edge at the free end of the clamping leg 11 and the crossbar 14 formed clamping point for clamping an electrical conductor 31 open.

7 shows a plan view of the spring terminal connection of the conductor terminal 1 from the 5 and 6 with inserted contact pin 18 , It becomes clear that the passage opening 13 in the area of the for receiving the electrical conductor 16 provided space adjacent to the crossbar 14 is relatively wide and then initially tapering into a slot. The passage opening 13 then spreads through two opposing bays in the area of the pinching the contact pin 18 provided section, in order then again in the free end of the busbar piece 8th expiring breakthrough 26 to rejuvenate.

It becomes clear that here too with the help of the passage opening 13 with the breakthrough 26 at the free end two relatively movable and by this space / slot separate side bars 25a . 25b be created.

Again encompass the spring arms 20 of the plant leg 9 the clamping spring 7 the busbar piece 8th or their side bars 25a . 25b from the outside to a the contact pin 18 exercise clamping force. To do this, dip the spring arms 20 again in appropriate recesses 28 on the outer edge of the side bars 25a . 25b in the region of the free end of the busbar piece 8th opposite to the crossbar 14 one.

Claims (10)

Conductor connection terminal ( 1 ) with an insulating material housing ( 2 ), which has a conductor insertion opening ( 15 ) for introducing an electrical conductor ( 16 ) and a contact pin insertion opening ( 40 ) for inserting a contact pin ( 18 ), with a clamping spring ( 7 ), which has a clamping leg ( 11 ), a spring bow ( 10 ) and a plant leg ( 9 ), and with a busbar piece ( 8th ), which has a passage opening ( 13 ) for receiving the contact pin ( 18 ) and for clamping the electrical conductor ( 16 ) between the clamping leg ( 11 ) and a crosspiece ( 14 ) of the conductor rail piece ( 8th ), characterized in that the passage opening ( 13 ) on the crossbar ( 14 ) opposite side a breakthrough ( 26 ) at the free end of the busbar piece ( 8th ) and the plant leg ( 9 ) of the clamping spring ( 7 ) two spaced spring arms ( 20 ), which has the busbar piece ( 8th ) engage around on both sides and a spring-force clamping point for clamping a in the through hole ( 13 ) in the area of the breakthrough ( 26 ) inserted contact pin ( 18 ) in the busbar piece ( 8th ) with the spring force of the spring arms ( 20 ) of the plant leg ( 9 ) form. Conductor connection terminal ( 1 ) according to claim 1, characterized in that the plant leg ( 9 ) in the extension direction of the plant leg ( 9 ) starting from the spring arms ( 20 ) to the spring bow ( 10 ) is slotted. Conductor connection terminal ( 1 ) according to claim 2, characterized in that the slot ( 30 ) in the spring bow ( 10 ) extends into it. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the free end of the clamping leg ( 11 ) at least in the state without clamped electrical conductor ( 16 ) through the passage opening ( 13 ) penetrates. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the contact pin ( 18 ) into a free space ( 27 ) of the clamping spring ( 7 ) on the of the plant leg ( 9 ) plane between the spring arms ( 20 ) is insertable. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the transverse web ( 14 ), the passage opening ( 13 ), transversely to that of the passage opening ( 13 ) bent plane is bent. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the contact pin ( 18 ) in a Isolierstoffsockel ( 19 ), wherein the insulating base ( 19 ) one for immersion in the passage opening ( 13 ) of the busbar piece ( 8th ) trained fingers ( 21 ) Has. Conductor connection terminal ( 1 ) according to claim 7, characterized in that the finger ( 21 ) one for forming an overload stop for the clamping leg ( 11 ) of the clamping spring ( 7 ) has adapted length when the insulating housing ( 2 ) in the plug state on the Isolierstoffsockel ( 19 ) and the contact pin ( 18 ) to the busbar piece ( 8th ) is clamped. Conductor connection terminal ( 1 ) according to claim 7 or 8, characterized in that the Isolierstoffsockel ( 19 ) Locking elements ( 22 ) for locking on the insulating housing ( 2 ), if the insulating housing ( 2 ) in the plug state on the Isolierstoffsockel ( 19 ) and the contact pin ( 18 ) with the busbar piece ( 8th ) is contacted. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the busbar piece ( 8th ) in the area of the breakthrough ( 26 ) at their opposite outer edges recesses ( 28 ), in each of which a spring arm ( 20 ) of the plant leg ( 9 immersed).

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