EP3782233A1 - Spring-force terminal connection and conductor connection terminal - Google Patents

Abstract

The invention relates to a spring-force terminal connection (100) for connecting a conductor (L), having a bus bar (10), a clamping spring (11) by means of which the conductor (L) to be connected is clamped against the bus bar (10) when in the clamped state, and a pivotably arranged actuation lever (12), wherein the clamping spring (11) can be actuated by means of a pivoting movement of the actuation lever (12), wherein a clamping cage (13) is provided which forms an space for accommodating the conductor (L) to be connected, and the clamping spring (11) is in the form of a leaf spring and has a first end section (14) in the form of a clamping region and a second end section (15) opposite the first end section (14) and in the form of a holding region, wherein the clamping spring (11) is fastened to the clamping cage (13) by the second end section (15).

Description

 Spring terminal connection and conductor terminal

The invention relates to a spring terminal connection for connecting a conductor having a busbar, a clamping spring, by means of which the conductor to be connected is clamped in the clamped state against the busbar, and a pivotally mounted actuating lever, wherein by means of a

Pivoting movement of the actuating lever, the clamping spring is actuated. Furthermore, the invention relates to a conductor terminal with a corresponding

Spring terminal connection.

Conductor terminals are known in a variety of variations. Usually, a spring leg clamped connection is designed as a leg spring

Clamping spring, which has a plant leg and a clamping leg used, which can clamp a conductor to be connected with its clamping leg against the busbar. In order to achieve a tilt-safe position of the clamping spring, this is usually flat with her plant leg to a Isolierstoffgehäuse the conductor terminal. However, this configuration requires a relatively large space of the spring terminal connection and thus also the conductor terminal.

The invention is therefore based on the object to provide a Federkraftklemmanschluss and a conductor terminal available, which are characterized by a reduced space.

The object is achieved with the features of the independent claims. Advantageous embodiments and advantageous developments of the invention are specified in the dependent claims.

The Federkraftklemmanschluss according to the invention is characterized in that a clamping cage is provided, which has a receiving space for the

connects to be formed conductor, and that the clamping spring is formed as a leaf spring and having a clamping portion formed as the first end portion and the first end portion opposite, formed as a holding portion second end portion, wherein the clamping spring is secured with its second end portion to the clamping cage. The clamping spring is now according to the invention no longer designed as a leg spring, but the clamping spring is designed as a leaf spring. The leaf spring has a leaf-shaped or strip-like shape. Since the leaf spring opposite a

Leg spring has only one leg and not two legs, this trained as a leaf spring clamping spring has a smaller size than one as

Leg spring trained clamping spring. Due to the smaller size, it also requires less space in the spring clamp terminal, so that the entire

Federkraftklemmanschluss kleinbauender can be formed. Held the clamping spring is not attached to a Isolierstoffgehäuse, but it is attached to an additionally provided clamping cage or held. This clamping cage also simultaneously forms a receiving space for the conductor to be connected. Held is the clamping spring on the clamping cage with a second end portion, which is a clamping portion for clamping the conductor forming the first end portion

opposite. With the second end portion, the clamping spring is thus preferably held in a fixed, defined position, whereas the clamping spring with its first end portion is preferably movable, in particular pivotable, is. To the

To be able to improve spring action of the clamping spring and / or to simplify the mounting of the clamping spring on the clamping cage, the clamping spring, preferably starting from its first end portion towards its second end portion, a cross-sectional reduction or taper.

For attachment of the clamping spring to the clamping cage, an opening may be formed on the clamping cage, in which the clamping spring may be mounted with its second end portion. The second end portion of the clamping spring may preferably be formed bent to hook in the opening can. The opening is preferably formed in the form of a window-like opening. By attaching the clamping spring in an opening of the clamping cage, the mounting of the clamping spring on the clamping cage can be done very easily, so that the

Assembly costs can be reduced. In addition, the attachment of the clamping spring does not take up much space in the Federkraftklemmanschluss.

In order to be able to clamp conductors with a small conductor cross-section, a projection may be formed on the busbar, on which the clamping spring may be held biased by its first end portion in a non-clamped state. Due to the bias of the clamping spring applied to the clamping spring force when transferring the clamping spring from the unclamped state in the clamped state can be reduced. The projection may be in the form of a protruding from the surface of the busbar edge. The projection may form an undercut on the busbar, on which the clamping spring with its clamping region forming the first end portion can hook behind in the non-clamped state.

The actuating lever may be pivotally mounted on the clamping cage. By storage on the clamping cage, the size of the spring terminal connection can be further reduced. For example, the operating lever at least one

Have pivot axis about which the actuating lever can be verschwen kt, wherein it can be provided that the actuating lever engages with its pivot axis in a formed on the clamping cage recess.

At the first end portion of the clamping spring may be a laterally on the first

Be formed end portion of the clamping spring integrally formed actuating surface, which can cooperate for actuating the clamping spring with the actuating lever.

Due to the laterally molded actuating surface, the clamping spring can be widened at its first end portion relative to the second end portion. By the

Actuating surface may be an actuation point of the actuating element on the

Defined clamping spring for actuating the clamping spring, said actuating point is preferably positioned outside of the actual clamping region of the clamping spring for clamping the conductor. Due to the lateral shaping of the actuating surface on the second end portion, however, can be achieved simultaneously that the actuation of the clamping spring by means of the actuating element at the level of the first end portion and thus of the clamping area, so that the force applied to the clamping spring for actuating the clamping spring by means of Operating lever can be reduced.

Furthermore, provision can be made for a guide contour formed in the form of a window-like opening to be formed on the clamping cage, through which the actuating surface of the clamping spring can protrude, so that the actuating surface of the clamping spring with the actuating lever outside the clamping cage

Can interact. The guide contour can thus form a targeted guidance of the clamping spring during transfer to the clamped and the non-clamped state of the clamping spring. A lateral tilting of the clamping spring can be reliably prevented, since the clamping cage has a lateral boundary wall for the Forming clamping spring. Also can be defined defined by the guide contour of the Verschwenkweg, in particular the length of the pivoting, the clamping spring, so that too far pivoting of the clamping spring or too far deflection of the clamping spring can be prevented with its first end portion.

The clamping cage is preferably formed from a metal. Due to the formation of a metal, the attachment of the clamping spring on the terminal cage for a long period of time safely done, as a deformation of the clamping cage can be safely prevented even when acting on the clamping cage of the clamping force, for example. By pressing the clamping spring.

The actuation of the clamping spring by means of the actuating lever is preferably carried out via an outer peripheral surface of the actuating lever, which by pressing the actuating lever a compressive force on the clamping spring or on the first

Can apply end portion of the clamping spring. Preferably, the

Operating lever on an actuating cam for actuating the clamping spring, wherein the operating lever can be unrolled during pivoting of the actuating lever with the outer surface of the actuating cam on the clamping spring to actuate the clamping spring.

The solution of the object according to the invention also takes place by means of a

Conductor terminal, which has a housing in which a

Federkraftklemmanschluss is arranged, which is as described above, and further developed. The housing is preferably formed from an insulating material, for example a plastic. Due to the more compact design of the spring terminal connection and the housing surrounding the spring terminal connection can be made more compact, whereby the entire

Conductor terminal can be made more compact.

In order to be able to improve the handling of the conductor terminal for a user, the housing may have a latching area, on which the

Actuating lever can be locked. By locking a defined, fixed position of the actuating lever can be achieved relative to the housing in a non-actuated state of the actuating lever. The invention will be explained in more detail with reference to the accompanying drawings with reference to preferred embodiments.

Show it:

1 is a schematic representation of a Federkraftklemmanschlusses according to the invention in a front view,

Fig. 2 is a schematic representation of the Federkraftklemmanschlusses according to

 1 in a rear view,

Fig. 3 is a further schematic representation of that shown in Fig. 1

 Spring terminal connection in a front view,

Fig. 4 is a further schematic representation of that shown in Fig. 1

 Spring terminal connection in a rear view,

5 is a schematic representation of a rear view of a Federkraftklemmanschlusses shown in Fig. 1 with a connected conductor,

6 is a schematic representation of a perspective view of a Federkraftklemmanschlusses shown in Fig. 1 with a connected conductor,

Fig. 7 is a schematic representation of a conductor terminal according to the

 Invention with a connected conductor,

FIG. 8 shows a further schematic illustration of that shown in FIG. 7

 Conductor terminal,

9 is a schematic representation of another embodiment of the

 Federkraftklemmanschlusses according to the invention, and

10 is a further schematic representation of that shown in FIG

Spring terminal connection. Fig. 1 shows a Federkraftklemmanschluss 100 according to the invention, softer a busbar 10, a clamping spring 1 1, an actuating lever 12 and a

Clamping cage 13 has.

The clamping spring 11 is formed as a leaf spring and has a first end portion 14, softer forms a clamping portion, and a second end portion 15 opposite the first end portion 14 in the longitudinal direction of the clamping spring 11, softer forms a holding region, on. The clamping spring 11 has a leaf-shaped or strip-shaped contour. With the first end portion 14 is a

to be connected conductor L clamped against the busbar 10 to form an electrical contact.

The busbar 10 is U-shaped and positioned in the clamping cage 13 and thus held in the clamping cage 13. On the leg of the bus bar 10, on which the conductor L is clamped, a projection 16 is formed, on which the clamping spring 11 is held biased with its first end portion 14 in an unclamped state, as can be seen in Figure 1. The unclamped state is the state where no conductor L is connected. The projection is designed in the form of a projecting latching nose, which forms an undercut, on which the clamping spring 11 can hook behind with its first end section 14.

The clamping cage 13 forms a receiving space for the conductor L to be connected. The clamping cage 13 has at least a first wall 17 and a transverse to the first wall 17 extending second wall 18. The first wall 17 extends laterally from the clamping spring 11 and thus along the longitudinal side of the clamping spring 11, so that when pressing the clamping spring 1 1 it is guided along the first wall 17. The first wall 17 extends from a support leg 19 of the busbar, against which the conductor to be connected L is clamped, to a the

Anlageschenkel 19 opposite holding leg 20 of the busbar 10. At the plant leg 19 and the projection 16 is formed.

The second wall 18 extends transversely to the first wall 17 and thus extends transversely to the longitudinal direction of the clamping spring 11. The second wall 18 has a greater height than the first wall 17 and is thus formed longer. The second wall 18 projects beyond the clamping spring 11, in particular the second end section 15 of the clamping spring 11. The clamping spring 1 1 is releasably secured with its second end portion 15 on the clamping cage 13 by the clamping spring 1 1 with its second end portion 15 in the

Clamping cage 13 is mounted. For this purpose, a window-like opening 21 is formed on the clamping cage 13, in particular on the second wall 18 of the clamping cage 13, in which the clamping spring 11 is mounted with its second end portion 15. The second end portion 15 is formed bent for this purpose. The bend of the second end portion 15 has a Z-like shape by the bend two

having oppositely directed arc sections.

The clamping cage 13 is formed of a metal.

For actuating the clamping spring 11, an actuating lever 12 is provided, which is pivotally mounted on the clamping cage 13. The actuating lever 12 has a pivot axis 22 which is rotatably mounted in a recess 23 of the clamping cage 13. The recess 23 is formed on the first wall 17 of the clamping cage 13.

The clamping spring 11 has an actuating surface 24, as shown in Fig. 2, via which the clamping spring 1 1 cooperates with the actuating lever 12 by the actuating lever 12 presses on this actuating surface 24 and thereby the

Clamping spring 11 can transfer into the clamped state and the unclamped state. The actuating surface 24 is laterally formed on the first end portion 14 of the clamping spring 1 1, so that the clamping spring 1 1 here has a widened surface.

On the clamping cage 13 a formed in the form of a window-like opening 25 guide contour is formed, through which the actuating surface 24 of the clamping spring 11 protrudes, so that the actuating surface 24 of the clamping spring 1 1 with the

Operating lever 12 outside of the clamping cage 13 and thus also outside the receiving space for the conductor L cooperates. The window-like opening 25 is formed on the first wall 17 of the clamping cage 13. The window-like opening 25 extends almost over the entire width of the first wall 17th

The operating lever 12 has a handle portion 25 for manually operating the operating lever 12 and an actuating portion 26, which with the clamping spring 11 cooperates, on. The operating portion 26 may be formed integrally with the grip portion. With its actuating portion 26 of the actuating lever 12 is pivotally mounted on the clamping cage 13. On the actuating portion 26 is a

Actuating cam 27 for actuating the clamping spring 1 1 is formed. By the

Actuating cam 27, the actuating portion 26 at this point on its outer peripheral surface on a wavy contour. Upon actuation of the clamping spring 11, the actuating lever 12 rolls with the actuating cam 27 on the clamping spring 1 1, in particular on the actuating surface 24 of the clamping spring 11 from. Before and behind the actuating cam 27 each have a recess 28, 29 is formed, wherein in a non-open state of the clamping spring 11, d. H. when the clamping spring 11 abuts the busbar 10, the clamping spring 11 behindhakt with the actuating surface 24 at a first indentation 28, as can be seen in Fig. 2, and in an open state of the clamping spring 1 1, d. H. when the clamping spring 11 is spaced from the busbar 10 so that a conductor L can be inserted into the receiving space, the clamping spring 11 hooks behind the actuating surface 24 at a second indentation 29, as can be seen in Fig. 4.

The actuating lever 12 is pivotable through an angle of 90 °.

3 and 4 show a position in which the actuating lever 12 is pivoted downwards, wherein during the pivoting movement of the first end portion 14 of the clamping spring 1 1 has been pivoted on the actuating surface 24 of the clamping spring 14, so that the first end portion 14 by means the actuating lever 12 is held in a position spaced from the busbar 10. In this position, a conductor L to be connected can be introduced into the receiving space and thus into the intermediate space between the busbar 10 and the clamping spring 11.

Is the conductor to be connected L introduced into the receiving space, the

Operating lever 12 are pivoted back up again, so that the actuating lever 12 is positioned with its handle portion 27 parallel to the second wall 18 of the clamping cage 13, as shown in Fig. 5 and 6.

If a conductor L is connected, the actuating lever 12, at least for certain conductor cross sections no contact with the clamping spring 1 1 or with the

Actuating surface 24 of the clamping spring 11, as shown in FIGS. 5 and 6 can be seen. The actuating lever 12 is thus in this state out of engagement with the clamping spring eleventh In Fig. 6 it can also be seen that the cross section of the clamping spring 1 1, starting from the first end portion 14 tapers toward the second end portion 15.

Fig. 7 shows a conductor terminal 200 with a corresponding one

Federkraftklemmanschluss 100, which is arranged in a housing 30, in particular an insulating material. The housing 30 has a

 Conductor insertion opening 31 for insertion of the conductor L. On a transverse side 32 of the housing 30, a franking 33 is formed, in which the actuating lever 12 is arranged to be movable, as can be seen in FIGS. 7 and 8. Around

Freimachung 33, the housing 30 has a latching portion 34, on which the actuating lever 12 can be latched. The latching region 34 is formed here in the form of a latching lug. On the actuating lever 12, a recess 35 is formed, with which the actuating lever 12 can hook behind the latching lug.

9 and 10 show a further embodiment of a

Federkraftklemmanschlusses 100, wherein the clamping cage 13 two

opposite first walls 17, which each have a recess 23 in which the actuating lever 12 is pivotally mounted, as can be seen in Fig. 10. The actuating lever 12 has for this purpose also two opposing pivot axes 22, which are each rotatably mounted in one of the two recesses 23. On both first walls 17, a window-like opening 25 is further formed in each case for forming a guide contour, wherein the clamping spring 1 1 has two opposite actuating surfaces 24, which respectively protrude through one of the two openings 25. The clamping spring 1 1 can be guided and operated on both sides.

LIST OF REFERENCE NUMBERS

Spring clamp connection 100

Conductor terminal 200

Busbar 10

Clamping spring 1 1

Operating lever 12

Clamping cage 13

First end section 14

Second end section 15

Projection 16

First wall 17

Second wall 18

Plant leg 19

Holding leg 20

Opening 21

Pivot axis 22

Recess 23

Actuating surface 24

Handle area 25

Actuation area 26

Actuating cam 27

Indent 28

Dent 20

Housing 30

Conductor insertion opening 31

Transverse side 32

Franking 33

Rest area 34

Recess 35

Head L

Claims

claims

1. Spring terminal connection (100) for connecting a conductor (L), with

 a busbar (10),

 a clamping spring (1 1), by means of which the conductor to be connected (L) is clamped in the clamped state against the busbar (10), and

 a pivotally arranged actuating lever (12), wherein by means of a pivoting movement of the actuating lever (12), the clamping spring (11) is actuated,

 characterized in that a clamping cage (13) is provided, which forms a receiving space for the conductor to be connected (L), and that the clamping spring (11) is designed as a leaf spring and a clamping portion formed as a first end portion (14) and a first end portion (14) opposite, formed as a holding portion second end portion (15), wherein the clamping spring (11) is fastened with its second end portion (15) on the clamping cage (13).

Second spring terminal connection (100) according to claim 1, characterized in that for fastening the clamping spring (11) on the clamping cage (13) has an opening (21) is formed, in which the clamping spring (11) mounted with its second end portion (15) is.

3. spring force clamp connection (100) according to claim 1 or 2, characterized

 in that a projection (16) is formed on the busbar (10), on which the clamping spring (11) with its first end portion (14) is held biased in an unclamped state.

4. spring terminal connection (100) according to one of claims 1 to 3, characterized in that the actuating lever (12) on the clamping cage (13) is pivotally mounted.

5. spring terminal connection (100) according to one of claims 1 to 4, characterized in that at the first end portion (14) of the clamping spring (1 1) a laterally formed on the first end portion (14) actuating surface (24) is formed, which for Actuation of the clamping spring (1 1) with the

Actuating lever (12) cooperates.

6. spring terminal connection (100) according to claim 5, characterized in that on the clamping cage (13) in the form of a window-like opening (25) formed guide contour is formed, through which the actuating surface (24) of the clamping spring (11) protrudes, so that the actuating surface (24) of

Clamping spring (11) with the actuating lever (12) outside of the clamping cage (13) cooperates.

7. spring terminal connection (100) according to one of claims 1 to 6, characterized in that the clamping cage (13) is formed of a metal.

8. spring force terminal connection (100) according to one of claims 1 to 7, characterized in that the actuating lever (12) has an actuating cam (27) for actuating the clamping spring (11).

9. conductor terminal (200), with a housing (30) in which a

 Spring terminal connection (100) is arranged, which is designed according to one of claims 1 to 8.

10. conductor terminal (200) according to claim 9, characterized in that the housing (30) has a latching region (34) on which the

 Actuating lever (12) can be latched.