Safety contact rail including a freely moving contact...

Movable or removable closures – Safety means responsive to obstruction to closure – Sensing shoe on leading edge

Reexamination Certificate

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Details

C049S028000

Reexamination Certificate

active

06568130

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates to a safety contact rail, particularly for movable units such as movable closing mechanisms.
From DE 33 04 400 C3, a safety contact rail is known for power-actuated units, such as roller gates, roller grills, etc., with a hollow elastic profile mounted on the movable portion of the unit, which hollow elastic profile is formed as a single-chamber profile. Inside the hollow elastic profile, an edge-like rib is provided that is formed in one piece with the hollow elastic profile and is also produced of rubber. The surface of the edge-like rib is formed as an electrically-conductive contact surface, where the edge-like rib is also provided with an electrically-conductive contact surface on the inside of the hollow elastic profile so that in the case of deformation of the safety contact rail, as occurs, for example, upon encountering an obstacle in the closing area of a gate, the hollow elastic profile is deformed and, with its conductive contact surface applied to the inside, is brought into contact with the conductive contact surface of the edge-like rib. A circuit is thus completed and a signal for controlling the drive mechanism is emitted so that, for example, the closing motion of the gate is stopped when it encounters an obstacle.
SUMMARY OF THE INVENTION
This invention relates to a safety contact rail as well as a closing mechanism that are suitable for a broad range of applications. In particular, a safety contact rail is proposed together with a closing mechanism with which the response can be adjusted in accordance with current requirements.
The safety contact rail for a movable unit, such as a movable closing mechanism pursuant to the invention, has a hollow profile with a deformable section, preferably made of an elastic material, which can be applied, for example, to a roller gate or roller grille. The hollow profile here also can run along the entire closing edge of the closing mechanism. However, it is also possible to provide a hollow profile at only certain locations along the closing edge. On the inside of the hollow profile, at least one electrically-conductive area is provided that can be produced, for example, by coating the elastic material with conductive materials, such as graphite. It is also possible to apply or connect conductive elements, such as thin metal strips, on the corresponding surface.
In the hollow profile, there is at least one freely-movable contact element that is preferably formed without a positive lock with the hollow profile. Here, the contact element in its resting state is in contact with a surface area on the inside of the hollow profile and preferably has a conductive area on its surface that, upon deformation of the hollow profile due to external forces such as an obstacle impeding a closing motion, can be brought into contact with the electrically-conductive area on the inside of the hollow profile to close a circuit and thus transmit control signals, for example, to the drive of the closing mechanism. The deformation of the elastic area of the hollow profile leads to a reduction in the internal space, whereby the internal contact element is pressed against a conductive surface upon sufficient deformation of the hollow profile, in order to close, for example, an electric contact.
The contact element, lying in a freely movable manner inside the hollow profile, can, for example, be thrust easily laterally or removed again with a safety contact rail running along the entire closing edge, whereby the desired response of the safety contact rail can be achieved by use of contact elements of different sizes or shapes. If for example round contact elements are used, a contact element with a large diameter comes into contact with the respective conductive area of the contact element and the hollow profile upon only a slight deformation, increasing the responsiveness. Contact elements with relatively small diameters, in contrast to this, first come into contact with the conductive area inside the hollow profile only after a greater deformation of the hollow profile so that the responsiveness is reduced.
Making the entire surface of the contact element conductive is preferred; in this manner, a conductive area always points toward a likewise conductive area of the hollow profile upon rotation or displacement of the contact element inside the hollow profile, so that both conductive areas come into contact upon deformation of the hollow profile in order to create an electric contact.
The inside of the hollow profile is advantageously provided on its top (in the installed position) side with a conductive area so that the contact area coming into contact, due to gravity, with the bottom inside of the hollow profile does not come into contact with the conductive area due to a lateral motion, but rather only due to a force working in the direction opposite to that of the closing, which leads to a deformation of the hollow profile in the direction of its top side. However, it is also possible to create other areas, for example, lateral areas inside the hollow profile that are conductive, to achieve the desired response, for example, also in the case of lateral or oblique deformations.
The contact element is preferably approximately round so that the rotation of the contact element has no effect on the response of the safety contact rail. Other forms, however, can also be selected for the contact element, such as a triangular or polygonal cross-section, or a star, to achieve desired responses. Furthermore, it is possible to create the contact element along the safety contact rail in different shapes, in order to achieve greater responsiveness, for instance, in the middle of a roller gate than at the edges.
The contact element can be formed as a hollow profile, e.g., in the form of a tube. It is also possible to form the contact element as a solid without a hollow profile, e.g., as a rod element.
The diameter of the contact element or the maximum distance in cross-section between two points lying on the circumference of the contact element is advantageously in the range of 0.1 to 0.9 times the minimum interior diameter of the hollow profile. Here, the responsiveness of the safety contact rail can be varied by adjusting the degree of deformation necessary before a conductive area of the contact element contacts a conductive area of the inside of the hollow profile as a result of the size of the contact element. Here, the fact that the absolute size of the contact element or hollow profile plays an important role in the response of the safety contact rail, and is preferably in the range of a few mm to cm, must be taken into account.
Making the hollow profile and/or the contact element out of rubber is advantageous. However, it is not necessary to make the entire hollow profile of elastic material or rubber. It is possible to make only the area of the hollow profile on the bottom (in the installed state) of the area guiding, for example, a roller gate, of elastic material so that it can be deformed by an obstacle. The remainder of the hollow profile can, for example, be made of plastic or metal. The contact element can also be made completely of rubber. As an alternative, it is also possible to use a metal rod or metal tube or another object with at least one electrically-conductive surface area as the contact element.
Advantageously, a weight element can be integrated to cause an asymmetric weight distribution in the contact element, to establish a certain defined rest position for the contact element with the help of gravity. For instance, a contact element made completely of rubber can have an inserted metal rod in its outer area that, with a suitably shaped contact element, can ensure that the area provided with the metal rod is at the bottom, due to gravity, so that, for example, a peg projecting from the contact element points upward in the rest position.
Providing both the contact element and the hollow profile with a connection for an electric line is particularly preferred, so that, for exampl

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