EP2523257A1 - Clamp unit and connection device with such a clamp unit - Google Patents

Abstract

The clamping unit (1) has cage (2) with side wall (2a) connected with end wall (2b). A cage busbar (4) is provided with contact section (4a) and base portion (4b). A clamping bar (5) has terminal edge (5a), which stands opposite to the contact section, so that force is made to act on clamping bar spring elements (7). The spring elements are arranged within the interior space (3) of cage. An independent claim is included for terminal device.

Description

The invention relates to a clamping unit according to the preamble of claim 1 and a connection device with such a clamping unit according to the preamble of claim 11.

In connection devices for connection or contacting of an electrical conductor such a clamping unit is used. In a clamping position, a stripped or bare electrical conductor with a busbar via a clamping edge of a clamping element by means of spring force is brought into electrically conductive connection. For this purpose, the conductor end to be connected is inserted into the connection device. The connecting device can be opened by an actuator for easy insertion of the conductor and also for pulling it out.

In the field of these connection devices and clamping units, there is a constant need to optimize the space requirement with low production costs and high contact security.

The object of the invention is to provide an improved clamping unit and an improved connection device.

This object is achieved by a clamping unit having the features of claim 1 and by a connecting device having the features of claim 11.

The clamping unit combines the advantages of a so-called push-in clamping spring with a small width and good contact security by at least one additional spring element within the defined interior of the (clamping) cage (on the side facing away from the conductor insertion side of the clamping bar) is arranged. In the prior art, however, the clamping bar itself was formed resiliently in V-shape. Compared to this prior art is by the invention - based on the respective conductor cross-section - a reduced, in particular in an x-direction perpendicular to the conductor insertion ("z" in FIG. 2 ) "shorter" design feasible, which is explained below FIG. 16 will be explained in more detail.

In a preferred embodiment, the clamping bar on one of the clamping edge opposite pivot portion, with which he in the end wall of the cage is pivotally mounted in the interior. This results in a simple construction. The cage may be made of metal as a stamped and bent part, wherein a receptacle for the pivoting portion may be punched in a simple manner. In addition, a simple installation by inserting the clamping bar is possible.

In this case, the spring element can each be at least partially in contact with the clamping bar and with the cage. In other words, the spring element may have a surface which bears against the underside of the clamping bar. This system can also be a contact line or a contact point. In addition, this system may be in the same or substantially the same position in any pivotal position of the clamping bar or change the position, i. the portion of the spring element and the clamping bar can move and move relative to one another.

In a further embodiment, the spring element may have a pivoting portion, with which it is pivotally mounted in the end wall of the cage. Thus, e.g. serve the same recess of the end wall for receiving the pivot portion of the clamping bar as the spring element.

In an alternative embodiment, the spring element may be integrally formed with the clamping bar, whereby a partial reduction is made possible.

In one embodiment, the spring element may have a Z-shaped configuration with a straight spring pressure section and a support section substantially parallel thereto, which are connected via a straight connecting section via an arc section in each case.

In an alternative embodiment, the spring element may have an L-shaped configuration with a straight spring pressure section and a connecting section substantially perpendicular thereto, which is attached to the spring pressure section via two opposing arc sections.

In a further alternative embodiment, the spring element may have a widened U-shaped configuration with a short spring pressure section which is attached via an arcuate section to one end of a straight connection section which is connected to a straight support section via another arcuate section.

In this case, the straight support portion may extend parallel to the foot portion of the bus bar and rest on the foot portion of the busbar. This results in a structure for easy installation.

In another embodiment, the bus bar may be formed without a foot portion, e.g. a portion of the cage on the underside of at least one side wall serves as an abutment for the straight support section.

Furthermore, it is possible that the cage has only one side wall.

In yet another alternative embodiment, the spring element may have a flared U-shaped configuration with a short spring compression section attached via an arcuate section to one end of a bent connection section connected by a further arcuate section to a straight support section.

Here, the bent connecting portion may have a substantially larger radius of curvature than each of the arcuate portions, wherein one arc portion may have a smaller arc radius than the further arc portion.

In addition, in a further embodiment, the further arcuate portion rest on the foot portion of the busbar, wherein the straight bearing portion extend along the end wall of the cage and bear against the end wall. Thus, the interior of the cage and the walls of the cage are used.

The various embodiments of the spring element can allow for the same design of the cage and the clamping bar a wide range of applications of the clamping unit. An adaptation to different clamping forces is thus possible by simply inserting different spring elements during assembly.

• ein Gehäuse zur Aufnahme einer Klemmeinheit, vorzugsweise mit einem Käfig, einer Stromschiene und einer Einführungsöffnung zur Einführung des elektrischen Leiters in die Klemmeinheit, vorzugsweise in den Käfig; einen schwenkbaren Klemmbalken zur Klemmung und Kontaktierung des elektrischen Leiters an der Stromschiene, vorzugsweise in dem Käfig angeordnet; und mindestens ein Federelement zur Ausübung einer Kraft auf den Klemmbalken, wobei die Klemmeinheit als eine Klemmeinheit wie oben beschrieben ausgebildet ist. Die Klemmeinheit kann auch ohne Käfig in das Gehäuse der Anschlussvorrichtung eingesetzt werden.

A connecting device for electrical conductors comprises:

• a housing for receiving a clamping unit, preferably with a cage, a bus bar and an insertion opening for insertion of the electrical conductor in the clamping unit, preferably in the cage; a pivotable clamping bar for clamping and contacting the electrical conductor to the busbar, preferably arranged in the cage; and at least one spring element for exerting a force on the clamping bar, the clamping unit acting as a clamping unit as described above. The clamping unit can also be used without a cage in the housing of the connection device.

In a further embodiment, the connection device may have an actuating device for opening the clamping unit.

A baying terminal has at least one connection device described above.

Figur 1-2

schematische Ansichten eines ersten Ausführungsbeispiels einer erfindungsgemäßen Klemmeinheit in Ruhestellung;

Figur 3

eine schematische Perspektivansicht des ersten Ausführungsbeispiels nach Figur 1 ohne Käfig;

Figur 4

eine schematische Seitenansicht des ersten Ausführungsbeispiels nach Figur 2 vor dem Einführen eines Leiters;

Figur 5-6

schematische Ansichten des ersten Ausführungsbeispiels nach Figur 1 in Klemmstellung;

Figur 7-8

schematische Perspektivansichten eines zweiten Ausführungsbeispiels der erfindungsgemäßen Klemmeinheit in Ruhestellung;

Figur 9

eine schematische Seitenansicht des zweiten Ausführungsbeispiels nach Figur 7;

Figur 10

eine schematische Seitenansicht des zweiten Ausführungsbeispiels nach Figur 7 vor dem Einführen eines Leiters;

Figur 11

eine schematische Ansicht des zweiten Ausführungsbeispiels nach Figur 7 in Klemmstellung;

Figur 12

eine schematische Seitenansicht eines dritten Ausführungsbeispiels der erfindungsgemäßen Klemmeinheit vor dem Einführen eines Leiters;

Figur 13

eine schematische Ansicht des dritten Ausführungsbeispiels nach Figur 12 in Klemmstellung;

Figur 14

eine schematische Seitenansicht eines vierten Ausführungsbeispiels der erfindungsgemäßen Klemmeinheit in Ruhestellung;

Figur 15

eine schematische Ansicht des vierten Ausführungsbeispiels nach Figur 14 in Klemmstellung; und

Figur 16

eine schematische Seitenansicht von Klemmeinheiten zur Erläuterung eines Vergleichs zum Stand der Technik.

By way of exemplary embodiments, the invention will be explained in more detail with reference to the accompanying drawings. Hereby show:

Figure 1-2

schematic views of a first embodiment of a clamping unit according to the invention in the rest position;

FIG. 3

a schematic perspective view of the first embodiment according to FIG. 1 without cage;

FIG. 4

a schematic side view of the first embodiment according to FIG. 2 before inserting a conductor;

Figure 5-6

schematic views of the first embodiment according to FIG. 1 in clamping position;

Figure 7-8

schematic perspective views of a second embodiment of the clamping unit according to the invention in the rest position;

FIG. 9

a schematic side view of the second embodiment according to FIG. 7 ;

FIG. 10

a schematic side view of the second embodiment according to FIG. 7 before inserting a conductor;

FIG. 11

a schematic view of the second embodiment according to FIG. 7 in clamping position;

FIG. 12

a schematic side view of a third embodiment of the clamping unit according to the invention prior to insertion of a conductor;

FIG. 13

a schematic view of the third embodiment according to FIG. 12 in clamping position;

FIG. 14

a schematic side view of a fourth embodiment of the clamping unit according to the invention in the rest position;

FIG. 15

a schematic view of the fourth embodiment according to FIG. 14 in clamping position; and

FIG. 16

a schematic side view of clamping units for explaining a comparison to the prior art.

Coordinate systems are entered in the figures, where x indicates a width direction, y a depth direction and z a height direction.

FIG. 1 shows a schematic perspective view of a first embodiment of a clamping unit 1 according to the invention in the rest position, and FIG. 2 is a schematic side view of the first embodiment according to FIG. 1 ,

The term "rest position" is the position in which in the clamping unit 1 no conductor is inserted and clamped. "Clamping position", however, denotes the position in which a conductor is inserted and clamped in the clamping unit 1.

The clamping unit 1 comprises a cage 2, a busbar 4, a clamping bar 5 and a spring element 7. The busbar can also be integrally formed with the cage (as one of the walls of the cage), if this consists for example of highly conductive material (not here shown).

The cage 2 has two parallel side walls 2a in xz planes, which on one side (in FIG. 1, 2 left) are connected by an end wall 2b in the yz plane. On the opposite side, the side walls 2a in the yz plane in a central region over about 2/3 partially connected to a retaining wall 2c. The two side walls 2a are at their upper sides in the x-direction about ¾ of their length in the x-direction with respect to a region at the top of the end wall 2b in the z-direction about 1/10 lower than this range.

In an embodiment not shown, the cage 2 has only one side wall 2a with the end wall 2b and the retaining wall 2c.

The end wall 2b is provided in its upper region with a recess 2d, which is rectangular here and extends through the end wall 2b in the x-direction and in the γ-direction. The function of the recess 2d will be described in more detail below.

The cage 2 surrounds with its side walls 2a, its end wall 2b and the retaining wall 2c an interior. 3

The cage 2 may be a stamped bent part made of metal or an injection molded part made of plastic. Other versions are of course possible. It is also conceivable that a Kunststoffklemmträger takes over the tasks of the cage 2, if it has corresponding contours / walls.

The busbar 4 is L-shaped. A leg of the bus bar 4 extends in the γ-z plane and is formed as a contact portion 4a. Its upper end is angled as an insertion section 4c outwards in the x direction. The contact portion 4a is disposed in the inner space 3 between the right edges of the side walls 2a on the side of the retaining wall 2c.

The other leg of the busbar 4 is angled at right angles from the contact section 4a in the opposite x-direction as the foot section 4b, closes the lower opening of the cage 2 and extends further in the opposite x-direction beyond the end wall 2b. Thus, the interior 3 is bounded except for the top of the cage 2 and the busbar 4.

In another embodiment, not shown, the busbar 4 on no foot section 4b. In this case, at the lower edge of at least one side wall 2a, instead of the foot portion 4b of the bus bar 4, a foot portion connected to the side wall 2a is attached, e.g. overturned or molded.

Within the inner space 3, the clamping bar 5 extends obliquely from upper left to lower right in an upper region and is pivotable about a (here virtual) pivot axis 6, which runs in the y-direction, in the recess 2d. The clamping bar 5 has a left end, which is formed as a pivoting portion 5b corresponding to the recess 2d of the end wall 2b of the cage 2 and is pivotally received in the recess 2d. An upper side 5c of the clamping bar 5 faces upward. The other end of the clamping bar 5 forms a clamping edge 5a and is in the rest position shown at a contact surface 4e within the interior 3 at. This investment area is also called Clamp designated. This system of the clamping edge 5a at the contact surface 4e of the busbar 4 forms a stop and a limit of the pivoting range of the clamping bar 5 in the counterclockwise direction.

The clamping bar 5 is pressed by the spring element 7 in the rest position with its clamping edge 5a against the contact surface 4e.

The spring element 7 is arranged in the interior 3 below the clamping bar 5. It has a Z-shaped shape in the rest position. It is with a left upper end of a spring pressure portion 7a, which is formed as a pivot portion 7e corresponding to the recess 2d of the end wall 2b of the cage 2, also like the pivot portion 5b of the clamping bar 5 below this pivot portion 5b in the recess 2d taken.

The straight spring pressure section 7a extends below the clamping bar 5 parallel to this approximately to 2/3 of its length and then merges into an adjoining arc section 7b. The arc portion 7b has an opening angle between the spring pressure portion 7a and a connecting portion 7g of less than 90 ° in the clockwise direction, and is connected to another arc portion 7c via a straight connecting portion 7g. The connecting portion 7g is about 3/4 as long as the spring pressure portion in this first embodiment. The further arcuate portion 7c runs opposite to the arcuate portion 7b with a similar opening angle between the connecting portion 7g and a support portion 7d and merges into a straight support portion 7d whose end on a contact surface 4d of the foot portion 4b of the busbar 4 near the transition of the foot portion 4b in the Contact section rests. The support portion 7d extends in the rest position approximately parallel to the spring pressure section 7a.

The spring pressure portion 7a is located with its upwardly facing surface as a pressure portion 7f on the lower surface of the clamping bar 5, which is referred to as a pressure surface 5d.

The spring element 7 is under a certain bias, by which the clamping bar 5 is pressed with its clamping edge in the opposite z-direction against the contact portion 4a in the nip.

The spring member 7 is disposed in the inner space 3 within a range of the clamping bar 5, the contact portion 4a and the foot portion 4b of the busbar 4, and the end wall 2b and the corresponding regions of the side walls 2a of the cage 2 is bounded.

In FIG. 3 is a schematic perspective view of the first embodiment according to FIG. 1 shown without cage 2.

It can be seen that the pivoting portion 5b of the clamping bar 5 is arranged centrally in the y-direction at the end of the clamping bar 5 and constitutes about half the length of the clamping bar 5 in the γ-direction. Also, the pivot portion 7e of the spring element 7 may have a similar shape.

FIG. 4 shows a schematic side view of the first embodiment according to FIG. 2 before inserting a conductor 8, of which only a stripped end is shown here.

The clamping unit 1 is still in the rest position.

The conductor 8 is inserted in an insertion direction extending in the z-direction, first between the insertion section 4 c, which facilitates the insertion of the conductor 8, and then the contact portion 4 a of the bus bar 4 and the top 5 c of the clamping bar 5. In this case, the lower end of the conductor 8 presses on the upper side 5c of the clamping bar 5, wherein it pivots by increasing this pressure (or by a not shown tool or actuator) about the pivot axis 6 in a clockwise direction against the spring force of the spring element 7 in the interior 3. When inserting the conductor 8 in the clamping unit 1, the spring element 7 is stretched over the clamping bar 5.

Illustrate the inserted and clamped conductor 8 in the clamping position of the clamping unit 1 FIG. 5 in a schematic side view and FIG. 6 in a schematic perspective view of the first embodiment according to FIG. 1 ,

In the clamping position, the conductor 8 abuts against the contact surface 4e of the contact portion 4a of the busbar 4 and is pressed against this by the clamping edge 5a of the clamping bar 5 by the spring force of the spring element 7. The clamping bar 5 is pivoted about the pivot axis 6, as is the spring pressure section 7a of the spring element 7. The curved section 7b of the spring element 7 is widened in the clamping position, ie the opening angle between the spring pressure section 7a and the connecting section 7g is greater than 90 °. At the same time the further arc section 7 c is further bent together, wherein the opening angle between the Connecting portion 7g and the support portion 7d is less than 90 °. As a result, the spring element 7 is under greater bias than in the rest position.

The clamping edge 5a of the clamping bar 5 not only has the function to press the conductor 8 against the contact surface 4e, but also acts in the extension direction (opposite to the z-direction) of the conductor 8, which blocks withdrawal of the conductor 8 from the clamping unit 1 is and the clamping increases. Such self-locking is effected by the overhead pivot axis 6 and the lower lying clamping edge 5a.

The self-locking is increased by the lower to the lower clamping edge 5a higher pivot axis 6 by the greater length in the z-direction of the end wall 2b of the cage 2 relative to the notched side walls 2a. As a result, in the self-locking lever arms acting in the clamping bar 5 between the force introduction region of the spring force of the spring element 7 and the pivot axis 6 and between the pivot axis 6 and the clamping edge 5a as large as possible.

In the clamping position is as in FIG. 5 can be seen, only a small portion of the spring pressure portion 7f of the spring element 7 in transition to the arc portion 7b with the pressure portion 5d of the clamping bar 5 in a narrow force introduction region in contact.

In the FIGS. 7 and 8 schematic perspective views of a second embodiment of the clamping unit 1 'according to the invention are shown in the rest position. In FIG. 8 the cage 2 is not shown. FIG. 9 shows a schematic side view of the second embodiment according to FIG. 7 ,

The second embodiment differs from the first by the structure of the spring element 7 ', which here in the rest position has a reverse L-shaped configuration and is disposed in the interior space 3 below the clamping bar 5.

The spring element 7 'also has a spring pressure section 7'a, one end of which is designed to be received in the recess 2d of the end wall 2b corresponding to the recess 2d and, as in the first exemplary embodiment, below the pivot section 5b in the recess 2d is included. The spring pressure section 7'a forms the short leg of the L-shaped configuration of the spring element 7 'and lies in the rest position with its Pressing portion 7'f at the pressure portion 5d of the underside of the clamp bar 5 ( FIG. 9 ).

The other end of the spring pressure section 7'a merges into the curved section 7'b, which has an opening angle of approximately 180 ° and extends in a clockwise direction into the interior 3. The other end of the arcuate portion 7'b is connected to another, opposite to the arc portion 7'b arcuate portion 7'c, which is bent in a counterclockwise direction and has an opening angle of about 45 °. Its other end is substantially perpendicular to a straight connecting portion 7'g, and thus perpendicular to the spring pressure portion 7'a (and thus also to the clamping bar 5 in this rest position) runs and at its other end in an arcuate support portion 7'd with a Opening angle of about 90 °, bent counterclockwise, passes. This arcuate support portion 7'd is in the rest position on an inner surface 2e of the end wall 2b of the cage 2 at.

In the rest position of this second embodiment, the clamping edge 5a is also on the clamping surface 4e of the contact portion 4a of the bus bar 4 as in the first embodiment.

FIG. 10 shows a schematic side view of the second embodiment according to FIG. 7 before insertion of the conductor 8, and FIG. 11 illustrates a schematic view of the second embodiment FIG. 7 in clamping position with the inserted conductor 8.

The insertion of the stripped end of the conductor 8 is carried out as described in the first embodiment. In this case, the spring element 7 'is tensioned by supporting the support section 7'd on the inner surface 2e of the end wall 2b of the cage 2. At the same time, the arc sections 7'b and 7'c are widened and generate the spring force which acts on the clamping bar 5 for clamping the conductor 8 via the clamping edge 5a against the clamping surface 4e of the contact section 4a of the busbar 4.

In FIG. 11 a variant of the spring element 7 'is shown, wherein the arcuate support section 7'd merges into a further end arc section 7'h. The arcuate support portion 7'd and the further end arc portion 7'h have the same opening angle, ie a common opening angle of about 180 °, and radii with a common center, which is indicated by the dotted cross.

Figures 12 and 13 show a third embodiment of the clamping unit 1 "according to the invention in each case in a schematic side view before the insertion of a conductor and in clamping position ( FIG. 13 ).

Also, the third embodiment differs from the first and second by the structure of the spring element 7 ".

The spring element 7 "has in the rest position on a widened U-shaped configuration and is also disposed in the interior 3 below the clamping bar 5.

A spring-pressure section 7 "a of the spring element 7" is arranged here very short at the end of an arc section 7 "b facing the end wall 2b with an opening angle of approximately 90 ° 7 "a and the bow portion 7" b arranged. The spring element 7 "has no pivoting section and is not accommodated in the recess 2d of the end wall 2b Only the pivoting section 5b of the clamping bar 5 is arranged in the recess 2d in the pivoting axis 6.

The other end of the arch portion 7 "b is a leg of the U-shaped configuration and formed as a straight connecting portion 7" g. The connecting portion 7 "g extends at an angle smaller than 90 ° to the clamping bar 5 to the bottom left to the end wall 2b of the cage 2 in the interior 3 and goes into another arc section 7" c, which runs bent in the counterclockwise direction and an opening angle between the connecting portion 7 "g and the support portion 7" d of less than 180 °. Its other end is connected to a straight support portion 7 "d, which runs parallel to the foot portion 4b of the bus bar 4 and rests with a lower support surface 7" i on the abutment surface 4d of the foot portion 4b of the bus bar 4. The length of this edition is about 3/4 of the length of the contact surface 4d. The support portion 7 "d of the spring element 7" forms the other leg of the U-shaped configuration of the spring element 7 ".

In the rest position of this third embodiment, the clamping edge 5a is also on the clamping surface 4e of the contact portion 4a of the bus bar 4 as in the first and second embodiments.

FIG. 13 shows a schematic side view of the third embodiment according to FIG. 12 with the inserted conductor 8 in the clamping position of the clamping unit 1 ".

The insertion of the stripped end of the conductor 8 takes place as in the first and second embodiments. In this case, the spring element 7 "is tensioned by supporting the support section 7" d on the abutment surface 4e of the foot section 4b of the busbar 4, wherein the arc section 7 "c is widened and generates the spring force which acts on the clamping bar 5 for clamping the conductor 8 The clamping edge 4 a acts against the clamping surface 4 e of the contact section 4 a of the busbar 4. In this widening of the curved section 7 "c, its opening angle is increased by 180 °, since the spring pressure section 7" a and the arc section 7 "b at the underside of the clamping bar 5 to move on its printing section 5d in the direction of the pivot axis 6. A part of the outer arc surface of the further arcuate section 7 "c may bear on the inner surface 2e of the end wall 2b of the cage 2 in the transition to the connecting section 7" g.

In the FIGS. 14 and 15 is a fourth embodiment of the clamping unit according to the invention 1 '' respectively in a schematic side view in the rest position and in clamping position ( FIG. 15 ).

Also, the fourth embodiment differs from the first, second and third by the structure of the spring element 7 "'.

The spring element 7 '"has in the rest position and a U-shaped configuration with a long, straight leg and a shorter, curved leg and is also disposed in the interior 3 below the clamping bar 5.

A spring-pressure section 7 "'a of the spring element 7'" is here similar to the third embodiment at the end of an arc section 7 "'b facing the end wall 2b with an opening angle of approximately 45.degree .. The pressure section 7"' f is located on the Clamping bar 5 facing side of the arcuate portion 7 "'B. Also this spring element 7'" of the fourth embodiment has no pivoting portion and is not received in the recess 2d of the end wall 2b. Only the pivoting portion 5b of the clamping bar 5 is arranged in the recess 2d in the pivot axis 6.

The other end of the arcuate portion 7 "'b is formed as an arcuate joint portion 7"' g of a substantially larger radius than the arcuate portion 7 "'b. The joint portion 7"' g extends to the lower left to the end wall 2b of the cage 2 in the FIG Inner space 3 and goes into another arc section 7 "'c, which extends bent in a clockwise direction and an opening angle between the connecting portion 7"' g and the support portion 7 "'d of less than 180 °. Its other end is connected to the straight bearing portion 7 "'d, which extends parallel to the end wall 2b of the cage 2 on the inner surface 2e of the end wall 2b in opposite z-direction over the recess 2d and with a contact surface 7"' l on the inner surface 2e of the end wall 2b of the cage 2 rests. The length of this edition is about 9/10 of the length of the end wall 2b.

In the rest position of this fourth embodiment, the clamping edge 5a is also on the clamping surface 4e of the contact portion 4a of the bus bar 4 as in the first, second and third embodiments.

FIG. 15 shows a schematic side view of the fourth embodiment according to FIG. 14 with the inserted conductor 8 in the clamping position of the clamping unit 1 '".

The stripped end of the conductor 8 is inserted as in the first, second and third embodiments in the clamping unit 1 "'.

The spring element 7 "'a shifts at the pressure section 5d of the lower side of the clamping bar 5 in such a way that the spring pressure section 7"' a is bent into the inner space 3 towards the end wall 2b wherein the pressure portion 7 "'f of the clamping beam 5 facing side of the spring pressure portion 7"' a on the side of the bent connecting portion 7 "'g moves. The arcuate portion 7 "'c is further supported on the abutment surface 4d of the foot portion 4b of the bus bar 4 with a bearing surface 7"' i, whereby its opening angle is reduced, i.e., reduced. the arc section 7 "'c is bent together during tensioning of the spring element 7'". The support portion 7 "'d remains with its contact surface 7"' l on the inner surface 4e of the end wall 2b of the cage. 2

The bent-bow portion 7 "'c generates the spring force, which in this fourth embodiment via the curved connecting portion 7"' g of the spring element 7 '"on the clamping bar 5 for clamping the conductor 8 via the clamping edge 5a against the clamping surface 4e of the contact portion 4a of Busbar 4 acts.

In FIG. 16 is a schematic side view of clamping units for explaining a comparison to the prior art shown.

A conventional embodiment of the clamping unit has an inverted, V-shaped spring element 7 ^IV , one leg of which is vertical and is secured to the cage. The other leg has a clamping edge and presses against the contact surface 4e of the contact portion 4a of the bus bar. The spring element 7 ^IV is disposed above the interior 3 and limits it upwards. In this case, a first horizontal dimension 9 of the attached leg of the spring element 7 ^IV to the contact portion 4a is required.

In the clamping unit according to the invention, the spring element 7 is arranged within the interior 3, wherein this is utilized, which was not the case previously. In addition, a second horizontal dimension 10 can thereby be achieved, which is smaller than the first horizontal dimension 9 in the conventional design. This results in a smaller dimension 10 in the x-direction with the same connection capacity (spring element in the deflected state).

The clamping unit 1, 1 ', 1 ", 1"' can also be used in a corresponding housing made of plastic and form a connecting device, not shown. This connection device may also comprise an actuator (not shown) with which, e.g. with a tool, the clamping bar 5 is pivoted to insert the conductor 8 or to release the clamped conductor 8 and can pull out.

The embodiments explained above do not limit the invention. It is modifiable within the scope of the appended claims.

The connecting device can be designed as a terminal block.

The clamping units 1, 1 ', 1 ", 1"', 1 ^IV are functional without a housing.

In the first, second and third embodiments, it is also conceivable that the clamping bar 5 and the spring element 7 are integrally formed.

reference numeral

1, 1 ', 1 ", 1"'

terminal unit

2

Cage

2a

Side wall

2 B

bulkhead

2c

retaining wall

2d

recess

2e

palm

3

inner space

4

conductor rail

4a

Contact section

4b

foot section

4c

inserting

4d

contact surface

4e

contact area

5

clamping bar

5a

clamping edge

5b

pivot portion

5c

top

5d

print section

6

swivel axis

7, 7 ', 7 ", 7'", 7 ^IV

spring element

7 ... 7 " 'a

Spring push portion

7 ... 7 ' "b

arc section

7 ... 7 " 'c

arc section

7 ... 7 " 'd

supporting section

7 ... 7'e

pivot portion

7 ... 7 " 'f

print section

7 ... 7 " 'g

connecting portion

7'h

Endbogenabschnitt

7 "... 7" 'i

bearing surface

7 " 'l

contact surface

8th

ladder

9, 10

measure

x, y, z

coordinates

Claims (15)

1. clamping unit (1, 1 ', 1 ", 1"') for electrical conductors (8), with
a cage (2) having at least one side wall (2a) connected to at least one end wall (2b);
a separate or integrally formed with the cage busbar (4) having a contact portion (4a) and preferably a foot portion (4b); and a clamping bar (5) having at least one clamping edge (5a) facing the contact portion (4a), and
at least one spring element (7, 7 ', 7 ", 7"') acting on the clamping bar,
wherein at least the end wall (2b) and the at least one side wall (2a) of the cage (2), the clamping bar (5), the contact portion (4a) and preferably the foot portion (4b) of the busbar (4) define an interior space (3) .
characterized in that the at least one spring element (7, 7 ', 7 ", 7"') within the interior (3) in the cage (2) is arranged. 2. clamping unit (1, 1 ', 1 ", 1'") according to claim 1, characterized in that the clamping bar (5) has a clamping edge (5a) opposite pivot portion (5b), with which he in the end wall ( 2b) of the cage (2) in the interior (3) is mounted pivotably. 3. clamping unit (1, 1 ', 1 ", 1"') according to claim 1 or 2, characterized in that the spring element (7, 7 ', 7 ", 7"') each with the clamping bar (5) and with the cage (2) at least partially in contact. 4. clamping unit (1, 1 ', 1 ", 1"') according to one of the preceding claims,
characterized in that the spring element (7, 7 ') has a pivoting portion (7e, 7'e) with which it is pivotally mounted in the end wall (2b) of the cage (2). 5. clamping unit (1, 1 ') according to claim 4, characterized in that the spring element (7, 7') with the clamping bar (5) is integrally formed. 6. clamping unit (1) according to claim 4 or 5, characterized in that the spring element (7) has a Z-shaped configuration with a straight spring pressure section (7a) and a substantially parallel thereto support portion (7d) which are connected via a straight connecting portion (7g) via a respective arc section (7b, 7c). 7. clamping unit (1 ') according to claim 4 or 5, characterized in that the spring element (7') has an L-shaped configuration with a straight spring pressure portion (7'a) and a substantially perpendicular thereto connecting portion (7'g) which is attached to the spring pressure section (7'a) via two opposing arcuate portions (7'b, 7'c). 6. clamping unit (1 ") according to one of claims 1 to 3, characterized in that the spring element (7") has a widened U-shaped configuration with a short spring pressure section (7 "a), which over an arc portion (7" b ) is attached to one end of a straight connection portion (7 "g) which is connected to a straight support portion (7" d) via another arc portion (7 "c). 7. clamping unit (1 ") according to claim 6, characterized in that the straight support portion (7" d) parallel to the foot portion (4b) of the busbar (4) and on the foot portion (4b) of the busbar (4) rests. 8. clamping unit (1 '') according to one of claims 1 to 3, characterized in that the spring element (7 "') has a widened U-shaped configuration with a short spring pressure section (7"' a), which over an arc section ( 7 "'b) is attached to one end of a bent connecting portion (7"' g) which is connected via a further arcuate portion (7 "'c) with a straight bearing portion (7"' d). 9. clamping unit (1 '') according to claim 8, characterized in that the bent connecting portion (7 "'g) has a substantially greater radius of curvature than each of the arcuate portions (7"' b, 7 "'c), wherein the one arc section (7 "'b) has a smaller arc radius than the further arc portion (7"' c). 10. clamping unit (1 '') according to claim 9, characterized in that the further arc portion (7 "'c) on the foot portion (4b) of the busbar (4) rests, wherein the straight support portion (7"' d) along the end wall (2b) of the cage (2) and rests against the end wall (2b). 11. Connection device for electrical conductors (8), with - A housing for receiving a clamping unit (1, 1 ', 1 ", 1'") with a cage (2), a separate or integrally formed with the cage busbar (4) and an insertion opening for insertion of the electrical conductor (8) in the cage (2); - One in the cage (2) arranged pivotable clamping bar (5) for clamping and contacting the electrical conductor (8) on the busbar (4); and - At least one spring element (7, 7 ', 7 ", 7"') for exerting a force on the clamping bar (5);
characterized in that - The clamping unit (1, 1 ', 1 ", 1"') as a clamping unit (1, 1 ', 1 ", 1"') is formed according to one of the preceding claims. 12. Connecting device according to claim 11, characterized in that the connecting device has an actuating device for opening the clamping unit (1, 1 ', 1 ", 1'"). 13. Anreihklemme with at least one connection device according to claim 11.

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