DE102015118033A1 - Conductor terminal - Google Patents

Abstract

A conductor terminal (1) having an insulating housing (2), a spring force terminal (4) having a clamping spring (5) for clamping an electrical conductor, and an operating lever pivotally mounted in the insulating housing (2) about a turning center (18) (15) will be described. The operating lever (15) has a lever arm portion (17) and an operating portion (19) cooperating to apply force to the associated clamping spring (5), and the operating lever (15) has a clearance (20) in the turning center (18). The rotation center (18) is located between the operating portion (19) and the lever arm portion (17). A bent portion of the clamping spring (5) is positioned in the free space (20) of the operating lever (15). The clearance (20) has a curved inner contour which is adjacent to the bent portion of the clamping spring (5), and the actuating portion (19) forms the outlet end of the curved inner contour.

Description

The invention relates to a conductor terminal with an insulating material housing, with a spring-force clamping connection, which has a clamping spring for clamping an electrical conductor, and with an about a center of rotation pivotally mounted in the insulating housing actuating lever, which has a lever arm portion and a force acting on the associated clamping spring operating portion. The operating lever has a free space in the center of rotation. The center of rotation is located between the operating portion and the lever arm portion.

Such conductor terminals are used in a variety of forms, such as e.g. as plug-in connectors, as terminal blocks, as terminal blocks or as terminals installed in housings of electrical or electronic devices.

WO 2014/170273 A1 shows a spring-loaded clamping element with a pivot lever, which is laterally mounted next to a U-shaped bent leg spring in an insulating material. The actuating lever has a geometry in which the clamping leg at least partially rests and presses against the pivoting direction of the system geometry to zurückzuschwenken the pivot lever by means of the clamping spring.

The spring bow of the leg spring is received in a curved space of the insulating material.

DE 10 2010 048 698 B4 discloses an electrical connection terminal having an insulating housing and at least one spring clamp terminal in the insulating housing. The Federklemmanschluss has a cage tension spring with a projecting from the actuating limb tab. The tab is received in a free space of the actuating lever, which is created by a recess in the bearing shaft. The top of the space serves as a support for the tab. Thus, the actuating lever can be arranged in front of the cage tension spring adjacent to a lug extending from the backward bow bow away from the actuating limb.

Based on this, it is an object of the present invention to provide an improved conductor terminal with the simplest possible, robust and compact design.

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

In a generic conductor terminal, a bent portion of the clamping spring is positioned in the free space of the operating lever. The free space has a curved inner contour which is adjacent to the bent portion of the clamping spring. The actuating portion forms the outgoing end of the curved inner contour.

In this way, the bent portion of the clamping spring is received in the space and it can be provided a much more compact and kinematic improved conductor terminal.

The clamping spring may be a U-shaped bent leg spring with a plant leg, a subsequent to the plant leg spring bow and a subsequent to the spring bow and the plant leg opposite clamping leg. Then the spring bow is positioned in the free space. The free space of the actuating lever thus engages around the spring bow such that the actuating portion of the actuating lever is designed to apply force to the clamping leg to exert an operating force acting on the clamping leg in the direction of the abutment leg upon pivoting of the actuating lever about the center of rotation.

While the actuating lever is thus pivoted about the center of rotation lying in the region of the spring bow, the actuating portion then engages the clamping leg adjoining the spring bow. Thus, the operating portion and the Hebelarmabschnitt are each on opposite sides of the spring bow. This allows a very compact design with a power-optimized and stable operation of the clamping spring to open the clamping point formed with the clamping leg for clamping an electrical conductor.

The spring terminal connection may have a busbar piece, so that the clamping point is formed for clamping an electrical conductor between a clamping edge of the clamping leg and the busbar piece.

In such an embodiment of the spring terminal connection with current piece, the clamping spring can be formed not only as a U-shaped bent leg spring. It is also conceivable that the clamping spring is a Käfigzugfeder with a mounted on the busbar support leg, a adjoining the plant leg spring bow, an adjoining the spring bow and the plant leg opposite actuating leg and after a bend to the actuating leg has subsequent clamping leg. The clamping leg is provided with a conductor passage opening and extends to the busbar piece. The bus bar piece is passed through the conductor passage opening.

In such a cage tension spring the bend is positioned in the free space of the actuating lever at least in the rest position of the actuating lever. The operating portion of the operating lever is designed to apply force to the actuating arm in order to exert an actuating force acting on the actuating arm in the direction of the abutment leg when the operating lever is pivoted about the center of rotation.

The application of force to the cage tension spring with the actuating portion of the actuating lever thus does not take place via a tab, but on the region of the actuating arm which follows the bend. In this way, a very compact design achieves good kinematics with optimum power flow.

The operating portion of the operating lever may be formed as a protruding bead. Thus, the stability of the actuating lever is improved, in particular during its formation in plastic injection molding.

The actuating lever may have side wall portions which lie in the state of rest in the region of the center of rotation on both sides of the bend. The side wall sections are connected to each other above the bend with a transverse web. The actuating portion is then formed on an end face of the transverse web. With the help of such a crosspiece interconnected side wall sections manages a stable mounting of the actuating lever in the insulating housing with simultaneous stiffening of the actuating portion and its transition to Betätigungsarmabschnitt. The bend of the cage tension spring is introduced in this way in the space bounded by the side wall portions and the crosspiece free space.

The lever arm portion may be connected between the side wall portions of the transverse web and extending from the crosspiece to the free end of the actuating lever. In this way, the actuating arm is not arranged laterally in the region of the side wall sections, but in the central area. Characterized in that the conductor passage opening extends into the bend, the Betätigungsarmabschnitt can dip into this conductor passage opening in the region of the bend in the idle state of the actuating lever. The height of the conductor connection terminal influenced by the actuating lever can be reduced in this way.

It is also conceivable, however, for the side wall sections to extend toward the free end of the actuating lever and to form the lever arm section. The lever arm section is thus a continuation of the side wall sections. It is optionally conceivable that the crosspiece continues between the side wall portions to the free end of the actuating lever, so as to form a stable in cross-section U-shaped lever arm.

The actuating lever may have pivot bearings for pivotable mounting about a defined axis of rotation. But it is also advantageous if the operating lever is floatingly mounted in the insulating material. The pivoting of the actuating lever is then not about a defined axis of rotation, but along a pivotable in the center of rotation.

The actuating lever and the insulating housing may have mutually cooperating latching contours for latching the actuating lever in an open position in which the actuating arm is pivoted away from the insulating material facing away and exerts an actuating force on the clamping spring. This makes it possible in the open position to hold the Federkraftklemmanschluss in the open position and insert or remove without gripping the actuating lever an electrical conductor.

For this purpose, the actuating lever may have a protrusion and the insulating housing has a recess for forming the latching contours. It is also conceivable a reverse variant with a recess of the actuating lever, in which dips a protrusion of the insulating material in the open position. The protrusion may e.g. be formed as a rounded contour or as a detent with stop surface.

The insulating housing may have a plurality of spring terminal connections and respective associated actuating levers which are arranged side by side in the insulating material housing.

For the purposes of the present description of the claims, an indefinite term "a" is thus not to be understood as a number word. Rather, this is to be interpreted in the sense of "at least one".

In the case of a plurality of spring-force clamping connections, it is conceivable for adjacent actuating levers to engage in one another and for a pivot bearing to pivot individual actuating levers to be formed independently of the at least one adjacent actuating lever in the interlocking region of the actuating levers. The adjacent actuating levers are thus pivotally mounted to each other. Only the outer ones Actuating levers are then connected to a swivel bearing pivotally connected to the insulating material.

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 with leg spring;

2 - Section view of the conductor connection terminal 1 on average DD;

3 - Perspective view of a number of juxtaposed operating lever for the conductor terminal from 1 ;

4 - Perspective sectional view of the operating lever 3 ;

5 - Perspective view of a pair of operating levers for the conductor connection terminal 1 ;

6 - Side sectional view of a second embodiment of a conductor terminal with leg spring;

7 - Side sectional view of the conductor connection terminal off 6 with front operating lever in the open position;

8th - Perspective view of individually juxtaposed operating lever for the conductor terminal from 6 and 7 ;

9 - Perspective sectional view of the operating lever 8th ;

10 - Side sectional view of a third embodiment of a conductor terminal with leg spring;

11 - Side sectional view of a fourth embodiment of a conductor terminal in the idle state;

12 - Side sectional view of the conductor connection terminal off 11 in the open state;

13 - Side sectional view of a fifth embodiment of a conductor terminal with cage tension spring;

14 - Perspective view of an operating lever for the conductor connection terminal 13 ;

15 - Section view of a section of the conductor connection terminal 13 ,

1 shows a side sectional view of a first embodiment of a conductor terminal 1 detect. The conductor connection terminal 1 has an insulating material housing 2 with a conductor insertion opening 3 on the front side of the insulating material housing 2 , The conductor entry opening 3 is used to insert an electrical conductor to a spring clamp terminal 4 , This spring clamp connection 4 is from a clamping spring 5 in the form of a U-shaped bent leg spring and a busbar piece 6 educated. The clamping spring 5 has an investment section 7 to the plant to the busbar piece 6 , The busbar piece 6 for this purpose has a conductor opening 8th into which the clamping spring 5 is mounted. An angled end 9 of the plant leg 7 lies on a narrow side edge of the conductor opening 8th in order in this way the leg springs in terms of their location on the busbar piece 6 to fix.

To the plant leg 7 closes a feather bow 10 on, in a clamping leg 11 passes. The clamping leg 11 lies the plant leg 7 opposite and extends to the conductor passage opening 8th of the busbar piece 6 back. In the illustrated embodiment, the clamping leg dives 11 with its free end region through the conductor passage opening 8th through into a ladder collection bag 12 of the insulating material housing 2 into it. The free end of the clamping leg 11 has a clamping edge, which together with the plant leg 7 opposite edge of the conductor opening 8th forms a terminal point for clamping an electrical conductor.

It becomes clear that out of the conductor opening 8th of the busbar piece 6 a material lobe 13 bent out, which is in Leitereinsteckrichtung to ladder collecting bag 12 extends. With this material lobe 13 For example, a conductor guide surface is provided and a contact clamping edge is provided for clamping an electrical conductor.

In the at the plant thigh 7 adjacent area has the busbar piece 6 another material flap 14 moving in the direction of the center of rotation of an actuating lever 15 is bent over. With the help of this material lapel 14 becomes the spring force terminal connection 4 in the insulating housing 2 positioned and held in position. Furthermore, protrudes from the busbar piece 6 a contact pin 16 starting in the opposite direction of the further material lobe 14 extends and from the insulating material 2 on the back side protruding, the front with the conductor insertion opening 3 opposite. This contact pin 16 is optional. It is also conceivable that no external contact possibility is present, but at least two juxtaposed Federkraftklemmanschlüsse the conductor terminal 1 electrically conductive eg via a common busbar piece 6 connected to each other. Instead of a contact pin 16 can also be provided other types of connection, such as. Plug contacts.

In order now, in particular for removing an electrical conductor between the clamping leg 11 and the busbar piece 6 To open formed clamping point, the clamping leg 11 as shown in the direction of the plant leg 7 be relocated. This is done with the operating lever 15 reached. The operating lever 15 is pivotable in the insulating housing 2 added. He has a Hebelarmabschnitt 17 who is in a turning center 18 passes. On the lever arm section 17 opposite side of the turning center 18 is an operating section 19 available. It can be seen that a bent section of the clamping spring 5 in the form of the spring bow 10 in a free space 20 of the turning center 18 dips. Then the operating lever 15 in this bent portion of the clamping spring 5 positioned and around that in the area of the spring bow 10 lying turning center 18 pivoted around. This has the consequence that the lever arm section 17 opposite operating section 19 an actuating force on the clamping leg 11 in which is the spring bow 10 adjacent area. This will be the actuating leg 11 as shown in the direction of the plant leg 7 towards the clamping force of the clamping spring 5 shifted and opened the terminal point for removing an electrical conductor.

In the illustrated embodiment, the plant leg 7 on the one hand at the edge of the conductor opening 8th and on the other hand on the further material lobe 14 superimposed.

To the nip without further application of force to the operating lever 15 to hold in the open position are on the operating lever 15 and the insulating housing 2 mutually corresponding locking elements in the form of a latching lug 21 on the operating lever 15 and a detent opening 22 in insulating material 2 intended. The one stop surface having, wedge-shaped locking lug 21 dives into the detent opening 22 in the illustrated open position in which the nip is opened.

It can be seen that the underlying operating lever 15 ' the further Federkraftklemmanschlusses is in the rest position. In this rest position is the associated clamping leg 11 ' to the clamping projection on the busbar piece 6 Sprung back.

To dispense the operating lever 15 . 15 ' is at the top of the lever arm section 17 ' a longitudinal ridge 23 available.

2 leaves a sectional view through the conductor terminal 1 out 1 recognize on average DD. It is clear that two spring terminal connections side by side with associated operating levers 15 in the insulating material housing 2 are installed.

The turning center 18 has bearing elements for pivotal mounting of the operating lever 15 around a defined axis of rotation. Adjacent operating levers 15 are mounted on the facing sides to each other by the corresponding bearing elements 24 interlock, so for example, a journal can dip into a bearing opening. The outsides of a group of such operating levers 15 are then on the insulating housing 2 stored, in the laterally projecting bearing pin eg bearing openings in side walls 25 of the insulating material housing 2 plunge. It is also conceivable, however, a reverse variant, in the above journal of the insulating material 2 in bearing openings of the operating lever 15 plunge.

It becomes clear that the bearing elements 24 through the open space 10 in the turning center 18 the operating lever 15 extend through. In this free space 20 is a feather bow 10 arranged, which is a bearing element 24 eg encloses in the form of a journal over a partial circumference.

3 leaves a number of juxtaposed actuating lever 15 for the conductor connection terminal 1 out 1 detect. Here are always pairs of operating levers 15 arranged directly adjacent to each other and independently pivotally mounted. On the outside of each pair of operating levers 15 protrudes a bearing element 24 for storage in a side wall 25 of the insulating material housing 2 out.

It can also be seen that the Hebelarmabschnitt 17 is kinked and over a longitudinal ridge 23 is stabilized. In the transition of the lever arm section 17 to the operating section 19 protrudes on the outside of a locking element in the form of a latch 21 out. This catch 21 may, for example, be wedge-shaped.

4 lets a sectional view through the number of operating levers 15 out 3 detect. Here it becomes clear that the actuating levers arranged side by side 15 each pivotable by interlocking bearing elements 24 together are stored. These bearing elements 24 extend through the open space 20 which is provided for receiving a bent portion of the clamping spring.

5 leaves a perspective view of the operating lever 15 recognize from the right and left side. This is once again clear that in the center of rotation, a bearing element 24 in the form of a journal, the bearing opening on one side 26 for receiving a bearing pin 27 of the adjacent bearing element 24 Has. These bearing elements 24 form the center of rotation of the operating lever 15 in which also the free space 20 is located for receiving a bent portion of the clamping spring.

It will also be clear that at the top of the Hebelarmabschnitts 17 in the free end area handle elements 28 for example, in the form of knobs or webs are arranged.

6 shows a side sectional view of a second embodiment of a conductor terminal 1 detect. This in turn has an insulating material 2 with at least one built-in spring clamp terminal 4 that made a conductor rail piece 6 and a U-shaped leg spring 5 is formed. To build up the leg spring 5 and the busbar piece 6 can be essentially referenced to the embodiments of the first embodiment.

Again, the lever has 15 in his turning center 18 a free space 20 in which the feather bow 10 the U-shaped leg spring 5 is included. In contrast to the first embodiment, however, no pivot extends into this space 20 , The open space 20 is rather towards the conductor opening 8th of the busbar piece 6 completely open. The open space 20 is in turn bounded by a curved inner wall which abuts the curved portion of the spring clip 5 in the form of the spring bow 10 is adjusted. Again, lies the center of rotation of the operating lever 15 in the area of open space 20 and the spring bow arranged thereon 10 ,

The front operating lever 15 is in the rest position, in which the operating section 19 the actuating lever no actuating force on the clamping portion 7 the clamping spring 5 exercises.

7 shows the conductor connection terminal 1 out 6 with the lever pivoted up into the open position 15 , It is the lever arm section 17 opposite operating section 19 on the clamping leg 11 An and exercises in the direction of investment thighs 7 directed actuation force. In this way, the clamping leg 11 in the direction of the plant leg 7 shifted to open the terminal point for clamping an electrical conductor.

It becomes clear that the center of rotation with the free space 20 between the operating section 19 and that with its free end of the insulating material 2 away extending lever arm section 17 located. This causes the lever arm to rotate 15 around the feather bow 10 around and on the free end of the lever arm section 17 applied actuating force is in an oppositely directed and on the clamping leg 11 acting force implemented.

8th shows a perspective view of a number of juxtaposed operating lever for the conductor terminal 1 out 6 and 7 detect. It becomes clear that here too there is a catch 21 is present on the outside of the actuating lever and the contour of the actuating lever is in principle comparable to the actuating lever of the first embodiment. However, the levers are 15 all arranged at a small distance from each other. The operating levers 15 have the free space 20 each side (left and right) in the direction of the axis of rotation limiting side walls 28 on whose outer sides is each a bearing element 24 in the form of a journal. On the left side visible bearing pin is tubular with a circular cross-section opening for receiving a complementary journal.

9 lets a perspective sectional view of the number of operating levers 15 out 8th detect. There it can be seen that the operating lever 15 each on their side walls in the area of the center of rotation 18 corresponding bearing elements 24 with a tubular journal on one side and a cylindrical journal on the opposite side. The cylindrical bearing journal has a diameter adapted to the bore of the tubular complementary journal to dip therein and a pivot bearing between the adjacent actuating levers 15 train.

It becomes clear that the free space 20 in the turning center 18 completely free in this embodiment and is not partially filled with a bearing element.

10 shows a side sectional view of a third embodiment of a conductor terminal 1 with at least one spring clamp connection 4 in an insulating material housing 2 and an associated operating lever 15 detect. The basic structure of the conductor connection terminal 1 is with the first and second Comparable embodiment, so that reference can be made essentially to the previous statements. In this embodiment, the clearance is 20 in the turning center also not filled by rotary elements. The feather bow 10 the U-shaped leg spring 5 is in turn in the corresponding curved space 20 of the operating lever 15 recorded and is located in the center of rotation 18 of the operating lever 15 , The lever arm section 17 and the operation section 19 lie on opposite sides of the center of rotation. The operating section 19 is arranged so that it is on the bow of the spring 10 subsequent area of the clamping leg 11 supports and pivoting the operating lever 15 an actuating force on this clamping leg 11 exercises.

Unlike the first two embodiments, the bus bar is 6 not by one from the insulating material 2 extended contact pin extended. Rather, at least two juxtaposed Federerkraftklemmanschlüsse 4 electrically conductive via a common busbar piece 6 connected with each other.

11 shows a fourth embodiment of a conductor terminal 1 in the side section view. Also in this embodiment is a U-shaped bent leg spring 5 in the insulating material housing 2 built-in. She rests with her investment thigh 7 on a support section 29 a busbar piece 6 , This busbar piece 6 is cage-shaped and has a support portion 29 opposite contact bottom 30 with a contact projection 31 , The free end of the clamping leg forms together with this contact projection 31 a nip for clamping a in the front conductor insertion opening 3 introduced electrical conductor.

Opposite to the conductor opening 3 is a fork contact 32 at the busbar piece 6 educated. The fork contact 32 has two opposing and elastically resilient cooperating fork tongues 33a . 33b , At the ladder entry opening 3 opposite side of the insulating material 2 is a contact pin receiving opening 34 provided to a contact pin or electrical conductor or the like in the interior of the insulating material 2 for contacting at the fork contact 32 introduce.

In this respect, the forms the conductor introduction opening 3 opposite side a connector for insertion or plugging on a corresponding mating connector.

To open the with the clamping spring 5 and the busbar piece 6 formed clamping point for clamping an electrical conductor is in turn an operating lever 15 pivotable in the insulating housing 2 stored. This in turn is one in the area of the spring bow 10 lying center of rotation 18 floating without a fixed pivot bearing in the insulating housing 2 stored. The on the clamping leg 11 acting actuation section 19 of the operating lever 15 and the lever arm section 17 with the for grasping the operating lever 15 free end lie with the intermediate center of rotation 18 of the operating lever 15 opposite each other. In this turning center 18 has the operating lever 15 turn a bay-like vaulted space 20 , in the spring bow 10 the clamping spring 5 dips. It can be seen that the curvature of the inner wall of the free space 20 to the curvature of the spring bow 10 adjusted so that the spring bow 10 on this curved inner wall of the open space 20 of the operating lever 15 is applied. In this way, the operating lever 15 pivotable on the spring bow 10 stored in the rest position.

On the open space 20 opposite side has the operating lever 15 a locking element 34 in the form of a projection. This projection is narrower than the width of the adjoining portion of the actuating lever 15 , This locking element 34 in the form of the projection is to the contour of the insulating material 2 adapted in this area to a corresponding locking element 35 in insulating material 2 immerse and lock there. This corresponding locking element 35 is formed as a recess whose width to the width of the projection (locking element 34 ) is adjusted. So when pivoting the operating lever 15 the projection (locking element 34 ) in the corresponding locking element 35 (Recess) can immerse, joins the corresponding locking element 35 a to the top of the insulating material 2 leading channel 36 at. The respective side of the locking element 34 on the operating lever 15 located arcuate section 55 slides during the opening movement of the operating lever 15 on the other hand, on an inner wall 56 of the insulating material housing 2 along.

12 shows the conductor connection terminal 1 out 11 with the pivoted into the open position operating lever 15 , It becomes clear that the operating section 19 now on the clamping leg 11 rests and a clamping leg 11 in the direction of the plant thigh 7 displacing operating force exercises. As a result, the between the free end of the clamping leg 11 and the clamping projection 31 formed clamping point for clamping an electrical conductor open.

In this open position, the locking element emerges 34 (Projection) of the operating lever 15 in the corresponding locking element 35 (Deepening) of the insulating material housing 2 and holds the operating lever 15 in the open position, even if the clamping spring 5 a restoring force on the operating lever 15 exercises. The operating lever 15 is due to the floating displacement and the corresponding locking elements 34 . 35 locked in the open position. It is clear that in this open position of the spring bow 10 in the open space 20 in the turning center 18 of the operating lever 15 is positioned. The operating lever 15 is, however, of the spring bow 10 pivoted away, so now a distance between the inner wall of the curved space 20 and the spring bow 10 consists. In this open position thus no guidance and storage of the actuating lever 15 more on the spring bow 10 , The operating lever 15 There it only works with its operating section 19 with the clamping leg 11 together.

It is still recognizable that the lead 34 the extended portion of a transverse bar is over a substantial portion of the length of the lever arm section 17 extends and the kinking stability of the operating lever 15 improved.

13 shows a side sectional view of a fifth embodiment of a conductor terminal 1 detect. In this embodiment, the clamping spring is a cage tension spring 38 trained, the one on a conductor rail piece 6 superimposed investment thighs 39 , an adjoining spring bow 40 , a to the spring bow 40 subsequent actuating leg 41 and a clamping leg 42 Has. The actuating leg 41 and the clamping leg 42 go with a bend 43 into each other. In the clamping leg 42 There is a conductor lead-through opening through which the busbar piece 6 and optionally also a part of the plant leg 39 through submerged.

The insulating material housing 2 again has a ladder entry opening 3 , which leads to a terminal point for clamping an electrical conductor. The nip is by a protrusion 43 of the busbar piece 6 and a lower peripheral edge of the conductor insertion opening 3 on the clamping leg 42 end-limiting transverse web is formed.

To now this crosspiece of the busbar piece 6 to move away and open the nip, now has the actuating leg 41 in the direction of the plant thigh 39 to be moved. This requires at the relatively large clamping force of a cage tension spring relatively large actuation forces caused by the insulating in the housing 2 pivotally mounted actuating lever 15 be applied. This in turn has a Hebelarmabschnitt 17 on one side and an operating section 19 on the opposite side. The operating section 19 is as a bead on a crossbar 45 formed, the two opposite side walls 46 of the operating lever 15 combines. The side walls 46 form in their extension two mutually opposite wall portions of the lever arm 17 ,

It becomes clear that in the center of rotation 18 of the operating lever 15 turn one through the crossbar 45 upwards limited space 20 is present, in which the bend 43 the cage tension spring 38 dips. The operating section 19 lies on the bend at the bend 43 subsequent area of the actuating leg 41 on.

14 leaves a perspective view of one also for the conductor terminal 1 out 13 suitable operating lever 15 detect. It becomes clear that the lever arm section 17 in the middle area of the operating lever 15 integral (integral and cohesive) with the crosspiece 45 connected is. On the outsides of the crossbar 45 are each at least part-circular or Favor vollkreisförmige side wall sections 46 designed to pivot the actuating lever 15 in the insulating housing 2 serve. The lever arm section 17 is opposite the curved plane of the crosspiece 45 transversely, the kink stability in the operation and pivoting of the lever arm 15 to improve. It is clear that in the space between the side wall sections 46 and the curved crosspiece 45 a free space 20 for receiving a curved portion or the bend 43 the cage tension spring 38 is formed. This clearance is partly through the to the crossbar 45 subsequent lever arm section 17 filled.

15 shows a front sectional view of a section of the conductor terminal 1 out 13 detect. It is clear that the clamping leg has a side webs that are opposite one another 47 and one end, the side bars 47 interconnecting crosspiece 48 limited conductor opening 49 Has. The marginal edge of the crosspiece 48 which the conductor passage opening 49 limited, is in the illustrated rest position without clamped conductor on the busbar piece 6 on.

The conductor lead-through opening 49 extends to the bend 43 into it so that the lever arm section 17 of the operating lever 15 in the illustrated rest position in the bend 43 in the conductor passage opening 49 dips.

It can also be seen that the side wall sections 46 in corresponding bearing openings 50 of the insulating material housing 2 dive so as a pivot bearing for the operating lever 15 in the insulating housing 2 to build.

The illustrated conductor connection terminal 1 is formed as a box terminal, wherein the at least two adjacently arranged Federkraftklemmanschlüsse via a transverse to the Federkraftklemmanschlüssen extending busbar section 51 are electrically connected.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2014/170273 A1 [0003]
• DE 102010048698 B4 [0005]

Claims (14)

Conductor connection terminal ( 1 ) with an insulating material housing ( 2 ), with a spring force clamping connection ( 4 ), which has a clamping spring ( 5 ) for clamping an electrical conductor, and having one around a center of rotation ( 18 ) pivotable in the insulating housing ( 2 ) mounted operating lever ( 15 ), which has a lever arm section ( 17 ) and a force applied to the associated clamping spring ( 5 ) cooperating operating section ( 19 ), wherein the operating lever ( 15 ) in the center of rotation ( 18 ) a free space ( 20 ) and where the turning center ( 18 ) between the actuating section ( 19 ) and the lever arm section ( 17 ), characterized in that a bent portion of the clamping spring ( 5 ) in the open space ( 20 ) of the actuating lever ( 15 ) is positioned that the free space ( 20 ) has a curved inner contour which adjacent to the bent portion of the clamping spring ( 5 ), and that the actuation section ( 19 ) forms the expiring end of the curved inner contour. Conductor connection terminal ( 1 ) according to claim 1, characterized in that the clamping spring ( 5 ) a U-shaped bent leg spring with a plant leg ( 7 ), to the plant leg ( 7 ) subsequent spring bow ( 10 ) and a to the spring bow ( 10 ) and the plant leg ( 39 ) opposite clamping legs ( 11 ), wherein the spring bow ( 10 ) in the open space ( 20 ) is positioned and the actuating portion ( 19 ) for applying force to the clamping leg ( 11 ) is formed in order to pivot upon pivoting of the actuating lever ( 15 ) around the center of rotation ( 18 ) one on the clamping leg ( 11 ) in the direction of the plant leg ( 7 ) to exert acting operating force. Conductor connection terminal ( 1 ) according to claim 2, characterized in that the rotation center ( 18 ) of the actuating lever ( 15 ) in the spring bow ( 10 . 40 ) area is arranged. Conductor connection terminal ( 1 ) according to claim 1, characterized in that the spring force clamping connection ( 4 ) a busbar piece ( 6 ) and the clamping spring ( 5 ) a cage tension spring ( 38 ) with one at the busbar piece ( 6 ) supported plant leg ( 39 ), to the plant leg ( 39 ) subsequent spring bow ( 40 ), a to the spring bow ( 40 ) and the plant leg ( 39 ) opposite actuating leg ( 41 ) and one after a bend ( 43 ) to the actuating leg ( 41 ) subsequent clamping legs ( 42 ), which has a conductor opening ( 49 ) and to the busbar piece ( 6 ), wherein the busbar piece ( 6 ) through the conductor lead-through opening ( 49 ) and that the bend ( 43 ) in the open space ( 20 ) is positioned and the actuating portion ( 19 ) of the actuating lever ( 15 ) for applying force to the actuating leg ( 41 ) is formed in order to pivot upon pivoting of the actuating lever ( 15 ) around the center of rotation ( 18 ) one on the actuating leg ( 41 ) in the direction of the plant leg ( 39 ) to exert acting operating force. Conductor connection terminal ( 1 ) according to claim 4, characterized in that the conductor lead-through opening ( 49 ) in the bend ( 43 ) and the operating lever ( 15 ) in the resting state, in which no force is applied to the clamping spring ( 5 ) by the operating lever ( 15 ), in the area of the bend ( 43 ) in the conductor opening ( 49 immersed). Conductor connection terminal ( 1 ) according to claim 4 or 5, characterized in that the actuating portion ( 19 ) of the actuating lever ( 15 ) is formed as a protruding bead. Conductor connection terminal ( 1 ) according to one of claims 4 to 6, characterized in that the actuating lever ( 15 ) Sidewall sections ( 46 ) at rest in the area of the center of rotation ( 18 ) on both sides next to the bend ( 43 ), and that the side wall sections ( 46 ) above the bend ( 43 ) with a crosspiece ( 45 . 48 ), wherein the actuating portion ( 19 ) on an end face of the crosspiece ( 45 . 48 ) is trained. Conductor connection terminal ( 1 ) according to claim 7, characterized in that the lever arm section ( 17 ) between the side wall sections ( 46 ) to the crosspiece ( 45 . 48 ) and from the crossbar ( 45 . 48 ) to the free end of the operating lever ( 15 ) extends. Conductor connection terminal ( 1 ) according to claim 7, characterized in that the side wall sections ( 46 ) to the free end of the operating lever ( 15 ) and the Hebelarmabschnitt ( 17 ) with form. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the actuating lever ( 15 ) floating in the insulating housing ( 2 ) is stored. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the actuating lever ( 15 ) and the insulating housing ( 2 ) interacting latching contours for locking the actuating lever ( 15 ) in an open position in which the actuating arm of the insulating material ( 2 ) pointing away is pivoted and an actuating force on the clamping spring ( 5 ) has. Conductor connection terminal ( 1 ) according to claim 11, characterized in that the actuating lever ( 15 ) a protrusion ( 34 ) and the insulating housing ( 2 ) a recess ( 35 ) has the formation of the locking contours. Conductor connection terminal ( 1 ) according to one of the preceding claims, characterized in that the insulating material housing ( 2 ) a plurality of spring-force clamping connections ( 4 ) and associated actuating levers ( 15 ), which side by side in the insulating housing ( 2 ) are arranged. Conductor connection terminal ( 1 ) according to claim 13, characterized in that adjacent actuating levers ( 15 ) and in the intermeshing region of the actuating levers ( 15 ) each have a pivot bearing for pivoting individual actuating lever ( 15 ) independent of the at least one adjacent operating lever ( 15 ) is trained.

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