EP2093365A2 - Connecting block - Google Patents

Abstract

The edge (10) has a hollow section (12) that is elastically flexible during force application on an outer side. A hollow chamber (34) is flexibly compressible and extendable over its entire length. The hollow chamber has two contact walls contacting with each other during compression of the hollow chamber and electrically opposing the direction of the force application. The hollow section exhibits a reduced rigidity at ends of the safety edge within an area, which lies behind the hollow chamber with the contact walls in the direction of the force application.

Description

The invention relates to a switching strip with an elastically yielding at an introduction of force hollow profile with a extending over its entire length, elastically compressible hollow chamber, the at least two mutually opposite in the direction of force introduction, electrically conductive and compressible in a compression of the hollow chamber contact walls having.

Known switching strips have at the respective ends of the actual switching strip profile, which carries the contact walls, provided on end pieces, which prevent compression of the switching strip profile in the region of this tail. In the immediate end region, the hollow chamber with the contact walls can therefore not be compressed and thus no switching release can be achieved. This is particularly disadvantageous when the safety edges are used for example in subway sliding doors. Even in the lowest end of a secure release must be guaranteed, for example, then when a shoe or a frame part of a pushchair is trapped in this lowermost area.

From the German patent DE 196 32 592 is known a safety edge, which may be provided for example as anti-trap for sunroofs on motor vehicles. An elastic hollow profile of this switching strip is triangular cut out at the respective ends over its entire width, with the triangular recess widens to the respective end. A hollow chamber lies in the direction of the introduction of force behind the triangular recess. With the triangular-shaped recess, it is to be achieved that forces introduced in the region of the respective end are diverted obliquely in the direction of the center of the switching strip, in order thereby to achieve reliable triggering of the switching strip. The triangular recess of the hollow profile deteriorates the sealing effect of the safety edge in such applications.

With the invention, a safety edge is to be provided, which ensures safe release even with a compression in the immediate end.

According to the invention, a switching strip is provided with a hollow profile elastically yielding on its outer side with an elastically compressible hollow chamber extending over its entire length, the at least two electrically conductive contact walls which are in contact with each other in the direction of force introduction and contact walls which can be contacted with each other during compression of the hollow chamber has, provided, in which the hollow profile has at least one end of the switching strip in a region which lies in the direction of the introduction of force behind the hollow chamber with the contact walls, a reduced rigidity.

By providing a reduced rigidity at one end of the safety edge, the hollow profile can be compressed more easily in the immediate end region. This results in a stronger deformation and thus a safer release under load at the end. By the reduced stiffness is provided in an area behind the hollow chamber with the contact walls, when looking at the switching strip from the front side so below the serving as a switching element hollow chamber, the actually inactive end of the hollow chamber, which is indeed provided with a rigid end piece, strong bent in the direction of the introduction of force. As a result, no deformation is achieved in the area of the end piece, but in a region remote from the end piece, which does not necessarily have to be touched by the object to be detected. The reduction of the stiffness in the direction of the force introduction behind the hollow chamber designed as a switching element therefore makes it possible to detect the compression of the end of the hollow profile in a region spaced from the end. The trained as a switching element hollow chamber is spoken simplistic spoken about a pivot point which is remote from the end of the hollow chamber. In the region of this pivot point and also between the pivot point and the end piece of the hollow chamber, the hollow chamber deforms strongly and the contact walls touch each other, so that a switching signal can be triggered. The reduction of the rigidity in a region which lies in the direction of the introduction of force behind the hollow chamber with the contact walls, also allows an arrangement of the hollow chamber formed as a switching element in a front region viewed in the direction of the introduction of force. Even small deformations of the hollow profile thereby lead to a deformation of the hollow chamber and there is no so-called dead path to be feared, that therefore the hollow profile must first be compressed a bit until a deformation of the hollow chamber designed as a switching element is to be expected.

In a further development of the invention, the hollow profile at the at least one end wall sections with recesses.

By providing recesses in wall sections, the stiffness of the hollow profile can be reduced locally in a simple manner.

In a further development of the invention, a wall section extending in the longitudinal direction of the hollow profile is provided with a particularly triangular recess at the at least one end. The recess expands advantageously towards the end of the hollow profile.

The provision of a recess makes it possible to define an edge around which then formed as a switching element hollow chamber can be bent. The provision of a triangular-shaped recess on a wall section running in the longitudinal direction of the hollow profile makes it possible to reduce the stiffness of the hollow profile towards the end while at the same time making room for a clear deformation of the hollow profile. This is because the triangular-shaped recess with its tip defines the region of a pivot point or a rotational edge on which the hollow chamber formed as a switching element is bent. This range can be chosen so that it is far enough away from a stiffening end of the hollow chamber, so that a reliable switching triggering can be achieved even with deformation of the hollow profile at the immediate end.

In a further development of the invention, the wall section is an inner reinforcing rib.

In this way, the desired reduction in rigidity can be achieved without a sealing effect being impaired in the relaxed state of the hollow profile. This is especially true when using the switching strip according to the invention as a sealing profile on doors of considerable importance, for example, to subway sliding doors.

In a further development of the invention, the hollow chamber is provided with the contact walls in a separate switching strip profile, which is fed into the hollow profile.

In this way, for example, fire protection regulations for public transport can be met by the elastic hollow section is made of fire-retardant material. The safety edge profile itself can not be made of fire-retardant material for technical reasons, so there are electrically conductive extruded areas provide. The contact strip profile then represents only a small percentage of the entire safety edge and does not lead to a significant deterioration of the fire retardant properties of the entire safety edge.

Fig. 1

eine abschnittsweise perspektivische Vorderansicht einer erfindungsgemäßen Schaltleiste gemäß einer ersten Ausführungsform,

Fig. 2

eine schematische Darstellung der Schaltleiste der Fig. 1 während der Verformung und

Fig. 3

eine teilweise geschnittene perspektivische Ansicht einer Schaltleiste gemäß einer weiteren Ausführungsform der Erfindung.

Further features and advantages of the invention will become apparent from the claims and the following description of preferred embodiments of the invention in conjunction with the drawings. Individual features of the different embodiments shown can be combined in any way with one another without exceeding the scope of the invention. In the drawings show:

Fig. 1

3 is a partial perspective front view of a switching strip according to the invention according to a first embodiment,

Fig. 2

a schematic representation of the safety edge of Fig. 1 during deformation and

Fig. 3

a partially cutaway perspective view of a safety edge according to another embodiment of the invention.

The presentation of the Fig. 1 shows sections of a switching strip 10 according to the invention, which has an elastic hollow profile 12 and a retracted into the hollow profile 12 switching strip profile 14. The safety edge profile 14 is only partially visible, but essentially consists of an elastic tube which defines a compressible hollow chamber having two opposite, electrically conductive contact walls. The contact walls face each other in the direction of a force introduction, which in the representation of Fig. 1 indicated by an arrow 16. In the presentation of the Fig. 1 Thus, a first contact wall in the switching strip profile 14 is above, a second contact wall opposite the first contact wall below. When a force is introduced in the direction of arrow 16 thus the hollow section 12 is compressed and also the hollow chamber of the switching strip profile 14 is compressed. As a result, the two electrically conductive contact walls come into contact with each other, this contact can be detected and used to output a switching signal.

The two contact walls of the switching strip profile 14 are in the area of, in Fig. 1 visible, end connected by means of a resistive element. In order to attach and fasten this resistance element, an end cap is placed on the end of the contact strip profile 14, which is then vulcanized, for example. However, the provision of such an end cap leads to a stiffening of the switching strip profile 14 in the region of the immediate end and, in particular, the two opposing contact walls in the immediate end region of the switching strip profile 14 no longer come into contact with each other.

In order nevertheless to ensure a reliable detection at a force introduction in the region of the immediate end of the hollow profile 12, a longitudinally extending stiffening rib 18 of the hollow profile 12 in the region of the front end of the hollow section 12 is provided with a triangular recess 20 extending to the end of the hollow profile 12 extended. In this case, the recess 20 forms approximately a right-angled triangle, wherein a hypotenuse of this right-angled triangle forms a cut surface 22 of the reinforcing rib 18, which runs obliquely to the longitudinal direction. The cut surface 22 thus extends obliquely downward in the direction of the end of the hollow profile 12 and away from the switching strip profile 14. In the region of the triangular-shaped recess 20, a stiffness of the hollow profile 12 in one direction of the force introduction 16 is thus reduced, and with a force introduction in the region of the end, the switching strip profile 14 together with the upper region of the hollow profile 12 will deform approximately so that it is around an edge , which forms the tip of the triangular recess 20 and which bears against the underside of a horizontal transverse wall 24 of the hollow profile 12, is bent. As a result, the switching strip profile 14 is strongly compressed approximately in the region of this pivot point or turning edge, but in any case in a region between the pivot point and the end of the switching strip profile 14, so that the electrically conductive contact walls come into contact with each other and a switching signal can be generated.

The deformation of the switching strip profile 14 and the hollow section 12 at the application of force directly at the end of the hollow section 12 is shown schematically in the Fig. 2 shown. The Fig. 2 shows a calculation model of the hollow section 12, which was constructed by means of the finite element method. Good to see is an end cap 26 of the switching strip profile 14 and an upper electrically conductive contact wall 28 and an opposite electrically conductive contact wall 30 of the switching strip profile 14th

The hollow section 12 is by means of a test piece 32 which has been moved in the direction of the arrow 16 to the hollow profile, in the region of its free end, in the Fig. 2 right, deformed. The test piece 32 causes the horizontal transverse wall 24 of the hollow profile 12 and the hollow chamber 34, in which the switching strip profile 14 is received, are bent about a pivot point 36, which by the voltage applied to the underside of the horizontal transverse wall 24 tip of the triangular recess 20 is defined. Since, of course, there is no hinge or the like at the fulcrum 36, but the hollow profile 12 made of elastic material elastically deforms, the assumption of the fulcrum 36 is only to be understood as generalizing and explanatory. However, it can be seen that the reduced rigidity of the hollow profile 12, caused by the recess 20, at its end and in a region below the switching strip profile 14 leads to a significant deformation of the switching strip profile 14 in the region between the pivot point 36 and the end cap 26. Specifically, the deformation of the switching strip profile 14 causes the two opposing contact walls 28, 30 to touch each other in a region 38. This area 38 is how Fig. 2 can be seen, not below the specimen 32, but in contrast to the center of the hollow section 12, in the illustration of Fig. 2 So to the left, offset. The region of reduced stiffness of the hollow profile 12 below the switching strip profile 14 thus results in that compressing the hollow profile 12 in the region of its end leads to a deformation of the switching strip profile 14 in a region spaced therefrom, wherein this deformation can then be detected.

The presentation of the Fig. 3 shows a sectional view of a switching strip 40 according to another embodiment of the invention. A hollow profile 42 of the switching strip 40 has approximately the same cross-section as the hollow section 12 of Fig. 1 on, a triangular recess 44 in However, a longitudinal rib 46 of the hollow profile 42 also includes a horizontally extending transverse wall 48 of the hollow profile 42, which forms a lower boundary of a hollow chamber 50, in which the switching strip profile 14 is received. Upon compression of the hollow profile 42 in the region of its end, the switching strip profile 14 will thus turn around an edge 52 which is marked by the tip of the triangular recess 44 which extends to the underside of the switching strip profile 14.

Good to see in the presentation of Fig. 3 an end cap 54 of the switching strip profile 14, and a resistor 56 which connects the two opposite and electrically conductive contact walls 58, 60 in the region of the end of the switching strip profile 14 with each other. In the illustrated, not deflected state, the two contact walls 58, 60 separated by a gap 62 from each other. When the contact strip profile 14 turns around the edge 52, the contact walls 58, 60 then come into contact with each other and a switching signal can be output. In the Fig. 3 open end of the hollow section 42 is sealed before use as a sealing profile with a thin end cap or vulcanized thin end plate, which prevent the ingress of dirt, but not significantly affect the rigidity of the end of the hollow profile.

Claims (6)

Safety edge with an elastically yielding at an introduction of force on its outside hollow profile with extending over its entire length, elastically compressible hollow chamber having at least two mutually opposite in the direction of force introduction, electrically conductive and compressible in a compression of the hollow chamber contact walls, characterized in that the hollow profile (12; 42) has a reduced rigidity at at least one end of the switching strip (10; 40) in a region which lies behind the hollow chamber with the contact walls (58, 60) in the direction of the introduction of force. A safety edge according to claim 1, characterized in that the hollow profile (12, 42) has wall sections with recesses (20, 44) at the at least one end. A switching strip according to claim 2, characterized in that at the at least one end, a wall section extending in the longitudinal direction of the hollow profile (12; 42) is provided with a recess (20; 44). A switching strip according to claim 3, characterized in that the recess (20; 44) is triangular and widened towards the end of the hollow profile (12; 42). A safety edge according to claim 3 or 4, characterized in that the wall portion is an inner reinforcing rib (18; 46). A switching strip according to at least one of the preceding claims, characterized in that the hollow chamber with the contact walls (58, 60) is provided in a separate switching strip profile (14), which is retracted into the hollow profile (12;

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