EP3375045A1

EP3375045A1 - Connection clamp

Info

Publication number: EP3375045A1
Application number: EP16794300.0A
Authority: EP
Inventors: Hans-Josef Köllmann
Original assignee: Wago Verwaltungs GmbH
Current assignee: Wago Verwaltungs GmbH
Priority date: 2015-11-09
Filing date: 2016-11-08
Publication date: 2018-09-19
Anticipated expiration: 2036-11-08
Also published as: EP3627625A1; DE102015119247A1; PL3627625T3; ES2780698T3; WO2017081001A1; PL3375045T3; KR20180078239A; EP3627625B1; KR102607068B1; CN110854555A; US10164349B2; JP6808167B2; EP3375045B1; JP2018533185A; US20180254568A1; RU2715558C1; CN108352627A; CN110854555B; CN108352627B

Abstract

The invention relates to a connection clamp for connecting at least two electrical conductors to one another, having the following features: a) the connection clamp has an insulating housing with at least one first and one second conductor insertion opening, b) the first and second conductor insertion openings are arranged on mutually opposite sides of the insulating housing, c) in the insulating housing there are arranged a first spring-force clamping connection for electrically contacting a first electrical conductor inserted through the first conductor insertion opening and a second spring-force clamping connection for electrically contacting a second electrical conductor inserted through the second conductor insertion opening, d) the first spring-force clamping connection is electrically connected to the second spring-force clamping connection via a bus bar, e) the first spring-force clamping connection has at least one first clamping spring which has a clamping leg for clamping the first electrical conductor against a first clamping point of the bus bar, and a bearing leg for supporting the clamping spring, f) the second spring-force clamping connection has at least one second clamping spring which has a clamping leg for clamping the second electrical conductor against a second clamping point of the bus bar, and a bearing leg for supporting the second clamping spring, g) the bus bar has at least one through-opening which is arranged between the first and second clamping points, h) wherein an extended end section of the bearing leg of the first and/or of the second clamping spring is hooked into the through-opening of the bus bar.

Description

connecting terminal

The invention relates to a Verbindungsklennnne for connecting at least two electrical conductors together with the following features:

a) the connection terminal has an insulating housing with at least a first and a second conductor insertion opening,

b) the first and the second conductor insertion opening are arranged on opposite sides of the housing insulating housing, c) in the insulating housing are a first spring terminal connection to

electrical contacting of a first electrical conductor inserted through the first conductor insertion opening and a second spring terminal connection for electrical contacting of a second electrical conductor inserted through the second conductor insertion opening, d) the first spring terminal connection is electrically connected to the second spring terminal connection via a busbar,

e) the first spring-force clamping connection has at least one first clamping spring which has a clamping leg for clamping the first electrical conductor against a first clamping point of the busbar and a bearing limb for supporting the clamping spring,

f) the second spring-force clamping connection has at least one second clamping spring, which has a clamping leg for clamping the second electrical conductor against a second clamping point of the busbar and an abutment leg for supporting the second clamping spring,

g) the bus bar has at least one passage opening which is arranged between the first and the second nip.

Such connection terminals with conductor insertion openings arranged on opposite housing sides, which are also referred to as double terminals or double-sided connection terminals, are known e.g. known from DE 10 2013 101 830 A1.

The invention has for its object to provide a smaller-size connection terminal. This object is achieved in the connection terminal mentioned above in that an extended end portion of the abutment leg of the first and / or the second clamping spring is mounted in the passage opening of the busbar. In this way, a particularly compact busbar for attaching the first and / or the second clamping spring can be used. In this way, at the same time acting on the insulating material forces of the first and / or the second clamping spring can be reduced to an acceptable order of magnitude.

Another advantage of the invention is that the first and the second clamping spring can be arranged closer to each other and can also touch, which opens the possibility to make the busbar shorter compared to known connection terminals. As a result, a material saving on the busbar can be achieved. In addition, the connection terminal can be realized in the longitudinal direction of the busbar shorter building.

Overall, the connection terminal can be realized in this way particularly flat construction.

Another advantage is that the busbar can be realized as a low-profile component, which minimizes the material and manufacturing costs of the busbar and also has a favorable effect on an overall flat design of the connection terminal. The through-opening of the busbar may, in plan view of the busbar, in particular have a non-circular shape, e.g. rectangular if necessary with rounded corners. As a result, the suspension fastening of the first and / or the second clamping spring on the busbar is improved.

Advantageously, thus, the respective, extended end portions of the bearing limbs of the first and the second clamping spring can be suspended in one and the same passage opening of the busbar. In this way, the bus bar need not have a plurality of openings, so that a mechanical weakening of the bus bar and a deterioration of the electrical conductivity can be minimized. The Verbindungsklennnne can be realized as a single-pole Verbindungsklennnne, ie with only one busbar, or as a multipolar connection terminal, for example, in the way that several individual connection terminals are juxtaposed, so that their busbars are arranged substantially parallel to each other. The multipole connection terminal can be designed in particular as a divisible connection terminal, which can be assembled by the user to the desired number of poles.

According to an advantageous embodiment of the invention, it is provided that the connecting terminal a first operating lever for opening and closing the first spring terminal connection by acting on the clamping leg of the first clamping spring upon actuation of the first operating lever and / or a second operating lever for opening and closing the second spring terminal connection by applying the Clamping leg of the second clamping spring has upon actuation of the second actuating lever. This has the advantage that the first spring terminal connection and the second spring terminal connection can be operated without additional tools. The hereby proposed lever operation makes the connection terminal user-friendly and easier to use.

According to an advantageous embodiment of the invention it is provided that the first and / or the second clamping spring is formed loop-shaped, wherein the respective abutment leg is bent in an extended end portion of the respective clamping spring in the direction of the busbar. This has the advantage that with an integrally manufactured clamping spring, e.g. can be made as a stamped and bent part, the previously described functionality of the spring terminal connection and the attachment of the clamping spring can be realized within the connection terminal.

According to an advantageous development of the invention, it is provided that the first clamping spring touches the second clamping spring in the region of its respective bearing limb. This has the advantage that the first and the second clamping spring can support each other, that is, the one clamping spring can compressive forces absorb the other clamping spring. This also allows a material saving and a compact design of the connection terminal can be realized. In addition, the load of the insulating material is minimized by spring forces, so that the insulating material can also be simplified.

According to an advantageous development of the invention, it is provided that the contact leg of the first clamping spring forms a conductor stop when inserting the first conductor into the insulating material housing and / or the contact leg of the second clamping spring forms a conductor stop of the second conductor during insertion into the insulating housing. This has the advantage that no additional measures are required to realize a conductor stop in the respective conductor lead-in area of the connection terminal, e.g. an insulating wall. This also allows the Isolierstoffgehäuse be optimized in terms of the necessary material and construction. By the conductor stop in particular a too wide insertion of the conductor can be avoided in the connection terminal. For the user is haptic easily recognizable when a conductor is inserted sufficiently deep into the connection terminal. As a conductor stop, e.g. the aforementioned mentioned in the direction of the busbar bent portion serve the respective clamping spring.

According to an advantageous development of the invention it is provided that the passage opening in the busbar is designed as a nozzle (material passage). The jet can e.g. one of the surrounding the passage opening surface of the bus bar projecting, surrounding the passage opening wall of the material of the bus bar. This has the advantage that the passage opening can be made in a simple and proven way. In addition, this creates a mechanical reinforcement of the busbar in the area weakened by the passage opening itself. The electrical properties of the busbar are improved.

According to an advantageous development of the invention, it is provided that the region of the contact limb of the first clamping spring which is suspended in the passage opening engages behind the passage opening of the busbar on the side of the busbar remote from the first clamping point and / or in the Through hole hinged portion of the contact leg of the second Klennnnfeder engages behind the through hole of the Stronnschiene on the side remote from the second clamping point side of Stronnschiene. In this way, the first Klennnnfeder and / or the second Klennnnfeder below the busbar, ie at the side facing away from the respective terminal point, are suspended therein and is held securely without additional mechanical fixation on the busbar. The suspended in the through hole portion of the contact leg of the respective clamping spring can engage behind the aforementioned wall of the nozzle, for example.

According to an advantageous embodiment of the invention it is provided that the abutment leg of the first clamping spring is supported on the busbar on the side facing the first nip side and / or the abutment leg of the second clamping spring is supported on the busbar on the side facing the second nip side. In this way, the clamping spring on the other side of the busbar, on which it does not engage behind the passage opening, fixed to the busbar and securely supported there. This can e.g. be realized in that the bearing limb of the respective clamping spring in the region in which the support is made on the busbar, a greater width than the passage opening.

The first and / or the second clamping spring may e.g. have a spring bow over which the plant leg is connected to the clamping leg. The clamping spring can e.g. may be V-shaped overall, e.g. in a kind of loop shape.

According to an advantageous embodiment of the invention it is provided that the first clamping spring and / or the second clamping spring is supported on the insulating housing. In this way, the clamping spring can additionally be fixed in the insulating housing, e.g. in that plant leg area, which adjoins a spring bow of the clamping spring over which the plant leg is connected to the clamping leg.

According to an advantageous embodiment of the invention it is provided that the Connecting terminal on a respective housing side of the insulating material having a plurality of juxtaposed conductor insertion openings, each having spring terminal connections, each having a conductor insertion opening associated clamping spring, wherein extended end portions of juxtaposed clamping springs are suspended in the same through-opening of the busbar. Such a connection terminal with a plurality of arranged on a side of the housing insulating material housing adjacent conductor insertion openings is also referred to as a double connection terminal (at two juxtaposed Leiterereinführungsöff openings) or Mehrfachverbindungskiemme (with more than adjacent conductor insertion openings). By Wei described training of the invention, the number of required for mounting the clamping springs through holes in the busbar can be minimized, so that a weakening and deterioration of the electrical properties of the busbar can also be minimized.

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

Show it

Figure 1 is a side sectional view of a connecting terminal and Figure 2 shows two embodiments of operating levers of the connecting terminal and

Figure 3 is a detail view of the junction between a

Clamping spring and the busbar of the connection terminal and

Figure 4 shows a detailed view of the busbar of the connection terminal in the region of the passage opening and

Figure 5 is a view of the conductor insertion side of a configured as a double connection terminal embodiment and

Figure 6 shows an actuating lever for the double connection terminal according to Figure 5 in a perspective view and

FIG. 7 shows a sectional view according to FIG. 5 Sectional plane AA of the double connection terminal shown there and

Figures 8 and 9, the contact insert of the double connection terminal according to Figures 5 and 7 in different perspective views and

Figure 10 is a view of the underside of the upper housing part of

Double connection terminal and

Figure 1 1 is a cross-sectional view of the upper housing part of the double connection terminal according to the section plane B-B shown in Figure 10.

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

The connection terminal 9 shown in FIG. 1 is essentially symmetrical with respect to a vertical axis of symmetry. It has a first Federkraftklennnnanschluss 1 and a second Federkraftklennnnanschluss 2 left and right of the vertical axis of symmetry. The first and second Federkraftklennnnanschluss 1, 2 are arranged in an insulating material 4, 5 of the connection terminal 9. The insulating housing 4, 5 may e.g. be formed at least in two parts, e.g. from an upper housing part 4 and a latching elements 50 with the upper housing part 4 connectable bottom part. 5

The first Federkraftklennnnanschluss 1 has a loop-shaped multi-angled first clamping spring 1 1. The first clamping spring 1 1 has at one end a clamping leg 12, which serves for clamping an inserted through a first conductor insertion opening 10 electrical conductor against a first clamping point 31 of a busbar 3. In the region of the clamping leg 12, a loading region 13 of the first clamping spring 11 is present, on which the clamping leg 12 can be actuated to open and close the first spring terminal connection 1 via an actuating lever 19.

At the clamping leg 12 of the first clamping spring 1 1 is followed by a Federbo- gene 14, to which then a plant leg 15 of the first clamping spring 1 1 followed. The plant leg 15 abuts against an inner wall portion 41 of the insulating housing 4, 5 and is supported thereon, at least in part, with respect to the forces received by the clamping leg 12. The first clamping spring 1 1 extends in the region of the abutment leg 15 further into an extended end portion 16 in which the material of the first clamping spring 1 1 is finally bent in a vertical region 17 in the direction of the busbar 3. The end portion 16 of the abutment leg 15 extends beyond the vertical portion 17 further down through a through hole 30 of the busbar 3 and finally hooked in the through hole 30 of the busbar 3, for example by an end piece 18 of the end portion 16 is further angled and thus the busbar 3 engages behind, in particular in a trained as a nozzle 33 region of the busbar 3, which surrounds the passage opening 30 sockeiförmig.

The second clamping spring 21 may, for example, be shaped as well as the first clamping spring 11. For this purpose, it is provided that the second spring force clamping connection 2 has a loop-shaped multiply angled second clamping spring 21. The second clamping spring 21 has at one end a clamping leg 22, which serves for clamping an inserted through a second conductor insertion opening 20 electrical conductor against a second clamping point 32 of the busbar 3. In the region of the clamping leg 22 there is a loading area 23 of the second clamping spring 21, on which the clamping leg 22 can be actuated for opening and closing the second spring terminal connection 2 via an actuating lever 29.

At the clamping leg 22 of the second clamping spring 21, a spring bow 24 connects to which then an abutment leg 25 of the second clamping spring 21 connects. The abutment leg 25 bears against an inner wall region 42 of the insulating housing 4, 5 and is supported thereon, at least in part, with respect to the forces received by the clamping leg 22. The second clamping spring 21 extends in the region of the abutment leg 25 further into an extended end portion 26, in which the material of the second clamping spring 21 is finally bent in a vertical region 27 in the direction of the busbar 3. The end portion 26 of the abutment leg 25 extends beyond the vertical portion 27 further down through the through hole 30 of the busbar 3 and finally hooked in the through hole 30 of the busbar 3, for example by an end piece 28 of the end portion 26 is further angled and thus the busbar 3 engages behind, in particular in the trained as a nozzle 33 area of the busbar. 3

1 shows the first Federkraftklennnnanschluss 1 with open first actuating lever 19, such that the first nip 31 is not touched by the clamping leg 12 and an optionally previously clamped there electrical conductor can be removed. It can be seen that the clamping leg 12 of the first clamping spring 1 1 is then removed from the first nip 31. The second spring power terminal 2 is shown in the closed state, i. the second operating lever 29 is in the closed position. In this state, the clamping leg 22 of the second clamping spring 21 contacts the second terminal point 32 of the busbar 3 at the end.

It can also be seen that the busbar 3 in the region of its first and second clamping points 31, 32 indentations, through which the material of the busbar 3 upwards, i. in the direction of the respective clamping leg 12, 22, something is exposed. As a result, the clamping of a connected electrical conductor is improved.

The busbar 3 is integrally formed as flat-forming short busbar piece. Due to the formation of the passage opening 30 with the nozzle 33, the busbar 3 is mechanically stabilized in this area and also optimized with respect to the electrical line.

The mounting of the connection terminal 9 may e.g. be carried out as follows:

• The clamping springs 1 1, 21 are mounted on the busbar 3, the

Clamping springs 1 1, 21 can be deflected with thorns;

• The operating lever 19, 29 can be moved in a position corresponding to the closed position, via the plant legs 15, 25 to the busbar 3; • The clamping springs 1 1, 21 are moved by pivoting the actuating lever 19, 29 in (full) open position;

• Possibly. used thorns are withdrawn;

• The now preassembled unit with busbar 3, clamping springs 1 1, 21 and operating levers 19, 29 (in the open position) is placed on the bottom part 5;

• The upper housing part 4 is slipped over;

• The operating levers 19, 29 are pivoted to the closed position.

The clamping springs 11, 21 can first, i. before they are attached to the busbar 3, in their respective end pieces 18, 28 not yet be bent outwardly as can be seen in Figure 1. They can initially run essentially straight. After mounting the clamping springs 1 1, 21 in the passage opening 30 of the busbar 3, a further manufacturing step is carried out by the end pieces 18, 28 towards the outside, i. in the direction of the respective conductor insertion opening 10, 20, are bent and then engage behind the nozzle 33.

The first clamping spring 1 1 is supported in the vertical region 17 on the vertical portion 27 of the second clamping spring 21, that is, the clamping springs 1 1, 21 are supported in the region of their vertical sections 17, 27 from each other. The vertical region 17 also forms a conductor stop when inserting the first conductor into the insulating housing. The vertical region 27 also forms a conductor stop when inserting the second conductor into the insulating material housing.

The connection terminal 9 may be formed as a simple connection terminal, in each case a conductor insertion opening 10, 20 is present on each side. It can also be designed as a double or multiple clamp. In this case, two or more first conductor insertion openings 10 and two or more second conductor insertion openings 20 are provided side by side on each side. For such embodiments, another embodiment of the respective actuating lever 19, 29 may be advantageous.

FIG. 2 initially shows an advantageous embodiment in the lower area an operating lever 6, which can be used as a first or second operating lever 19, 29, in the event that the connecting terminal has only one conductor insertion opening 10, 20 on each side. The operating lever 6 has a manual operating portion 60 (handle portion) on which the operating lever 6 can be operated by a user. The actuating lever 6 also has a bearing axis 61, via which it can be mounted insulating housing 4, 5. The actuating lever 6 is in the region of the bearing axis

61 formed fork-shaped, with a recessed area in the middle 65, with which the actuating lever 6 can be slipped over the intermediate clamping spring. The clamping spring then has laterally projecting Beaufschlagungsbereiche 13 and 23, respectively, on which the clamping spring can be acted upon by operating portions 62 of the actuating lever 6. A rearward contour of the actuating lever 6 has two bearing areas 63, 64 arranged at an angle to one another via which the actuating lever is mounted in the insulating housing and / or on the busbar 3. In the closed actuation position, the actuation lever 6 rests with the bearing region 63 in the open position with the bearing region 64. The bearing axis 61 is accommodated in a groove (not shown) aligned substantially perpendicularly to the busbar 3 in the housing upper part 4 by the bearing portions 63, 64, which slide on the busbar 3 during the pivoting movement of the actuating lever 19, 29, conditional during the pivotal movement of the actuating lever 19, 29 to absorb occurring deflection.

FIG. 2 shows in the upper area an embodiment of an actuating lever 6, which is designed for a connection terminal, in which two spring-force clamping connections arranged side by side are present per housing side. Accordingly, the entire operating lever 6 is formed wider and has two adjacent, recessed areas 65, in which respective clamping springs can be passed. Corresponding three loading areas 62 are provided. Here, the middle loading area acts

62 at the same time on the two adjacent clamping springs on one side of the connection terminal 9 a. FIG. 3 shows, in an enlarged detail, the attachment of the clamp springs to the busbar 3. A double clamping spring is shown by way of example and has two adjoining support legs and clamping legs and is therefore designed for a connection terminal in which two spring force clamping connections arranged side by side are present per side of the housing are. Shown here is a portion of the respective vertical regions 27 of the clamping springs. These then merge into a common attachment portion 271, which is finally attached to the nozzle 33 of the busbar 3 via the end pieces 28, which are guided through the passage opening 30. By way of example, it is shown that the left-hand end piece 28 has already been bent over, as shown in FIG. 1, and the right-hand end piece 28 has not yet been bent over.

At the top of the busbar 3, i. of the respective clamping point 31, 32 facing side of the busbar 3, the clamping spring with bearing surfaces 270 on the busbar 3.

FIG. 4 shows in an enlarged detail a possible shaping of the busbar 3 in the area of the passage opening 30. not circular, but may, as shown, be formed substantially rectangular with rounded corners. Accordingly, the wall region of the nozzle 33 surrounds this passage opening 30.

The double connection terminal 9 in accordance with FIGS. 5 to 9 corresponds in its essential structure to the connection terminal 9 previously explained with reference to FIGS. 1 to 4. For that reason, the differences will be discussed below essentially.

As FIG. 5 shows, in the case of the double connection terminal 9, in each case two adjacent conductor insertion openings 10, 20 are present on each conductor insertion side. In the closed position, for example, the clamping legs 22 are visible when looking into the conductor insertion openings 20. FIG. 6 shows a comparably formed actuating lever 6, as shown in FIG. 2 in the upper illustration. The actuating lever according to FIG. 6 can be used as actuating lever 19 and 29, as can be seen in FIG. In contrast to the embodiment explained with reference to FIGS. 1 to 4, in the case of the double connection terminal 9 now explained, the busbar 3 furthermore has a passage opening 30 which, however, is formed here without the nozzle 33. Through the passage opening 30 protrude in this embodiment, the vertical regions 17, 27 of the end portions 16, 26 of the clamping springs 1 1, 21st However, the vertical portions 17, 27 do not terminate in further angled end pieces 18, 28 as in the first embodiment explained. Instead, they extend in straight end pieces 71, 72 further in the vertical direction. In order to realize the fixation of the clamping springs 1 1, 21 in the opening 30 of the busbar 3 are at the end pieces 71, 72 respective, in the sense of a latch or a barb exposed material areas 73, 74 available. The material regions 73, 74 are resiliently deflectable, so that the clamping springs 1 1, 21 in the illustrated back-to-back configuration with the end pieces 71, 72 can be inserted through the openings 30 of the busbar 3. When inserting the material areas 73, 74 initially spring. If this plugging operation is carried out, the material regions 73, 74 spring back out and engage behind the busbar 3 and thus fix the clamping springs 11, 21 to the busbar 3.

As can be seen in FIG. 7, in this embodiment it is also not necessary that the abutment limbs 15, 25 rest against or be supported on wall regions of the insulating housing 4, 5. Instead, a self-supporting construction of the clamping springs 1 1, 21 can be realized.

In principle, it is possible for each clamping spring H to have its own end piece 71, 72 with an exposed material region 73, 74. This is also required for a single connection terminal. In the case of the double connection terminal 9 described here, this can likewise be realized so that the clamping springs are formed independently of one another by respective individual end pieces 71, 72 with projecting material regions 73, 74 arranged thereon.

Alternatively adjacent juxtaposed clamping springs can also over a common end piece 71 or 72, each with a protruding material region 73 and 74, respectively. In this case, the vertical regions 17, 27 may each be made wider, so that they extend continuously from one to the next arranged another clamping spring.

This is additionally illustrated with reference to FIGS. 8 and 9, in which the contact insert formed by the busbar 3 and the clamping springs 11, 21 is shown separately. As can be seen, in each case two juxtaposed clamping springs 1 1 and 21 are connected to each other via a common, continuous width in the vertical region 17 and 27 and fixed to the busbar 3 above. Each vertical region 17, 27 has, for. B. at a central location, said, through the through hole 30 of the busbar 3 inserted end piece 71 and 72 with the arranged thereon serving for fixing exposed material region 73 and 74, respectively.

The juxtaposed clamping springs 1 1 and 21 are independently operable, d. H. they are not connected to each other in the other areas, beyond the common vertical areas 17 and 27, respectively.

The connecting terminal according to the invention or double connection terminal 9 can also be designed as Mehrfachverbindungskiemme, in which more than two juxtaposed clamping points on each conductor insertion side are present, for. B. 3, 4, 5 or more. In this case, a common passage opening in the busbar can be present in each case for groups of clamping springs or for all clamping springs for their fixation on the busbar.

10 shows a view of the underside of the upper housing part 4 of the double connection terminal 9, ie on the side to which the lower housing part is mounted. FIG. 11 shows the upper housing part 4 according to the sectional plane BB of the double connection clamp shown in FIG. Visible are in particular in the side walls arranged grooves 41, 42 for receiving and supporting the actuating lever 19, 29, which can be inserted with their bearing axes 61 respectively from below into the grooves 41, 42, then at upper end of the respective groove 41, 42 to be stored and held. The respective grooves 41, 42 extend from the bottom of the housing top 4 to a position above the respective conductor insertion opening 10, 20.

Claims

claims:

1 . Connecting terminal (9) for connecting at least two electrical conductors together with the following features:

a) the connection terminal (9) has an insulating material housing (4, 5) with at least a first and a second conductor insertion opening (10, 20),

b) the first and second conductor insertion openings (10, 20) are arranged on mutually opposite housing sides of the insulating housing (4, 5),

c) in the insulating housing (4, 5) are a first spring terminal connection (1) for electrically contacting a through the first conductor insertion opening (10) inserted first electrical conductor and a second spring terminal connection (2) for electrically contacting a through the second conductor insertion opening (20) arranged second electrical conductor,

d) the first spring-force clamping connection (1) is electrically connected to the second spring-force terminal connection (2) via a busbar (3),

e) the first spring terminal connection (1) has at least one first clamping spring (1 1) having a clamping leg (12) for clamping the first electrical conductor against a first terminal point (31) of the busbar (3) and a support leg (15) Supporting the first clamping spring (1 1),

f) the second spring terminal connection (2) has at least one second clamping spring (21) having a clamping leg (22) for clamping the second electrical conductor against a second clamping point (32) of the busbar (3) and a support leg (25) for supporting the second clamping spring (21),

g) the bus bar (3) has at least one passage opening (30) which is arranged between the first and the second clamping point (31, 32), h) characterized in that an extended end portion (16, 26) of the abutment leg (15, 25) of the first and / or the second Klennnnfeder (1 1, 21) in the through hole (30) of the busbar (3) is mounted.

2. Connecting terminal according to the preceding claim, characterized in that the busbar (3) is designed as a flat-forming busbar.

3. Connection terminal according to one of the preceding claims, characterized in that the connecting terminal (9) has a first actuating lever (19) for opening and closing the first spring terminal connection (1) by acting on the clamping leg (12) of the first clamping spring (1 1) when actuated of the first actuating lever (19) and / or a second actuating lever (29) for opening and closing the second spring terminal connection (2) by acting on the clamping leg (22) of the second clamping spring (21) upon actuation of the second actuating lever (29).

4. Connecting terminal according to one of the preceding claims, characterized in that the first and / or the second clamping spring (1 1, 21) is loop-shaped, wherein the respective abutment leg (15, 25) in an extended end portion (16, 26) of the respective clamping spring (1 1, 21) is bent in the direction of the busbar (3).

5. Connecting terminal according to one of the preceding claims, characterized in that the first clamping spring (1 1), the second clamping spring (21) in the region of their respective bearing limb (15, 25) touches.

6. Connecting terminal according to one of the preceding claims, characterized in that the bearing limb (15) of the first clamping spring (1 1) a conductor stop during insertion of the first conductor in the insulating material (4, 5) and / or the plant leg (25) second Klennnnfeder (21) forms a conductor stop of the second conductor during insertion into the insulating housing (4, 5).

7. Connecting terminal according to one of the preceding claims, characterized in that the passage opening (30) in the busbar (3) has a nozzle (33).

8. Connecting terminal according to one of the preceding claims, characterized in that in the passage opening (30) hinged area (18) of the abutment leg (15) of the first clamping spring (1 1) the passage opening (30) of the busbar (3) on the of behind the first terminal point (31) facing away from the busbar (3) and / or in the passage opening (30) hinged portion (28) of the abutment leg (25) of the second clamping spring (21) the passage opening (30) of the busbar (3) on the side facing away from the second terminal point (32) side of the busbar (3) engages behind.

9. Connecting terminal according to one of the preceding claims, characterized in that the bearing limb (15) of the first clamping spring (1 1) is supported on the busbar (3) on the first terminal point (31) facing side and / or the plant leg (25 ) of the second clamping spring (21) on the busbar (3) is supported on the second clamping point (32) facing side.

10. Connecting terminal according to one of the preceding claims, characterized in that the first clamping spring (1 1) and / or the second clamping spring (21) on the insulating housing (4, 5) is supported.

1 1. Connecting terminal according to one of the preceding claims, characterized in that the connecting terminal (9) on a respective housing side of the insulating housing (4, 5) a plurality of juxtaposed conductor insertion openings (10, 20), which each spring terminal connections (1, 2) each having a one Leitereinfüh- Having cut opening (10, 20) associated Klennnnfeder (11, 21), said extended end portions (17, 27) of juxtaposed Klennnnfedern (11, 21) in the same passage opening (30) of the busbar (3) are mounted.