DE102017223660A1 - Profile for a safety edge - Google Patents

Abstract

The invention relates to a profile for a switching strip, wherein the profile consists of rubber-elastic material, wherein the profile has a fastening side for fixing the profile and a detection side, wherein in operation of a switching strip in the region of the detection side of the profile, a force attack occurs by objects to be detected, wherein the profile has at least one switching chamber, wherein the switching chamber has at least one in the longitudinal direction of the profile continuous cavity, at least two continuous in the longitudinal direction of the profile and adjacent to the cavity electrical conductor and a cavity and the conductors in the radial direction surrounding switching chamber wall, said Switching chamber wall is connected on its, seen from the cavity outer side outside with at least one continuous in the longitudinal direction of the profile holding web, wherein the at least one holding web exclusively in one of the detection side facing the Au ßenseite the switching chamber wall is connected to the outside of the switching chamber wall.

Description

The invention relates to a profile for a switching strip, wherein the profile consists of rubber-elastic material, wherein the profile has a fastening side for fastening the profile and a detection side, wherein in the operation of a safety edge in the region of the detection side of the profile, a force attack occurs by objects to be detected and wherein the profile has at least one switching chamber, wherein the switching chamber has at least one in the longitudinal direction of the profile continuous cavity, at least two continuous in the longitudinal direction of the profile and adjacent to the cavity electrical conductor and a cavity and the conductors in the radial direction surrounding switching chamber wall, said Switching chamber wall on its, seen from the cavity outer side outside is connected to at least one continuous in the longitudinal direction of the profile holding web.

In profiles for safety edges, the contacting of the electrical conductors in the cavity can be labor-intensive, since, in order to ensure a secure contact, the switching chamber must be covered in an annular manner. This requires the cutting away of holding webs that carry the switching chamber. In addition, the switching chamber can not move in oblique action on the profile in borderline cases according to the introduction of force. This can lead to a delayed release of the safety edge.

With the invention, a profile for a switching strip with respect to the contact and the tripping behavior to be improved.

According to the invention a profile for a switching strip is provided, wherein the profile consists of rubber-elastic material, wherein the profile has a mounting side for attachment of the profile and a detection side, wherein during operation of a safety edge in the region of the detection side of the profile, a force attack occurs by objects to be detected wherein the profile has at least one switching chamber, wherein the switching chamber has at least one in the longitudinal direction of the profile continuous cavity, at least two continuous in the longitudinal direction of the profile and adjacent to the cavity electrical conductor and a cavity and the conductors in the radial direction surrounding switching chamber wall the switching chamber wall is connected on its outside seen from the cavity outer side with at least one continuous in the longitudinal direction of the profile holding web, wherein the at least one holding web facing exclusively in one of the detection side En portion of the outside of the switching chamber wall is connected to the outside of the switching chamber wall.

The switching chamber depends thereby freely in the interior of the profile and is held only from the top of the outer wall of the profile. The electrical conductors in the switching chamber are thus easy to contact, since on the underside of the switching chamber, so the side of the switching chamber, which faces the mounting side of the profile, no webs must be cut away. The switching chamber can also move freely in the direction of an abutment in the interior of the profile, since the movement of the switching chamber is not limited by retaining webs that engage the underside of the profile. Even with oblique force is characterized by the profile according to the invention thereby a very secure contacting of the electrical conductors and thereby a very safe switching signal triggering possible.

In a further development of the invention, two retaining webs are provided, wherein a distance between the two retaining webs increases in a direction away from the outside of the switching chamber wall.

In this way, a V-like arrangement of the two holding webs is achieved. A greater distance between the two holding webs is then on the inside of the outer wall of the profile, so that even with oblique force application a safe power transmission to the switching chamber is possible. In each case one of the V-shaped retaining webs then runs at an oblique application of force approximately parallel to the introduced force. The small distance between the two holding webs to each other on the outside of the switching chamber wall allows a concentrated in a relatively small spatial area force into the switching chamber and especially a force introduction, which is concentrated approximately in the region of an upper electrical conductor in the cavity of the switching chamber.

In a development of the invention, the area of the outside of the switching chamber wall facing the detection side, in which the at least one holding web is connected to the outside of the switching chamber wall, covers an angle range (a) of at most 90 ° on the outside of the switching chamber wall.

In this way, a spatial concentration of the introduction of force into the switching chamber to the area of one of the electrical conductors is possible. The outer wall of the switching chamber is thereby stiffened by the connection of the holding webs in a relatively small area. The holding webs preferably point to the middle of the switching chamber. Preferably, the holding webs engage on the outer wall of the switching chamber above the upper electrical conductor. If based on a central longitudinal axis of the switching chamber, the outer wall of the round switching chamber over an angular range of 360 ° extends, the holding webs preferably engage in a region of the outer wall of the switching chamber, which extends from the median plane of the profile on the upper side of the switching chamber by a maximum of 45 ° to the left and right. It is stiffened by the holding webs, which act on the upper side of the switching chamber, ie a maximum angular range of 90 ° on the upper side of the switching chamber, which faces the detection side of the profile stiffened. The lateral areas of the outer wall of the switching chamber can then be made very flexible, so that only a very small force has to be introduced into the switching chamber in order to bring the two electrical conductors in contact with each other.

In a further development of the invention, a counter-holding surface is provided between the switching chamber and the bottom side of the profile, wherein a distance between the counter-holding surface and the counter-holding surface facing the outer wall of the switching chamber over an angular range of at least 45 °, in particular 90 °, is substantially constant.

A deformation path which the freely suspended switching chamber has to cover in the interior of the profile until the underside of the outer wall of the switching chamber contacts the counter-holding surface can thereby be kept constant over a comparatively large angular range of the force introduction. A dead path or a dead time, until after touching an obstacle with the outer wall of the profile of the switching strip a switching signal is delivered, it can be kept low on the one hand and on the other hand over a relatively large angle of introduction of force.

In a development of the invention, the region of the outside of the switching chamber facing the counter-holding surface is circular-segment-shaped in cross-section.

In a further development of the invention, the counter-holding surface in cross-section is circular-segment-shaped and provided in its side edge regions, each with at least one longitudinally continuous projection.

A circular-segment-shaped counter-holding surface and a circular-segment-shaped outer side of the switching chamber, especially in the region facing the counter-holding surface, ensure a dead path which is constant over a large angular range of the force introduction until the outer side of the switching chamber contacts the counter-holding surface. Projections on the counter-holding surface in the side edge regions can ensure a reliable triggering of a switching signal even if the profile according to the invention impinges laterally on an obstacle, for example at an angle of more than 55 ° to the central axis of the profile. Such a projection may then for example also be provided with a coating which increases a friction between the outside of the switching chamber and the surface of the projection. This ensures that the outside of the switching chamber is stuck to the projection and does not slip laterally over the projection. As a result, a very safe triggering of a switching signal can be ensured even if the profile strikes the obstacle at an angle.

In a further development of the invention, two transversely spaced apart and longitudinally continuous projections are provided in each side edge region.

Two transversely spaced projections can ensure even compression of the interrupter chamber upon impact with the projections, thereby ensuring reliable triggering of the switching signal. In particular, both projections may be coated, so that a higher friction between the outer wall of the switching chamber and the projections is achieved compared to the uncoated material of the profile.

In a further development of the invention, a counter-holding surface is provided between the switching chamber and the bottom side of the profile, wherein the counter-holding surface is provided on a bridge web, which connects a left and a right side wall of the profile with each other.

By providing such a bridge web, the profile can be manufactured with different profile heights without changing the release properties of a switching strip realized with the profile. Because between the switching chamber and the counter-holding surface then constant distances can be ensured regardless of the height of the profile. Different heights of the profile are then realized by changing the distance between the bridge web and the attachment side of the profile.

In a further development of the invention, the bridge web is provided with two hollow chambers which extend in the longitudinal direction of the profile, the hollow chambers being arranged in the side edge regions of the counter-holding surface.

By means of such hollow chambers, on the one hand, the counter-holding surface is stiffened in its lateral edge regions. Even with an impact of the profile on an obstacle in obliquely lateral direction thereby reliable compression of the switching chamber, thereby achieving a reliable triggering signal is achieved. The hollow chambers can also be used to insert a terminator be done by a simple and secure electrical contacting of the two electrical conductors and in particular may be provided with a terminating resistor.

In a further development of the invention, a counter-holding surface between the switching chamber and the bottom side of the profile and / or a region of the outer wall of the switching chamber facing the counter-holding surface are at least partially made of a further elastomeric material to reduce friction or increase the friction when the counter-surface and outer wall of the switching chamber come into contact to effect.

By a suitable selection of the material for the counter-holding surface or even for portions of the counter-holding surface and for the outside of the switching chamber or only for portions of the outer wall of the switching chamber, the friction between the counter-holding surface and the outer wall of the switching chamber can be adjusted so that for a predetermined application and in particular an expected angle of incidence on an obstacle safe switching signal tripping can be achieved. Preferably, a further, in particular soft, rubber-elastic material with a higher coefficient of friction is selected for the projections on the counter-holding surface in order to purposefully increase the friction of the outer wall of the switching chamber at these projections. In this case, the profile according to the invention can be made of four different rubber-elastic materials which are co-extruded, namely a first, comparatively stiff material for the bottom side of the profile including the bridging web with the counter-holding surface, a second material for the protrusions on the counter-holding surface with a high one Friction coefficient, a third, relatively soft material for the detection side of the profile and the switching chamber and a fourth material for the electrical conductors in the switching chamber. A comparable effect of the increase in friction can also be achieved by an at least partial coating in the interior of the profile.

In a development of the invention, the switching chamber wall has at least one notch extending in the longitudinal direction.

By means of such a notch, a lighter deformation of the switching chamber wall can be achieved. Specifically, a defined deformation of the switching chamber and, above all, a deformation can be achieved with significantly less force than without a notch. For example, the lateral areas of the switching chamber wall may be provided on its inside or outside with such notches, ie in the areas of the switching chamber wall which connect the sections with the electrical conductors. A force required for compressing the switching chamber can thereby be significantly reduced and a switching signal triggering can be achieved with significantly less force.

In a further development of the invention, an outer wall of the profile has at least one notch extending in the longitudinal direction.

The outer wall of the profile can be selectively weakened by notches, on the one hand to achieve a lower deformation force and on the other hand, a more or less defined deformation of the outer wall of the profile.

• 1 eine abschnittsweise Ansicht eines erfindungsgemäßen Profils gemäß einer ersten Ausführungsform,
• 2 eine abschnittsweise Ansicht eines erfindungsgemäßen Profils gemäß einer zweiten Ausführungsform,
• 3 eine Vorderansicht eines Profils gemäß einer weiteren erfindungsgemäßen Ausführungsform,
• 4 eine Vorderansicht eines Profils gemäß einer weiteren erfindungsgemäßen Ausführungsform,
• 5 eine Vorderansicht eines Profils gemäß einer weiteren erfindungsgemäßen Ausführungsform,
• 6 eine Vorderansicht eines Profils gemäß einer weiteren erfindungsgemäßen Ausführungsform,
• 7 eine Vorderansicht eines Profils gemäß einer weiteren erfindungsgemäßen Ausführungsform,
• 8 eine Vorderansicht eines Profils gemäß einer weiteren erfindungsgemäßen Ausführungsform,
• 9 eine Vorderansicht eines Profils gemäß 1,
• 10 das Profil der 9 in einem ersten belasteten Zustand,
• 11 das Profil der 9 in einem zweiten belasteten Zustand,
• 12 eine Vorderansicht des Profils der 2,
• 13 das Profil der 12 in einem ersten belasteten Zustand,
• 14 das Profil der 12 in einem zweiten belasteten Zustand,
• 15 eine Vorderansicht eines erfindungsgemäßen Profils gemäß einer weiteren Ausführungsform,
• 16 das Profil der 15 im belasteten Zustand,
• 17 das Profil der 1 in einer Vorderansicht,
• 18 das Profil der 17 in einem ersten, schräg belasteten Zustand,
• 19 das Profil der 1 in einem zweiten, schräg belasteten Zustand,
• 20 eine Vorderansicht des Profils der 15,
• 21 das Profil der 20 in einem schräg belasteten Zustand,
• 22 das Profil der 17,
• 23 das Profil der 22 in einem unter einem weiteren Winkel schräg belasteten Zustand,
• 24 das Profil der 20 und
• 25 das Profil der 24 in einem unter einem weiteren Winkel schräg belasteten Zustand.

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 illustrated and described in the drawings can be combined with one another in any desired manner, without exceeding the scope of the invention. This also applies to the combination of individual features without further individual features, with which they are shown or described in context. In the drawings show:

• 1 a sectional view of a profile according to the invention according to a first embodiment,
• 2 a sectional view of a profile according to the invention according to a second embodiment,
• 3 a front view of a profile according to another embodiment of the invention,
• 4 a front view of a profile according to another embodiment of the invention,
• 5 a front view of a profile according to another embodiment of the invention,
• 6 a front view of a profile according to another embodiment of the invention,
• 7 a front view of a profile according to another embodiment of the invention,
• 8th a front view of a profile according to another embodiment of the invention,
• 9 a front view of a profile according to 1 .
• 10 the profile of 9 in a first loaded condition,
• 11 the profile of 9 in a second loaded condition,
• 12 a front view of the profile of 2 .
• 13 the profile of 12 in a first loaded condition,
• 14 the profile of 12 in a second loaded condition,
• 15 a front view of a profile according to the invention according to a further embodiment,
• 16 the profile of 15 in the loaded condition,
• 17 the profile of 1 in a front view,
• 18 the profile of 17 in a first, obliquely loaded condition,
• 19 the profile of 1 in a second, obliquely loaded state,
• 20 a front view of the profile of 15 .
• 21 the profile of 20 in an obliquely loaded condition,
• 22 the profile of 17 .
• 23 the profile of 22 in an obliquely loaded state at a further angle,
• 24 the profile of 20 and
• 25 the profile of 24 in an obliquely loaded under a further angle state.

1 shows sections of an inventive profile 10 having a detection side shown above and a mounting side shown below. In the area of its detection side, there is an impact on an obstacle. In the area of the bottom side, the profile is attached. In the presentation of the 1 For example, a switching signal can be safely triggered if an obstacle within a detection range 12 on the profile 10 incident. The detection area 12 thus covers a vertical impact on an obstacle, in 1 ie vertically from above, as well as an oblique side impact up to an angle of about ± 55 ° on the profile 10 from.

The profile 10 has an outer wall 14 on having an interior of the profile 10 defined and which, cf. the 3 to 8th , extends to a mounting side of the profile. The outer wall 14 of the profile has two approximately parallel side walls, see. again the 3 to 8th , as well as an arcuate top. In the area of the arcuate upper side is the detection area 12 ,

Inside the outer wall of the profile 14 and thus in the interior of the profile 10 is a switching chamber 16 arranged, which has a circular cross-section. An outer wall 18 the switching chamber 16 defines a cavity 20 , To the cavity 20 border two electrical conductors 22 . 24 on. Inside the electrical conductor 22 is a metal strand 21 arranged and inside the electrical conductor 24 is a metal strand 23 arranged. The metal strands 21 . 23 when extruding the profile 10 in the ladder 22 . 24 brought in. The two electrical conductors 22 . 24 have facing flat contact surfaces, between which there is a gap. Will the switching chamber 16 compressed, so are the two electrical conductors 22 . 24 moving towards each other and get in touch with each other. As a result, an electrical switching signal can be triggered. The two electrical conductors 22 . 24 consist of electrically conductive material and are, as stated, each with a metal strand 23 . 24 Provided. The metal strand is then surrounded by electrically conductive, rubber-elastic material. Except for the two electrical conductors 22 . 24 is the profile 10 made of electrically insulating rubber-elastic material, wherein for different sections of the profile different materials can be used especially with different stiffness. The electrical conductors 22 . 24 along with the metal strands and also the remaining sections of the profile 10 are extruded together, leaving the profile 10 is designed as a so-called coextrudate. A floor section 6 including a bridge bridge 36 and a profile foot 7 consists of a first, relatively stiff rubber-elastic material. A detection section 8th including the switching chamber 16 consists of a second, relatively soft rubber-elastic material. A dividing line 9 between the bottom section 6 and the detection section 8th lies in the left and right side wall of the profile respectively just above the point at which the bridge bridge 36 attaches to the inside of the side walls.

The switching chamber 16 is only on its upper side by means of a first holding web 26 and a second jetty 28 with the outer wall 14 of the profile 10 connected. The two holding webs 26 . 28 are arranged V-like to each other, with a distance between the two retaining webs 26 . 28 from the switching chamber 16 away to the outer wall of the profile 14 enlarged. The two holding webs 26 . 28 grab the outer wall 18 the switching chamber 16 at the top of which, the detection side of the profile 10 is facing. The two holding webs 26 . 28 are in the illustrated embodiment at an angle of about 70 ° to each other arranged. Relative to the circumference of the outer wall 18 the switching chamber 16 are the two holding webs 26 . 28 in an area of the outer wall 18 arranged, which is also only about 70 °. In the context of the invention, the area a, in which the holding webs 26 . 28 with the outer wall 18 the switching chamber 16 are connected, extend over a maximum of 90 ° and symmetrical to the median plane 8th of the profile 10 be arranged. In this way, the switching chamber 16 also only in this area, ie approximately above the upper electrical conductor 22 , stiffened and in particular the side walls of the switching chamber 16 can be made very flexible.

On the, the retaining bars 26 . 28 opposite bottom of the switching chamber 16 , which thus faces the mounting side of the profile, hangs the switching chamber 16 free. Opposite the bottom of the switching chamber 16 is a counter-surface 30 intended. The counterhold area 30 is formed in a circular section, so that between the bottom of the outer wall 18 the switching chamber 16 and the counterhold area 30 a substantially constant distance is. However, the counterhold area 30 in their side edge areas, each with two projections 32 . 34 Provided. The two projections 32 and the two projections 34 are each arranged parallel to each other, formed in cross section circular arc-like.

The counterhold area 30 is at a top of a bridge dock 36 arranged on the two sides of the outer wall 14 of the profile 10 connects with each other. One on the counterhold area 30 acting force is thereby in the side walls of the outer wall 14 of the profile 10 introduced and then transferred to the attachment side of the profile. The bridge footbridge 36 has two web-shaped sections, which from the respective side wall of the outer wall 14 diagonally upwards towards the switching chamber 16 run. At the end of this web-like sections is in each case a circular hollow chamber 38 arranged. Between the two circular hollow chambers 38 then lies a circular-arc-shaped arc concentric with the circular outer wall 18 the switching chamber 16 runs and the switching chamber 16 facing top the counter-surface 30 forms. The two projections 32 are on the, the switching chamber 16 facing side of in 1 left hollow chamber 38 arranged and the two projections 34 are on the, the switching chamber 16 facing side of in 1 right hollow chamber 38 arranged.

The projections 32 . 34 consist of a rubber-elastic material other than the bridge bridge 36 and the rest of the bottom side of the profile 10 , This is each by a dividing line 11 indicated. Specifically, the projections 32 . 34 made of one, especially soft, extruded material, which comes into contact with the outer wall 18 the switching chamber 16 has a high coefficient of friction. This allows a secure deformation of the switching chamber 16 be reached when hitting an obstacle. An increase in friction during contact of the switching chamber 16 with the counterhold surface 30 , in particular with the projections 32 . 34 can also be achieved by coating at least sections in the interior of the profile.

Between the in 1 left handrail 28 and the approach of the bridge bridge 36 at the in 1 left side of the outer wall 14 is the outer wall 14 on its inside with two notches 40 Provided. These indentations are each formed in a circular section and reduce the material thickness of the outer wall 14 in their area. The notches 40 thereby form a kind of bending aid and allow a lighter and more or less defined deformation of the outer wall 14 ,

On the notches 40 opposite side are between the in 1 right landing stage 26 and in 1 right approach of the bridge bridge 36 on the right side of the outer wall 14 two similar notches 42 intended. On both sides of the switching chamber 16 worry the notches 40 . 42 thus for a reduction in the material thickness of the outer wall 14 of the profile 10 and thereby for a lighter and more or less defined deformation of the outer wall 14 ,

Meets the profile 10 in the detection area 12 upon an obstacle, so will the outer wall 14 of the profile 10 deform. This will be the switching chamber 16 towards the counterhold area 30 emotional. After the contact of the bottom the outer wall 18 the switching chamber 16 becomes the switching chamber 16 then on the counterhold surface 30 rest and be compressed. As soon as the two electrical conductors 22 . 24 come into contact with each other, an electrical switching signal can be triggered. Is the profile 10 For example, arranged at the front edge of a motor-driven door, such as a swing gate or a sliding door, then the motor drive of the door can be stopped or reversed by means of such a switching signal.

One of the counterhold area 30 facing bottom of the switching chamber wall 18 as well as the counterhold area 30 and especially the surface of the projections 32 . 34 may be coated to face the base material of the profile 10 a changed friction when contacting the underside of the outer wall 18 with the counterhold surface 30 and / or the projections 32 . 34 to effect. For example, the projections 32 . 34 be coated so that compared to the untreated base material of the profile 10 on contact with the underside of the outer wall 18 the switching chamber 16 a friction is increased. The underside of the outer wall 18 slips thereby in contact with the projections 32 or the projections 34 not over these, but more or less stick to this. Even with oblique action on the detection side of the profile 10 , in 1 So from obliquely right above or diagonally above left, this can be a very safe triggering of a switching signal can be effected.

The notches 40 . 42 on the inside of the outer wall 14 of the profile 10 ensure an easy deformability of the profile 10 , so that even at low detection forces, the switching chamber 16 with its underside on the counterhold surface 30 incident and thereby a safe triggering of a switching signal can take place.

It is 1 to see that the respective inner projection 32 from the likewise internal projection 34 has a distance that is such that the bottom of the switching chamber 16 even if the profile 10 compressed vertically from above, on the projections 32 . 34 incident. No matter if the profile 10 So obliquely or vertically impinges on an obstacle from above, is a way that the underside of the switching chamber 16 until hitting the counterhold surface 30 or the projections 32 . 34 the counterhold area 30 must go back, always constant. A dead path between touching an obstacle with the detection side of the profile 10 and the triggering of a switching signal is thereby independent of the angle in which the profile 10 hits the obstacle, always constant.

The hollow chambers 38 are provided for insertion of a final component, with the one, the interior of the profile 10 is sealed and on the other hand, the electrical conductors 22 . 24 be contacted. Such a termination component has a projection based on the shape and dimensions of the cavity 20 in the switching chamber 16 is tuned and further has an area that the outside of the switching chamber wall 18 embraces. To the electrical conductors 20 . 24 Therefore, the webs must be contacted 26 . 28 be cut away in the end. Since only the two holding webs 26 . 28 are provided and the bottom of the switching chamber 16 however, free in the interior of the profile 10 depends, is compared to conventional profiles of the time required to the outer wall 18 the switching chamber 16 from the retaining bars 26 . 28 cut, much lower.

2 shows a further inventive profile 50 in sections. Again, just the detection page of the profile 50 shown. Only the differences to the in. Are explained 1 represented profile 10 ,

The switching chamber wall 18 the switching chamber 16 is unlike the profile 10 the 1 in their side sections with two notches each 52 . 54 Provided. These notches 52 . 54 are each on the inside of the switching chamber wall 18 that is the cavity 20 facing, arranged. The sides of the switching chamber wall 18 are between the electrical conductors 22 . 24 arranged. Also with the profile 10 in 1 These pages are the priority of the exterior wall 18 the switching chamber 16 deformed when the switching chamber 16 is compressed so that the two electrical conductors 22 . 24 get in touch with each other. This deformation of the sides of the switching chamber wall 18 is through the notches 52 . 54 relieved, so that already a lower force is sufficient to the two electrical conductors 22 . 24 to get in touch with each other. In addition, make the notches 52 . 54 a bending aid and provide for a defined deformation of the sides of the outer wall 18 the switching chamber 16 , Such deformation is defined only in that a bending angle in the region of the notches 52 . 54 will be larger than in the outside of the notches 52 . 54 lying areas. An exact definition of the deformation of the sides of the switching chamber wall 18 is also with the notches 52 . 54 not possible because the entire profile 10 made of rubber-elastic material.

The projections 32 . 34 on the counterhold area 30 consist of a rubber-elastic material other than the bridge bridge 36 , This is each by a dividing line 11 between the projections 32 . 34 and the bridge retaining bridge 36 shown. The projections 32 . 34 consist of a rubber-elastic material that comes into contact with the outside of the switching chamber wall 18 causes a high frictional force and thereby a strong deformation of the switching chamber 16 favored.

3 shows the profile 10 the 1 in a front view. Shown is now a mounting side 62 of the profile, that of a detection page 64 opposite. At the attachment side 62 are the two side walls of the outer wall 14 of the profile 10 with a continuous floor 66 connected with each other. On the interior of the profile 10 opposite bottom of the floor 66 is a hollow chamber 68 arranged, which forms an undercut and with the profile 10 in an undercut groove of a retaining strip 70 can be used.

4 shows another profile 80 according to the invention, in contrast to the profile 10 the 3 only one attachment side 82 was changed. The two side walls of the outer wall 14 of the profile 80 are not connected to a continuous floor, but each have at their lower end facing each other, arrow-like projections in cross section 84 on. The arrow-like projections 84 be in matching undercut grooves of a retaining strip 86 indented to the profile 80 on the retaining strip 86 to fix.

5 shows a further inventive profile 90 , being opposite the profile 10 the 3 only the attachment side 92 of the profile 90 was changed. The two side walls of the outer wall 14 of the profile 90 are again connected to a continuous floor and on the, the interior of the profile 90 remote from the bottom of the bottom, a projection is provided which defines an undercut on each of its two sides, with this projection, the profile 90 in a matching groove of a retaining strip 94 anchored.

6 shows a profile according to the invention 100 according to a further embodiment.

Unlike the profile 10 the 3 is the cross-sectional shape of the two electrical conductors 102 . 104 been modified and the sides of the outer wall 14 of the profile 100 are opposite the profile 10 higher, leaving the profile 100 overall has a greater height.

The electrical conductor 104 who in 6 is arranged below, points to his, the other electrical conductor 102 facing top a trough-like shape. The in 6 upper ladder 102 has a cross-sectionally rounded contact surface which, like 6 can be seen in the gutter shape of the lower conductor 104 protrudes. With such a configuration of the two electrical conductors 102 . 104 can be especially with lateral, oblique action on the profile 100 achieve a reliable and fast triggering of a switching signal.

7 shows a further inventive profile 110 , being opposite the profile 100 the 6 only the two side walls of the outer wall 14 of the profile 110 were executed higher and the attachment side 112 of the profile 110 is formed differently. While the attachment side of the profile 100 according to the profile 10 the 3 is formed, is the attachment side 112 of the profile 110 according to the profile 90 out 5 educated.

8th shows a further inventive profile 120 , Opposite the profile 100 in 6 and the profile 110 in 7 are the side walls of the outer wall 14 of the profile 120 higher executed. The profile 120 has thereby between its detection side and the attachment side a greater distance and an overall greater height. A mounting side 122 of the profile 120 is unlike the profiles 100 and 110 like the profile 80 in 4 educated.

The 9 to 10 show a profile 130 in cross-section at different loads, according to the profile 10 the 1 is constructed and only in the area of its attachment side 132 is structured differently, namely as the profile 90 the 5 ,

9 shows the profile 130 in the still unloaded condition. An obstacle 134 just touches the top of the outside wall 14 of the profile 130 , but does not exert any force on the outside wall 14 out. The profile 130 and the obstacle 134 are moved perpendicular to each other, in the 9 to 11 the obstacle is thus moved vertically downwards.

10 already shows a loaded condition of the profile 130 , The profile 130 was on its upper side, so on the detection side, already a bit far from the obstacle 134 pressed in and the switching chamber 16 has already reached the bridge bridge so far 36 moved to the bottom of the switching chamber 16 the counterhold area 30 and especially the respective inner projections 32 . 34 the counterhold area 30 contacted. The switching chamber 16 has already been compressed a bit. This can be seen from the fact that the cross-sectional shape of the switching chamber 16 no longer circular, but slightly elliptical.

In the state of 11 is the obstacle 134 then a little further on the profile 130 been moved. It is now easy to see that the switching chamber 16 is strongly deformed and that the two electrical conductors 22 . 24 touch. In the state of 11 would with appropriate wiring of the electrical conductors 22 . 24 thus triggering an electrical switching signal. The side walls of the outer wall 14 of the profile have also already been deformed comparatively strong. The bridge footbridge 36 is comparatively stable and ensures a secure counterhold for the switching chamber 16 , It can also be seen that the two retaining webs 26 . 28 that is the top of the switching chamber 16 with the inside of the outside wall 14 of the profile 130 connect, were only slightly deformed. The main deformation of the switching chamber 16 should be done in the area of their sides, so that the two electrical conductors 22 . 24 even with comparatively little deformation of the profile 130 touch. Opposite the sidewalls of the switching chamber 16 is the connection of the top of the switching chamber 16 by means of the holding webs 26 . 28 to the outside wall 14 the profile thus made comparatively stiff.

The 12 to 14 show a further inventive profile 140 at different loads. The profile 140 is like the profile 50 in 2 executed and with a mounting side 142 provided, the attachment side 92 of the profile 90 the 5 equivalent.

In the state of 12 is the profile 140 not yet burdened and an obstacle 134 touches the outer wall 14 of the profile 140 only, but does not exert any power.

In the state of 13 is the obstacle 134 already a bit far on the profile 140 has been moved and presses the profile 140 a little way. The switching chamber 16 something has already been compressed, the two electrical conductors 22 . 24 but they are not touching yet. The underside of the switching chamber 16 is already on the counterhold area 30 at the top of the bridge bridge 36 on.

14 shows the state in which the switching chamber 16 compressed so much that the two electrical conductors 22 . 24 touch and with appropriate wiring an electrical switching signal could be output.

Compared to the profile 130 and especially in the 11 illustrated state of the profile 130 can be found that the deformation of the sides of the outer wall 18 the switching chamber 16 something stronger. This is the case because of the notches 52 and 54 on the inside of the outer wall 18 the switching chamber 16 to facilitate the deformation. The condition of 14 , in which so a switching signal could be output, is in the profile 140 achieved earlier and at lower load than the profile 130 ,

15 shows a further inventive profile 150 in the unloaded state and 16 shows the profile 150 in the loaded condition, when the electrical conductors 22 . 24 touch. The profile 150 the 15 and 16 is like the profile 110 the 7 educated. As already discussed, the two are electrical conductors 102 . 104 of the profile 150 designed so that the lower electrical conductor 104 has a groove-like cross-section and the upper electrical conductor 102 is rounded and a little way into the gutter shape of the lower electrical conductor 104 protrudes.

16 shows a loaded condition of the profile 150 in which are the two electrical conductors 102 . 104 already touch. It is good to see that there is a contact between the two electrical conductors 102 . 104 even with a small deformation path between the obstacle 134 and the profile 150 he follows. With the profile 150 This can be done quickly detection of obstacles with low collision force. This also contributes to the fact that the outer wall 18 the switching chamber 16 on the inside with the notches 52 . 54 that is already based on the profile 50 the 2 were explained.

The 17 to 19 show the profile 130 the 9 when obliquely impacted by the obstacle 134 , The obstacle 134 is arranged at an angle of 30 ° to the horizontal and is in 17 vertically down on the profile 130 moved. The outer wall 14 of the profile 130 is thus contacted diagonally from the side, see also the 18 and 19 , The switching chamber 16 This will not be perpendicular to the counterhold surface 30 at the bridge footbridge 30 moved, but rather on the side of the projections 32 on the in 17 left side of the counterhold surface 30 to. In 18 is a partially compressed state of the switching chamber 16 to recognize. A bottom of the switching chamber 16 is already on the inside projection 32 the counterhold area 30 on. The switching chamber 16 has already been compressed a bit, but touch the two electrical conductors 22 . 24 not yet.

19 shows the condition when the two electrical conductors 22 . 24 Touch because the obstacle 134 opposite the 18 a little further on the attachment side of the profile 130 was moved. The outer wall of the switching chamber is now on both projections 32 the counterhold area 30 on, the two electrical conductors 22 . 24 touch each other and with appropriate wiring, an electrical switching signal could be triggered.

The 20 and 21 show the profile 150 the 15 and 16 when obliquely impacted by the obstacle 134 , The obstacle 134 , which is shown as a plate, is arranged at an angle of 30 ° to the horizontal and contacts the outer wall 14 of the profile 150 from diagonally right above. 20 shows the state in which the obstacle 134 the outer wall 14 just touched, but still no force on the outside wall 14 exercises.

In 21 is the obstacle 134 already so far on the mounting side of the profile 150 been moved that the two electrical conductors 102 . 104 touch and with appropriate wiring a switching signal could be triggered. Due to the cross-sectional groove-like shape of the lower electrical conductor 104 and the rounded, in the upwardly open channel shape projecting cross-sectional shape of the upper conductor 102 there is a contact between the two electrical conductors 102 . 104 very fast and already with a very small deformation of the profile 150 , As in 21 can be seen, lies the bottom of the outer wall 18 the switching chamber 16 only on the inside of the two projections 32 the counterhold area 30 on. The switching chamber wall 18 is already deformed and the switching chamber 16 has an approximately elliptical shape. The two electrical conductors 102 . 104 but they are already touching.

The 22 and 23 show the profile 140 out 12 and 17 in a further oblique action by the obstacle 134 , The obstacle 134 is in 22 arranged at an angle of 55 ° to the horizontal and touches the outer wall of the profile 114 straight, but does not exert any force on the profile 140 out.

23 shows the state in which the obstacle 134 so far towards the profile 140 was moved, that the two electrical conductors 22 . 24 the switching chamber 16 touch and with appropriate electrical wiring a switching signal could be triggered.

It is in 23 to realize that the switching chamber 16 was already heavily deformed and the two electrical conductors 22 . 24 not only towards each other, but also laterally shifted relative to each other. Nevertheless, the contact of the outer wall ensures 18 the switching chamber 16 with the projections 32 in the left side area of the counterhold area 30 for sufficient compression of the switching chamber 16 so that the two electrical conductors 22 . 24 touch.

24 shows the profile 150 the 15 and 20 in a further oblique action by the obstacle 134 , The obstacle 134 is arranged at an angle of 55 ° to the horizontal. In the state of 24 touches the obstacle 134 the outer wall 14 of the profile 150 straight, but does not exert any force on the profile 150 out.

In the state of 25 is the obstacle 134 already so far on the mounting side of the profile 150 been moved that the two electrical conductors 102 . 104 touch and with appropriate wiring an electrical switching signal could be triggered.

Compared to the profile 140 the 22 and 23 It can be seen that a comparatively lower deformation of the profile 150 is required, as this is the profile 140 the 22 and 23 the case is. Especially the sides of the outer wall 14 of the profile 150 significantly less deformed than the profile 140 in 23 and also the switching chamber 16 is significantly less deformed than the profile 140 in 23 , With the profile 150 This is a faster triggering of a switching signal with a lower deformation path than the profile 140 possible.

Claims (13)

Profile for a switching strip, wherein the profile consists of rubber-elastic material, wherein the profile has a fastening side for fastening the profile and a detection side, wherein during operation of a safety edge in the region of the detection side of the profile force is applied by objects to be detected, wherein the profile at least a switching chamber, wherein the switching chamber has at least one in the longitudinal direction of the profile continuous cavity, at least two continuous in the longitudinal direction of the profile and adjacent to the cavity electrical conductor and a cavity and the conductors in the radial direction surrounding switching chamber wall, wherein the switching chamber wall on its, Seen from the cavity outside outer side is connected to at least one continuous in the longitudinal direction of the profile holding web, characterized in that the at least one holding web exclusively in one of the detection side facing the outside Eite the switching chamber wall is connected to the outside of the switching chamber wall. Profile after Claim 1 , characterized in that two retaining webs are provided, wherein a distance between the two retaining webs increases in a direction away from the outside of the switching chamber wall. Profile after Claim 1 or 2 in that the area of the outside of the switching chamber wall facing the detection side, in which the at least one holding web is connected to the outside of the switching chamber wall, covers an angle range (a) of at most 90 degrees on the outside of the switching chamber wall. Profile according to one of the preceding claims, characterized in that a counter-holding surface is provided between the switching chamber and the bottom side of the profile, wherein a distance between the counter-holding surface and the counter-holding surface facing the outer wall of the switching chamber over an angular range of at least 45 degrees, in particular 90 Degree, is essentially constant. Profile after Claim 4 , characterized in that the region of the outer side of the switching chamber facing the counter-holding surface is circular-segment-shaped in cross-section. Profile after Claim 4 or 5 , characterized in that the counter-holding surface is circular section in cross-section and is provided in its side edge regions, each with at least one longitudinally continuous projection. Profile after Claim 6 , characterized in that two laterally spaced apart and longitudinally continuous projections are provided in each side edge region. Profile according to at least one of the preceding claims, characterized in that between the switching chamber and the bottom side of the profile, a counter-holding surface is provided, wherein the counter-holding surface is provided on a bridge web, which connects a left and a right side wall of the profile. Profile after Claim 8 , characterized in that the bridge web is spaced from a bottom of the profile. Profile after Claim 8 or 9 , characterized in that the bridge web is provided with two continuous in the longitudinal direction of the profile hollow chambers, wherein the hollow chambers are arranged in the side edge regions of the counter-holding surface. Profile according to at least one of the preceding claims, characterized in that between the switching chamber and the bottom side of the profile, a counter-holding surface is provided, wherein the counter-holding surface and / or a counter-holding surface facing portion of the outer wall of the switching chamber are at least partially made of a further rubber-elastic material, in order to effect a reduction in friction or an increase in the friction upon contact of counter-bearing surface and outer wall of the switching chamber. Profile according to at least one of the preceding claims, characterized in that the switching chamber wall has at least one longitudinal notch through. Profile according to at least one of the preceding claims, characterized in that an outer wall of the profile has at least one longitudinal notch in the longitudinal direction.

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