DE102005062436A1 - Connecting terminal for electric lead has clamping spring at least partly in form of torsion bar extending towards free end of spring - Google Patents

Abstract

The connecting terminal has the clamping spring (21), starting from its base part, in the form of a torsion bar (23) for at least part of its length, extending towards the free end of the spring. A torque clamping lever (20) is fixed against rotation to the torsion bar, from which it extends at a right angle. The torque clamping lever is in the form of a leaf spring acting on the inserted lead (17).

Description

The The invention relates to an electrical terminal with at least one Clamping point for connection an electrical conductor according to the features of the preamble of claim 1 is formed.

Conductor terminals of this type are from the U.S. Patent 5,110,305 known. They have clamping springs in the form of leaf springs, which are stamped out of an elastically resilient flat material and which are shaped so that the free leaf spring end (starting from its stationary fixed base) initially extends opposite to the insertion of the electrical conductor and then (after a bend of the free leaf spring end by almost 135 °) on the electrical conductor tapers. The bent leaf spring end thereby forms an inlet slope (insertion slope) for the electrical conductor. The end edge of the inlet slope extends transversely to the longitudinal axis of the electrical conductor and forms the clamping edge, which is to clamp the electrical conductor in the terminal point contact-proof and gas-tight.

so shaped leaf springs have because of the bend of the free leaf spring end a larger space requirement. The nearly 135 ° bend the bend must be the provide a substantial proportion of the clamping force required for a more secure contact and gas-tight clamping of the electrical conductor is required. Accordingly The radius of the 135 ° bend must not too small become. Also, the must Length of the From the sheet running free leaf spring end dimensioned sufficiently long be to have a not too hard spring characteristic, otherwise the Conductor insertion forces into the Clamping point would be too big. Out All this means that the known terminals of this type can not be sufficiently miniaturized and e.g. as conductor terminals for printed Circuit boards with closely spaced tracks are not or only badly can be used.

Similar problems of miniaturization are also known in connectors whose connector contacts work with contact springs in the form of free-ending leaf springs. In the DE 690 23 584 T2 is complained that the known contact spring systems in a small construction, as required for connectors, provide too low contact forces. It is also complained that the material used for such contact spring systems in relation to the contact forces achieved is very high and therefore uneconomical, even if such systems are structurally optimized.

In the aforementioned DE 690 23 584 T2 is therefore proposed to incorporate in connectors contact springs, which are formed at least in some areas as a torsion bar. When applying a torsional torque to a torsion bar, the deformation stresses are distributed over the entire length of the torsion bar, so that the material of the torsion bar is better utilized. It also follows that despite small construction dimensions of a torsion bar greater return torques and thus greater clamping forces in the contact spring system of a connector can be achieved.

The The present invention is based on the object, a conductor terminal of the type defined in the preamble of claim 1 (generic) to develop, on the one hand the lower material use and the better clamping force generation by means of a torsion bar or a torsion spring, but on the other hand does not benefit neglected a free leaf spring end, for plugging of the conductor in the nip forms an inlet slope and at the same time a end-sided, sharp clamping edge provides the electrical The contact-tight and gas-tight conductor is clamped in the clamping point.

These Task is at a conductor terminal of the generic type solved by a combination of features characterized is that the Clamping spring starting from its base part at least in a partial area as Torsion bar is formed, extending in the direction of the free end the clamping spring extends, and that near the free end of the Clamping spring a torque-clamping lever rotatably connected to the torsion bar is substantially perpendicular to the torsion axis the Torsionsstabes hinauserstreckt, wherein the torque-clamping lever leaf-shaped is formed and as a lead-in for the einzusteckenden in the nip electrical conductor is used and at the end of the inlet slope a clamping edge to disposal which forms a terminal point with the electrical conductor, positioned at a distance to the torsion axis of the torsion bar is.

The Wire terminal according to the invention uses a lever rotatably mounted on the torsion bar, fulfills the multi-functional tasks and is therefore referred to as "torque-clamping lever".

First is to stress that the Torque clamping lever in cooperation with the mating contact surface in the Conductor terminal has the function of a turnstile, which it allows the torsion bar with a certain torsional bias in the terminal install.

There the torque-clamping lever is designed leaf-shaped, he is able for the electrical conductor to be inserted into the clamping point run-in slope optionally together with the mating contact surface of the Removed clamping point to a cross-sectionally V-shaped inlet funnel can be.

thereupon offers the torque-clamping lever at the end of the inlet slope a Clamping edge whose point of intersection with the electrical conductor as defined terminal point (= force application point) in a larger or positioned smaller distance to the torsion axis of the torsion bar can be, depending on the desired size of the torque, the Inserting the electrical conductor into the clamping point (and a Resulting rotational adjustment of the torque-clamping lever) as additional Torque is applied to the torsion bar.

Farther offers the unilaterally extending from the torsion bar away and leaf-shaped Torque-clamping lever the guarantee for this, that ever After constructive design of the conductor terminal, the plug-in direction of to be clamped electrical conductor perpendicular to the torsion axis of the torsion bar (see claim 2) or parallel to the torsion axis of the torsion bar (see claim 3) can be selected. The following Drawings show this in more detail.

The Material cross-sectional shapes of the torque-clamping lever and / or of the torsion bar can basically chosen arbitrarily become. Flat material cross-sectional shapes whose material thickness not too big, have the advantage that the torque-clamping lever and / or the torsion bar with a compound load can be acted upon by bending and torsion (see claim 4). through a composite load of bending and torsion can (with appropriate constructive installation conditions) and despite a substantial miniaturization of the terminal size until very big Clamping forces for the clamping an electrical conductor can be achieved.

jam This new type can be extremely material-saving e.g. as printed circuit board terminals be formed such that on the fixed stationary base part of the clamping spring formed a soldering pin which extends from the base part of the clamping spring (see Claim 5).

Preferably extends the solder pin from the base part of the clamping spring in extension of the torsion bar away, but there are also applications where the longitudinal extension of the soldering pin with the longitudinal extension of the torsion bar forms an angle.

at not too big, resulting from a Leiterklemmung torsional torques of the clamping spring can the solder joint of the soldered soldering post serve as an abutment. However, it is preferred (see claim 7) that the Base part of the clamping spring has at least one transverse extension, the as a stationary torque counter bearing in Isolierstoffgehäuse the Wire terminal is fixed so that the soldered point of the soldered soldering post no powers from the Leiterklemmung must take.

Extremely cost effective in terms of material usage and assembly costs is a terminal according to the invention, in which the clamping spring with its torsion bar and with its base part and with a soldering pin extending from the base part one piece is punched out of a flat spring steel sheet (see claim 8th).

following become three embodiments the invention described in more detail with reference to the drawings. Show it:

1 a perspective view of a printed circuit board terminal, which is placed on the peripheral edge of a printed circuit board,

2 to 4 a circuit board terminal that can be soldered by means of a solder pin in a circuit board.

5 to 7 a circuit board terminal with a solder pin, which is part of a power rail.

Is shown in 1 a circuit board 8th with relatively closely spaced tracks 9 , On the edge of this board is a 5-pin conductor terminal 10 deferred so that in a lower level the jaw-shaped open jaws 11 one track per pole 9 contact the circuit board. This is a known connection technique and not the subject of the present invention.

In the embodiment according to 1 the features of the invention are given by the fact that the contact insert per pole is punched out in one piece from an elastically resilient flat material and is shaped so that on the one hand the known, mouth-open jaws 11 arise and that on the other hand, the clamping spring 12 is formed, with its lower end (= base) stationary in the housing 13 the terminal is fixed.

The clamping spring 12 is starting from its base part as a torsion bar 15 formed, which is shown upwards in the direction of the free End of the clamping spring extends. Near the free end of the clamping spring is a torque-clamping lever 16 rotatably formed with the torsion bar and extends substantially perpendicularly from the torsion axis of the torsion bar away. End has the torque clamping lever 16 a clamping edge, which is parallel to the torsion axis of the torsion bar 15 is aligned and the the electrical conductor 14 clamped in the nip.

The nip is in the embodiment according to 1 between the aforementioned clamping edge of the torque-clamping lever 16 formed on the one hand and an insulating housing wall on the other. In this case, forms the leaf-shaped torque clamping lever 16 in the insertion of the electrical conductor an inlet slope, which allows a safe insertion of the electrical conductor into the nip together with the mating surface of the insulating material housing.

The second embodiment according to the 2 to 4 shows the electrical conductor 17 , whose stripped end is clamped in the nip of the illustrated conductor terminal, which is between the insulating material housing wall 18 on the one hand and the clamping edge 19 the torque-clamping lever 20 the clamping spring 21 on the other hand is formed.

The clamping spring 21 possesses starting from your base part 22 one as a torsion bar 23 trained portion extending in the direction of the free end of the clamping spring, wherein near the free end of the clamping spring of the torque-clamping lever 20 rotatably connected to the torsion bar. This torque clamping lever 20 is sheet-shaped according to the teachings of the invention and serves as an inlet ramp for the electrical conductor to be inserted into the clamping point 17 how best 3 shows. At the end of the inlet slope is between the clamping edge there 19 the torque-clamping lever 20 and the electrical conductor 17 defines a clamping point, which is at a distance to the torsion axis of the torsion bar 23 is positioned.

The base part 22 the clamping spring 21 is stationary in the insulating housing 24 fixed the illustrated conductor terminal, as shown with an additional transverse extension 25 , which is a stationary bearing in insulating material 24 is set as best 4 shows.

At the stationary fixed base part 22 the clamping spring is a soldering pin 26 integrally formed, as shown in the extension of the torsion bar 23 extends and which serves for soldering eg in a circuit board. The soldering in the circuit board remains due to the fixed fixation of the base part 22 load.

4 illustrates that in this embodiment, the clamping spring 21 is loaded in the clamped state of the electrical conductor on both bending and torsion.

The third embodiment according to the 5 to 7 has a largely rigid busbar as counter surface in the nip 27 made of a material with good electrical conductivity, as shown, down in a soldering pin 28 ends, which can be soldered into a circuit board.

On this busbar is the clamping spring 29 deferred and fixed in place with its base part. According to the teaching of the invention, the clamping spring consists of a torsion bar 30 with a leaf-shaped torque-clamping lever 31 , This torque-clamping lever is used together with the upper end of the busbar 27 for forming a cross-sectionally V-shaped inlet funnel, and he has in the insertion direction of the electrical conductor 32 (please refer 7 ) an end clamping edge 33 (please refer 6 ), which defines a terminal point with the electrical conductor, which is at a distance from the torsion axis of the torsion bar 30 is positioned, like this 7 shows.

The illustrated embodiments illustrate the material savings that are related to the inventive clamping springs and they also show the principle of micro-construction that is with the conductor terminals according to the invention can be realized. With regard to the with the illustrated embodiments achievable spring clamping forces Reference is made to the preceding part of the description, which the describes physical fundamentals.

Claims (8)

Electrical terminal with at least one terminal point for connecting an electrical conductor, - the terminal point has a clamping spring which is stamped and formed of an elastically resilient material and whose one end fixedly fixed as a base part, - whereas the other end of the clamping spring as a free end for the electrical conductor to be inserted into the clamping point forms a sheet-shaped inlet bevel, which ends in the insertion direction of the conductor with a clamping edge which extends transversely to the longitudinal axis of the electrical conductor and forms a terminal point together with this at the intersection of clamping edge and conductor, which forms the electrical conductor clamped in the nip, characterized - that the clamping spring ( 12 . 21 . 29 ) starting from its base part at least in a partial area as a torsion bar ( 15 . 23 . 30 ) is formed, which extends in the direction of the free end of the clamping spring, - that near the free end of the clamping spring, a torque-clamping lever ( 16 . 20 . 31 ) is rotatably connected to the Torsionsstab and hinauserstreckt substantially right angled from the torsion axis of the torsion bar, - that the torque-clamping lever is formed leaf-shaped and serves as an inlet slope for the inserted into the terminal point electrical conductor - and that at the end of the inlet slope between the terminal edge and the electrical conductor formed there clamping point is positioned at a distance from the torsion axis of the torsion bar. Conductor terminal according to claim 1, characterized in that - the clamping edge ( 33 ) perpendicular to the torsion axis of the torsion bar ( 30 ) and the electrical conductor to be clamped ( 32 ) can be inserted with parallel alignment to the torsion axis in the nip. Conductor terminal according to claim 1, characterized in that - the clamping edge ( 19 ) parallel to the torsion axis of the torsion bar ( 15 . 23 ) and the electrical conductor to be clamped ( 14 . 17 ) is inserted perpendicular to the torsion axis in the nip. Conductor terminal according to claim 1, characterized in that - the torque-clamping lever ( 20 ) and / or the torsion bar ( 23 ) have a cross-sectional shape, each allowing a composite stress by bending and torsion. Conductor terminal according to Claim 1, characterized in that - on the stationarily fixed base part ( 22 ) of the clamping spring ( 21 ) a soldering pin ( 26 ), which extends from the base part of the clamping spring such that it can preferably be soldered into a printed circuit board. Conductor terminal according to claim 5, characterized in that - the soldering pin ( 26 ) from the base part ( 22 ) of the clamping spring ( 21 ) in extension of the torsion bar ( 23 ). Conductor terminal according to claim 5, characterized in that - the base part ( 22 ) of the clamping spring ( 21 ) at least one transverse process ( 25 ), which serves as a stationary bearing in the insulating housing ( 24 ) of the conductor terminal is fixed. Conductor terminal according to claim 5, characterized in that - the clamping spring ( 21 ) with her torsion bar ( 23 ) and with its base part ( 22 ) and with the Lötstift extending from the base part ( 26 ) is punched out in one piece from a flat spring steel sheet.