• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Cut protection strip (10), for use in the wet and wet area of a building, wherein the cut protection strip (10) comprises: a strip length (Lx) and a perpendicular strip width (b), wherein the strip length (Lx) with the strip width perpendicular thereto (b) defines a plane, wherein the cut protection strip (10) comprises a plastic material and / or a composite material and / or metallic material which, due to its structure and / or material properties, provides protection against damage or cutting with a sharp object, and wherein Cut protection strip (10) is at least partially designed for embedding in a liquid material (20).
    公开号:CH711947A2
    申请号:CH01891/15
    申请日:2015-12-22
    公开日:2017-06-30
    发明作者:Schacher Hans
    申请人:Rivaplan Ag;
    IPC主号:
    专利说明:

    Description: The invention relates to a cut protection strip and to a method for applying a cut protection strip.
    There are areas in and on buildings which need special protection, e.g. to prevent damaging a seal. These include, in particular, corners, edges, joints and transition areas in damp and wet areas.
    There are joints in and on buildings, which are provided with a mostly elastic grout. Such joints are provided, for example, as expansion joints in areas where different materials meet. However, expansion joints are also used e.g. provided in the floor area to subdivide floating floor coverings. In the sanitary sector, such joints result, inter alia, in the connection area between sanitary installations (for example a bathtub) and a subsequent wall covering (for example in the form of tiles). Furthermore, such joints also result in the transition region between a floor covering and a wall covering, tiles and mosaics (for example in swimming pools) and also in room corners, to name but a few.
    If subsidence of the grout show, or if the grout should have become unsightly, it is often removed by means of a carpet knife or other sharp object from the joint, before then new grout is introduced. This can lead to the destruction of underlying layers. Thus, e.g. A sealing tape or connecting band can be cut or a liquid seal or a special seal can be cut through. As a result, moisture, e.g. penetrate into a wall.
    It has as its object to provide a cut protection strip, which handle well and preferably well wound and thus can be transported. In particular, however, the cut protection function of the cut protection strip should not be affected.
    This object is achieved by a cut protection strip according to claim 1. A corresponding method can be found in claim 10. Advantageous embodiments are contained in the subclaims.
    A cut protection strip of the invention is specifically designed for use in wet and wet areas of a building, the cut protection strip - has a strip length and a perpendicular strip width, wherein the strip length defines a plane perpendicular to the strip width, - a plastic material and / or a composite material and / or metallic material which, due to its structure and / or material properties, provides protection against damage or cutting with a sharp object, and - the cut protection strip has at least one area for adhering or embedding in a liquid material and / or for gluing over with a sealing membrane.
    A cut protection strip of the invention is preferably mounted by means of the following method in the wet and wet area of a building, wherein the cut protection strip - has a strip length and a perpendicular strip width, the strip length defined with the perpendicular strip width a plane, a plastic material and / or a composite material and / or metallic material which, due to its structure and / or material properties, provides protection against damage or cutting with a sharp object, and - the cut protection strip comprises at least one area for embedding in a liquid material [ 0009] said method comprising the steps of: a) providing a strip length of the cut protection strip, b) applying a liquid material to at least a portion of the surface of the building, c) arranging or incorporating at least a portion of the cut protective strip into the liquid material.
    The cut protection strip is designed in all embodiments for use in wet and wet areas of a building and the cut protection strip has a strip length and a strip width perpendicular thereto, the strip length with the strip perpendicular thereto defines a plane width.
    The cut protection strip is preferably used in all embodiments in the following constellation or sequence, as here the order of the wall is described in the direction of space: - wall (eg masonry or concrete wall), - plaster, - liquid material (eg sealing sludge), which is preferably applied together with a flexible connection tape or sealing tape, - cut protection strips (inserted or embedded in the liquid material), tile adhesive or mortar, wall covering (eg tiles) or -Verkleidung.
    Furthermore, the cut protection strip in all embodiments comprises a metallic material and / or a plastic material and / or a composite material, which offers protection against damage or cutting with a sharp object due to its structure and / or material properties.
    In addition, the cut protection strip is in all embodiments at least partially, preferably in at least one strip-shaped area, designed for bonding with a liquid material and / or for embedding in a liquid material and / or for pasting a sealing sheet.
    The word "liquid material" is used herein to describe materials and mixtures of materials to be processed in the liquid or pasty state. In particular, it is about materials that are sprayable, spreadable, rollable or spatula-capable.
    The said liquid material is preferably a material which is designed for one or more of the following purposes / applications: liquid seal, liquid film, composite seal, sealing slurry, wall or floor paint, bottom and / or bottom or which is designed as: - mortar, - adhesive (eg butyl), - flask, - impregnation - dispersion - foam (eg PU-based) - liquid plastic.
    In addition or alternatively to the liquid materials mentioned, there are products which fulfill a similar purpose. These products, collectively referred to herein as a sealing web, typically comprise a strip-shaped substrate and an adhesive or adhesive layer. The cut protection strip of the invention can also be fastened with such a sealing sheet in all embodiments. Such a sealing strip can be designed to be self-adhesive on one or both sides.
    The cut protection strip of the invention can be used in all embodiments but also without a sealing web.
    The cut protection strip can in all embodiments at least one flat metal strip (eg chromium-nickel steel) or plastic strips (for example, a thermoplastic elastomer and / or polypropylene) or a composite strip (eg plastic (s) in conjunction with fibers or tissue) include.
    The inventive cut protection strip can be designed in all embodiments as a one-piece cut protection strip, which consists entirely of a cut-resistant material (apart from any adhesives for fastening or embedding).
    The cut protection strip may comprise stripes or regions of at least two different materials in all embodiments.
    The cut protection strip may in all embodiments comprise at least one strip or region with a material which is flexible in the plane and whose surface is specially designed for embedding in a liquid material.
    The cut protection strip may comprise in all embodiments at least one strip or region with a material and / or with a structure which is specially designed for (overlapping) sticking with a sealing web.
    The surface is preferably designed in all embodiments specifically for embedding in the liquid material by the surface rough and / or porous and / or sanded and / or structured to when embedding with the liquid material and / or during (overlapping) sticking over to be able to enter a permanently fixed connection with a sealing membrane.
    The cut protection strip may optionally comprise in all embodiments a first (longitudinal) strip, a second (longitudinal) strip and a longitudinal bead, longitudinal groove or a connection region which extends parallel to the strip length and the / between the first longitudinal strip and the second longitudinal strip is arranged. In the following, these constellations are generalized as a transition region.
    The transition region can be provided in all embodiments with longitudinal slots, oblong holes or with another form of perforation, which extends parallel to the strip length of the cut protection strip. By this perforation, a desired bending point can be defined, which makes it possible to bend a strip of the cut protection strip out of the plane. This perforation may additionally or alternatively define a desired separation line which, when lowering a floor relative to an adjacent wall, automatically separates a first strip (which is fixedly connected to the wall) from a second strip (eg fixed to the floor) connected).
    This optional transitional area (with or without perforation) defines, if present, a flexing area or hinged flap of a first longitudinal stripe relative to a second longitudinal stripe. The use of the word "transition region" is therefore to be understood as a means of achieving this flexibility or foldability.
    A cut protection strip is preferably used as follows: the cut protection strip is provided either in its flat form (eg as a rod product) or in an angled form and then at least partly embedded in the liquid material, or the cut protection strip becomes in a rolled up form provided and unrolled before assembly and then at least partially embedded in the liquid material.
    A method for applying a cut protection strip in the wet and wet area of a building preferably comprises the steps listed under a) to d). b) applying a liquid material to at least part of the surface of the building, c) arranging or introducing at least a portion of the cut protection strip into the liquid material, d) attaching e.g. a wall and / or floor covering.
    According to the invention, a cut protection strip is provided, which is preferably suitable in all embodiments especially for use in the field of sanitary rooms, kitchens and swimming pools. In particular, the cut protection strip should be used in the field of sanitary facilities (for example, in bathrooms or in public toilets or shower areas), kitchens, swimming pools, saunas and similar areas.
    Preferably, the cut protection strip is designed in all embodiments specifically for use along a horizontal longitudinal axis of a device for guiding water or for receiving water.
    The cut protection strip can be used in all embodiments in the following exemplified facilities: bathtubs, shower trays, shower channels, gutters or pots, sinks, vanities or furniture.
    The most diverse applications in or on buildings are summarized here with the term "wet and wet area".
    Preferably, the cut protection strip can be used in all embodiments where there is a gap between tiles, stoneware, slabs or the like.
    Optionally, the cut protection strip in all embodiments can be combined with sealing tapes (for example with tub tapes) and connection tapes of various types.
    The cut protection strip can form a functional unit in all embodiments together with an optional sealing tape or connecting band, this functional unit provides particularly good and lasting results.
    The cut protection strip preferably sits in all embodiments on the room side before the optional sealing tape or connecting band and protects it from damage, for. when removing grout using a knife.
    Optionally, the cut protection strip in all embodiments comprise a grid structure as a cut-resistant strip. Particularly suitable is a metal grid structure, a plastic grid structure, a fabric grid structure or a fiber grid structure. In such a lattice structure, especially the structure of the strip provides protection against damage or cutting with a sharp object.
    By definition, it should be in the lattice structure to a (solid) network, fabric, braid, perforated plate, expanded metal or scrim, which is preferably flexible in the plane. The term "lattice structure" is used here as a generic term for the structures mentioned.
    Preferably, the grid structure is designed so flexible in all embodiments, that a longitudinal section of the grid structure and / or the cut protection strip can be rolled up.
    These grid structures, if present, are suitable for both one-piece and multi-piece (multi-strip) embodiments of the invention.
    The grid structure, if any, in all embodiments includes holes, openings, recesses or meshes, which are preferably smaller than 5 mm.
    Furthermore, the term "strip" is intended to indicate that the geometry in one direction, the so-called "strip longitudinal direction", extends far, while the measured perpendicular thereto width and thickness of the strip are much lower. Typically, the cut protection strip has a transverse cross-section with a width which is (several times) greater than the thickness of the strip.
    The width of the cut protection strip can be in all embodiments, for example, between about 1 cm and 20 cm.
    Its thickness may typically be between about 0.1 mm and 5 mm in all embodiments.
    The cut protection strip can be two-ply or multi-ply in all embodiments.
    The cut protection strip may be two-strip or multi-strip in all embodiments.
    The cut protection strip described has the advantage that it can easily be wound up for storage and for transport on a roll. The cut protection strip described can also be supplied as a rod material.
    Because of its flexibility, the cut protection strip can be used in all flat embodiments, e.g. lead around a rounding during installation. Therefore, such a cut protection strip may preferably also be laid around edges and radii of (sanitary) objects or devices. In angled embodiments, cuts may be made in the area of an angled foot strip to provide the cut protection strip e.g. to lay around edges and radii.
    At least one longitudinal edge of the cut protection strip may optionally have a different material and / or a different structure in all embodiments than the cut-resistant part of the cut protection strip. Such a cut protection strip can be handled better, since it can be used during installation e.g. can be held with the fingers on the longitudinal edge and / or because it can be better embedded.
    At least one longitudinal edge of the cut protection strip may in all embodiments optionally comprise a nonwoven, fibrous or web material to facilitate embedding of the cut protection strip, e.g. in a liquid material (e.g., a composite seal).
    All embodiments may have an optional transition region, as already mentioned.
    The optional transition region may in all embodiments be located centrally on the cut protection strip (e.g., on a grid structure). However, the optional transition region can also be arranged externally in all embodiments, but this always extends parallel to the longitudinal direction of the cut protection strip.
    At least one surface of the cut protection strip may optionally be provided in all embodiments with an adhesive to the cut protection strip on a building surface (eg a wall or a floor), an object (bathtub, shower channel, etc.) or another product part (sealing tape , Sealing foil, tub strap, etc.).
    If the cut protection strip of the invention is used together with a sealing tape or tub band, then soundproof strips are preferably used on the room side and / or on the wall side.
    Preferably, in all embodiments, a butyl adhesive can be used.
    The cut protection strip may in all embodiments optionally be provided with at least one sealing sheet which allows attachment / connection of the cut protection strip to a wall and / or to a floor. In this case, the sealing membrane would be included.
    The cut protection strip can however also be supplied without accessories (for example without a sealing strip) in all embodiments.
    The various embodiments of the invention, which are composed of several parts or elements can also be supplied in individual parts and connected to each other on site. For this purpose, adhesive bonds, e.g. used to form a cut resistant strip of material with e.g. two non-woven strips to connect to an operational cut protection strip, be covered with removable protective films.
    Further details and advantages of the invention will be described below with reference to embodiments and with reference to the drawings. It should be noted that the drawings are not to scale. Above all, the thicknesses of the various elements are not shown in real relationship to each other.
    Fig. 1A shows a schematic view of a first one-piece cut protection strip according to the vorlie invention, which consists entirely of a cut-resistant strip of material (right, the exemplary process of embedding / fastening is shown);
    Fig. 1B is a schematic cross section taken along the line I-I of Fig. 1A;
    Fig. 1C shows a schematic view of another one-piece cut protection strip according to the vorlie invention, which consists entirely of a cut-resistant strip of material (the left is the exemplary process of attachment by means of an adhesive strip or tape shown);
    Fig. 2 shows a schematic view of another cut protection strip according to the present inven tion, comprising a cut-resistant strip of material and edge strips;
    Fig. 3 shows a schematic view of another cut protection strip according to the present inven tion, comprising a cut-resistant grid strip and edge strips, the grid strip is placed outside the center;
    Figs. 4A-4H show detail enlargements of various exemplary materials suitable as a cut resistant strip material;
    Fig. 5A shows a schematic view of another one-piece cut protection strip according to the prior invention, which consists entirely of a lattice structure and which includes an optional longitudinal bead;
    Fig. 5B is a schematic cross section taken along the line I-I of Fig. 5A;
    Fig. 5C shows a schematic cross section of another multi-piece / multi-strip cut protection strip according to the present invention;
    Fig. 5D shows a schematic cross section of another multi-piece / multi-strip cut protection strip according to the present invention;
    Fig. 5E shows a schematic cross section of another multi-piece / multi-strip cut protection strip according to the present invention in its flat form;
    Fig. 5F shows a schematic cross section of the cut protection strip of Fig. 5E in its angled
    Shape;
    Fig. 6A is a schematic perspective view of a length portion of a cut strip with a longitudinal bead;
    Fig. 6B is a schematic perspective view of a short length portion of the cut protection strip of Fig. 6A after a longitudinal strip of the lattice structure has been bent forward.
    In the following, location and direction are used in order to better describe the invention. These details refer to the respective installation situation and should therefore not be interpreted as a restriction. In order to better define the location and direction information, a reference to the wall (also called vertical surface) is partially made, in which e.g. from a wall-near element, a wall facing, wandab-facing surface or a wall-parallel assembly is the speech.
    The invention will be described below with reference to some embodiments.
    Cut protection strips 10 are shown here which, in the flat state, have a strip length Lx (parallel to the x-axis) and a strip width b perpendicular thereto (parallel to the y-axis). In the figures (except in Figs. 5F and 6B), various embodiments are shown in a flat state, respectively. In Fig. 5F and Fig. 6B cut protection strips 10 are shown in the angled mounting form.
    All embodiments can be converted from the flat state to an angled mounting form as needed, or they can already be provided in the angled mounting form.
    The cut protection strip 10 is designed in all embodiments for use in the wet and wet area of a building. Corresponding examples of cut protection strips 10 are shown in the figures.
    The cut protection strip 10 preferably has a strip length Lx and a strip width b perpendicular to it, the strip length Lx defining the plane E perpendicular to the strip width b.
    Furthermore, in all embodiments, the cut protection strip 10 comprises a plastic material and / or a composite material and / or metallic material which, due to its structure and / or material properties, provides protection against damage or cutting with a sharp object (e.g., with a knife).
    A material that offers protection against damage or cutting by virtue of its material properties can be used in all embodiments, e.g. have a hardness (such as metal or hard rubber) that prevents or impedes damage or cutting with a metal blade. However, the material can also be added by adding or adding e.g. an additive (e.g., by adding corundum, metal particles, nanoparticles, or fibers to a plastic material).
    A strip which, by virtue of its structure, offers protection against damage or cutting can be used in all embodiments, e.g. have a grid structure or a profiled surface.
    In addition, the cut protection strip 10 is in all embodiments at least partially (preferably in at least one strip-shaped area) designed for embedding in a liquid material and / or for gluing with a sealing membrane. The corresponding area is provided with the reference symbol Eb in the figures. Either at least one of the strips of cut protection strip 10 is suitable for embedding therein (as is the case, for example, with a lattice strip of Figures 4A-4F), or area Eb is embeddable by (after) treatment. In the context of such (after) treatment, e.g. the surface of the region Eb is rough and / or porous and / or sanded and / or structured in order to be able to enter into a permanently firm connection when embedding with the liquid material. The cut protection strip 10 may e.g. can be embroidered and / or pasted over by bonding with fleece.
    Fig. 1A shows a schematic view of a first one-piece cut protection strip 10, which consists entirely of a cut-resistant strip of material. Fig. 1B shows a schematic cross-section along the line l-l of Fig. 1A.
    On the right in Fig. 1A, a portion of the cut protection strip 10 is shown, which has been coated with a liquid material 20 or embedded. A brush is indicated to show that the liquid material 20 is e.g. Can be applied with a brush. Here, the liquid material 20 is preferably used for embedding the region Eb, wherein when embedding at least the wall surface is provided with liquid material 20, before then the cut protection strip 10 is inserted into this liquid material 20. When embedding, it is preferably ensured that the liquid material 20 penetrates the region Eb. The region Eb can also be coated with the liquid material 20 on its front side (as indicated in FIG. 1A).
    Fig. 1C shows a schematic view of another one-piece cut protection strip 10, which consists entirely of a cut-resistant strip of material. On the left in Fig. 1C, a short section of adhesive tape or adhesive sheet 19 is shown overlapping / overlying a portion of the upper region Eb. Preferably, such an adhesive strip or adhesive sheet 19 is adhered in one piece along the cut protection strip 10 to form the cut protection strip 10, e.g. to connect with a wall.
    The cut protection strip 10 may comprise a flat metal strip and / or plastic strips and / or composite strips in all embodiments. In Figs. 1A and 1C, e.g. a flat metal strip 10.1 serve as a cut protection strip 10. In Fig. 2, e.g. a flat plastic strip 10.2 serve as a cut protection strip 10.
    In all embodiments, the cut protection strip 10 may comprise a planar lattice structure 11, which is a net, a woven fabric, a braid, a perforated plate, an expanded metal or a scrim, wherein the flat Lattice structure 11 provides protection against damage or cutting due to its structure and / or material properties.
    In FIGS. 3, 5A, 5B, 5C, 5D, 5E, 5F, 6A, 6B cut protection strips 10 are shown with exemplary lattice structure 11.
    A grid structure, if used, may in the corresponding embodiments have holes, recesses or meshes smaller than 5 mm.
    As a lattice structure, if this is used, can in the corresponding embodiments - a network (see, for example, Fig. 4C), - a tissue, - a mesh (see, for example, Fig. 4A), - a perforated plate (see, eg 4D), - an expanded metal (see eg 4B, 4E) or - a scrim (preferably of several layers) serve.
    The cut protection strip 10 may comprise strips or (strip-shaped) regions of at least two different materials in all embodiments. Here, therefore, a distinction is made between first strips 10.1 and second strips 10.2, where appropriate.
    In Fig. 2, for example, a cut protection strip 10 is shown, which comprises either a continuous first strip 10.1 and a second strip 10.2 disposed thereon, or comprises an upper edge strip 12, a lower edge strip 13 and a middle cut-resistant strip 10.2.
    The cut protection strip 10 may comprise in all embodiments at least one strip or area with a material which is flexible in the plane E and whose surface is preferably designed for embedding in a liquid material 20 and / or for gluing with a sealing membrane 19. Preferably, all are
    Embodiments to a nonwoven, fibrous or fabric material, which can be wetted and / or penetrated by the liquid material 20 when embedding due to its surface texture and / or porosity and / or tissue structure, or form a solid connection with an at least partially overlapping sealing membrane 19 can.
    In Fig. 2, for example, a cut protection strip 10 is shown, the strip 12, 13 comprises a nonwoven, fiber or fabric material. In Fig. 3, for example, a cut protection strip 10 is shown with grid structure 11, the strip 12, 13 comprises a nonwoven, fiber or fabric material.
    The cut-resistant strip can be arranged centrally or eccentrically with respect to the nonwoven, fibrous or fabric material, as can be seen from a comparison of the two examples of FIGS. 2 and 3.
    Different grid structures 11 are shown in FIGS. 4A to 4F. These grid structures 11 are suitable both for one-piece / single-strip and for multi-piece / multi-strip embodiments of the invention. All embodiments are preferably metal or plastic grid structures 11. FIG. 4D shows an exemplary perforated plate. In Fig. 4G, there is shown another cut-resistant plastic material 10.2 whose (surface) structure is rough due to the addition or addition of an additive (e.g., corundum). FIG. 4H shows another cut-resistant material 10.2. It can be here for example to be a fibrous material (e.g., Kevlar).
    The cut resistance can be achieved or improved in all embodiments by addition / addition of fibers, spheres or granules in the plastic material or in the composite material.
    The cut protection strip 10 may optionally include in all embodiments a first longitudinal strip 10.1, a second longitudinal strip 10.2, and a longitudinal bead, longitudinal groove, or joint region extending parallel to the strip length Lx, referred to herein as a transition region 14. The transition region 14 is located, for example, between the first longitudinal strip 10.1 and the second longitudinal strip 10.2. A corresponding example of an embodiment with a longitudinal bead or longitudinal groove as the transition region 14 is shown in FIGS. 5A and 5B. Several examples with an adhesive-based transition region 14 are shown in FIGS. 5C-5F.
    In Fig. 5C are two longitudinal strips 10.1, 10.2 in a common plane and the transition region 14 is below the longitudinal strips 10.1, 10.2.
    In contrast, in FIG. 5D, the second longitudinal strip 10.2 overlaps the first longitudinal strip 10.1, and the transition region 14 results between the two longitudinal strips 10.1, 10.2.
    FIG. 5E shows another flat constellation of a cut protection strip 10 with transition region 14, in which the second longitudinal strip 10.2 overlaps the first longitudinal strip 10.1. The transition region 14 results between the two longitudinal strips 10.1, 10.2 and is defined by an adhesive strip 18. When bending the second longitudinal strip 10.2 relative to the first longitudinal strip 10.1 results in a hinge effect due to the connection with the adhesive strip 18, wherein the hinge point is not at the right end of the first longitudinal strip 10.1 but on the left. In the angled state, there is no L (in cross-section), but a T.
    A transition region 14, if present, may in all embodiments comprise one or more than one adhesive strip 16, such as e.g. shown in Fig. 5C, 5E, 5F.
    A transition region 14, if present, may comprise a second adhesive strip 17 in all embodiments, as shown in exploded view in Fig. 5C.
    In transition region 14 embodiments, an adhesive 15 (e.g., butyl) is preferably used.
    In concrete terms, an embodiment of a cut protection strip 10 with a longitudinal bead or groove as the transition region 14 is shown in FIGS. 5A and 5B. This cut protection strip 10 consists of the first longitudinal strip 10.1, the second longitudinal strip 10.2 and the longitudinal bead or groove. It can be seen in section along the section line 1-l that, for example, a longitudinal cavity can serve as a longitudinal bead or groove as a transition region 14. The material of the longitudinal bead or groove is here identical to the material of the longitudinal strips 10.1, 10.2. The cut protection strip 10 of FIGS. 5A and 5B is in one piece, but may also be multi-piece / strip.
    This optional transition region 14, if present, defines a flexure that allows hinged flaps of a first longitudinal stripe 10.1 relative to a second longitudinal stripe 10.2. The longitudinal bead or groove, if present, does not necessarily have to represent a cavity when viewed in cross-section, as is the case in FIG. 5B.
    The cut protection strip 10 may be designed in all embodiments so that it can be converted from a flat shape (Fig. 6A) into an angled mounting form, as shown in Fig. 5F or in Fig. 6B. This is done by bending or folding at least one of the longitudinal strips 10.1, 10.2 of the cut protection strip 10 out of the plane E out of the transition zone 14 into an angled position.
    A longitudinal bead or groove, if present, preferably has an extension b1 parallel to the strip width b, which is between 1 mm and 1 cm.
    Preferably, the cut protection strip 10 is applied / used in the region of a joint to be formed. The cut protection strip 10 can also be used in other areas on or in a building.
    权利要求:
    Claims (12)
    [1]
    A method for applying a cut protection strip 10 in the wet and wet area of a building preferably comprises the steps listed under a) to d). a) providing a strip length Lx of the cut protection strip 10, b) applying a liquid material 20 to at least part of the area of the building, c) arranging or introducing at least a portion of the cut protection strip 10 into the liquid material 20, d) attaching e.g. a wall and / or floor covering. Instead of working with a liquid material 20 (as indicated in Fig. 1A), an adhesive strip or adhesive sheet 19 may also be used (indicated in Fig. 1C). In all embodiments, the cut protection strip 10 can also comprise a flat plastic, metal or composite material (for example Kevlar with flarz) as the base material of the longitudinal strips 16.1, 16.2, wherein these materials, respectively the longitudinal strips 16.1, 16.2, have to be cut-resistant. [0100] Cut protection strip 10 First (longitudinal) strip (metal strip, metallic strip, plastic strip, composite strip) 10.1 Second (longitudinal) strip (metal strip, metallic strip, plastic strip, composite strip) 10.2 Grid section / region / structure 11 Upper Edge strip 12 Bottom edge strip 13 Transition area (longitudinal bead or groove or hinge or joint area) 14 Adhesive 15 Adhesive strip 16 Adhesive strip / Cover strip 17 Adhesive strip 18 Adhesive strip 19 Liquid material 20 Strip width b Expansion bi Thickness d Plane E Area to embed Eb Cut line ll Strip length Lx Coordinate system x, y, z claims
    A cut protection strip (10) for use in the damp and wet areas of a building, the cut protection strip (10) having a strip length (Lx) and a strip width (b) perpendicular thereto, the strip length (Lx) being perpendicular to it standing strip width (b) defines a plane (E), - comprises a plastic material and / or a composite material and / or metallic material which, due to its structure and / or material properties, provides protection against damage or cutting with a sharp object, and wherein the cut protection strip (10) comprises at least one region (Eb) for adhering or embedding in a liquid material (20) and / or for gluing with an adhesive strip or adhesive sheet (19).
    [2]
    2. cut protection strip (10) according to claim 1, characterized in that it comprises a flat metal strip (10.1; 10.2) or plastic strips (10.1; 10.2) or composite strips (10.1; 10.2), in the plane (E) or parallel to the Level (E) is located and due to its material properties provides protection against damage or cutting through.
    [3]
    3. cut protection strip (10) according to claim 1 or 2, characterized in that it comprises at least one strip (10.1; 10.2) in the form of a grid structure (11), which is - a network, - a fabric, - a braid , - a perforated plate, - an expanded metal, or a - is a scrim, wherein the grid structure (11) due to their structure and / or their material properties provides protection against damage or cutting through.
    [4]
    4. cut protection strip (10) according to any one of claims 1, 2 or 3, characterized in that it comprises strips (10.1; 10.2, 12, 13) or regions of at least two different materials.
    [5]
    Cut protection strip (10) according to claim 4, characterized in that - the area (Eb) for embedding comprises a material which is flexible in the plane (E) and whose surface is designed to be embedded in the liquid material (20) the material is preferably a nonwoven, fibrous or web material, or that the region (Eb) has a surface that is rough and / or porous and / or sanded and / or textured to cover the region (Eb ) with the adhesive strip or with the adhesive sheet (19) over.
    [6]
    6. cut protection strip (10) according to any one of claims 1 to 5, characterized in that the strip length (Lx) is greater than the strip width (b), wherein the strip width (b) is preferably between 1 cm and 20 cm, the cut protection strip ( 10) has a thickness (d) which is perpendicular to the plane (E) and which is preferably smaller than 5 mm.
    [7]
    7. cut protection strip (10) according to any one of claims 1 to 5, characterized in that it has a longitudinal bead or longitudinal groove with an extent (bi) parallel to the strip width (b), which is preferably between 1 mm and 1 cm.
    [8]
    8. cut protection strip (10) according to one of claims 1 to 5, characterized in that it comprises at least two strips (10.1; 10.2) and a transition region (14), wherein the two strips (10.1; 10.2) in the transition region (14) with each other are connected.
    [9]
    9. cut protection strip (10) according to claim 8, characterized in that the two strips in the transition region (14) are articulated, bendable or hinged together.
    [10]
    10. cut protection strip (10) according to any one of claims 1 to 5, characterized in that it has longitudinal slots or slots which extend parallel to the strip length of the cut protection strip (10), or that it is provided with a perforation which is parallel to the strip length of the cut protection strip extends.
    [11]
    11. A method for applying a cut protection strip (10) in the wet and wet area of a building, wherein the cut protection strip (10) - a strip length (Lx) and a perpendicular strip width (b), wherein the strip length (Lx) with the thereto vertical strip width (b) defines a plane (E), - comprises a plastic material and / or a composite material and / or metallic material, which offers protection against damage or cutting with a sharp object due to its structure and / or material properties, and the cut protection strip (10) comprises at least one region (Eb) for embedding in a liquid material (20), comprising the following steps: a) providing a strip length (Lx) of the cut protection strip (10), b) applying a liquid material (20) at least part of the area of the building, c) arranging or introducing at least one area (Eb) of the cut protection strip s (10) into the liquid material (20).
    [12]
    12. The method according to claim 10, characterized in that the liquid material (20) is one or more of the following materials: liquid seal, wall or floor paint, mortar, adhesive, resin, impregnation.
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    同族专利:
    公开号 | 公开日
    CH711947B1|2018-11-15|
    AT15643U1|2018-03-15|
    DE102016124456A1|2017-06-22|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE102007043593B4|2007-09-13|2011-05-05|Bernd Urban und Anna Urban GbR |sealing element|
    AT510127B1|2010-03-18|2016-01-15|Urs Gassmann|SEAL AND ASSEMBLY BELT WITH A CUT PROTECTION|
    CH707133B1|2012-10-29|2017-05-15|Sanipat Gmbh|Sealing tape set for bath or shower tray.|
    DE102013104649A1|2013-05-06|2014-11-06|Hydrophon Kunststofftechnik Gmbh|Sealing system for sanitary installation objects|
    CH709440B1|2014-03-27|2019-05-31|Sanipat Gmbh|Kit for creating a seal of two facing surfaces with plates.|
    法律状态:
    2020-10-30| PFUS| Merger|Owner name: RIVAPLAN AG, CH Free format text: FORMER OWNER: RIVAPLAN AG, CH |
    优先权:
    申请号 | 申请日 | 专利标题
    CH01891/15A|CH711947B1|2015-12-22|2015-12-22|Cut protection strip and method for applying a cut protection strip.|CH01891/15A| CH711947B1|2015-12-22|2015-12-22|Cut protection strip and method for applying a cut protection strip.|
    ATGM305/2016U| AT15643U1|2015-12-22|2016-12-15|Cut protection strip and method for applying a cut protection strip|
    DE102016124456.2A| DE102016124456A1|2015-12-22|2016-12-15|Cut protection strip and method for applying a cut protection strip|
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