EP0780923A2 - Clamp for connecting a conductor end with a contact - Google Patents

Abstract

The terminal/clamp is used between a conductor end (32) and a fixed contact e.g. a collector rail or a fuse carrier contact, with a holder enclosing the contact and a clamp element (3) which presses the conductor end against the contact. The clamp element is provided by a 2-armed spring lever which pivots relative to the holder about the lever axis, with the longer lever arm providing a manually operated pressure grip used to bring the shorter lever arm against the inserted conductor end. A clip at the end of the longer lever arm is engaged in a retaining notch to secure the clamp element in the closed position.

Description

The invention relates to a
Terminal for connecting a conductor end to a, in particular fixed, contact, in particular to a busbar or a contact of a fuse carrier, which has a holder comprising the contact or having it itself and a clamping member seated in the holder and pressing the conductor end onto the contact.

These clamps are known for use with a screw as a clamping member.

The invention has for its object to provide a simple and quick to use clamp of the type mentioned.

According to the invention it is provided for this purpose that the clamping member is a lever mounted with its lever axis in the holder, the, longer, force arm than a push handle while pressing the, shorter, load arm to the conductor end and tensioning a spring into a hooking with the Bracket is clickable.

Such a clamp can be assembled by hand without a tool. With an easily possible application of force of 100 N with the thumb, a pressing force of 250 to 300 N or more is generated, for example. The push handle can also be depressed using a tool, for example a screwdriver; he can make a small dent or the like. have to attach the tool. This enables assembly under tension.

As a rule, the lever will be a one-armed. It will then be shorter. The clamp remains in a reasonable size.

Said spring can, for example, hold the pivot bearing of the lever resiliently or be arranged on the power arm in such a way that it presses on the conductor end.

However, the lever itself is expediently the spring, specifically in the form of a spiral spring, preferably made of stainless steel. No separate part has to be attached for the suspension.

According to a particularly advantageous development of the invention, the load arm is then bent back, preferably somewhat behind, the lever axis under the power arm.

With this shape, the spiral spring is of sufficient length to provide a comparatively large amount of travel. However, their structural dimensions are relatively small.

The spiral spring at the end of the load arm is preferably bent out towards the end of the conductor, so that it presses with an edge thereon. The edge made of spring steel will then press a little into the conductor end, which usually has a copper sleeve, and hold it in the longitudinal direction accordingly.
It can also be created only by a slight notch at the spring end, which can be formed when punching out the spring plate, a centering holding the conductor end in the transverse direction.

At the end of the power arm, the lever is expediently bent in order to hook under a projection of the holder at the end of the bent section. The hook can be formed by a bend, preferably by 180 °.
The lever arm has the greatest possible length. The bend also creates a rounding, with which the end of the lever does not press sharply into the thumb when the spring is tensioned and engaged.

The bent section can have a breakthrough for the engagement of a screwdriver, such that the bent section can be bent back somewhat by means of a screwdriver for unhooking.

According to an advantageous embodiment of the invention, the lever axis is formed by two, preferably rectangular, stubs emerging in alignment with one another on the two sides of the lever.
It therefore does not require a separate work step; the two stubs can in turn be shaped when the lever is shaped. The lever in the form of the spring is not weakened by the stubs attached, compared to other possible solutions.

The two stubs are expediently mounted in recesses of two elastically expandable cheeks of the holder.
As a particularly advantageous embodiment, it is proposed that the recesses each have approximately the shape of two diagonally assembled quarter-circle cutouts, which overlap at the tips.
The stubs are then not only guided around the circumference of the recesses. They also have an axle-like bearing in the middle between two tips.

The bracket expediently consists of a U-shaped, resilient sheet.
In the case of the holder itself representing the contact, the sheet can also consist of copper.
In the case of a clamp to be attached to a busbar, the U-cheeks can have an incision with which the holder can be pushed onto the busbar.
In order to be placed on a contact tongue, the holder between the cheeks has a width that roughly matches the contact tongue.

In a further advantageous embodiment of the invention, it is proposed that the length of the lever be changed approximately in the same width as the bending moment by the shape of the spiral spring over its length. So you can even the bend with a constriction of the spiral spring on the length of the power arm and / or the load arm.
By influencing the bending stress in the proposed manner, the bending is relocated from places where there is a high bending moment due to the basic shape of the bending spring and the flow of forces, to places with a lower bending moment. This allows the spiral spring to remain dimensioned as a whole without the bend anywhere coming too close to the area of permanent deformation.

The spiral spring should be guided laterally in the holder and thus at least in the vicinity of the stub and preferably also at the end of the load arm have the clear width of the holder; at the end of the power arm, it should offer the thumb a comfortable pressure surface. On the lengths in between with the mentioned constrictions, the width of the spiral spring should extend from the stubs to the, again wider, ends, i.e. in the direction of the decrease in the bending moment.

According to another advantageous embodiment of the invention, the lever axis of the one-armed lever is created in that the one-armed lever is inserted and / or hooked into the holder with one end, forming the lever axis.

This solution is even easier than the stub axle.

For this purpose, it is proposed for the holder that the lever is inserted into a recess in an end wall of the holder and possibly hooked in or is hooked onto a projection or two side projections of the end wall and a seat for the contact, preferably two side surrounds The end of the conductor extends at a right angle to the end wall and a frame is formed at the end of the holder opposite the end wall at a right angle to the seat, on which the other end of the lever can be snapped into and into which the conductor is to be inserted .
The associated lever preferably has a pressure element that branches off along the length of the power arm in order to form the load arm.

Advantageous refinements of the lever and the frame mentioned, in which it engages, are further specified in the following description of exemplary embodiments of the invention and in the subclaims.

Fig. 1

zeigt in isometrischer Darstellung eine Klemme auf einer Sammelschiene im Endzustand,

Fig. 2

zeigt in gleicher Darstellung wie Fig. 1 die Klemme in geöffnetem Zustand,

Fig. 3

zeigt ein Einzelteil in isometrischer Darstellung,

Fig. 4

zeigt die Klemme nach Fig. 1 und 2 in axialem Schnitt,

Fig. 5

zeigt in einem Fig. 4 entsprechenden Schnitt eine Variante,

Fig. 6

zeigt einen Fig. 4 entsprechenden Schnitt ohne Leiterende,

Fig. 7

zeigt einen Sicherungsträger mit eingesetzter Sicherung und mit einer angesetzten zweiten Klemme in isometrischer Darstellung,

Fig. 8

zeigt die Klemme nach Fig. 7 in axialem Schnitt,

Fig. 9

zeigt teils in Seitenansicht und teils in axialem Schnitt eine dritte Klemme im Endzustand,

Fig. 10

zeigt teils in Seitenansicht und teils in axialem Schnitt eine vierte Klemme im Endzustand und

Fig. 11

zeigt teils in Seitenansicht und teils in axialem Schnitt eine fünfte Klemme im Endzustand.

The drawings show exemplary embodiments of the invention.

Fig. 1

shows an isometric view of a terminal on a busbar in the final state,

Fig. 2

shows in the same representation as Fig. 1, the terminal in the open state,

Fig. 3

shows an individual part in isometric representation,

Fig. 4

shows the clamp of FIGS. 1 and 2 in axial section,

Fig. 5

4 shows a variant in a section corresponding to FIG.

Fig. 6

4 shows a section corresponding to FIG. 4 without the end of the conductor,

Fig. 7

shows a fuse carrier with inserted fuse and with an attached second terminal in an isometric view,

Fig. 8

7 shows the clamp according to FIG. 7 in axial section,

Fig. 9

shows partly in side view and partly in axial section a third clamp in the final state,

Fig. 10

shows partly in side view and partly in axial section a fourth terminal in the final state and

Fig. 11

shows partly in side view and partly in axial section a fifth terminal in the final state.

1 to 6 consists of a holder 2 and a spiral spring 3.

The bracket 2 has the shape of a U-shaped angled sheet.
The U-cheeks 4 have two oblong-rectangular incisions 5 the width of a busbar. With the incisions 5, the terminal 1 is pushed onto the busbar designated 6.
Closer to their end edges 15, the U-cheeks 4 have two aligned recesses 8 in lateral extensions 7.

The recesses 8 have approximately the shape of opposing circular sections 9. The arc length of the circular sections is slightly more than 90 °. However, the sides are still perpendicular to each other. The sides 10 and 11 of the various circular sections, which would be aligned with one another in the precise sector shape, are thus offset and the tips 12 of the sheet metal sections 13 which have remained between the circular sections 9 are at a distance from one another.

On the other side of the U-cheeks 4, projections 14 are formed, slightly inclined in a hook-like manner.
From the two U-cheeks flaps 16 bent inwards form an end abutment for the conductor end.
One of the two U-cheeks 4 also has an inward bend 17, from which a tongue 18 is angled axially, which then changes into a slight inclined position.

5, this U-cheek 4 also has an inwardly angled web 19 at the end of the incision 5, which is in a middle Area between the two U-cheeks 4 has a projection 20 which extends beyond the alignment of the incisions 5.

The spiral spring 3 is mounted with two side stubs 21 in the recesses 8 of the two U-cheeks 4. It thus forms a lever with a power arm 22 and a load arm 23. The load arm 23 is formed by bending the spring plate back and forth in connection with the power arm 22, ie behind the lever axis located at one tip 12. The effective spring length is thus increased beyond the lengths of the force arm and the load arm by the section 45 lying beyond the tip 12.
The load arm 23 is bent outwards at 31 and provided with a slight notch 24 at its end edge. The power arm 22 is angled at the end and the end of the angled section 25 is bent back, forming a hook 26. The angled section 25 has an opening 27.

On the angled section 25 and a section 28 of the power arm 22 adjoining this, the spiral spring 3 covers the U-cheeks 4. A constriction 29 follows. The spiral spring then widens again in order to provide the clear width in front of and behind the stubs 21 To take U-cheeks 4. The spiral spring on the load arm 23 then merges into a second constriction 30. At the bent end 31, it again assumes the clear width between the U-cheeks 4.

If the terminal 1, in the open position according to FIG. 2, is pushed onto the busbar 6, it presses the tongue 18 down and then engages behind it.
By pressing the spiral spring 3 into the position shown in FIG. 6, the hook 26 hooks behind the projections 14 and the end edge of the load arm 23 is lightly pressed onto the busbar 6. Both parts 2 and 3 of terminal 1 thus sit on the busbar 6 without play. To bring the terminal 1 back into the open position, grasp the opening 27 with the tip of a screwdriver and bend the angled section 25 slightly outwards.
In this position, see FIG. 2, a conductor end 32 can be inserted. It is inserted between the U-cheeks 4 over the busbar 6 until it abuts the tabs 16. The force arm 22 is pressed down by the pressure of the thumb on the wide end section 28, the index finger being able to hold under the holder 2, ie on the underside of the U-back, until the hook 26 engages again under the projections 14. The end edge of the load arm 23 is now with the notch 24 on the conductor end 32 and presses it against the busbar 6, where then the electrical Connection exists. The power arm 22 and the load arm 23 are now a little bent, the back bend beyond the lever axis is a little more bent than before.
The load arm 23 rests on the conductor end 32 with inclined inclination in the upsetting sense and holds it accordingly. In contrast, the bend at the end of the angled section 25 represents a rounding that can slide relatively easily over an inclined surface 33 arranged on the U-cheeks 4 and can thereby press the section 25 outwards until the hook 26 snaps into place.

The aforementioned displacement of the sides 10 and 11 of the circular sections 9 has approximately the extent of the sheet thickness of the spiral spring 3. Their stub 21 lie against the sides 10 in the open position (FIG. 2) and are in the clamping end position near the sides 11 , but on one tip 12 (Fig. 1, 4 and 5).

In the variant according to FIG. 5, the protrusion 20 of the web 19 over the busbar 6 keeps the conductor end 32 at a distance from the surface of the busbar 6.
As a result, the conductor end 32 has on the other side on the edge of the busbar 6 there a kind of point contact 44 with a correspondingly larger surface pressure.

FIG. 7 shows a fuse carrier 34 with a base part 35 and two holding elements 36 and at the same time contacts for a fuse 37. The front holding element 36 merges into a contact tongue 38. This is enclosed by a bracket 39 adapted to it, a clamp 40, which in turn has the spiral spring 3 as a clamping member.
The bracket 39 differs from the bracket 2 in the main that it does not receive the contact tongue 38 like the bracket 2, the busbar 3, in one cut, but in the enclosure formed by the U-back and the U-cheeks 4 .
The bracket 39 is fastened together with the front holding element 36 to the base part 35 with a screw 41.
An embossed bulge 42 in the contact tongue 38 creates a secure electrical connection with the conductor end to be placed on the contact tongue 38.

The clamp shown in FIG. 9, designated 51, has a holder 52 which, from a flag 53 serving for its electrical further connection, leads into an end wall 54 which is angled therefrom and is stepped by two further angulations, and from this into an angled seat 55 which one through a crank 56 recessed section 57 connects, and finally with a further bend into a fork 58 opposite the end wall 54 at the other end of the holder 52; the fork ends 59 form a final bend further in the longitudinal direction.
The structure described is made from a stamped part made of copper sheet. It is relatively narrow on the seat 55 in order to accommodate a stripped conductor end 61 between two upturned enclosures 60. In contrast, the fork 58 is widened. The conductor provided here with the insulation 62 is brought through its intermediate space. The insulation 62 is located in the cranked section 57. The conductor end 61 is inserted until it abuts the section 63 of the end wall 54 located under the step.
The section of the end wall 54 located above the step is provided with a rectangular opening 64.

A one-arm lever consisting of a spiral spring 66 is inserted into the opening 64 with a hook-shaped bent-out and angled end. With a glued, screwed or riveted, angular pressure element 67, he presses the conductor end 61 onto the seat 55, which represents the contact. At the other end, the spiral spring 66 is angled and finally provided with an inclined surface 69 at its angled section 68.
Here, while the index finger is holding against the section 57 of the holder 52, it is pressed down with the thumb while bending. The sloping surface 69 meets the end edges of the fork ends 59 and thus bends the angled section 68 until it snaps under the angled fork ends 59 with lateral projections projecting perpendicularly to the plane of the drawing.

FIG. 10 shows a clamp with the same holder 52 and a functionally identical spiral spring 66, which only has a different pressure element 70. The pressure element 70 is formed by a lateral branch from the spiral spring, which is brought by double folding at 71 and at right angles to it at 72 under the spiral spring 66, so that the end section 73 lies with its edge transversely on the conductor end 61.

4, an angular frame 74 is formed on the holder 52 instead of the fork 58. One angle leg 75 is at right angles to the seat 55, to the side of the longitudinal axis of the holder 52. The other angle leg extends parallel to the transverse axis of the holder 52. The conductor is located below this other angle leg 76 place. On the angle leg 76, a projection 77 is bent back in the middle.

The spiral spring designated here with 78 is not provided with a pressure element that branches off along its length to form the load arm, but is bent back under the power arm at its pivoting end. It snaps into the projection 77 of the frame 74 with a cutout 79 arranged in it on the back bend.

The bent-back section 80 presses with its end edge onto the conductor end 61 and is supported in the end position in FIG. 11 with a bulge 81 on the force arm of the spiral spring 78.
The design of the spiral spring 78 with the bent-back section 80 is particularly adaptable to conductor ends of different thicknesses; the bent-back section 80 can also project freely instead of resting on the power arm.

It is considered closer to make it narrower than the remaining section of the spiral spring in order to adjust the contact pressure and the bending behavior of the spiral spring 78 according to certain specifications.

The spiral spring could also be bent, or similar, as it is bent back and latched in accordance with FIG. 11 at its pivoting end, instead it could be bent back at its other end and mounted to form the pivot axis.

Claims (25)

Terminal for connecting a conductor end (32; 61) to a, in particular fixed, contact (6; 38; 55), in particular to a busbar (6) or a contact (38) of a fuse carrier,
the one holder (2; 39; 52) comprising the contact (6; 38) or having it itself (55) and a holder (32; 61) attached to the contact (6; 39; 52) in the holder (2; 39; 52) 6; 38; 55) has pressing clamping member (3; 66; 78),
characterized,
that the clamping member (3; 66; 78) is a lever (3; 66; 78) mounted with its lever axis (12; 65) in the holder (2; 39; 52), its longer arm (22) than one Push handle (28) while pressing the, shorter, load arm (23) against the conductor end (32; 61) and tensioning a spring (3; 66; 78) in a hooking (14,26; 59; 77,79) with the holder (2; 39; 52) can be snapped into place. Clamp according to claim 1,
characterized,
that the lever (3; 66; 78) is a one-armed lever. Clamp according to claim 1 or 2,
characterized,
that the lever (3; 66; 78) itself the spring (3; 66; 78) is in the form of a spiral spring (3; 66; 78), preferably made of stainless steel. Clamp according to claims 2 and 3,
characterized,
that the load arm (23) on, preferably slightly behind, the lever axis (12) is bent back under the power arm (22). Clamp according to claim 4,
characterized,
that the spiral spring (3) at the end of the load arm (23) after the conductor end (32) is bent out (31) and preferably notched as a centering for the conductor end (24). Clamp according to one of claims 1 to 5,
characterized,
that the lever (3) is bent at the end of the power arm (22) and hooks at the end of the bent section (25) under a projection (14) of the holder (2), preferably with an angle (26), preferably by 180 °. Clamp according to claim 6,
characterized,
that the bent portion (25) has an opening (27) for the engagement of a screwdriver. Clamp according to one of claims 1 to 7,
characterized,
that the lever of the shape of the spiral spring (3; 66.78) is changed along its length in approximately the same width as the bending moment. Clamp according to claim 8,
characterized,
that the spiral spring (3) on the length of the power arm (22) and / or the load arm (23) has a constriction (29 or 30) which increases after the end of the load arm (23) or power arm (22) . Clamp according to one of claims 1 to 9,
characterized,
that the lever axis is formed by two, preferably rectangular, stub (21) emerging from one another on the two sides of the lever (3). Clamp according to claim 10,
characterized,
that the two stubs (21) are mounted in recesses (8) of two elastically expandable cheeks (4) of the holder (2). Clamp according to claim 11,
characterized,
that the recesses (8) each have approximately the shape of two diagonal, overlapping at the tips, assembled quarter-circle cutouts (9). Clamp according to claim 11 or 12,
characterized,
that the bracket (2) consists of a U-shaped, resilient sheet. Clamp according to claim 13,
characterized,
that the two U-cheeks (4) have an incision (5) with which the holder (2) can be pushed onto a busbar (6),
or have a distance from one another at which the holder (39) can be placed on a contact tongue (38),
or that the holder itself is contact. Clamp according to one of claims 2 to 9,
characterized,
that the one-armed lever (66; 78) with one end (65), forming the lever axis, is inserted and / or hooked into the holder (52). Clamp according to claim 15,
characterized,
that the lever (66; 78) is inserted into a recess (64) in an end wall (54) of the holder (52) and is possibly hooked in or is hooked onto a projection or two side projections of the end wall and one that forms the contact, preferably two Seat (55) for the conductor end (61), which has lateral borders (60), extends at a right angle to the end wall (54) and at the end of the holder (52) opposite the end wall (54) in the, preferably right, Angle to the seat (55) is a frame (58; 74) is formed, on which the other end of the lever (66; 78) can be snapped and in which the conductor is to be inserted. Clamp according to claim 16,
characterized,
that the frame (58) is fork-shaped and the conductor is accommodated in the fork (58) and the lever (66) snaps with, in particular lateral, projections under the bent-over fork ends (59). Clamp according to claim 16,
characterized,
that the frame (74) is angular, one angle leg (75) being at the said, preferably right, angle to the seat (55), to the side of the longitudinal axis of the holder (52), and the other angle leg (16) extends parallel to the transverse axis of the holder (52) and the conductor is accommodated under this other angle leg (76) and the lever (78) can be snapped onto this other angle leg (76). A clamp according to claim 18,
characterized,
that on said other angle leg (76) a projection (77) is bent back and the lever (78) engages under it (77, 79). Terminal according to one of claims 2 to 3 or 5 to 19,
characterized,
that the lever (66) for forming the load arm has a pressure element (67; 70) branching off along the length of the power arm. Terminal according to claim 20,
characterized,
that the pressure element (67) is glued, screwed or riveted to the load arm or that it (70) is formed by a lateral branch which is brought under the load arm by double bending (71; 72), preferably about mutually perpendicular axes. Clamp according to claims 2 and 3 or one of claims 5 to 19,
characterized,
that to form the load arm, the spiral spring (78) is bent back (80) at the pivoting end of the power arm. A clamp according to claim 4 or claim 22,
characterized,
that the bent-back section (80) of the spiral spring (78) is supported in the end position on the power arm. Clamp according to claim 23,
characterized,
that the bent-back section (80) of the spiral spring (78) is narrower than the other section. Terminal according to claim 19 and one of claims 22 to 24,
characterized,
that a cutout (79) is arranged in the spiral spring (78) on the back bend, with which the lever engages on the said projection (77).

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