DE102016013778A1 - Joint profile assemblies with durable abrasion resistance to cover joints and safe, low-surge devices to cover them - Google Patents

Abstract

The invention relates to a joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint between buildings or parts thereof, which comprises a strand-shaped cover strip profile having at least two cover strips, between the facing sides at least partially a highly resilient sliding material with excellent wear resistance and permanent dimensional stability is arranged, which contains at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative having a density of 1.3 to 1.6 g / cm, a melting temperature of 180 to 320 ° C, a heat distortion temperature of 60 to 90 ° C, an upper service temperature limit in air of 150 to 180 ° C, the polyalkylene terephthalate derivative, in particular the polyethylene terephthalate derivative, a homogeneously distributed solid lubricant.

Description

The invention relates to joint profile arrangements with durable abrasion resistance and high load capacity for covering a joint, such as expansion joints, between structures or parts thereof, which comprises a strand-shaped cover strip profile having at least two cover strips, between whose facing sides at least partially a highly resilient sliding material excellent wear resistance and permanent dimensional stability, and the use of the same in reliable low-supervision devices for covering joints, such as expansion joints, between structures or parts thereof with a joint profile arrangement comprising a strand-shaped cover strip profile, the at least two cover strips, two at both edges of the Joint has fixable parallel to each other extendable anchoring profiles, between the mutually facing sides at least partially a highly resilient sliding material is arranged ,

Conventional joint profile arrangements have at least two cover strips which cover a joint, such as expansion joints, of structures, in particular of parts thereof. Laterally or tangentially directed forces can occur at their contact surfaces, also referred to as contact surfaces, so that frictional forces occur as a result of the touching cover strips and the cover strips are moved relative to one another, against one another or longitudinally relative to their center longitudinal axis. The frictional forces counteract the moving force and must always be interpreted based on the relevant friction system, also called tribological system. The frictional force is in first approximation dependent on the normal force on the contact surface and the coefficient of friction. The static friction occurs between components resting against each other, which are to be set in motion. At lower tangential forces F, the frictional force is initially opposite to F, so that the one cover strip partially rests on the other. The frictional force may increase to a maximum value with the tangential force F an, so that the one cover strip begins to slide or slip. Here, the adhesion, such as adhesion, is broken at interfaces or interfaces as interfaces and the cover strips move relative to each other while maintaining the expansion joint cover.

As a result of the incipient sliding friction deformations can occur at the contact or contact surfaces of the cover strips, which lead to leaks. In addition, as a result of the deformation, at least in the area of the contact surfaces, these surfaces will no longer lie flat on one another, but the risk of frictional and positive wedging of the cover strips due to unevenness exists.

Furthermore, deformations due to high frictional forces lead to higher wear and reduced movement absorption of the joint profile arrangement.

Due to the limited deformation due to deformation Gegeneinanderbewegung the cover strips, the conventional joint profile arrangement is less resilient, so that the conventional joint profile arrangement requires constant control and shorter replacement periods required.

Likewise, conventional profile arrangements are characterized by the increased abrasion of their seal protection, so that because of adjusting, albeit the slightest cracks they are already sufficient, so that in the long run moisture or water in the form of capillary water can penetrate through these very fine cracks in the joint space ,

Due to the accumulation of moisture in the joint space there is a risk of corrosion and in adverse weather conditions the occurrence of frost damage in the joint interior. The frost damage caused by frost damage of the joints laterally limiting building materials or cracking in the same should be avoided to prevent cracking.

Moreover, the compensation is significantly limited by differently occurring setting movements of the structures by the conventional joint profile arrangement.

Due to the high frictional forces due to wear, the moisture protection is restricted even with conventional expansion joint profile arrangements, so that they are prone to corrosion and require high operating costs for maintenance and repair.

The joint profile arrangement to be provided and their cooperating cover strips should be characterized by low frictional forces.

The joint profile arrangement to be provided should show no deformation on the contact surfaces of the cover strips as a result of incipient sliding friction.

Also, the joint profile arrangement to be provided should have no leaks, since the corrosion due to moisture penetration, as can be observed in the prior art, adjusts itself.

In addition, in the joint-profile arrangement even with sustained settling movements in the area of the contact surfaces, this flat surface on surface lie on each other, without the risk of frictional and positive wedging the cover strips together.

Coming to the joints profile arrangement is characterized by a low wear and the avoidance of reduced movement absorption.

Likewise, the joints profile arrangement should be highly resilient and show no deformation due to limited relative movement of the cover strips.

Also, the joint profile assembly should have a permanent moisture protection to prevent corrosion due to moisture penetration into the joint and the profile assembly to prevent and high operating costs for maintenance and repair or replacement as possible.

In addition, the joint profile arrangement is intended to help prevent penetration not only of moisture but also of driving rain, which is subjected to a predetermined force, into the interior of the joint, in order to prevent the occurrence of water in larger quantities in the joint interior.

Likewise, the joint profile arrangement to be provided should avoid the transmission of sound into the joint interior, which in the event of resonance or reflection within the joint interior in the joints limiting building parts can be forwarded and reinforced and this is able to excite vibrations under certain circumstances.

Therefore, the joint profile to be provided shall ensure a sufficient tightness between the building parts, regardless of pressure, tension and shear stresses occurring, as well as the application of forces that are able to act perpendicular to the joint profile arrangement.

• dauerhaft dicht,
• wartungsarm,
• reparaturvermeidend,
• hoch belastbar,
• einfach für den Benutzer einjustierbar
• sowie
• mit jedweder Art von Fugenrändern verbindbar ist.

Especially in times of increased warranty claims against manufacturers to provide a joint covering the joint profile arrangement, which combines

• permanently tight,
• maintenance,
• reparaturvermeidend,
• highly resilient,
• easy to adjust for the user
• such as
• is connectable with any kind of joint edges.

The problem is solved by the main claim and the secondary claim. The subclaims relate to preferred embodiments and further developments of the invention.

The invention relates to a joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint, such as expansion or expansion joint, between structures or parts thereof, which comprises a strand-shaped cover strip profile having at least two cover strips, which is characterized in that between at least two mutually facing sides of the cover strips, which are relatively movable or displaceable relative to each other, at least partially a highly resilient sliding material with excellent wear resistance and permanent dimensional stability is arranged, in particular the at least one polyalkylene terephthalate compound, for example at least one polyethylene terephthalate compound, preferably having a density from 1.3 to 1.6 g / cm ³ , in particular from 1.4 to 1.5 g / cm ³ , even more preferably from 1.44 g / cm ³ , and / or with a melting temperature of 180 to 320 ° C, especially 200 to 300 ° C, even more preferred of 245 ° C, and / or having a heat deflection temperature of 60 to 90 ° C, preferably 60 to 85 ° C, even more preferably of 75 ° C, and / or with an upper Use temperature limit in air of 150 to 180 ° C, preferably from 150 to 170 ° C, even more preferably from 160 ° C. in particular the polyalkylene terephthalate compound, such as the polyethylene terephthalate compound, a homogeneously distributed solid lubricant.

The invention also relates to a joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint between buildings or parts thereof, which comprises a strand-shaped cover strip profile having at least two cover strips, which is characterized in that at least between their facing sides partially a highly resilient sliding material with excellent resistance to wear and permanent dimensional stability is arranged, which contains at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative having a density of 1.3 to 1.6 g / cm ³ , in particular of 1.4 to 1.5 g / cm ³ , more preferably of 1.44 g / cm ³ , and / or a melting temperature of 180 to 320 ° C, especially 200 to 300 ° C, even more preferably 245 ° C, and / or a heat deflection temperature of 60 to 90 ° C, preferably 60 to 85 ° C, more preferably from 75 ° C, and / or an upper service temperature limit in air of from 150 to 180 ° C, preferably from 150 to 170 ° C, even more preferably from 160 ° C, and / or the polyalkylene terephthalate derivative, in particular the polyethylene terephthalate derivative, contains a homogeneously distributed solid lubricant.

An object of the invention is directed to the use of a highly resilient sliding material with excellent wear resistance and permanent dimensional stability for devices for covering joints, between structures and / or structural parts, which is characterized in that the sliding material at least one polyalkylene terephthalate derivative, in particular at least one Polyethylene terephthalate derivative containing at a density of 1.3 to 1.6 g / cm ³ , in particular from 1.4 to 1.5 g / cm ³ , even more preferably from 1.44 g / cm ³ , and / or a melting temperature of 180 to 320 ° C, in particular 200 to 300 ° C, even more preferably of 245 ° C, and / or a heat distortion temperature of 60 to 90 ° C, preferably 60 to 85 ° C, even more preferably of 75 ° C. , and / or an upper service temperature limit in air of from 150 to 180 ° C, preferably from 150 to 170 ° C, even more preferably from 160 ° C.

Another object of the invention relates to a reliable low-surveillance device for covering a joint, such as expansion joint, between structures or parts thereof, with an o.g. Joint profile assembly with durable abrasion resistance and high load capacity, which is a strand-shaped cover strip profile comprising at least two cover strips, between their facing sides which are relatively movable or displaceable relative to each other, at least partially a highly resilient sliding material is arranged, and two at both edges of the Groove comprises fixable parallel to each other extendable anchored to a building or structural parts anchoring profiles.

The invention is also based on the use of the joint profile arrangement according to the invention for covering expansion joints for protection against sound, water and moisture.

For the purposes of the invention, the term "joints" is also understood to mean those gaps which occur during the assembly of structures or their structural parts. Under joints can be understood, standing joints, movement joints, construction joints, dummy joints, expansion joints, expansion joints, etc. It is understood by movement joints, for example, the pre-planned in certain sections structural part interruptions. The width of a movement joint may change, for example, when heated by sunlight or in cold weather. Likewise, the building parts to each other vertically offset by usually occurring settling movements into the ground of buildings or their structural parts or this in the underground other structural parts. Likewise, the width as well as the vertical distance of the structural parts adjacent to the joint can change due to vibrations. In addition, the adjacent building parts spaced by means of a joint can move longitudinally.

For the purposes of the invention, construction structures, buildings, accessible structures, such as pedestrian paths, walkways, etc. and / or their structural parts are understood.

Under covering joints of structures is also understood in the context of the invention, the overvoltage or the overlapping of the joints between adjacent building parts, such as floor surfaces between adjacent wall surfaces and / or between floor surfaces and a wall surface or between floors, between walls or between the ground and wall or between other parts of the structure, so that the adjacent building parts can be connected to each other, for example to close or limit the joints.

In the context of the invention, anchoring is also understood to mean the force, shape and / or frictional connection of the connection, for example jamming, gluing, screwing, riveting, etc. For the purposes of the invention, parts which are relatively movable with one another can be understood to mean that the parts towards, against each other or to each other displaced, as may be transversely displaceable and / or longitudinally displaceable and / or pivotable.

By laying down structures is also understood in the context of the invention that the joint profile arrangement according to the invention and its anchoring profile is connected to, on, in and / or under the joint facing or adjacent to the joint edge of the building. The joint profile arrangement according to the invention can cover or close the joints, so that, for example, in the area of the surfaces of the building parts, the joints are interconnected without the cover or compound of the joint by means of joint profile arrangement by the transverse, longitudinal and / or Schrägverschieblichkeit Structural parts can be affected.

The invention is also based on the principle that the joint profile arrangement according to the invention at least two adjacent surfaces or sides of components, such as joint legs, strips, may have, against and against each other and / or each other are displaced and as touch or Contact surfaces can be designated, between which the sliding material, preferably as a sliding disk or layer, with a polyalkylene terephthalate derivative, in particular a polyethylene terephthalate derivative, as a sliding material, partially or wholly or over the entire surface is arranged. The sides or contact surfaces can be provided over the entire surface or at least partially with the sliding material. Thus, the sliding material between these mutually facing sides over the entire surface, for example in the case of full-surface Aufeinanderliegens the sides or contact surfaces or in the case of the expected full-scale extent of the Aufeinanderliegens the pages, which of height, width, and / or skew offset of the building parts dependent can, be arranged, as may be arranged between the mutually facing sides of the components only part of the surface of the sliding material, if, for example, as a contact surfaces only a portion of the adjacent sides lie flat on each other or the partial arrangement of the sliding material on the sides is already sufficient. An arrangement or coating not only on one but on the two adjacent sides is also advantageous.

The extent of the planar arrangement or coating, such as coating, of the facing or adjacent sides with the sliding material depends on the expected extent of the relative movement of the contact surfaces of the mutually facing sides of the joint profile arrangement according to the invention due to height, oblique and / or Width offset, eg Settling and Lateralbewegungen, of the joint limiting building parts. The joint profile arrangement according to the invention may extend in continuous form or interrupted along the joint. It is particularly advantageous if the mutually displaceable surfaces or sides of the joint profile arrangement according to the invention, as contact or contact surfaces between the cover strips of the joint profile arrangement according to the invention, are provided only partially with a sliding layer or a sliding disk with sliding material are; alternatively or additionally, the mutually displaceable surfaces or sides may be used as contact or contact surfaces with a plurality of sliding layers or sliding discs with sliding material, e.g. which are arranged one above the other or side by side. Under height offset is understood in the context of the invention, the displacement of the joint limiting building parts transverse to the center longitudinal axis of the joint; Under width offset is understood in the context of the invention, the displacement of the joint limiting building parts transverse to the center longitudinal axis of the joint along the plane of the surfaces thereof. Under longitudinal offset is understood in the context of the invention, the displacement of the joint limiting building parts along the center longitudinal axis of the joint; For the purposes of the invention, skewing offset also means the displacement of at least one of the structural parts delimiting the joint in the angle of less than 90 ° formed by the center longitudinal axis of the joint and the structural part. The related relative mobility of two components can also be understood in the context of the invention whose longitudinal, vertical, transverse, oblique displacements.

In the sense of the invention, a sliding disk is also understood to mean a sliding pad or a sliding plate or another flat, in particular full-circle or part-arc-shaped, plate-shaped sliding body or the like. In the sense of the invention, a sliding disk also means any sliding body which is suitable for the arrangement between components or surfaces of components which can be displaced relative to one another, such as cover strips, the joint profile arrangement according to the invention. The sliding disk, e.g. a sliding plate, can be arranged between two mutually displaceable surfaces of the first, second or third cover strips, as compared to one another or to one another.

The joint profile arrangement according to the invention is suitable for covering any joints of structures. It also shows that the joint profile arrangement according to the invention in wet conditions in the case of the use of the same for covering of e.g. Pedestrian crossings, walkways, etc. can ensure a firm footing of the user on the surface of the joint profile arrangement according to the invention.

In one embodiment of the joint profile arrangement according to the invention for covering joints whose strand-shaped cover strip profile comprises at least two cover strips. The first cover strip may be fork-shaped in cross-section to form two mutually parallel, spaced-apart joint legs and the second cover strip, at least with its one strand-shaped strip tongue-like in the of the two joint legs, also called cheeks, the first cover strip of Abdeckleistenleistenprofils laterally limited interior as a longitudinal groove or groove engage, so that the bar is guided with its one area movable in the interior. In the longitudinal groove, the bar engages or summarizes with a sliding clearance, so that due to the Relativesschieblichkeit the bar to the joint legs relative displacements of both sides of the joint arranged structural parts and the cover strips of Abdeckleistenleisten profile can be collected. The second cover strip can at least with its other portion of its bar either with the joint limiting the structural part articulated, for example via an anchoring profile, be connected or tongues in a longitudinal groove of a configured with two Fungenschenkeln third cover strip, which is laterally delimited by the two joint legs of the third cover strip of the cover strip profile, so that the strip is guided with its other area also movable in the longitudinal groove. The joint legs and / or the bar are preferably aligned transversely to the joint. The strip of the second cover strip can engage movably in a configuration of the joint profile arrangement according to the invention in both opposite longitudinal grooves of the cover strips with a sliding clearance for stepless coverage of the joint.

The cooperation of the areas of the ledge with the cover ledges allows extensive stepless relative movement of both components to one another or to each other, such as a lateral, such as along the center longitudinal axis of the joint, the cover ledges and / or anchoring profiles, and at an angle of less than 90 ° to the same , In one embodiment of the joint profile arrangement according to the invention, the second cover strip is designed in one piece with its strip. The first, the second and / or the third cover strips can be made in one piece;

For the purposes of the invention, the term integrality also means that the component, such as the first, second or third cover strip, can be produced as a whole, e.g. Pressed, extruded, injection molded, possibly coextruded, or molded.

In another embodiment of the joint profile arrangement according to the invention, the second cover strip is fork-shaped in cross-section to form two spaced Fuegnschenkeln, wherein at least one joint leg formed as a bar and is able to act together with the first cover strip by moving engagement in the longitudinal groove.

In one embodiment of the joint profile arrangement according to the invention, at least at one joint-side, as the joint facing the end of a joint leg of a cover strip, a skirt to avoid slipping out of the sliding material in the direction of the joint formed. The edge strip is arranged on the side on which the sliding material is arranged. In an embodiment of the joint profile arrangement according to the invention, in which the cover strips, e.g. For example, the third cover strip engages two opposing longitudinal grooves of two first cover strips, for example, the edge strip can be mounted upward in the direction of the opening of the joint.

Also, in a particular embodiment of the joint profile arrangement according to the invention, in which a plurality of cover strips are arranged one above another, the third cover strip with its joint legs or two cover strips in two opposite longitudinal grooves of two first cover strips engage, the joint legs of the cover strips matching Lengths may have. Also, the joint legs of the first cover strip, compared to the joint legs of the opposite third cover strip, be shorter, depending on the requirements and joint training. In addition, it is possible that over or stacked cover strips are distinguished by different lengths of joint leg.

In a particular embodiment of the joint profile arrangement according to the invention, the first cover strip and / or the third cover strip each have at least one joint leg on which the strand-shaped regions of the strip of the second cover strip movably arranged or against which the strand-shaped areas of the strip of the second cover strip movable are attached, wherein between the contact or contact surfaces, at least partially, the highly resilient sliding material with excellent wear resistance and permanent dimensional stability can have.

In a preferred embodiment of the second cover strip of the joint profile arrangement according to the invention, at least one strip is formed on the opposite sides of a central part or web, both strips engage in the longitudinal grooves of the first and the second cover strips movable. In addition, a profile insert a, preferably T-shaped collar of the central part, which is formed on the profile of the insert facing, namely facing the opening of the joint, side of the central part, record. In addition, the tread can accommodate the guide legs of the anchoring profiles, which can extend in a strand shape along the anchoring profile. In a further embodiment of the second cover strip of the joint profile arrangement according to the invention at least two mutually spaced-apart parallel aligned strips are integrally formed on the opposite sides of a central portion or web, which in the longitudinal grooves of several of the first cover strips on one side of the joint and a plurality of the second cover strips on the opposite side of the joint can engage mobile. In addition, a profile insert a, preferably T-shaped collar of the central part, which is formed on the profile of the insert facing, namely facing the opening of the joint, side of the central part, record. In addition, the tread can accommodate the guide legs of the anchoring profiles, which can extend in a strand shape along the anchoring profile. Likewise can the, preferably building-side, arranged as to the joints limiting building parts, ends of the joint legs facing sides of the lower and / or upper portions of at least one strip of the second cover strip in each case a skirt are formed; In addition, at the, preferably joint-side, as directed towards the joint, ends of the lower and / or upper sections facing sides of the joint legs of the first cover strip and / or the third cover strip in each case a skirt are formed.

The reliable low-maintenance device according to the invention is used for effective low-maintenance coverage of a joint, such as expansion or expansion joint, between structures or parts thereof: This includes the joint profile assembly with durable abrasion resistance and high load capacity, a strand-shaped cover strip profile having at least two cover strips between whose facing sides at least partially the highly resilient sliding material is arranged, and two at both edges of the joint of buildings or parts thereof fixable strand-shaped extendable anchoring profiles.

In a preferred embodiment of the operationally reliable low-surveillance device according to the invention, the cover strip profile is connected at its opposite ends, preferably articulated, to an anchoring profile. The hinged connection can provide pivoting and / or movement transverse to the center longitudinal axis of the joint or anchoring or covering strip profile. At least at one of the opposite ends of the cover strips, for example, bead-like longitudinal edges are formed; the longitudinal edges of the facing sides of the anchoring profiles are retracted to form longitudinal channels for receiving the bead-like longitudinal edges. The longitudinal edges may be pivotally and / or positively disposed in the longitudinal channels, such as engaging so as to allow for pivoting, e.g. Height offset or -verschieblichkeit compensate for the joint limiting building parts.

The reliable safe monitoring device according to the invention with its cover strip profile and its anchoring profiles is formed strand-shaped. The anchoring profiles can be connected by the interaction of the cover strip profile with the same sufficiently movable relative to each other and effectively compensate for structural subsidence and / or displacements or parts of the same joint changes in height and / or width, etc. Thus, the anchoring profiles of the first, the second and / or the third cover strip can be connected in an articulated manner. The anchoring profiles can be anchored to the joint-limiting building parts. In an advantageous embodiment of the reliable safe low-voltage device according to the invention, the anchoring profiles each have an anchored to the building part strand-like anchor bar and / or connected to the same and the cover strips or anchor bar strand-like bottom rail. In one embodiment of the fail-safe monitoring device according to the invention, the anchoring profiles are provided with e.g. four cover strip profiles, preferably with two cover strips arranged on or one above the other, which are e.g. are also movable with each other or relatively movable with each other.

Also, the anchoring profile may comprise at least one, preferably L-shaped, bottom rail and / or at least one anchor bar, wherein the bottom rail may be connected by means of connecting means with the anchor bar, preferably longitudinally displaceable relative to each other or adjustable in place. As connecting means are mutually positively, non-positively and / or frictionally cooperating conventional connecting elements, which connecting elements can be configured as longitudinal webs and longitudinal grooves, in which longitudinal grooves the longitudinal webs are able to intervene positively.

The longitudinal webs and longitudinal grooves are displaceable relative to each other, for example, along the center longitudinal axis of the joint profile arrangement according to the invention. At least one connecting element may preferably be formed on the bottom rail, at least one longitudinal groove may be formed in an anchor strip as a connecting element, in which the longitudinal web can engage positively. Suitable connecting elements are, for example, longitudinal webs and longitudinal grooves, which may extend continuously or discontinuously along the center longitudinal axis of the joint profile arrangement according to the invention or along the joint or the center longitudinal axis thereof. The bottom rail and / or the anchor bar may have different configurations, for example L-shaped, T-shaped, U-shaped, I-shaped, W-shaped or double-T-shaped. In the context of the invention, connecting devices are also understood to mean screw connections of conventional type or glued connections, welded connections, riveted connections, screw locks, screw connections, bolts, pin connections and securing elements. Threadlockers can be force and / or friction locks, for example. With the help of the connecting devices, the bottom rail and the anchor bar can be fixed and secured be connected for the purpose of their permanent stability.

At least one T-shaped longitudinal web can be formed as a connecting element on the bottom rail and an anchor strip can have at least one longitudinal groove as a connecting element into which the longitudinal web is able to engage in a form-fitting manner. The cover strip profile facing sides of at least one bottom rail and / or at least one anchor bar can be retracted to form longitudinal channels, in which the longitudinal edges are able to intervene positively and / or pivotally. The bottom rails and / or the anchor strips may be arranged one above the other like a layer, preferably the bottom rails have vertically arranged through holes, in particular the anchor strips can be connected to the bottom rails by means of threaded bolts guided through the through bores of the bottom rails and screwed into the threaded bushes arranged in bottom rails. The bottom rail and / or the anchor bar are preferably connected by means of connecting devices with the structures, parts thereof, the ground and / or the wall.

The invention also relates to the sliding material and its use comprising one or more derivatives of a polyalkylene terephthalate compound, in particular a polyethylene terephthalate compound, with a friction-reducing, preferably solid, e.g. polymerized, may contain lubricant. Polyalkylene terephthalate derivatives, in particular polyethylene terephthalate derivatives, can be prepared, for example, by the transesterification of dimethyl terephthalate with ethylene glycol with elimination of methanol to give bis (2-hydroxyethyl) terephthalate and its polycondensation to release ethylene glycol or by direct polycondensation of ethylene glycol and terephthalic acid.

In one embodiment, in the sliding material and a polyalkylene terephthalate derivative, in particular polyethylene terephthalate derivative may be included, wherein advantageously the polyalkylene terephthalate derivative, in particular polyethylene terephthalate derivative, a homogeneously distributed, possibly finely dispersed, lubricant, such as solid lubricant, the strong friction-reducing acts, may contain.

By incorporating compounds such as foreign building blocks, e.g. Isophthalic acid and / or 1,4-Cyclohexandemethanol and other solid lubricants, these can accumulate on the surface of the sliding material and change its friction and dimensional stability., As solid lubricants are suitable, for example. flaky and / or inorganic solid lubricants.

For the purposes of the invention, solid lubricants are also understood to be those having a layered lattice structure, such as graphite, molybdenum disulfide, etc. Other inorganic compounds are also suitable as solid lubricants, such as boron trioxide, lead monoxide, basic lead carbonate compounds, rings, etc.

In addition, zinc sulfide, calcium difluoride, boron nitride, which can make a high tribological load capacity of the highly loadable sliding material according to the invention possible, can be used.

In addition, as a solid lubricant, e.g. For surface layers, such as the contact surfaces, phosphate, oxide, sulfide, chloride and / or oxalate compounds are used. Suitable metal-organic or organic solid lubricants are plastics, such as polytetrafluoroethylene, waxes, fats, soaps, salts of fatty acids. In addition, EP additives such as epoxy resins may be used, e.g. as oligomeric compounds having more than one epoxide group per molecule can be used.

• Dichte nach ISO 1183-1 und/oder
• Wasseraufnahme in mg nach 24/96 h Lagerung in Wasser von 23°C nach ISO 62, nach Verfahren 1 von ISO 62 durchgeführt an Scheiben mit Durchmesser von 50 × 3 mm und/oder
• Wasseraufnahme in % nach 24/96 h Lagerung in Wasser von 23°C nach ISO 62, nach Verfahren 1 von ISO 62 durchgeführt an Scheiben mit Durchmesser von 50 × 3 mm und/oder
• Wasseraufnahme in % bei Sättigung im Normalklima von 23°C/50% RF und/oder
• Wasseraufnahme in % bei Sättigung im Wasser von 23°C und/oder
• Schmelztemperatur (DSC, 10° C/min) in 0C nach ISO 113 57 -1/-3 und/oder
• Wärmeformbeständigkeitstemperatur in °C (Methode A: 1,8 MPa) nach ISO 75 -1/-2

The properties of the sliding material can be determined with the aid of methods known to the person skilled in the art, for example one or more of the conventional methods listed below:

• Density according to ISO 1183-1 and / or
• Water absorption in mg after 24/96 h Storage in water of 23 ° C according to ISO 62, according to method 1 of ISO 62 carried out on discs with a diameter of 50 × 3 mm and / or
• Water absorption in% after 24/96 h Storage in water of 23 ° C according to ISO 62, according to method 1 of ISO 62 carried out on discs with a diameter of 50 × 3 mm and / or
• Water absorption in% at saturation in normal climate of 23 ° C / 50% RH and / or
• Water absorption in% at saturation in water of 23 ° C and / or
• Melting temperature (DSC, 10 ° C / min) in 0C according to ISO 113 57 -1 / -3 and / or
• Heat distortion temperature in ° C (method A: 1.8 MPa) according to ISO 75 -1 / -2

The upper service temperature limit in air (for a short time), e.g. If only a few hours of temperature stress, no or only a slight mechanical stress occurs, can also be determined by conventional methods.

The thermal conductivity in (W / K.m) at 23 ° C can be determined by conventional methods.

The thermal coefficient of linear expansion of the sliding material or of the sliding disk according to the invention can be determined as an average value between 23 ° C and 60 ° C and as an average value between 23 ° C and 100 ° C.

With the, e.g. upper, service temperature limit in ° C in air (continuous: during 5,000 / 20,000 h), the temperature capacity over 5,000 / 20,000 hours is determined; After these periods, the tensile strength - measured at 23 ° C - has fallen to about 50% of the initial value. The ones listed here, e.g. upper, service temperature limits are based e.g. on the occurring thermal-oxidative degradation, which can cause a reduction in the property level. It may also be considered that the maximum allowable service temperature, however, in many cases, may be primarily dependent upon the duration and magnitude of the mechanical stresses associated with exposure to heat.

The, e.g. lower service temperature in ° C can be determined by a conventional method, and in view of the decrease of the impact resistance with decreasing temperature, the lower service temperature can be determined in practice especially by the magnitude of the impact stresses applied to the material; Values listed here may be based on adverse shock loading conditions, nor can they be considered as the absolute practical limits.

The burning behavior may be determined by conventional methods, e.g. according to ISO 4589 -1 / -2 (oxygen index) in% and according to UL 94 (thickness 3/6 mm).

The mechanical properties listed below and their values at 23 ° C. may be given for the sliding material or the sliding disk dry material in the present case and be largely average values, carried out on test specimens of diameter 40-60 machined from round bars of the sliding material or the sliding disk mm, with the exception of the hardness test from the middle between the core and the outer diameter taken with their length in the rod longitudinal direction (as parallel to the extrusion direction). The mechanical properties can be determined for the sliding material according to the invention and the sliding disk according to the invention, which are present as a dry material and as a material stored to saturation in the normal atmosphere at 23 ° C / 50% humidity.

Tensile tests for the purpose of testing for mechanical properties, with the exception of the hardness tests, can be carried out at 23 ° C. on specimens of diameter 40-60 mm, machined from round bars of the sliding material according to the invention, which are present in the region between the core and The outer diameter can be taken with their length in the rod longitudinal direction (as parallel to the extrusion direction).

The yield stress / elongation at break of the sliding material or the sliding disk as a dry material in MPa can be determined after e.g. ISO 527 -1 / -2, e.g. with test speed: 5 mm / min, selected according to ISO 10350-1 depending on the failure mode of the material (tough or brittle). As a tensile test (eg specimen 1B) at 23 ° C, the yield stress of the up to saturation in normal atmosphere at 23 ° C / 50% RH stored material according to ISO 527 -1 / -2 be determined, the test speed b5 mm / min can, for example, after ISO 10350-1 depending on the type of failure of the sliding material (tough or brittle).

The tensile strength of the sliding material or the sliding disk in MPa, the elongation at break and / or the elongation at break in% can also be determined at 23 ° C according to ISO 527 -1 / -2, the test speed 5 mm / min. may be selected according to ISO 10350-1 depending on the type of failure of the sliding material (tough or brittle).

The tensile elastic modulus of the slip material or sliding washer in MPa may be reduced at 23 ° C to e.g. ISO 527 -1 / -2 can be determined with a test speed of 1 mm / min.

The compressive stress in compression test at 23 ° C can be determined at 1/2/5% nominal compression, with a cylinder as a specimen of the sliding material or sliding washer with a diameter of 12 mm and height of 30 mm and a test speed of 1 mm / min ,

The stress can be determined in a creep tensile test at 23 ° C after 1000 h, which leads to an elongation of 1% (δ _1/1000 ), according to ISO 899-1, wherein the sliding material or the sliding disk as a dry material or as can be present until saturation in normal climate at 23 ° C / 50% humidity mounted sliding material or sliding disk.

The Charpy impact resistance of the sliding material or the sliding disk can be determined with a pendulum impact tester (15 J) according to ISO 179-1 / 1eU and the Charpy notched impact strength can be determined according to ISO 179-1 / leA.

The notched Izod impact strength can be determined according to ISO 180 / A, whereby the sliding material or the sliding disk can be present as a dry material or as a sliding material mounted to saturation in the normal climate at 23 ° C / 50% RH.

The ball compression hardness can be determined according to ISO 2039 -1 and / or the Rockwell hardness according to ISO 2039-2, wherein the properties of the sliding material, which is tested as a 10 mm thick specimen in the form of a disc, in the middle between its core and its outer diameter can be determined.

• Durchschlagfestigkeit nach z.B. IEC 60 243 -1 und/oder
• Spezifischer Durchgangswiderstand nach z.B. IEC 60093 und/oder
• Spezifischer Oberflächenwiderstand nach z.B. IEC 60093 und/oder
• Dielektrizitätszahl ε_r bei 100 Hz nach z.B. IEC 60250 und/oder
• Dielektrizitätszahl ε_r bei 1 MHz nach z.B. IEC 60250 und/oder
• Vergleichszahl der Kriechwegbildung (CTI) nach z.B. IEC 60112.

The electrical properties of the sliding material and / or the sliding disk, which may be present for measuring the electrical properties as a dry material or as stored to saturation in normal atmosphere at 23 ° C / 50% RH, material can be determined at 23 ° C also according to conventional methods eg dielectric strength according to eg IEC 60 243 -1, for example with an electrode arrangement with two coaxial cylinders (diameters 25/75 mm, in transformer oil according to IEC 60296, measured on a 1 mm thick specimen,

• Dielectric strength according to eg IEC 60 243 -1 and / or
• Specific volume resistance according to eg IEC 60093 and / or
• Specific surface resistance according to eg IEC 60093 and / or
• Dielectric constant ε _r at 100 Hz after eg IEC 60250 and / or
• Dielectric constant ε _r at 1 MHz according to eg IEC 60250 and / or
• Comparison of creepage paths (CTI) according to eg IEC 60112.

On the sliding disk facing sides of the cover strip, the sliding disk can be arranged with the sliding material; In addition, the top of the page may be one, e.g. in plan view arcuate, have recess in which the sliding disk is embedded with the sliding material in such a way that the sliding disk protrudes from the side.

In order to achieve a certain amount of lubrication, lubrication pockets can be provided in the sliding disks and / or in the sides of the cover strips against the sliding disks for receiving a supply of lubricant.

In one embodiment, at least one side of the two sides of the cover strips can be formed curved inwards as a bearing surface against which the sliding disk is attached with its outwardly curved outer surface in order to increase the permanent tight fit of the sliding disk.

The cooperation of the sections or regions of the second cover strip with the first cover strip and / or e.g. the third cover strip allows not only a comprehensive stepless but also a slight sliding relative mobility of the components, such as the cover strips, together, such as a lateral, along the center longitudinal axis of the joint, the cover strips and / or anchoring profiles, and at an angle of less than 90 ° to the same.

The use of the highly resilient sliding material with excellent wear resistance and permanent dimensional stability is particularly suitable for devices for covering joints, between structures and / or structural parts, wherein the sliding material contains at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative having a density of 1.3 to 1.6 g / cm ³ , in particular from 1.4 to 1.5 g / cm ³ , even more preferably from 1.44 g / cm ³ , and / or a melting temperature from 180 to 320 ° C, in particular 200 to 300 ° C, more preferably of 245 ° C, and / or a heat distortion temperature of 60 to 90 ° C, preferably 60 to 85 ° C, even more preferably 75 ° C, and / or an upper service temperature limit in air from 150 to 180 ° C, preferably from 150 to 170 ° C, even more preferably from 160 ° C.

The cover strip profiles of the joint profile arrangement according to the invention cooperate with the anchoring profiles such that the cover strip profile with its cover strips in the anchoring profile movable as schenkbar, and / or longitudinally displaceable or rigid, such as immovable, stored or guided. The cover strip profile may comprise the first cover strip and the second cover strip, which are laterally, zu- or against each other movable parallel to the center longitudinal axis A of the cover strip profile movable held: The joint profile arrangement can be fixed to the structures at both edges of the joint , Preferably, parallel to each other extendable anchoring profiles and at least one cover the groove overlap or borderable cover strip profile.

On both sides of the joint or the expansion joint, the anchoring profiles can be located between two adjacent building parts, for example. The anchoring profiles can be connected by at least one cover strip profile with at least two cover strips with permanent sealing of the joint or the joint interior movable relative to each other or relatively movable. The surface of one of the upper Area facing joint leg of the first cover strip of Abdeckleistenleistenprofils can extend with the upper area facing surface of at least one anchoring profile in a plane. It is possible that at least one of the surfaces of the anchoring profiles and / or the surface of one of the upper region facing joint leg of the cover strips of Abdeckleistenleistenprofils have as tread a tread.

Preferably, the areas of the cover strips that lie against each other may additionally be provided with lips for the purpose of sealing them and / or for delaying movement. The surfaces of the joint limbs of the first cover strip facing the lower region and / or the surfaces of the second or third cover strip facing the lower region preferably have at least partial lips, which are preferably producible with elastic, plastic-like materials, which bear against the lips Surfaces of the cover strips motion-delaying and / or sealing cooperate.

As an elastic, plastic-like material is particularly suitable for the sliding material. For example, the lips may be formed on sides of the joint leg of the first cover strip, which face the lower portion, abut against the surfaces of the second or third cover strip or of their joint legs under force due to the inherent elasticity of the lips, so that the relative movements of each other adjacent cover strips are delayed and the gap between these liquid and moisture-proof can be closed.

The opposite cover strips of the cover strip profile can advantageously be relatively movably connected to one another and / or displaceable parallel to the center longitudinal axis A of the joint profile arrangement according to the invention or along the extending expansion joint or joint. In addition, the surfaces of a cover strip and the anchor bar and the surface of the bottom rail flush with the horizontal edges that define the joint, the buildings complete. The anchor bar is preferably connected via the bottom rail with the building. However, since the anchor bar and the bottom rails may have different configurations, the anchor bar can also be connected directly to the cover strip profile. Also, the anchor bar and the bottom rail can be connected together directly to the cover strip profile and / or connected together with the building.

In a particular embodiment, the floor rails or the anchor strips can also be arranged one above the other like a layer.

Both sides of the expansion joint, also called expansion joint, or the joint are the anchoring profiles of the joint profile arrangement according to the invention. The definition of the anchoring profiles depends on the joint design. For example, on both sides of the joint, the floor rails with the anchor strips or on or on one side of the joint a bottom rail with anchor bar and on or on the other side of the joint only one anchor bar may be arranged, which are connected to each other via one or more cover strip profiles.

The bottom rail and / or the anchor bar may also be fixedly connected to the ground, such as floor, ground, wall, etc., by means of coupling means, so as to loosen or detach them from the ground during the transition from the rest position to the loading position, e.g. under load or force due to building construction, to avoid.

The joint profile arrangement according to the invention extends in plan view as a strand along or parallel to its center longitudinal axis. The anchor strips and the bottom rails of the anchoring profiles, the cover strips, such as first cover strip, second cover strip, third cover strips, the cover strip profiles are formed in the plan as strands, they preferably extend strand-shaped along the central longitudinal axis thereof or at least partially along the same depending on Requirement.

Also, the joint profile arrangement according to the invention can be made with at least one representative of the plastic-like, metallic, such as steel, aluminum, glass or carbon fiber reinforced materials comprehensive group.

• die dauerhafte Wasserdichtigkeit,
• hinreichende Beständigkeit und Dichtigkeit gegenüber organischen Lösungsmitteln, Benzin,
• sowie
• eine hohe Belastbarkeit sowie Aufstockbarkeit aus.

Likewise, the joint profile arrangement according to the invention is characterized by

• the permanent waterproofness,
• sufficient resistance and impermeability to organic solvents, gasoline,
• such as
• a high load capacity and Aufstockbarkeit.

Also, the joint profile arrangement according to the invention tolerates setting movements of the structures through the tread, without the slip resistance being restricted.

Furthermore, the joint profile arrangement according to the invention is visually appealing by the profile covering and offers the possibility, depending on the configuration of the joints bounding edges of the structures to be adapted to this, in order to convey a uniform overall aesthetic impression.

Also, the joint profile of the invention provides sufficient tightness between the building parts, regardless of pressure, tension and shear stresses occurring, as well as acting on forces that are able to act perpendicular to the joint profile arrangement.

In addition, the joint profile arrangement according to the invention can have interchangeable components, such as bottom rail, anchor strip, cover strips, in order to ensure ease of repair; In addition, this reduces the maintenance costs in contrast to the prior art.

In addition, the joint profile assembly according to the invention advantageously consists of modular-like composable parts or modules, such as cover strip profile with its cover strips and / or the anchoring profile with its bottom rail and its anchor strips together, so that a high degree of adaptability of the joint profile arrangement according to the invention to various joint designs is possible.

list of figures

• 1 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit den Abdeckungsleisten des Abdeckungsleistenprofils und Ankerschienen und Bodenschienen der beiden Verankerungsprofilen sowie einem Profilbelag,
• 2 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit den in den Verankerungsprofilen schwenkbar gelagerten Abdeckungsleisten des Abdeckungsleistenprofils,
• 3 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit den z.T. mit einer Randleiste 11 versehenen Abdeckungsleisten der mit den beiden Verankerungsprofile,
• 4 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit vier in den Verankerungsprofilen schwenkbar gelagerten Abdeckungsleisten des Abdeckungsleistenprofils unterschiedlicher Fugenschenkellängen,
• 5 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit den Abdeckungsleisten des Abdeckungsleistenprofils und beiden Verankerungsprofilen sowie dem mit der mittigen Abdeckungsleiste und den Verankerungsprofilen verbundenen Profilbelag,
• 6 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit vier in den Verankerungsprofilen schwenkbar gelagerten Abdeckungsleisten des Abdeckungsleistenprofils mit den quer zur Dehnungsfuge verlaufenden Fugenschenkeln übereinstimmender Fugenschenkellängen und
• 7 den Querschnitt durch die erfindungsgemäße strangförmig verlaufende Fugen-Profilanordnung mit den in den Verankerungsprofilen schwenkbar gelagerten Abdeckungsleisten des Abdeckungsleistenprofils übereinstimmender Fugenschenkellängen.

The figures show in a schematic, greatly enlarged manner, without claim to a true to scale reproduction in due to a simplified drawing

• 1 the cross section through the inventive strand-shaped joint profile arrangement with the cover strips of Abdeckleistenleistenprofils and anchor rails and floor rails of the two anchoring profiles and a tread,
• 2 the cross section through the inventive strand-shaped joint profile arrangement with the pivotally mounted in the anchoring profiles cover strips of Abdeckleistenleistenprofils,
• 3 the cross section through the inventive strand-shaped joint profile arrangement with the partially provided with a skirt 11 cover strips of the two anchoring profiles,
• 4 the cross section through the inventive strand-shaped joint profile arrangement with four pivotally mounted in the anchoring profiles cover strips of Abdeckleistenleistenprofils different joint leg lengths,
• 5 the cross section through the inventive strand-shaped joint profile arrangement with the cover strips of Abdeckleistenleistenprofils and two anchoring profiles and the associated with the central cover strip and the anchoring profiles tread,
• 6 the cross section through the inventive strand-shaped joint profile arrangement with four pivotally mounted in the anchoring profiles cover strips of Abdeckleistenleistenprofils with the transverse to the expansion joint joint legs matching joint leg lengths and
• 7 the cross section through the inventive strand-shaped joint profile arrangement with the pivotally mounted in the anchoring profiles cover strips of the cover strip profile matching joint leg lengths.

The joint profile arrangement according to the invention with durable abrasion resistance and high load capacity covers with its strand-shaped cover strip profile 7 that has at least two cover strips 1a . 1b 5, the fugue 35 , for example, as an expansion or expansion joint, between two structures 36 from. The two edges 34 the fugue 35 laterally limit the joint interior 37 ( 1 . 2 ). The joint profile arrangement according to the invention has at least two sides 12 on, as contact or contact surfaces at least partially superimposed surface arranged on surface and due to eg height, oblique and / or width offset of the joint 35 spaced building parts 36 (see arrows 6 ) can be relatively movable each other; Related relative mobility of two components can also be understood within the meaning of the invention whose longitudinal, transverse displacements, displacements at predetermined angles to the center longitudinal axis of the joint 35 at predetermined times, etc. Between the pages 12 in the area of their contact surfaces 60 is the sliding material 4 arranged; the measure of the areal extent of the contact surfaces 60 may depend on the expected height, inclination and width offset of the building parts 36 , It may in one embodiment, the page 12 the bar 3 holding a joint leg 2 is facing, at least in their the building side area 30 with the sliding material 4 ( 6 . 7 ) and in another embodiment the page 12 the bar 3 holding a joint leg 2 facing, full surface with the sliding material 4 ( 6 . 7 ) or the as Sliding disc designed sliding material (not shown).

The first cover strip 1b is fork-shaped in cross-section to form two mutually parallel joint legs 2 or joint legs 2 designed and the second cover strip 5 grabs with her an area or section 3b tongue-like in the of the two joint legs 2 the first cover strip 1b of the cover strip profile 7 limited interior 9 , Also referred to as a groove or longitudinal groove, the first cover strip 1b movable, also called sliding, a. The area 3b does not take the whole through the interior 9 of the first cover profile 1b provided width, so that the area 3b the second cover strip 5 movable in the interior 9 eg guided in Lateralbewegungen is without impact on the groove bottom 39 ,

The second cover strip 5 also engage with their other area or section 3a tongue-like in an interior 9 a third fork-shaped in cross-section to form two mutually parallel joint legs 2 or thighs 2 designed third cover strip 1a movable, also called sliding, one of the two joint legs 2 the third cover strip 1a of the cover strip profile 7 is limited. The first cover strip 1b lies the second cover strip 1a across from ( 1 ., 3 . 6 ). The second cover strip 5 with their two strand-shaped areas n 3a, 3b is integrally formed as a bar and designed rectangular in cross-section. The first cover strip 1b and the second cover strip 1a have at least one joint leg each 2 on which the rope-shaped areas 3a , 3b of the second cover strip 5 are movably arranged; between the areas 3a , 3b of the second cover strip 5 and the Feugenschenkeln 2 the first cover strip 1a and the second cover strip 1a is the highly resilient sliding material as a sliding disc 4 arranged with excellent wear resistance and lasting dimensional stability.

Thus, in an additional embodiment between the facing sides 12 of joint legs 2 and areas 3a , 3b the highly resilient sliding material 4 arranged with excellent wear resistance and lasting dimensional stability ( 4 , 7 ) acting as a sliding washer 4 against the aforementioned pages 12 is scheduled. On at least one of the mutually displaceable facing sides 12 the cover strips 1a , 1b, 5 or on a part thereof, which is suitable as contact surfaces during movements in question, the sliding material is arranged.

In a further embodiment is on at least one of the mutually displaceable facing sides 12 the cover strips 1a , 1b, 5, at least partially applied to a lubricating lacquer layer produced by melting by powder coating method.

In another embodiment, at least one page 12 the two sides of the cover strips 1a , 1b, 5 curved inwards as a contact surface or bearing surface, against which the sliding disk 4 is attached with its outwardly curved outer surface. In a further embodiment of the sliding material is as a sliding disk 4 against a part of the aforementioned pages 12 set that as touch surfaces 41 are adjacent.

The sliding material is at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative; it additionally or alternatively has a density of 1.3 to 1.6 g / cm ³ , in particular of 1.4 to 1.5 g / cm ³ , even more preferably of 1.44 g / cm ³ ; In addition, it has a melting temperature of 180 to 320 ° C, in particular 200 to 300 ° C, even more preferably of 245 ° C, on. Additionally or alternatively, a heat deflection temperature of 60 to 90 ° C, preferably 60 to 85 ° C, even more preferably 75 ° C, for the sliding material of preference; additionally or alternatively, it has an upper service temperature limit in air of from 150 to 180 ° C, preferably from 150 to 170 ° C, even more preferably from 160 ° C. The polyalkylene terephthalate derivative, in particular the polyethylene terephthalate derivative, advantageously contains a homogeneously distributed solid lubricant.

In a further exemplary example, the second cover strip is 5 bifurcated in cross-section to form two mutually parallel joint legs 2 designed so that at least one joint leg 2 is designed as a bar and this with the first cover strip 1b or second 1a cooperates. Interaction is also understood in the context of the invention as guiding the strip 3 with their areas 3a . 3b or a joint leg 2 through the the longitudinal groove 9 laterally limiting joint legs and the mobility of the areas 3a . 3b and the joint leg 2 inside the longitudinal groove 9 without bumping against the longitudinal groove 9 also limiting groove bottom 39 , so that the almost unlimited range of motion 3a 3b and the joint leg 2 in the longitudinal groove 9 is provided.

In a further embodiment, at least at one joint-side end 31 of a joint leg 2 the first cover strip 1b a sidebar 11 molded in order to prevent slippage of the sliding material ( 3 ).

In a further embodiment, the joint legs 2 the first cover strip 1a shorter than the joint legs 2 the opposite third cover strip 1a ( 4 .)

In a further embodiment, the second cover strip 5 in cross section a strand-shaped extending middle part 3c on, at the side of the joint bounding building parts facing sides 20 two spaced strips each with the areas 3a , 3b are formed. The areas 3a , 3b each define an interior space 9a for movably receiving the joint legs 2 the opposite first and third cover strips 1b , 1a. A profile insert 14 takes one at an upper, the profile insert 14 facing side of the middle part 3c molded T-shaped collar 3d and the guide legs 6a the anchoring profiles 6 on. On the building side 30 ends of the joint legs 2 facing sides of the lower areas 3a . 3b the cover strip 5 is each a sidebar 11 molded ( 5 ). Also, at the joint-side 31 ends of the sections 3a , 3b facing sides of the joint legs 2 the first and the third cover strips 1b . 1a one sidebar each 11 formed.

The joint profile arrangement according to the invention extends as a strand in plan view linear over a predetermined length, which is dependent on the joint length. Also the anchor strips 6b and the floor rails 6c the anchoring profiles 6 as well as the first cover strip 1b , the second cover strip 5 , the second cover strip 1a the Abdeckleistenprofil run as a strand in plan view linear over a predetermined length as a function of the joint length.

In one embodiment of the fail-safe monitoring device according to the invention, the latter comprises two on both sides of the joint 35 on the edges 34 of the buildings 36 attached anchoring profiles 6 and the joint profile arrangement with the cover strips 1a . 1b . 5 , 14. The cover strip profile 7 is at its opposite ends 13 articulated with the respective associated anchoring profile 6 connected. At the edges 34 or the sides of the structures 36 are the anchoring profiles 6 , which each have an anchor bar 6b and a bottom rail 6c have, in the upper area 32 coupled. The two anchoring profiles 6 are with the the fugue 35 Coverable cover strip profile 7 connected. The cover strip profile 7 is at its opposite ends 13 articulated with the respective associated anchoring profile 6 connected. At least at one of the opposite ends 13 the cover strips 1a . 1b . 5 of the cover strip profile 7 are bead-like longitudinal edges 8th molded and the longitudinal edges 8th facing sides of the anchoring profile 6 are retracted to form longitudinal channels for receiving the bead-like longitudinal edges; the long edges 8th pivotally engage in the longitudinal channels.

The floor rails 6c and the anchor strips 6b have together vertically arranged through holes 44 on, through which bolts are inserted into threaded sleeves. For example, the bolts can only in the bottom rails 6c arranged threaded sleeves are screwed. The bottom rail 6c is secure with the ground 19 connected to a mobility of the bottom rail 6c relative to the ground 19 to avoid. The floor rails 6c and the anchor strips 6b can be designed differently in cross-section ( 5 ). In one embodiment of the fail-safe monitoring device according to the invention are the anchoring profiles 6 with their anchor strips 6b with the underground 19 connected ( 6 ).

Also, in one embodiment of the fail-safe low-control device according to the invention, at least one of the surfaces of the anchoring profile 6 and / or at least one of the surfaces of the joint profile arrangement of the cover strip profile as treads a tread 14 on.

The highly resilient sliding material with excellent wear resistance and lasting dimensional stability is used for the reliable low-supervision device for covering a joint, such as expansion joints, between buildings or parts 36 same, which contains at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative, having a density of 1.3 to 1.6 g / cm ³ , especially of 1.4 to 1.5 g / cm ³ , more preferably of 1.44 g / cm ³ , and / or a melting temperature of 180 to 320 ° C, in particular 200 to 300 ° C, even more preferably of 245 ° C, and / or a heat distortion temperature of 60 to 90 ° C, preferably 60 to 85 ° C, more preferably still of 75 ° C, and / or an upper service temperature limit in air of 150 to 180 ° C, preferably 150 to 170 ° C, even more preferably 160 ° C.

The cover strip profile in one embodiment comprises two cover strips. The first cover strip is fork-shaped or U-shaped in cross-section with two joint legs. The second cover strip extends in cross-section tongue-like and engages in the formed or bounded by the two joint legs of the first cover strip interior 9 movable. The two cover strips 1a . 1b allow the displaceability of the cover strips to each other, preferably parallel to the horizontal. The cover strip profile with its cover strips 1a . 1b . 5 , the anchoring profile with its bottom rail and its anchor strips extend in a rope shape in plan view. As a result of the interaction of the joint legs 2 the first cover strips 1b and third cover strip 1a with areas 3a , 3b of the second cover strip 5 These may be displaced by the nature of at least one tongue and groove connection.

The first cover strip has a profile covering on its surface, which faces the upper region. Likewise, the surface of the anchor bar of the anchoring profile, which the upper area 32 facing, a tread 14 on. The two surfaces serve as steps for the ascent, ascent by the user. The surface of a cover strip is aligned flush with the surface of at least one anchor bar of the anchoring profile, for example, they run, for example, in the rest position without the occurrence of forces in a plane. Likewise, the surfaces of two cover strips or at least one of the two surfaces may extend with the surface of the one floor rail in a plane which faces the upper area, depending on the configuration of the floor rail. Likewise, the surfaces of a cover strip and the anchor bar and the surface of the floor rail can be flush with the horizontal edges of the structures or extend in a plane, for example, depending on the design of bottom rail and anchor bar. The anchor strip and / or the bottom rail are firmly connected at the two edges of the joint to the structures. The designed as tread surfaces of the cover strips and the surfaces of the anchoring profile are formed as a profile covering. The tread may also have corrugations. The surfaces of the cover strip profile and the anchoring profiles, which face the upper region, have groove-like depressions and rib-shaped elevations. The depressions and elevations may be covered with a plastic-like material which increases slip resistance and strength.

• hinreichenden Ausgleich bei unterschiedlich auftretenden Setzbewegungen der Bauwerke,
• unbeschränkte Aufstockbarkeit,
• vernachlässigbaren Verschleiß der Berührungsflächen,
• dauerhaften Feuchtigkeitsschutz,
• fehlende Korrosionsanfälligkeit,
• vernachlässigbare Betriebskosten für Wartung und Reparatur,
• mangelnde von infolge Reib- und Formschluss bedingte Verkeilung auf bei Dauerbelastung,
• hohes Maß an Bewegungsaufnahme und an Belastbarkeit,
• Verbindbarkeit mit jeweder Art von die Fuge begrenzende Rändern,
• keine infolge fehlender Verformung eingeschränkte Relativbewegung,
• Vermeidung von Eintritt, Verstärkung und Resonanz von Schall in den Fugeninnenraum,
• hoch belastbare Dichtigkeit zwischen den Bauwerksteilen, unabhängig von auftretenden Druck-, Zug- und Scherkräften,
• sowie
• Vermeidung erhöhter Gewährleistungsansprüche gegenüber Herstellern wegen der durch das geschickte Zusammenwirken von Gleitwerkstoff mit Abdeckungsleisten der Abdeckungsleisten- und Verankerungsprofile hervorgerufenen dauerhaft dichten, wartungsarmen, reparaturvermeidenden, hoch belastbaren, einfach für den Benutzer einjustierbaren Eigenschaften.

The joint profile arrangement according to the invention for covering expansion joints and the reliable surveillance device according to the invention for covering a joint, such as expansion joint, distinguished in contrast to the prior art by

• sufficient compensation for differently occurring settling movements of the structures,
• unlimited increase in capacity,
• negligible wear of the contact surfaces,
• permanent moisture protection,
• lack of corrosion susceptibility,
• negligible operating costs for maintenance and repair,
• lack of wedging due to frictional and form-fitting wedging in case of continuous load,
• high degree of movement absorption and resilience,
• Connectivity to any kind of edges bounding the joint,
• no relative movement due to lack of deformation,
• Avoidance of entry, amplification and resonance of sound into the joint interior,
• high load-bearing tightness between the building parts, independent of occurring compressive, tensile and shear forces,
• such as
• Avoidance of increased warranty claims against manufacturers because of the skilful interaction of sliding material with cover strips of Abdeckleistenleisten- and anchoring profiles caused permanently dense, low maintenance, repair-avoidable, highly resilient, easy einjustierbaren for the user properties.

Claims (16)

Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35), such as expansion joints, between structures (36) or parts thereof, which comprises a strand-shaped cover strip profile (7) having at least two cover strips (1a, 1b, 5) , wherein between at least two mutually facing mutually relatively movable sides (12) of the cover strips (1a, 1b, 5) at least partially a highly resilient sliding material (4) with excellent wear resistance and permanent dimensional stability is arranged, which at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative containing at a density of from 1.3 to 1.6 g / cm ³ , more preferably from 1.4 to 1.5 g / cm ³ , even more preferably from 1.44 g / cm ³ , and a melting temperature of 180 to 320 ° C, in particular 200 to 300 ° C, even more preferably of 245 ° C, and a Heat distortion temperature of 60 to 90 ° C, preferably 60 to 85 ° C, even more preferably of 75 ° C. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof after Claim 1 , characterized in that the first cover strip (1b) in cross-section fork-shaped to form two joint legs (2) and the second cover strip (5) has at least one strand-shaped bar (3), with its one area (3b) tongue-like in the longitudinal groove (9) bounded by the two joint legs (2) of the first cover strip (1b) of the cover strip profile (7) and movably guided in the longitudinal groove (9), between the first cover strip (1b) and the second cover strip (5 ), preferably between at least one of the joint legs (2) of the first cover strip (1b) and the strip (5) of the second cover strip (5), the highly resilient sliding material (4) is arranged with excellent wear resistance and permanent dimensional stability. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof after Claim 1 or 2 , characterized in that the third cover strip (1a) in cross-section fork-shaped to form two joint legs (2), the strip (3) of the second cover strip (5) with its other region (3a) tongue-like in the of the two joint legs (2) the third cover strip (1a) of the cover strip profile (7) engages limited longitudinal groove (9) and is movably guided in the same (9) between the third cover strip (1a) and the second cover strip (5), preferably between at least one of Joint legs (2) of the third cover strip (1a) and the strip (5) of the second cover strip (5), the high-load sliding material (4) is arranged with excellent wear resistance and permanent dimensional stability. Joint-profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that at least at one of the adjacent ends of the joint legs (2) has a skirt ( 11) is formed to avoid slipping out of the sliding material and / or the joint legs (2) of the third cover strip (1a) shorter than the joint legs (2) of the first cover strip (1b). Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that the second cover strip (5) in cross-section two parallel aligned strips (3 ) formed on opposite sides (20) of a strand-shaped extending central part (3c) and longitudinal grooves (9A) are delimited, in each of which a joint leg (2) of the first cover strip (1b) Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that the third cover strip (1a) engage tongue-like and are movably guided, a profile insert (14) a, on an upper, the profile insert (14) facing side of the central part (3c) integrally formed, preferably T-shaped, collar (3d) receives and guide legs (6a) of anchoring profiles (6) is designed to receive, preferably Building side (30), ends of the joint legs (2) facing sides of the regions (3a, 3b) of the strips (3) of the second cover strip (5) each have a strand-shaped edge strip (11) is integrally formed. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding Claims 5 to 7 , characterized in that at least one, preferably joint-side, ends (31) of the joint legs (2) of the first cover strip (1 b) and / or the third cover strip (1 b) each have a skirt (11) is integrally formed. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that the polyalkylene terephthalate derivative, in particular the polyethylene terephthalate derivative, a homogeneously distributed solid lubricant contains. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof after at least one of preceding claims, characterized in that on at least one of the mutually displaceable facing sides (12) of the cover strips (1 a, 1 b, 5) of the sliding material is arranged. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that on at least one of the mutually displaceable mutually facing sides (12) of the cover strips ( 1a, 1b, 5), a, preferably by melting by means of powder coating process produced, Gleitlackschicht is at least partially applied. Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that the sliding material is designed as a sliding disk (4). Joint profile arrangement with durable abrasion resistance and high load capacity for covering a joint (35) between structures (36) or parts thereof according to at least one of the preceding claims, characterized in that at least one side of the two sides of the cover strips (1a, 1b, 5) curved inwards as a bearing surface is formed, against which the sliding disk (4) is attached with its outwardly curved outer surface. A fail-safe low-surveillance device for covering a joint, such as expansion joints, between structures or parts thereof, with a joint profile assembly having durable abrasion resistance and high load capacity, comprising a strand-shaped cover strip profile (7) comprising at least two cover strips (1a, 1b, 5), characterized in that between at least two facing mutually relatively movable sides (12) of the cover strips (1a, 1b, 5) at least partially a highly resilient sliding material (4) is arranged and the cover strip profile (7) at least two at both edges of the joint of buildings or parts of the same fixable strand-extendable anchoring profiles (6), which are connected to the cover strips (1a, 1b, 5) of the cover strip profile (7). Reliable, low-supervision device for covering a joint between structures or parts thereof Claim 13 , characterized in that formed on at least one of the opposite ends (13) of the cover strips (1a, 1b, 5) a bead-like longitudinal edge (8), the longitudinal edge (8) facing side of the anchoring profile (6) to form a longitudinal channel for receiving the longitudinal edge (8) retracted and the longitudinal edge (8) are arranged pivotably in the longitudinal channel. Reliable, low-supervision device for covering a joint between structures or parts thereof Claim 14 , characterized in that the cover strips (1a, 1b, 5) with anchored to building parts (36) anchoring profiles (6) are connected, the anchoring profiles (6) each anchored to the building part anchor bar (6b) and / or one with the Anchor bar (6b) connected bottom rail (6c) or with the cover strips (1a, 1b, 5) connected bottom rail (6c). Use of a heavy-duty sliding material with excellent wear resistance and lasting dimensional stability for devices for covering joints, such as expansion joints, between structures and / or structural parts after at least one of Claims 13 to 15 , Characterized in that the facing each other between at least two, arranged relative to each other movable sides of the device sliding material comprises at least one polyalkylene terephthalate derivative, in particular at least one polyethylene terephthalate derivative with a density of 1.3 to 1.6 g / cm ^3, in particular from 1.4 to 1.5 g / cm ³ , even more preferably from 1.44 g / cm ³ , and a melting temperature of from 180 to 320 ° C, especially from 200 to 300 ° C, even more preferably from 245 ° C , and a heat distortion temperature of 60 to 90 ° C, preferably 60 to 85 ° C, even more preferably of 75 ° C.

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