Contact element for axial contacting

Electrical connectors – With insulation other than conductor sheath – Plural-contact coupling part

Reexamination Certificate

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Details

C439S582000

Reexamination Certificate

active

06719592

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a device for contacting an electrically operated apparatus having at least one terminal contact on the apparatus and one plug that can be connected to it axially, with the plug including a sleeve contact.
BACKGROUND INFORMATION
Electrically operated apparatuses, e.g., hydraulic actuators such as solenoid valves and pressure regulators, must frequently be installed with a directional orientation in further processing, so that the electric contacts are located in a defined position. This is necessary, for example, when an arrangement of actuators is to be contacted jointly and electrically in one operation. For example, if the terminal contacts of the actuator are arranged laterally to its longitudinal axis, the position of the actuator must usually be changed, so that the terminal contacts can be connected to a suitable plug. The respective precise orientation of the actuators is an additional operation that is to be avoided. In addition, lateral contacting of the actuator leads to the result that tolerances in its longitudinal direction can hardly be compensated because, with radial contacting, displacement in the direction of the longitudinal axis is possible only to a limited extent because the contact area of the internal contact is usually limited. In radial contacting, the direction of joining of the actuator and of the plug contact are not identical, so two assembly directions are necessary when assembling the actuator on a carrier and when assembling the plug on the apparatus, so the assembly operation must necessarily be sequential.
SUMMARY OF THE INVENTION
Therefore, an object of the present invention is to provide a device for contacting an electrically operated apparatus, so that the contacting can be accomplished with less orientation complexity, and tolerances in the longitudinal direction of the apparatus can be compensated easily. On the other hand, another object of the present invention is to permit simultaneous assembly of the apparatus and the plug.
According to the present invention, the terminal contact is oriented parallel to an installation direction of the apparatus, and the sleeve contact can be connected to the terminal contact parallel to the installation direction.
It has been found according to the present invention that assembly of one or more apparatuses on a carrier and connecting the respective plugs to the apparatuses can be accomplished simultaneously by axial contacting. If the plugging direction of the plugs corresponds to the installation direction of the apparatuses, only a precise radial orientation of the plugs is necessary, and thus axial compensation of tolerance is possible in the installation direction of the apparatuses due to the fact that the plugs need not be pushed onto the terminal contacts as far as the stop. Then contacting with a punched grid, for example, can take place simultaneously with assembly of an actuator. At the manufacturing plant, one direction of assembly may be eliminated through the axial assembly of the plugs, thereby reducing the expense in terms of workpiece carriers and devices.
In an especially advantageous embodiment of the present invention, the plug has two sleeve contacts, arranged concentrically in particular, which can be connected to two concentric terminal contacts of the apparatus. The electrically operated apparatus has two terminal contacts, preferably in a concentric arrangement, on the rear side, i.e., the side opposite the installation direction. The terminal contacts may be provided, for example, by two bushings arranged concentrically one inside the other. However, the contact on the inside may also be designed as a solid cylindrical contact, e.g., as a contact pin. Then the sleeve contacts of the plug are arranged concentrically one inside the other and fit together with the terminal contacts. The inside diameter of the sleeve contacts at the end is preferably such that they can be connected conveniently; for example, the front ends of the sleeves may be adapted to one another or may diverge conically.
The sleeve contacts are preferably each in contact with the concentric terminal contacts on the outside circumference when joined together. This results in an especially large contact area between the terminal contacts of the apparatus and the sleeve contacts.
In an especially advantageous embodiment of the present invention, the terminal contacts are two contact faces bent into a cylindrical shape in particular and provided on the end of an apparatus casing. These contact faces have different diameters and are arranged accordingly, so that an insulation bushing can optionally be inserted between the coaxial terminal contacts, and the two sleeve contacts of the plug can be inserted without causing a short circuit between the sleeve contacts and the terminal contacts.
Insulation is preferably arranged between the terminal contacts. The insulation is made of plastic and in one case it is an insulation sleeve. However, the insulation may also be applied as a nonconducting layer directly to the terminal contacts or the sleeve contacts. Different insulation materials may also be used with regard to a contacting force, in order to make it difficult to pull the contacts apart, for example.
In another preferred embodiment, in the assembled state the back wall of the plug also forms an insulation which acts together with the insulation between the terminal contact to form two contact chambers insulated from one another. This yields protection against metal chips at the contact point in an especially advantageous manner. The two poles of the contact are completely covered with respect to one another by the back plastic wall of the plug. No short circuit can develop due to a long sliver. In addition, insulation on the outside may also completely cover the contact in the manner of a casing. The internal terminal contact with the adjacent internal sleeve contact is then separated by the insulation sleeve from the outer terminal contact with the adjacent outer sleeve contact. However, the outer end of the insulation sleeve is also in contact with the insulated back wall of the plug, so that the internal terminal contact is encapsulated. Only the connecting conductor leads radially out of the insulated area.
The printed conductor of the interior sleeve contact is preferably passed through a recess in the exterior sleeve contact. The sleeve contacts may be designed as cylindrical segments. A section of the essentially cylindrical segment remains free, with the printed conductor of the internal sleeve contact passing through this section and the sleeve contact on the outside.
Instead of a cylindrical or segmented cylindrical cross section, the sleeve contact may also have a polygonal cross section. The advantage of this cross section is that the plug can then no longer be rotated about its longitudinal axis or the installation direction with respect to the terminal contacts. This rotating may of course also be prevented in a traditional manner by a small lug which engages in a groove.
The sleeve contacts preferably have a diameter that allows a defined contacting force. The sleeve contacts may have inclined insertion guides to permit easy positioning of the terminal contacts.
The plugs are preferably connected to punched grid conductors. The sleeve contact and the corresponding punched grid conductor may be designed in one piece. The end of the punched grid conductor is designed to be somewhat wider than the punched grid conductor, and it may be bent to form the segmented cylindrical sleeve contact by bending or folding. This eliminates the need for an additional solder connection to connect the plug to the punched grid conductor.


REFERENCES:
patent: 5569049 (1996-10-01), Tatebe et al.
patent: 5759069 (1998-06-01), Kitatani et al.
patent: 5772470 (1998-06-01), Togashi
patent: 5971810 (1999-10-01), Taylor
patent: 6036540 (2000-03-01), Beloritsky

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