DE102015122143A1 - Conductor terminal - Google Patents

Abstract

The invention relates to a conductor terminal with one and at least one Federkraftklemmanschluss for electrically contacting an inserted through a conductor insertion opening of the insulating material electrical conductor, wherein the at least one spring terminal connection at least one bus bar and at least one clamping spring having at least one clamping leg for clamping the electrical conductor against a nip the busbar and an abutment leg for supporting the clamping spring, wherein the conductor terminal further comprises at least one pivotally mounted in the insulating housing actuator for opening and closing the Federkraftklemmanschlusses by acting on an actuating portion of the clamping spring, wherein the actuating element has at least one passage region through which a through the Conductor insertion opening inserted electrical conductor by a surrounded by the actuator n range can be performed in a straight line to the terminal point.

Description

The invention relates to a conductor terminal with an insulating material housing and at least one spring terminal connection for electrically contacting an electrical conductor inserted through a conductor insertion opening of the insulating housing, wherein the at least one spring terminal connection has at least one bus bar and at least one clamping spring, the at least one clamping leg for clamping the electrical conductor against a Terminal point of the busbar and a plant leg for supporting the clamping spring, wherein the conductor terminal further comprises at least one pivotally mounted in the insulating housing actuating element for opening and closing the Federkraftklemmanschlusses by acting on an actuating portion of the clamping spring.

A generic conductor terminal is for example from the EP 1 670 098 B1 known. In general, conductor connection terminals with an actuating element, eg in the form of an actuating lever, are also known from the WAGO product range.

The invention is based on the object of specifying a universally applicable and at the same time very compact conductor terminal.

This object is achieved by a conductor terminal with an insulating material housing and at least one spring terminal connection for electrically contacting an electrical conductor inserted through a conductor insertion opening of the insulating housing, wherein the at least one spring terminal connection has at least one bus bar and at least one clamping spring which has at least one clamping leg for clamping the electrical conductor against a nip of the busbar and a plant leg for supporting the clamping spring, wherein the conductor terminal further comprises at least one pivotally mounted in the insulating housing actuating element for opening and closing the Federkraftklemmanschlusses by acting on an actuating portion of the clamping spring, wherein the at least one actuating element along a formed in Isolierstoffgehäuse linear and / or arcuate guideway for guiding the Schwenkbewe tion of the actuating element is guided, by the actuating element acting on the actuating element in an actuating direction actuating force can be deflected in an at least 150 degrees from the direction of actuation deviating loading direction of the clamping spring. In this way, very complex actuation directions can be realized with the conductor connection terminal. The loading direction of the clamping spring can be e.g. differ in the range of 170 to 190 degrees from the actuating direction of the actuating element.

The conductor terminal according to the invention is thereby very universally applicable and can e.g. be used for terminal blocks, connection terminals or as a terminal of an electrical connector.

As mentioned, the at least one actuating element is guided along a linear and / or arcuate guide track formed in the insulating housing for guiding the pivoting movement of the actuating element. This has the advantage that a multiplicity of design possibilities of the conductor connection terminal are made possible by the actuating element in combination with a linear and / or arcuate guideway formed in the insulating housing, such as e.g. either lever operation or handle operation, optionally different directions of actuation of the actuating element, in particular of the insertion of an electrical conductor in the conductor terminal significantly different operating directions and independently of the position and design of the clamping spring selectable actuating directions. In particular, the effective direction of the actuating force of an actuating tool, i. the actuation direction, be swiveled with a pivoted actuator, so that even with a tool-operated design of the conductor terminal a particularly pleasant and ergonomic operation is possible.

This is particularly possible because the guideway is formed in the insulating housing and thus separated in terms of their position and component assignment of the clamping spring. In particular, in this case, the clamping spring does not have to be designed correspondingly to guide the actuating element, which allows greater degrees of freedom in determining the design of the clamping spring, without having to take into account the guidance of the actuating element.

The guideway may be completely linear or completely arcuate, ie curved, formed. The guideway may also be piecewise linear and piecewise arcuate. The actuating element is guided during its pivoting movement on the guideway and supported thereon relative to the actuating force acting on the actuating element and possibly also against a reaction force acting on the actuating element by the clamping spring. If the guideway is completely or partially arcuate, in an advantageous embodiment, the actuating element have a corresponding arc shape of the guideway arc contour over which the actuating element at least partially rests against an arcuate portion of the guideway. The actuator can also rest completely on the guideway.

According to an advantageous embodiment of the invention it is provided that the actuating element relative to the actuating force is supported exclusively on the linear and / or arcuate guideway formed in the insulating housing. In this way, a favorable guidance and support of the actuating element without impingement of other elements such. B. allows the busbar. This allows a low-friction guidance of the actuating element during its sliding pivoting movement.

According to an advantageous embodiment of the invention, it is provided that the actuating element is designed to execute a sliding movement relative to the guide track. This has the advantage that complex types of actuation of the conductor connection terminal can be realized advantageously by forming the guideway. The actuator can be directly slidably mounted on the guideway. This has the advantage that no separate storage is required for the storage of the actuating element.

According to an advantageous development of the invention, it is provided that the guide track has at least two essentially linear guide track sections arranged at an angle to one another, on which the actuating element is guided in a sliding manner. In this way, the invention, strong deflection of the actuating direction in the direction of the loading of the clamping spring can be realized in a kinematically favorable manner, in particular without a fixed bearing element of the actuating element.

According to an advantageous embodiment of the invention it is provided that the actuating element has at least two support points arranged on its outer contour, which are spaced apart and over which the actuating element is supported at two substantially linear guide track sections arranged at an angle relative to the actuating force. This also promotes a favorable low-friction guidance of the actuating element in the sliding pivoting movement.

In this way, the actuating element can be guided along a two-dimensional path, whereby the operating force acting on the actuating element is correspondingly deflected in an urging direction of the clamping spring.

In an advantageous embodiment of the invention, it is possible, in particular, to design the actuating element so small and compact that it is arranged completely within the space enclosed by the insulating housing of the conductor connection terminal, so that it does not protrude outwards. By a corresponding actuating opening of the conductor connection terminal, the actuating element can nevertheless be actuated from outside, e.g. through a tool. Advantageously, the Federkraftklemmanschluss can be arranged completely in the insulating material.

According to an advantageous development of the invention, it is provided that the actuating element has at least one passage region through which an electrical conductor inserted through the conductor insertion opening can be guided in a straight line to the clamping point through a region surrounded by the actuating element. This has the advantage that the conductor connection terminal can be made particularly compact, since in particular a part of the actuating element can at the same time also form a conductor receiving space for receiving the electrical conductor or can be part of such a conductor receiving space

According to an advantageous embodiment of the invention, it is provided that the actuating element has two outer guide legs, via which the actuating element is supported on the guide track and between which the passage area is arranged. This has the advantage that the actuating element can be made very robust despite the passage area and is guided symmetrically in a mechanically favorable manner. In this way, the actuating element can be provided in a simple and cost-effective manner, in spite of the passage opening, e.g. as a plastic injection molded part. If, as mentioned above, the actuating element has an arc shape corresponding to the curved track contour of the guide track, this can be realized in such a way that the outer guide limbs have the arc contour corresponding to the guide track.

According to an advantageous embodiment of the invention, it is provided that the actuating element has a groove or notch for receiving an actuating tool, via which the actuating element for opening and closing the Federkraftklemmanschlusses can be actuated. This has the advantage that the actuating element can be operated in a defined manner by an actuating tool. For example, a screwdriver can be used as an operating tool, the blade is inserted into the groove or notch.

According to an advantageous development of the invention, it is provided that the conductor connection terminal has a manually operable actuating lever with a protruding from the insulating housing handle portion, wherein the actuating lever is attached to the conductor terminal and is adapted to actuate the actuating element for opening and closing the spring terminal connection. As mentioned, the conductor terminal is optional interpretable for a tool operation or for a lever operation, with substantially identical design of the other items, in particular of the actuating element. By providing an actuating lever, a tool-free operation of the conductor terminal can be realized, which in some cases has ergonomic advantages. In particular, the actuating lever may be lockable so that a once selected position of the spring terminal connection, i. is opened or closed, is maintained until a renewed actuation of the actuating lever takes place. The actuating lever may be e.g. be stored with a separate storage on Isolierstoffgehäuse, e.g. on a cover part of the insulating material.

According to an advantageous development of the invention, it is provided that the clamping spring has as actuating region a separate actuating limb and / or at least one actuating section of the clamping leg and / or at least one actuating section arranged between the bearing limb and the clamping limb. This has the advantage that the conductor terminal can also be made very universal with regard to the clamping spring, e.g. with a substantially U-shaped clamping spring. Advantageously, in particular clamping springs can be used, which have a spring bow between the clamping leg and the plant leg. It is advantageous to provide the actuating portion between the spring bow and the clamping leg or on a part of the clamping leg.

According to an advantageous development of the invention, it is provided that the conductor connection terminal has an insertion direction of an electrical conductor in which the electrical conductor inserted through the conductor insertion opening can be guided rectilinearly towards the clamping point, and the actuation element can be actuated in an actuation direction which is at least 60 Degree, in particular at least 80 degrees, deviates from the insertion direction of the electrical conductor. In this way, particularly ergonomic operating directions of the conductor terminal can be realized, i. E. Actuation directions in which the simultaneous insertion of the electrical conductor is not hindered by the operating tool.

The invention will be explained in more detail by means of embodiments using drawings.

Show it

1 and 2 - An electrical connector in side view and

3 to 6 - A double-sided locking element in four different viewing directions and

7 - the connector according to 1 and 2 in the assembled state and

8th - the connector according to 7 in section with recognizable conductor connection terminal and

9 - An enlarged section of the right portion of the connector according to 8th and

10 and 11 - An enlarged section of the left portion of the connector according to 8th and

12 to 14 - Various embodiments lever-actuated actuators in perspective views and

15 - the connector according to 7 in a perspective view and

16 and 17 - Another embodiment of a conductor terminal in side sectional views in different sectional planes.

In the figures, like reference numerals are used for corresponding elements.

The invention is explained below with reference to embodiments in which the conductor terminal according to the invention is part of an electrical connector. However, this is done as merely an exemplary possibility, other advantageous applications have already been mentioned. As far as individual features of the connector and the integrated therein conductor terminal example only for one of the two connector parts are shown in detail or enlarged, this also applies mutatis mutandis to the respective other connector part.

The 1 shows on the left a first connector part 1 and on the right a second connector part 2 , The connector parts 1 . 2 are each other as Assigned counterparts to realize an electrical connector in the assembled state. Each of the connector parts 1 . 2 has an insulating material housing 10 . 11 . 12 respectively. 20 . 21 . 22 on, in which further elements of the electrical connector, such as the following explained conductor terminal and the plug contacts are arranged in the sense of plug and socket. The respective insulating housing has a handle area 10 . 20 on, in which the connector parts can be grasped by hand, eg for mating and for releasing the connector. Within the grip areas 10 . 20 are further components housed, as will be explained. The front side has the respective insulating housing 10 . 11 . 12 respectively. 20 . 21 . 22 a plug-in area 11 . 21 on. In this area are the connector parts 1 . 2 stuck together. Accordingly, the one plug-in area 21 smaller than the other plug-in area 11 so that the plug-in areas can be put together. To secure the connector, ie to lock the connector parts 1 . 2 one another, when these are plugged together to form a plug-in connection, the respective insulating housing has a locking area 12 . 22 on, on which a double-acting locking element can be attached.

The 2 shows the same connector parts 1 . 2 as the 1 , wherein at the connector part shown on the left 1 already a double-sided locking element 3 is attached. The locking element 3 has end locking portions, of which in the 2 only the right, not yet with the second connector part 2 connected locking section 32 is recognizable. Between the locking portions is a central connecting portion 30 of the locking element 3 present, which also forms an outer side of the connector and covers the connector as an outer side of the housing. On the to the plug-in areas 11 . 21 directed side has the locking element 3 in the central connecting section 30 a central support element 33 on, over which the locking element 3 on the plug-in area acting as an abutment 11 is supported.

By the locking means of the locking element 3 will provide a secure connection between the mated connector 1 . 2 created. The connector parts 1 . 2 may be formed, for example, as a plug and associated socket, or other mating connector halves.

In the 3 to 6 is the locking element 3 shown with further details as a single component. As can be seen, the locking element 3 a separate component that is not part of the first or second connector part 1 . 2 is. The 3 shows the locking element 3 from an underside, ie a side on which the central support element 33 is recognizable. The 4 shows the locking element in a side view, similar to the 2 , The 5 shows the locking element 3 in a view from above, ie the opposite side of the central support element 33 , The 6 shows the locking element 3 in a view on a narrow side.

As can be seen, the locking element has 3 the central connecting section 30 on, in which it is slightly wider than in the end-side locking portions 31 . 32 , On its underside is except the central support element 33 one with greater extension length, but less height than the central support element 33 trained stabilization rib 34 present, which is the locking element 3 mechanically stabilized or stiffened in the longitudinal direction. In the locking sections 31 . 32 has the locking element 3 starting from the central connecting section 30 first a flexible tongue 310 . 320 on, to which a respective latching hook 311 . 321 followed. Due to the flexible tongues, the areas can be formed with a lowered surface contour of the locking element. These are bevelled sections 319 . 329 included in the direction of the central connecting section 30 to the respective latching hook 311 . 321 fall off. The locking hooks 311 . 321 are with a plug in the respective locking area 12 . 22 the connector parts 1 . 2 rising slope 312 . 322 designed to be inserted into the respective locking area 12 . 22 to simplify. The respective snap hooks 311 . 321 have one on the the support element 33 opposite side of the locking element 3 arranged locking edge 313 . 323 on, with the locking element 3 at a respective latching bracket portion of the locking portion 12 . 22 of the connector part 1 . 2 locked.

The 7 shows the connector parts 1 . 2 in the mated state, with the connector parts 1 . 2 by a locking element 3 , as described above, are interlocked with each other. Further details of the lock by means of the locking element 3 are in particular the sectional drawing of 8th removable. There it can be seen that the connector parts 1 . 2 in the area of the locking areas 12 . 22 respective latching bracket areas 120 . 220 have, among which the latching hook 311 . 321 each pushed through and behind them with their locking edge 313 . 323 are hooked. To the appropriate space for pushing the locking hooks 311 . 321 under the latch bracket areas 120 . 220 Provide and also appropriate space for unlocking the To provide plug connection, the insulating material housing have below the respective latching bracket areas 120 . 220 as well as further freedom 16 . 26 on.

The latching bracket areas 120 . 220 each have a transversely to the insertion direction of the latching hook 311 . 321 extending latch bracket on, under the latch hook 311 . 321 is pushed through when the connector parts 1 . 2 with the locking element 3 be assembled. The locking bracket each have an insertion bevel 129 . 229 on. The insertion bevels 129 . 229 At the beginning of the insertion process, the latching hooks are effective in the respective latching bracket area, ie they facilitate the initial insertion of the latching hooks into the respective latching bracket area.

It can be seen that the housing parts of the connector parts 1 . 2 in the area of their respective locking areas 12 . 22 in the insertion direction of the locking element 3 rising bevels 121 . 221 which have the free space 16 . 26 limit one-sided. In this way, the latching hooks 311 . 321 guided accordingly during insertion, so that they are in the in 8th shown end position, when the connector parts 1 . 2 together with the locking element 3 completely plugged together and locked. The free end of the respective latching hook 311 . 321 of the locking element slides over the insertion bevels 121 . 221 during the insertion process, so that the latching hook 311 . 321 in the end position on the top or outside of the grip area 10 . 20 rests and thus secures the detent position. The insertion bevels 121 . 221 are thus at the end of each free space 16 . 26 , In each case in the insertion direction of the locking element in a connector part 1 . 2 seen, arranged.

The 7 and 8th show with respect to the second connector part 2 as an additional feature a pivotable operating lever 230 , This operating lever 230 is in the 7 shown twice, in two different pivoting positions, in fact, it is only once available per Federmraftklemmanschluss. The 8th shows accordingly the operating lever 230 in a closed position, which was explained below 9 shows an enlarged detail in the area of the actuating lever 230 , in which this is shown in the open position.

The 8th also shows the internal structure of the connector parts 1 . 2 , It can be seen that these each have a conductor connection terminal with a spring-force terminal connection. To operate the Federkraftklemmanschlusses, ie for opening and closing the Federkraftklemmanschlusses, is in each connector part 1 . 2 a pivotable actuator 14 . 24 intended. The 8th shows left, ie in relation to the first connector part 1 , The conductor terminal contained therein substantially completely, ie with a clamping spring 18 while in the right part, ie the second connector part 2 , the clamping spring is not shown for clarity purposes. In fact, there is provided a clamping spring, for example, the mirror-symmetrical to the clamping spring 18 can be arranged there.

While for the second connector part 1 a lever actuation by means of an actuating lever 230 is shown for the conductor terminal, is for the first connector part 1 exemplified a tool operation. For this purpose, the actuating element 14 a groove 13 on, over which an operation can be performed by means of a tool. The actuator 24 can also have a groove 23 have, via which an actuation by means of the actuating lever 230 can be carried out.

The in the respective connector parts 1 . 2 Existing conductor connection terminals can be provided via conductor entry openings 15 . 25 , which are formed in the respective insulating housing, are connected to an electrical conductor.

Based on 9 First, the lever actuation further received. It can be seen that when the lever is pivoted upwards 230 over a ram area 202 of the operating lever 230 pointing to the groove 23 acts, the actuator 24 is moved down and locked there. The ram area 202 has for this purpose at its free end on a contour which is adapted to the groove 23 of the actuating element 24 intervene. The operating lever 230 is in a housing component 200 the insulating material housing with an axis 201 stored. The housing component 200 the insulating material can eg a by means of a latching connection 203 with the housing part 20 be connectable component. Since the actuators 14 . 24 may be the same, regardless of whether a lever operation or actuation by means of a tool is desired, by inserting the appropriate housing component 200 or a housing component 100 for the first connector part 1 , the desired actuation type are set.

The 10 shows the conductor terminal of the first connector part 1 in an enlarged view. It can be seen that the clamping spring 18 is formed substantially U-shaped. The clamping spring 18 has a plant leg 184 on, over which the clamping spring 18 is supported in the insulating housing, for example by the clamping spring 18 with an arcuate end portion 185 of the plant leg 184 mounted on a busbar piece is. To the plant leg 184 the clamping spring 18 closes a feather bow 183 at. On the spring bow 183 closes a clamping leg 180 at. The clamping leg 180 used to clamp an electrical conductor at a terminal point 170 at the power rail 17 , An electrical conductor may in a plug-in direction E through the conductor insertion opening 15 straight to the nip 170 be led out.

The clamping spring 18 can eg in the region of the clamping leg 180 an operating area 182 in which the clamping spring 18 from the actuator 14 operated and thus can be deflected upward. As a result, the clamping leg 180 from the power rail 17 bent so that an electrical conductor can be easily inserted or an already clamped electrical conductor can be easily removed.

The actuator 14 has a support and storage area 143 on, over which the actuator 14 is supported in the insulating housing and performs a sliding pivoting movement when the actuating element 14 as a result of being acted upon in an actuating direction B via the actuating lever 230 or over the groove 13 is moved. One with the groove 13 trained head portion of the actuating element 14 slides during the opening movement of a substantially perpendicular to the insertion direction E aligned inner wall of the housing along and is supported on this. The movement is deflected accordingly and over a ram area 140 of the actuating element 14 in an urging direction A to the operating area 182 the clamping spring 18 transfer.

The 10 also shows the guideway 19 , which in this case by two substantially linear guideway portions arranged at an angle to each other 190 . 191 is formed. The one guideway section 190 is arranged substantially vertically, ie it runs parallel to the actuating direction B of the actuating element 14 on the inside of the housing component 100 , The second guideway section 191 is arranged horizontally and extends substantially parallel to the insertion direction E of an electrical conductor. The second guideway section 191 can be on the inside of the lower part of the body 10 be educated. The actuator 14 relies on one with the head area, the groove 13 has, arranged support point on the vertical guideway portion 190 from and to the support and storage area 143 on the second horizontal guideway section 191 from.

The 11 shows as well as the 10 the left part of the conductor terminal with the first connector part 1 , being opposite to the 10 various elements such as the busbar or parts of the clamping spring are not shown for clarity. From the clamping spring 18 For example, only the clamping leg 180 to the operating area 182 and a part of the plant leg 184 shown. In the 11 is the actuator 14 already actuated in the direction of actuation B and, accordingly, the head area with the groove 13 deeper inside the case 10 arranged. Accordingly, the clamping spring 18 by ram area 140 deflected upward. As can be seen, is compared to 10 the actuator 14 along the guideway sections 190 . 191 has been moved in a sliding manner.

The 15 shows the electrical connector according to 7 , but here without lever 23 , in perspective view. It can be seen that the locking element 3 may have a width which also covers a multi-pin electrical connector, in this case, for example, a two-pin connector with two juxtaposed conductor insertion openings 15 ,

The 12 shows that already on the basis of 8th and enlarged on the basis of 9 recognizable actuator 24 in connection with the housing component 200 and the operating lever 230 , The operating lever 230 is again shown here in the open position. It can be seen in particular that the actuating element 24 a passageway area 242 through which a through the conductor insertion opening 25 inserted electrical conductor through one of the actuator 24 surrounding area can be guided straight to the nip. Accordingly, this passage area 242 on both sides, ie left and right, by two outer guide legs 241 limited, the respective support and storage area 243 for supporting the actuating element 24 have on the insulating housing. The two outer lateral guide legs 241 are in the clamping leg 180 the clamping spring 18 facing region over a line-shaped actuating portion or plunger area 240 connected, which for actuating the clamping leg 18 attached to this.

The 13 and 14 show an alternative embodiment of an actuating element 24 together with the associated operating lever 230 , but here without the housing component 200 , It can be seen that the actuator 24 according to the 13 and 14 shaped slightly differently, but also the passageway area 242 with the passage area laterally limiting guide legs 241 having the respective support and storage area 243 exhibit. The 13 shows the arrangement in the closed position, the 14 in the open position.

The 16 and 17 show a further embodiment of a conductor terminal, which may be provided for example in the previously described connector, or in other electrical components to be contacted via a spring terminal connection electrically.

It can be seen that, in contrast to the previously explained embodiments, the insulating material housing in the handle area 10 an arcuate guideway 19 has, on which the actuating element 14 with its respective guide legs 143 is guided. For this purpose, the actuating element 14 one to the guideway 19 corresponding arc contour 144 on, in this case a convex arc contour 144 , Accordingly, at each of the guide legs 141 such a bow contour 144 intended. In this way, the actuator 14 very precise and easy to run.

Is exemplary in the 16 and 17 nor the position of an end portion of an inserted electrical conductor 4 shown. When the electrical conductor 4 is introduced, is the clamping spring 18 with the clamping leg 180 deflected upwards. The 15 and 16 show the clamping leg 180 However, in a position that is taken when no electrical conductor 4 is inserted and the Federkraftklemmanschluss is in its closed position.

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

• EP 1670098 B1 [0002]

Claims (12)

Conductor terminal with an insulating housing ( 10 . 11 . 12 . 20 . 21 . 22 ) and at least one spring-force clamping connection ( 17 . 18 ) for electrically contacting a through a conductor insertion opening ( 15 . 25 ) of the insulating material housing ( 10 . 11 . 12 . 20 . 21 . 22 ) introduced electrical conductor ( 4 ), wherein the at least one spring-force clamping connection ( 17 . 18 ) at least one busbar ( 17 ) and at least one clamping spring ( 18 ), the at least one clamping leg ( 180 ) for clamping the electrical conductor ( 4 ) against a nip ( 170 ) of the busbar ( 17 ) and a plant leg ( 184 ) for supporting the clamping spring ( 18 ), wherein the conductor terminal further comprises at least one pivotable in the insulating housing ( 10 . 11 . 12 . 20 . 21 . 22 ) mounted actuator ( 14 . 24 ) for opening and closing the spring force terminal connection ( 17 . 18 ) by applying an operating range ( 182 ) of the clamping spring ( 18 ), characterized in that the at least one actuating element ( 14 . 24 ) along a in the insulating housing ( 10 . 11 . 12 . 20 . 21 . 22 ) formed linear and / or arcuate guideway ( 19 ) for guiding the pivoting movement of the actuating element ( 14 . 24 ) is guided by the actuating element ( 14 . 24 ) one on the actuator ( 14 . 24 ) acting in an actuating direction (B) operating force in at least 150 degrees from the actuating direction (B) deviating loading direction (A) of the clamping spring ( 18 ) is deflectable. Conductor terminal according to the preceding claim, characterized in that the actuating element ( 14 . 24 ) relative to the actuating force exclusively on the in the insulating housing ( 10 . 11 . 12 . 20 . 21 . 22 ) formed linear and / or arcuate guideway ( 19 ) is supported. Conductor terminal according to the preceding claim, characterized in that the actuating element ( 14 . 24 ) for carrying out a sliding movement with respect to the guideway ( 19 ) is trained. Conductor terminal according to one of the preceding claims, characterized in that the guideway has at least two substantially linear guideway sections (29) arranged at an angle to each other ( 190 . 191 ), on which the actuating element ( 14 . 24 ) is guided in a sliding manner. Conductor terminal according to the preceding claim, characterized in that the actuating element ( 14 . 24 ) has at least two support points arranged on its outer contour, which are spaced apart from each other and via which the actuating element ( 14 . 24 ) at two substantially linear guide track sections arranged at an angle to each other ( 190 . 191 ) is supported against the actuating force. Conductor terminal according to one of the preceding claims, characterized in that the actuating element ( 14 . 24 ) at least one passage area ( 242 ) through which a through the conductor insertion opening ( 15 . 25 ) introduced electrical conductor ( 4 ) by one of the actuator ( 14 . 24 ) surrounded area straight to the nip ( 170 ) can be led out. Conductor terminal according to the preceding claim, characterized in that the actuating element ( 14 . 24 ) two outer guide legs ( 141 . 241 ), via which the actuating element ( 14 . 24 ) at the guideway ( 19 ) and between which the transit area ( 242 ) is arranged. Conductor terminal according to one of the preceding claims, characterized in that the actuating element ( 14 . 24 ) a groove or notch ( 13 . 23 ) for receiving an actuating tool via which the actuating element ( 14 . 24 ) for opening and closing the spring force terminal connection ( 17 . 18 ) is operable. Conductor terminal according to one of the preceding claims, characterized in that the conductor terminal a manually operable operating lever ( 230 ) with one of the insulating housing ( 10 . 11 . 12 . 20 . 21 . 22 ) outstanding grip area, wherein the actuating lever ( 230 ) is attached to the conductor terminal and for actuating the actuating element ( 14 . 24 ) for opening and closing the spring force terminal connection ( 17 . 18 ) is set up. Conductor terminal according to one of the preceding claims, characterized in that the clamping spring ( 18 ) as operating area ( 182 ) a separate actuating leg and / or at least one actuating portion of the clamping leg ( 180 ) and / or at least one between the plant leg ( 184 ) and the clamping leg ( 180 ) arranged actuating portion. Conductor terminal according to one of the preceding claims, characterized in that the conductor terminal a plug-in direction of an electrical conductor ( 4 ), in which the through the conductor insertion opening ( 15 . 25 ) introduced electrical conductors ( 4 ) straight to the Clamping point ( 170 ) can be guided, and the actuating element in an actuating direction (B) is actuated by at least 60 degrees, in particular at least 80 degrees, from the insertion direction (E) of the electrical conductor ( 4 ) deviates. Conductor terminal according to one of the preceding claims, characterized in that the clamping spring ( 18 ) is formed substantially U-shaped.

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