Electrical connection or junction device

Electrical connectors – Metallic connector or contact having movable or resilient... – Spring actuated or resilient securing part

Reexamination Certificate

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Details

C439S835000

Reexamination Certificate

active

06743061

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an electrical connection or junction device having an insulation housing and at least two tension springs, wherein the insulation housing is furmished with at least two conductor insertion apertures for the insertion of at least two electrical conductors to be connected and at least two actuation apertures for the insertion of an actuating tool that is used to open the tension springs, with the tension springs being each furmished with a clamping arm having a cutaway to allow insertion of the electrical conductor to be connected, a bearing arm that extends approximately perpendicularly to the clamping arm, and a spine connecting the clamping arm and the bearing arm. More particularly, the present invention further relates to an arrangement of at least two tension springs, each of which being furnished with a clamping arm having a cutaway allowing insertion of an electrical conductor for connection, a bearing arm extending approximately perpendicularly to the clamping arm, and a spine connecting the clamping arm and the bearing arm.
2. Description of the Prior Art
Electrical connection or junction devices are used to establish an electrical connection or junction, specifically an electrically conductive connection, and more specifically a galvanic connection, between a contact element and a counterpart contact element. For functional purposes, the distinction between a connection device and a junction device is relatively unimportant. The term connection device is frequently used to refer to a device in which a movable device is connected to a fixed device, and a junction device is the term used for a connection between two movable or fixed devices.
The electrical connection or junction devices described above are often also called tension spring clamps due to the nature of the connection principle. The essential components of these kinds of electrical clamps are the tension springs, which are loop-shaped clamp springs, and of which a wide variety of different configurations and designs are known. In this context, the following patents are cited, for example: DE 196 26 390 C2, DE 197 11 051 A1, DE 197 15 971 C1, DE 198 05 903 C1, or DE 198 10 310 C1. Consequently, all configurations of loop-shaped clamp springs that are known from the prior art, particularly from the patents cited above, fall under the generic term “tension spring”.
Over the course of time, tension spring clamps have become established on the market alongside screw clamps, and more recently also alongside electrical clamps with strip-and-connect technology, and which are used in the millions, particularly as series clamps. The advantage of tension spring clamps over screw clamps lies in the fact that tension spring clamps allow wiring to be done more quickly and more easily. In order to actuate the tension spring clamp, all that is needed is an actuating tool, for example a screwdriver, which is pressed into the actuating channel to open the clamp. The blade of the screwdriver biases the tension spring, so that a clamping point opens. A conductor to be connected can then be inserted through the cutaway into the clamp arm, and when the screwdriver is withdrawn the conductor is then clamped by the underside of the cutaway against the bearing arm of the tension spring or a busbar connected to the tension spring. Tension spring clamps are known in a wide range of configurations, particularly as series clamps, and are usually locked onto a hat-shaped bearing rail.
As switching cabinets, whose main purpose is to accommodate the tension spring clamps and other electrical clamps in common use have shrunk in size, so do the tension spring clamps have to also become smaller. Many suggestions have already been made for reducing the surface area of the electrical clamp or for providing the largest possible number of connection possibilities on the smallest possible surface area.
For example, a tiered clamp for electrical conductors is taught by DE 40 19 130 A1, in which multiple tension springs are disposed one above the other, and which may be opened individually using an actuating tool that is inserted into the connection clamp from above. Additionally, two-tier tension spring clamps or three-tier tension spring clamps are known in which the individual tension springs are disposed in a stepped arrangement.
SUMMARY OF THE INVENTION
Accordingly, an object of the present invention is to provide an electrical connection or junction device and to provide an arrangement including at least two tension springs that allow a further reduction in size, but which may still be manufactured simply and thus as inexpensively as possible.
The object underlying the present invention is solved by the electrical connection or junction device due to the fact that two tension springs are arranged at an angle of approximately 180 degrees with respect to one another, so that the spines of the two bearing arms of the tension springs are facing one another, and the clamping arms of the two tension springs overlap each other, and the cutaways in the clamping arms at least partially cover each other when the tension springs are opened. Thus, the fact that the two tension springs are arranged at an angle of 180° to one another means that the two tension springs are in a mirroring arrangement with respect to each other. The effect of the arrangement of the two bearing arms with their spines facing one another is that the tension springs are also offset by 180° with respect to the known arrangements.
The electrical connection or junction device according to the present invention thus has at least one “dual connection”, which is created from the two “cooperating” tension springs. Because the clamping arms of the two tension springs overlap and the cutaways at least partially cover each other when the tension springs are opened, not only the conductor to be contacted through the tension spring in question, but also the conductor to be contacted through the other tension, are advanced through the two cutaways of the tension springs. The first electrical conductor is clamped by the first tension spring against the upper side of the bearing arm of the second tension spring. Thus, an electrical connection or junction device configured in this way establishes an electrical connection between two conductors inserted into the two tension springs.
According to a first embodiment of the present invention, the electrical connection or junction device is furnished with at least one bearing rail, which is conductively connected to the tension springs. The provision of a bearing rail of such kind represents a simple method to create a junction clamp that connects one or more inputs with one or more outputs. If the electrical connection orjunction device is furmished with the “dual connection” created by the tension springs according to the present invention, both at the input side and at the output side, a highly compact four-wire tension spring clamp may be produced. Of course it is also possible to provide more than one “dual connection”, both at the input side and the output side of the tension spring clamp, and the number of “dual connections” may be different on the two sides.
If the electrical connection or junction device according to the present invention is furnished with a bearing rail, there are a number of possible ways to connect this bearing rail conductively to the tension springs. According to a first and particularly easily realized variant, the bearing rail is disposed between the two bearing arms of the two tension springs. This means that the bearing rail may only be advanced between the two bearing arms of the two tension springs and may only contact the bearing arms through the elastic force of the two tension springs. In this variant, the tension springs are then secured in the insulation housing while the position of the bearing rail is secured in position by the two tension springs. Alternatively or additionally, however, the bearing rail may also be conn

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