EP1340853B1 - Sealing device for an expansion joint - Google Patents

Abstract

The seal device (1a) is for a movement seam (2) between two structural bodies (4) and has a flexible over-bridging unit (13a) with anchoring units on opposite sides of the stem. The anchoring units have a fixed flange (9a) connectable with a structural body and a loose flange (10a) clampable to the fixed flange in the manner of a dovetail connection by means of clamp components (11a). The over-bridging unit is so connectable with the anchoring units that it is clamped between the fixed flange and the loose flange. The clamp components (11a) have the same strength as the fixed flange. In the longitudinal direction of the sealing device a fixed flange has a dovetail-shaped spring wtih two opposing locating surfaces. The loose flange and the clamp components are so clampable to the fixed flange that the loose flange locates on one locating surface and the clamp components on the other locating surface.

Description

The invention relates to a sealing device for a movement joint between two Buildings with a flexible bridging unit and two on opposite sides Side of the movement joint arranged anchoring units, each with a the associated structural body connectable fixed flange and one by means of a clamping element clamped with the fixed flange in the manner of a dovetail joint Have loose flange, wherein the bridging unit with the anchoring units such can be connected, that it is clamped between each fixed flange and loose flange.

Sealing devices are used, for example, for bridging expansion joints between Concrete slabs used to conceal the expansion joint on the one hand and the penetration of foreign bodies or liquids, on the other hand - in parking decks - a safe driving and walking without excessive burden of the opposite To allow edges of the building body. Well known sealing devices have two anchoring units, each at the opposite edges with the Structural bodies are connected and between which a substantially elastic bridging unit is strained.

Each anchoring unit consists essentially of a fixed flange and a loose flange, wherein the fixed flange, for example, by screw with the respective Structural body is firmly connected. The loose flange is connectable to the fixed flange, in that the bridging unit is clamped in a gap formed between the two becomes. Are generally known sealing devices in which the loose flange by means of a the bridging unit penetrating screw connected to the fixed flange becomes. Disadvantageous prove such sealing devices in particular therefore, because with the penetration of the bridging unit inevitably created an opening is, which also allows the penetration of moisture to the fixed flange and the expansion joint. The reaching from the surface of the anchoring unit to the fixed flange In addition, a screw connection makes a one hand electrically, on the other hand thermally conductive connection to the building body. Such conductive connections are often on the one hand for safety reasons, on the other undesirable as cold spots.

A generic sealing device is known from EP 1 158 101 A2. The fixed flange There has a dovetail-shaped groove through the opening cross-section during assembly, first the bridging unit and then a connected to the loose flange Clamping element is feasible. By shortening a pressing element is the Clamping element elastically compressed and expands in the width direction of the groove. hereby it presses against the opposing contact surfaces of the groove, that in this Area a non-positive connection between the fixed flange, the bridging unit, the clamping element and the loose flange is created. The use of a Dovetail connection with an elastic clamping element already eliminates the disadvantageous penetration of the bridging unit and facilitates and accelerates about it In addition, the assembly of the sealing device substantially.

However, a disadvantage of the sealing device according to EP 1 158 101 A2 can be seen therein that the connection of the loose flange with the fixed flange - and thus the fixation the bridging unit - is much less solid than in the known screwed connections. It is feared that when crossing such a sealing device transversely to the movement joint, in particular during extreme acceleration or braking processes For example, of trucks, the compressed in the groove clamping element do not resist occurring shear forces transverse to the longitudinal axis of the sealing device and could be torn out of this groove with the loose flange.

task

The invention is based on the object, a sealing device for bridging a Movement to create joint whose connection of loose flange and fixed flange and extreme Claims while driving and that without penetration of the bridging unit easy and quick to install.

solution

Starting from the sealing device known generically, this object is achieved according to the invention achieved in that the clamping element substantially the same strength as the fixed flange has. If the loose flange by means of this clamping element with the Fixed flange clamped in the manner of a dovetail joint, the strength of the Connection not limited by the material of the clamping element. A shift in the Losflansches against the fixed flange is only within the compressibility of between given to both clamped bridging unit. An elastic deformation of the Clamping element and a tearing out of the connection under excessive load is not to fear.

The sealing device according to the invention is configured, for example, in the manner in that a fixed flange has a dovetail-shaped running in the longitudinal direction of the sealing device Spring has, on the opposite bearing surfaces on the one hand the Losflansch, on the other hand, the clamping element is applied. The sealing device is then special Easy to assemble, as the supply of loose flange and clamping element to the respective contact surfaces is not hindered.

In contrast, however, a sealing device according to the invention, whose Fixed flange has a dovetail groove, wherein the clamping element on a or brought to bear on both opposite contact surfaces of the groove. The Groove is then open towards the loose flange. For mounting such a sealing device the clamping element is introduced through an opening cross section of the groove in this. The clamping element is advantageously designed such that it - if it subsequently there is tilted around the longitudinal axis of the groove - not more (without tilting) to remove from the groove is.

The sealing device according to the invention preferably has a screw for connection from loose flange and clamping element, wherein the screw head is supported on the loose flange. Such an arrangement simplifies and accelerates the assembly and thereby lowers the manufacturing cost of the sealing device. Particularly preferred are screws used with self-tapping thread in a longitudinal direction of the sealing device extending groove in the clamping element engage. So on the one hand, the production of the clamping element as continuous or rod goods allows, on the other hand again the assembly is facilitated by that no fixed position of the clamping element opposite must be adhered to the loose flange.

The bridging unit of a sealing device according to the invention can be equipped with a in Be provided at the longitudinal direction of the sealing device extending sealing lip Assembly of the sealing device inserted in a corresponding groove of the fixed flange becomes. Such a sealing lip improves the sealing effect of the sealing device. About that In addition, the assembly of the sealing device is relieved in this way, since the not in the dovetail connection area of the bridging unit is pulled out by their weight.

embodiments

Fig. 1

einen Querschnitt durch eine erste Dichtungsvorrichtung,

Fig. 2

einen Ausschnitt dieser ersten Dichtungsvorrichtung,

Fig. 3a bis 3h

Phasen der Montage dieser ersten Dichtungsvorrichtung und

Fig. 4a und 4b

Phasen der Montage einer zweiten Dichtungsvorrichtung.

Embodiments of the sealing device according to the invention are shown below in drawings, by means of which the invention is explained in more detail. Show it

Fig. 1

a cross section through a first sealing device,

Fig. 2

a detail of this first sealing device,

Fig. 3a to 3h

Phases of assembly of this first sealing device and

Fig. 4a and 4b

Phases of mounting a second sealing device.

The sealing device 1a conceals and protects the upwardly open movement joint 2 between the opposite edges 3 of two building structure 4. Figure 1 shows this Arrangement in a section perpendicular to the longitudinal direction of the movement joint 2. The here Illustrated sealing device 1a is at a perpendicular center plane 5 of the movement joint 2 constructed mirror-symmetrically. For other applications but also come - not shown here - sealing devices without such Symmetry for use.

The structural body 4 each have a wear layer 6 - here an asphalt surface - on, with whose drivable surface 7 at both edges 3 of the building body 4 each have an anchoring unit 8a flush. The anchoring units 8a each have one Fixed flange 9a and a loose flange 10a, which by means of clamping elements 11a in the manner of a Dovetail joint are clamped and in a gap 12a between the fixed flange 9a and loose flange 10a, a movement joint 2 spanning, rubber-elastic Bridging unit 13a hold. The fixed flanges 9 a are on a compensation layer 14 stored and anchored by means of screws 15 and dowels 16 in the building structures 4.

Figure 2 shows in an enlarged detail of the sealing device 1a the connection from a fixed flange 9a and the associated loose flange 10a. The fixed flange 9a has between a holding leg 17a and a relief leg 18 an upwardly open Dovetail groove 19 with opposing contact surfaces 20a. The holding thigh 17a and the relief leg 18 protrude from a horizontally extending End portion 21a of the fixed flange 9a and give this an F-shape. The holding thigh 17 a and the relief legs 18 are provided with rectangular sealing grooves 22 and 23 Mistake. The retaining leg 17a, the relief leg 18, the dovetail groove 19, the end portion 21a and the sealing grooves 22 and 23 are perpendicular to the illustrated Section in the longitudinal direction of the executed as Alumiumstrangpressprofil fixed flange 9a.

The loose flange 10 a is a sheet steel strip with an L-shaped angled cross section, which in his perpendicular to the section shown extending longitudinal direction one behind the other in each case has a plurality of lowered holes 24a at the same distance from each other. The clamping element 11a has a substantially hexagonal cross-section and a longitudinally extending groove 25a and is to a median plane 26a of Groove 25a constructed mirror-symmetrically. The clamping element 11a is also an aluminum extruded profile manufactured.

The rubber elastic bridging unit 13a is perpendicular to one in its longitudinal direction to the illustrated section extending center plane 27 constructed mirror-symmetrically. in the mounted state, the bridging unit 13a in this median plane 27 an in Direction of the wear layer 6 open groove 28 a, to both sides in each case a substantially rectangular, closed hollow profile 29a and to this a thin retaining strip 30a followed. The holding strips 30a are attached to the hollow profiles 29a in such a way that both in Complete assembly in the direction of the wear layer 6 flush. On the wear layer 6th side facing away from the holding strip 30a each have a sealing lip 31 is formed.

When assembling the illustrated sealing device 1a, first, the fixed flanges 9a at the opposite edges 3 of the building body 4 on the leveling layer 14th aligned and fixed, then applied the wear layer 6. Subsequently, rubber-elastic Supplementary strips 32 placed, with a sealing lip 33 in the sealing grooves 22nd engage the holding leg 17a. The sealing lips 33 are against unintentional withdrawal from the sealing grooves 22 provided with a toothing, not shown. The Supplementary strips 32 surround the holding leg 17a and end on the - the fixed flanges 9a lowered relative to the surface 7 - wear layer. 6

Then, the bridging unit 13a is placed such that the holding strips 30a are inserted into the Dovetail grooves 19 and the sealing lips 31 as an assembly aid in the sealing grooves 23 of the Relief leg 18 engage. The retaining strips 30a overlap in the region of the retaining legs 17a with the supplementary strips 32 and ensure together with these one effective sealing in the direction of the surface 7.

Figures 3a to 3h show in a schematically highly simplified representation of each other the following stages of the now taking place of the clamping element 11a in the dovetail groove 19, in which a retaining strip 30a of the bridging unit 13a already applied. The clamping element 11a is according to Figure 3a with respect to the mounting position to his Longitudinal axis pivoted by nearly 90 ° and with a narrow side 34 first in the dovetail groove 19, pivoted back according to the figures 3b to 3g about its longitudinal axis, until it - as shown in Figure 3h - in the mounting position in the dovetail groove 19 is present. Without renewed pivoting of the clamping member 11a to his Longitudinal axis, this can now be removed from the dovetail groove 19 again.

Subsequently, the loose flange 10 a is placed such that the shorter, angled Leg 35 of the loose flange 10 a, the holding leg 17 a of the fixed flange 9 a surrounds. By the holes 24a of the loose flange 10a are self-tapping countersunk screws 36 in the groove 25a of the clamping member 11a introduced.

By tightening the countersunk screws 36, their heads 37 on the lowered holes Support 24a of the loose flange 10a, the clamping member 11a in the dovetail groove 19 pulled in the direction of the loose flange 10 a and relies on each other opposite contact surfaces 20a of the dovetail groove 19 from. This will on the one hand, the loose flange 10a fixedly connected to the fixed flange 9a, on the other hand, in the Dovetail 19 inlaid retaining strip 30a of the bridging unit 13a between the contact surfaces 20a of the dovetail groove 19 and the clamping element 11a clamped and fixed in its position.

At the conclusion of the assembly of the illustrated sealing device 1a is the between the angled leg 35 of the loose flange 10 a and the wear layer 6 formed gap 38 filled with a sealant 39.

The loose flange 10a and the sealant 39 close flush with the drivable surface 7 of the wear layer 6, so that in conjunction with a comparatively small Paragraph between the loose flange 10a and the bridging unit 13a on the movement joint FIG. 2 shows an arrangement which can be overridden substantially bumplessly for a vehicle, not shown results. In this case, introduced into the loose flange 10a horizontal forces on the angled Leg 35 of the loose flange 10a and the relatively rigid sealant 39a supported in the wear layer 6. The clamping elements 11a are therefore not worth mentioning exposed to dynamic horizontal forces.

The same effect of the horizontal force relief of the clamping elements 11a is by one of Movement joint 2 facing convex curved edge strip 40 of the loose flange 10 reaches, which projects beyond the relief leg 18 in the joint cross-section. Because the bridging unit 13a above the movement joint 2 opposite the drivable surface 7 of the Wear layer 6 is slightly reset, this is almost before contact with vehicle tires completely protected.

The sealing device shown in Figures 4a and 4b in a section corresponding to Figure 2 1b differs from the sealing device 1a of Figure 1 only by a relation to this changed design of the loose flange 10b and the clamping element 11b.

Also, the clamping element 11b in Figures 4a and 4b has a substantially hexagonal Cross-section, wherein compared to the clamping element 11 a of the sealing device 1a of Figure 1 on the one hand, the width significantly reduced, on the other hand, a contact surface 41 concavely arched. The clamping element 11b also has no groove, but in his arranged perpendicular to the section shown extending longitudinal direction behind each other, not shown bores in the direction of the illustrated center line 42. That too Clamping element 11b is manufactured as an endlessly extruded aluminum profile.

Like the loose flange 10a of the sealing device 1a of Figure 1 is also the loose flange 10b in the figures 4a and 4b a sheet steel strip with an L-shaped angled cross-section, the in its longitudinal direction perpendicular to the section shown, one behind the other a plurality of not shown, lowered holes in the direction of the center line 42nd having. With the loose flange 10b is a support member 43 made of an endless drawn steel profile welded. The support element 43 has a substantially rectangular cross-section on, wherein a contact surface 44 corresponding to the contact surface 41 of the clamping element 11b is convex.

For mounting the sealing device 1b, the loose flange 10b with the clamping element 11b by means of the holes of the loose flange 10b in the holes of the clamping element 11b engaging, in turn, not shown pre-assembled screws. As with the Sealing device 1a of Figure 1 come here also self-tapping countersunk screws for use.

When placing the loose flange 10b again engages around its shorter, angled Leg 35, the holding leg 17a of the fixed flange 9a. At the same time that is at the loose flange 10b loosely suspended by means of screws, not shown, clamping element 11 b introduced into the dovetail groove 19.

By tightening the screws, not shown, their heads turn to the not Supported shown lowered holes of the loose flange 10b, the clamping element 11b pulled in the dovetail groove 19 in the direction of the loose flange 10b and supported on the one hand with its concave contact surface 41 at the convex Contact surface 44 of the support member 43 and here on a contact surface 20 of the dovetail groove 19, on the other hand, directly on the opposite contact surface 20 of the Swallowtail groove 19 off.

Again, on the one hand, the loose flange 10b firmly connected to the fixed flange 9a, for Change the retaining strip 30 of the bridging unit that is inserted in the dovetail groove 19 13 between the contact surfaces 20 of the dovetail groove 19 and the clamping element 11b pinched and fixed in position. Opposite the sealing device 1a From Figure 1, the assembly of the sealing device 1b in Figures 4a and 4b is still once significantly simplified and accelerated.

Claims (7)

1. A sealing apparatus (1a,1b) for an expansion joint (2) between two edifice elements (4) with a flexible bridging unit (13a) and two anchoring units (8a,8b) which can be arranged at opposite sides of the expansion joint (2) and which each comprise an integral flange (9a) which can be connected with the associated edifice element (4) and a loose flange (10a, 10b) which can be clamped by means of a clamping element (11 a, 11 b) with the integral flange (9a) in the manner of a dovetail connection, with the bridging unit (13a) being connectable with the anchoring units (8a) in such a way that it is clamped between integral flange (9a) and loose flange (10a, 10b), characterized in that the clamping element (11a, 11b) substantially has the same strength as the integral flange (9a).
2. A sealing apparatus according to claim 1, characterized in that an integral flange comprises a dovetail-like spring with two opposite contact surfaces which extends in the longitudinal direction of the sealing apparatus, with the loose flange and the clamping element being capable of being clamped with the integral flange in such a way that the loose flange rests on the one contact surface and the clamping element on the other contact surface.
3. A sealing apparatus (1a, 1b) according to claim 1, characterized in that an integral flange (9a) comprises a dovetail-like groove (19) which extends in the longitudinal direction of the sealing apparatus (1a, 1b) and comprises two opposite contact surfaces (20a), with the loose flange (10a, 10b) and the clamping element (11a, 11b) being capable of being clamped with the integral flange (9a) in such a way that the clamping element (11a, 11b) rests on at least one of the contact surfaces (20a).
4. A sealing apparatus (1a, 1b) according to the preceding claim, characterized in that a clamping element (11a, 11b) can be introduced through an opening cross section of the groove (19) into the same and can be tilted in the groove (19) about its longitudinal axis into such a position that any removal of the clamping element (11a, 11 b) from the groove (19) requires renewed tilting.
5. A sealing apparatus (1a, 1b) according to at least one of the preceding claims, characterized in that the loose flange (10a, 10b) and clamping element (11a, 11b) of an anchoring unit (8a, 8b) can be joined with screws (36) whose heads (37) rest on the loose flange (10a, 10b).
6. A sealing apparatus (1 a) according to the preceding claim, characterized in that the clamping element (11a) comprises a groove (25) extending in the longitudinal direction, that the screws (36) have a self-cutting thread and that the loose flange (10a) can be joined with the clamping element (11a) by introducing these screws (36) into such groove (25).
7. A sealing apparatus (1a, 1 b) according to at least one of the preceding claims, characterized in that the bridging unit (13a) comprises a sealing lip (31) which extends in the longitudinal direction of the sealing apparatus (1a, 1b) and which can be placed in a respective sealing groove (23) of the integral flange.

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