• 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:
    A cut protection strip (10) for use in the damp and wet areas (100) of a building, the cut protection strip (10) comprising: a flat strip (13) of cut resistant material having a strip length and a strip width perpendicular thereto, the strip length having defines a plane perpendicular thereto, a foot (12) extending along the length of the strip, the foot (12) protruding from the plane, and the foot (12) having a support (12.1) for support or placement on a Device (1).
    公开号:CH711951A2
    申请号:CH01895/15
    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, the use of a cut protection strip and a method for applying a cut protection strip.
    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 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 that can be handled well. In particular, the cut protection strip should be able to be combined with a wide variety of sealing tapes and connection strips that are available on the market.
    This object is achieved by a cut protection strip according to claim 1. A corresponding use of a cut protection strip can be found in claim 10. A corresponding method can be found in claim 12. Advantageous embodiments are contained in the subclaims.
    The cut protection strip is in all embodiments for use in wet and wet areas of a building, the cut protection strip comprising: a flat strip of cut-resistant material having a strip length and a strip width perpendicular thereto, the strip length with the perpendicular thereto Strip width defines a plane, - a foot extending along the strip length, the foot protruding from the plane, and wherein the foot comprises a support for support or placement on a device.
    The cut protection strip may comprise in all embodiments a metal strip, a plastic strip or a composite strip as strips of cut-resistant material, preferably the material of this strip due to its material properties in all embodiments protection against damage or cutting the cut strip with a sharp object (eg a knife) offers.
    The cut protection strip may comprise in all embodiments in the region of the back of the flat strip an adhesive or be connectable with an adhesive. Preferably, this adhesive is designed to connect the cut protection strip to a surface of an optional sealing tape or connecting tape.
    The cut protection strip can be designed to be self-adhesive in all embodiments in the region of the back.
    The foot may be an integral part of the flat strip in all embodiments, or the foot may be connected in all embodiments with the flat strip, or the foot may be connectable in all embodiments with the flat strip.
    The foot may in all embodiments be formed from an angled piece of the flat strip (e.g., as an integral part of the same material as the flat strip).
    In all embodiments, but also a hollow profile or a flat cord serve as a foot.
    The foot may have the form of an angle, a projection, a protuberance, a nose or a heel in all embodiments.
    The cut protection strip can be wholly or partially provided in all embodiments with a sealing material and / or coated and / or connected.
    The sealing material, if present, may be a self-healing plastic material.
    The cut protection strip may comprise in all embodiments, a sealing material comprising one of the following materials or a combination of several of the following materials: - adhesive (eg butyl), - plastic or plastic mass, - putty, - resin, - wax ,
    Particularly suitable as a sealing material and can be used in all embodiments are materials or combinations of materials based on polyurethane (eg, an elastomer curing polyurethane), based on natural rubber or synthetic rubber, based on diatomaceous earth, based on acrylate, based on thermoplastic Polyisobu -type or based on butyl (rubber).
    Particularly suitable as a sealing material and can be used in all embodiments are materials or combinations of materials that have a permanent elasticity. These are materials that do not cure completely, harden, dry or crosslink.
    The cut protection strip may in all embodiments comprise a metal strip (e.g., chrome nickel steel) or plastic strips (e.g., a thermoplastic elastomer and / or polypropylene) or a composite strip.
    The inventive cut protection strip can be designed in all embodiments as a one-piece / one-cut cut protection strip, which consists entirely of a cut-resistant material (apart from the optional sealing material and any adhesives for fixing).
    In all embodiments, the cut protection strip may comprise strips (called multi-strip embodiment) or regions of at least two different materials.
    A cut protection strip is preferably used as follows: the cut protection strip is arranged parallel in front of a vertical surface when viewed from the room side, and the support of its foot is seated on the device or is supported on the device.
    A method for applying a cut protection strip in the wet and wet area of a building preferably comprises the following steps. a) providing a strip length of the cut protection strip, b) placing a device along a vertical surface, and c) placing the cut protection strip above the device along the vertical surface so that the support rests on or against the device or so that the support rests on the device ,
    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 range of the following, exemplified devices: bathtubs, shower trays, shower channels, gutters or pots, sinks, vanities or furniture.
    A variety of applications in or on buildings are summarized here with the term «wet and wet area».
    Advantageously, the cut protection strip can be used in all embodiments where there is a gap between tiles, stoneware, slabs or the like.
    The cut protection strip of all embodiments can be combined with sealing tapes (e.g., with tub tapes) and connection tapes of various types.
    The cut protection strip can form a functional unit in all embodiments together with the sealing tape or connecting band, this functional unit provides particularly good and lasting results. When installed, the cut protection strip always sits in front of the optional sealing tape or connection strip on the room side and protects underlying structures due to its cut resistance.
    Optionally, the cut protection strip in all embodiments comprise a (planar) lattice structure as part of the cut-resistant strip. Particularly suitable is a metal grid structure, a plastic grid structure, a fabric grid structure or a fiber grid structure.
    The grid structure in these embodiments provides protection against damage or cutting of the cut protection strip with a sharp object primarily due to its structure.
    By definition, it should be in the lattice structure to a (solid) network, fabric, mesh, perforated grid, expanded metal or scrim, which is preferably flexible in the plane.
    These grid structures, if present, are suitable for both one-piece and multi-piece embodiments of the invention.
    The planar lattice structure, if present, comprises in all embodiments holes, openings, recesses or meshes, which are preferably smaller than 5 mm.
    Furthermore, the term "strip" is intended to indicate that the geometry extends in one direction, the so-called "strip longitudinal direction", while the measured perpendicular thereto width and thickness of the strip are smaller. Typically, the cut protection strip has a transverse cross-section to the strip longitudinal direction 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 (measured without the projection or extension of the foot).
    The foot may in all embodiments have an extension perpendicular to the plane, which is up to 3 cm.
    The cut protection strip can be two-ply or multi-ply in all embodiments.
    The cut protection strip of the invention may comprise on the room side and / or on the wall side a soundproofing strip.
    If the cut protection strip of the invention is used together with a sealing tape or tub band, so on the room side and / or on the wall side of this band, a sound insulation strips are used.
    At least a portion of a back surface of the flat strip may optionally be provided with an adhesive in all embodiments for securing the cut protection strip to a building surface (e.g., a wall or floor), and / or an optional sealing tape or trim tape.
    Preferably, in all embodiments, a butyl adhesive can be used.
    Further details and advantages of the invention will be described below with reference to embodiments and with reference to the drawing. 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 cut protection strip according to the present invention;
    Fig. 1B is a schematic cross-sectional view taken along line I-I of Fig. 1A, showing an optional nonwoven layer;
    Fig. 1C shows a schematic cross-section along the line I-I of Fig. 1A, wherein the cut-resistant strip of material is provided with an optional sealing material, but shown separately here;
    Fig. 1D shows a schematic cross section of another cut protection strip according to the present invention, wherein the cut protection strip comprises a sealing material that is wider than the cut protection strip;
    Fig. 2A is a schematic view of another cut protection strip according to the present invention comprising a grid structure penetrated by an optional sealing material;
    FIG. 2B shows a schematic cross-section of FIG. 2A, schematically showing that the sealing material (shown in black) penetrates the grid structure; FIG.
    FIG. 3A shows a schematic cross section through a further exemplary cut protection strip; FIG.
    FIG. 3B shows a schematic cross section through another exemplary cut protection strip; FIG.
    FIG. 3C shows a schematic cross section through another exemplary cut protection strip; FIG.
    Fig. 3D is a perspective view of a length portion of the cut protection strip of Fig. 3A;
    FIG. 4A shows a schematic cross section through a further exemplary cut protection strip; FIG.
    Fig. 4B shows a schematic cross section through another exemplary cut protection strip;
    Fig. 5 is a perspective view of a longitudinal portion of another cut protection strip;
    Figures 6A-6H show detail enlargements of various exemplary materials / structures suitable as cut resistant strips;
    Figures 7A-7E show in perspective view short lengths of further different cut protection strips; 8 shows a schematic exploded view of an exemplary installation situation.
    In the following, location and direction information will be used 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, which 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, various embodiments are shown.
    The strip length Lx defined with the perpendicular strip width b a plane E, which is not shown separately.
    The cut protection strip 10 is designed in all embodiments for use in the wet and wet area 100 of a building. Corresponding examples of cut protection strips 10 are shown in the figures.
    The cut protection strip 10 preferably comprises: a flat strip 13 of cut-resistant material having a strip length Lx and a strip width b perpendicular thereto, the strip length Lx having the strip width b perpendicular thereto defining a plane E (the plane E) coincides with the drawing plane in Fig. 1A), - a foot 12 extending along the strip length Lx, the foot 12 protruding from the plane E, and the foot 12 forming a support 12.1 (see eg Fig. 1A, 3A, 3B, 4A, 4B) for supporting or placing on a device 1 comprises.
    The cut protection strip 10 may comprise in all embodiments, a metallic material and / or a plastic material and / or a composite material, due to its structure and / or due to its material properties protection against damage or cutting with a sharp object (eg with a knife ) offers. Preferably, at least the strip 13 of the cut protection strip 10 comprises this material.
    In addition, the cut protection strip 10 may optionally be provided with a sealing material 20 in all embodiments, e.g. in Figs. 1C, 1D and 2B indicated.
    Fig. 1A shows a schematic view of a first cut protection strip 10 comprising a cut-resistant strip 13 and a foot 12. The strip 13 of the cut protection strip 10 may comprise a metal strip or plastic strip 10.1 in all embodiments.
    Fig. 1B shows a schematic cross section along the line l-l of Fig. 1A, wherein the embodiment shown in Fig. 1B is a cut protection strip 10 without sealing material 20. FIG. 1B schematically shows, in an exploded view, that the cut protection strip 10 may comprise an optional nonwoven layer 14. Instead of a nonwoven layer, a woven or fibrous material can also be used here.
    In Fig. 1C, the example of a cut protection strip 10 is shown with sealing material 20, wherein FIG. 1C is constructed as an exploded view and wherein the cut protection strip 10 of FIG. 1C comprises a sealing material 20.
    FIG. 1D shows the example of a cut protection strip 10 with sealing material 20, wherein FIG. 1D is constructed as an exploded drawing. The cut protection strip 10 comprises a sealing material 20 that is wider than the cut protection strip 10.
    In all embodiments, the cut protection strip 10 may comprise a (preferably flat) lattice structure 11, which may be: a net, a woven fabric, a mesh, a perforated lattice, an expanded metal, or a scrim ,
    In FIGS. 2A, 2B a cut protection strip 10 with exemplary lattice structure 11 is shown.
    The foot 12 may be formed in all embodiments of an angled piece of the flat strip 13, such as in Figs. 1A, 1B, 1C, 1D, 2A, 2B, 4A, 7A, 7B, 7C, 7D, 7E 8.
    Preferably, the foot 12 is formed as an integral part of the flat strip 13. In these cases, the thickness d2 of the foot 12 (see FIG. 1A) is approximately equal to the thickness d of the flat strip 13 (see FIGS. 1A, 1B, 1C, 1D). The foot 12 may be made, for example, by bending or flanging from the strip 13 (see, e.g., Fig. 4A).
    However, in all embodiments, too, the foot may be joined to the flat strip 13 as part of the manufacturing process or prior to assembly (e.g., by gluing or vulcanization).
    The foot 12 can sit directly at the lower edge of the flat strip 13 in all embodiments (see FIGS. 1A, 1B, 1C, 1D, 2A, 2B, 3B, 4A, 7A, 7B, 7C, 7D, 7E, 8) ), or it may be offset upwardly a small distance (see Figs. 3A, 3C, 4B, 5).
    However, in all embodiments, a hollow profile 37 (see, e.g., Figures 3A, 3B, 3C, 3D) or a flat cord 23 (see, e.g., Figure 5) may also serve as the foot 12. The hollow profile 37 may optionally be an integral part of the flat strip 13 (see, e.g., Figures 3A, 3B, 3C, 3D), or the hollow profile 37 may be joined to the flat strip 13 (e.g., by gluing or vulcanization). The flat cord 23 may optionally be an integral part of the flat strip 13, or the flat cord 23 may be connected to the flat strip 13 (e.g., by gluing or vulcanization) (see, e.g., Fig. 5). In Fig. 5, a corresponding adhesive connection 23.1 is indicated.
    In all embodiments, the cut protection strip 10 may comprise an adhesive 33 on its rear side (wall side), as exemplified in FIGS. 3C and 4A (see also FIG. 8 as a further example).
    The cut protection strip 10 may in all embodiments optionally comprise a single-layer or multi-layer sealing material 20 which is connected to the cut protection strip 10. Thus, a multi-layer sealing material 20 may be used e.g. a layer of the actual sealing material and an adhesive layer (e.g., for bonding to the on-site (vertical) surface 2 and / or to the front side 30.2 of the sealing tape or trim tape 30).
    The cut protection strip 10 may optionally be provided and / or coated and / or bonded in all embodiments with the sealing material 20, as illustrated in FIG. 1C by way of example.
    If a grid structure 11 is used as a cut protection strip 10 or as part of the cut protection strip 10, then the grid structure 11 may be provided with the sealing material 20 so that it penetrates the grid structure 11. FIG. 2B shows an exemplary embodiment in which only the flat strip 13 of the lattice structure 11 is penetrated by the sealing material 20. In other embodiments, however, both the flat strip 13 and the foot 12 (completely or partially) may be provided with the sealing material 20.
    The sealing material 20 may e.g. be connected in liquid form with the cut protection strip 10 to enclose or penetrate this. Particularly lattice structures 11, which serve as strips 13, can be intimately connected (in the sense of being permanently fixed) to the sealing material 20, as indicated schematically in FIG. 2B.
    A grid structure, if used, may in the corresponding embodiments have holes, recesses or meshes smaller than 5 mm.
    As a lattice structure 11, if this is used, can in the corresponding embodiments - a network (see, for example, Fig. 6C), - a fabric (see, for example, Fig. 6H), - a mesh, - a perforated grid (see, eg Fig. 6D), - an expanded metal (see for example Fig. 6B, 6E) or - a scrim (preferably of several layers) are used.
    The cut protection strip 10 may comprise strips or regions of at least two different materials in all embodiments.
    Different grid structures 11 are shown in FIGS. 6A to 6F and 6H. These grid structures 11 are suitable both for one-piece / single-strip and for multi-piece / multi-strip embodiments of the invention. The grid structures 11 are preferably metal or plastic or composite grid structures 11. FIG. 6G shows a cut-resistant plastic material 10.1 whose (surface) structure is rough due to the addition or admixture of an additive (eg corundum) (to allow connection with sealing material 20 and / or adhesive 33). In Fig. 6H, a fibrous material (e.g., Kevlar fabric) is shown.
    The cut resistance can be achieved 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 be implemented in all embodiments, as shown in Examples 7A-7E by way of examples: The flat strip 13 may have punches 24, as shown by way of example in Fig. 7A, and / or - The flat Strip 13 may have holes 25, as shown by way of example in Fig. 7E, and / or - Flat strip 13 may have slots 26, as shown by way of example in Fig. 7B, and / or - Flat strip 13 may have edge slots 27, such as by way of example in FIGS. 7C and 7D.
    E in cut protection strips 10 with edge slots 27 which extend through the foot 12 (see Fig. 7D), can be particularly well wind up.
    A cut protection strip 10 can be used, for example, as follows: the cut protection strip 10 is arranged parallel to an on-site (vertical) surface 2 when viewed from the room side in the mounted state (see FIG. 8), - that the support 12.1 of the foot 12 is seated on the device 1 (eg on a horizontal surface 3.2 of a trough 1) or that the support 12.1 of the foot 12 is supported on the device 1.
    Preferably, the cut protection strip 10 is applied 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.
    The method of applying a cut protection strip 10 may comprise the following exemplary steps (reference is made, inter alia, to the exemplary installation situation of FIG. 8): a) provision of a strip length Lx of the cut protection strip 10, b) arrangement of a device 1 along an on-site (vertical) surface 2, and c) arranging the cut protection strip 10 so above the device 1 along the on-site (vertical) surface 2, that the support 12.1 is supported on or on the device 1 or so that the support 12.1 seated on the device 1.
    The cut protection strip 10 can be connected in all embodiments in an optional intermediate step with its flat strip 13 with a sealing tape or connecting tape 30, wherein the sealing tape or connecting tape 30 is arranged parallel to the on-site (vertical) surface 2 (see FIG. 8th).
    The cut protection strip 10 can be connected in all embodiments but also in an optional intermediate step with its flat strip 13 directly to the vertical surface 2 or with a liquid seal or composite sealing of the vertical surface 2.
    In Fig. 8, the example of a mounting in a simplified exploded view is shown. This concerns the watertight transition or connection of a trough 1 to an on-site (vertical) surface 2 (for example a wall). Of the tub 1, only a vertical surface 3.1 and a horizontal surface 3.2 are shown substantially. Optionally, a sealing tape or connecting band 30 can be glued to the vertical surface 3.1 by means of an adhesive 31 with its lower strip-shaped region 32. The adhesive 31 may be a part of the sealing tape or connecting tape 30, or it may be supplied separately, to be then connected on site during assembly with the front side 30.2 of the sealing tape or connecting band 30. Now, in the example shown, the trough 1 is arranged along the wall 2. In the course of this step, the sealing tape or connecting band 30 can be made e.g. be connected with its back 30.1 to the wall 2 (e.g., by embedding or gluing).
    Now a cut protection strip 10 is arranged above the device 1 along the on-site (vertical) surface 2, that the support 12.1 is supported on or on the device 1 or so that the support 12.1 is seated on the device 1. In the course of this step, the cut protection strip 10 may optionally be joined to the sealing tape or trim tape 30 (e.g., by an optional adhesive 33).
    In all embodiments, the foot 12, preferably in the region of the support 12.1, be connected to an adhesive.
    Reference number: [0085]
    Device (e.g., bathtub) 1 on-site (vertical) surface (e.g., wall) 2 vertical surface of device 1 3.1
    Horizontal surface of the device 1 3.2
    Cut protection strip 10
    Plastic strip 10.1
    Grid section / area / structure 11
    权利要求:
    Claims (13)
    [1]
    (Positioning) foot 12 overlay 12.1 strip 13 nonwoven, woven or fibrous material 14 sealing material 20 flat cord 23 adhesive bond 23.1 punched holes 24 perforations / recesses 25 slots 26 edge slots 27 sealing tape / connecting band 30 back 30.1 front 30.2 adhesive 31 lower, strip-shaped area 32 adhesive 33 Hollow profile 37 Wet or wet area 100 Strip width b Thickness d Thickness D1 Thickness d2 Plane E Section line ll Strip length Lx Coordinate system x, y, z Claims
    A cut protection strip (10) for use in wet and wet areas (100) of a building, the cut protection strip (10) comprising: a flat strip (13) of cut resistant material having a strip length (Lx) and a strip width perpendicular thereto (b), wherein the strip length (Lx) with the strip width (b) perpendicular thereto defines a plane (E), a foot (12) extending along the strip length (Lx), the foot (12) protruding from the plane (E) and wherein the foot (12) comprises a support (12.1) for supporting or placing on a device (1).
    [2]
    2. cut protection strip (10) according to claim 1, characterized in that a metal strip (11) or a plastic strip or a composite strip as the flat strip (13) of cut-resistant material is used, said strip due to its material properties protection against damage or cutting through the Cut protection strip (10) with a sharp object provides.
    [3]
    3. cut protection strip (10) according to claim 1, characterized in that the flat strip (13) made of cut-resistant material has a grid structure (11), which is - a network, - a fabric, - a mesh, - a perforated grid , - an expanded metal or um - a scrim, wherein the grid structure (11) primarily due to its structure provides protection against damage or cutting through the cut protection strip (10) with a sharp object.
    [4]
    4. cut protection strip (10) according to any one of claims 1,2 or 3, characterized in that it comprises at least two strips (12, 13) or regions of at least two different materials.
    [5]
    5. cut protection strip (10) according to one of claims 1 to 4, characterized in that it comprises in the region of the back of the flat strip (13) an adhesive (33) or with an adhesive (33) is connectable.
    [6]
    Cut protection strip (10) according to any one of claims 1 to 5, characterized in that the foot (12) is an integral part of the flat strip (13) or that the foot (12) is connected to the flat strip (13) or that the foot (12) is connectable to the flat strip (13).
    [7]
    7. cut protection strip (10) according to claim 6, characterized in that the foot (12) has the shape of a hollow profile (37) or the shape of a flat cord (23)
    [8]
    8. cut protection strip (10) according to any one of claims 1 to 7, characterized in that the cut protection strip (10) wholly or partially provided with a sealing material (20) and / or coated and / or connected, wherein it is preferably in the sealing material (20) is a self-healing plastic material.
    [9]
    9. cut protection strip (10) according to any one of claims 1 to 8, 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, - he a thickness (d) which is perpendicular to the plane (E) and which is preferably less than 5 mm, - the foot (12) has an extension perpendicular to the plane (E) which is up to 3 cm.
    [10]
    10. Use of a cut protection strip (10) according to any one of claims 1 to 9, characterized in that -the cut protection strip (10) in the mounted state viewed from the room side is arranged parallel in front of an on-site surface (2), and - that the support (12.1) of the foot (12) sits on the device (1) or that the support (12.1) of the foot (12) is supported on the device.
    [11]
    11. Use according to claim 10, characterized in that the cut protection strip (10) - either prior to assembly with a sealing tape or connecting band (30) is connected, - or that the cut protection strip (10) mounted separately from a sealing tape or connecting band (30) - or that the cut protection strip (10) is mounted on the room side in front of a liquid seal or compound seal located on the building surface (2).
    [12]
    12. A method for applying a cut protection strip (10) according to one of claims 1 to 9 in the wet or wet area (100) of a building, comprising the following steps: a) providing a strip length (Lx) of the cut protection strip (10), b) arranging a device (1) along an on-site surface (2), and c) placing the cut protection strip (10) above the device (1) along the on-site surface (2), so that the support (12.1) on or on the device ( 1) or so that the support (12.1) rests on the device (1).
    [13]
    13. The method according to claim 12, characterized in that the cut protection strip (10) is connected in an intermediate step with its flat strip (13) with a sealing tape or connecting band (30), wherein the sealing tape or connecting band (30) parallel to the on-site surface (2) is arranged.
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    同族专利:
    公开号 | 公开日
    DE102016124342A1|2017-06-22|
    AT15706U1|2018-04-15|
    CH711951B1|2020-08-14|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE9006767U1|1990-06-16|1990-12-13|Schilling, Siegfried, 7890 Waldshut-Tiengen, De|
    AT510127B1|2010-03-18|2016-01-15|Urs Gassmann|SEAL AND ASSEMBLY BELT WITH A CUT PROTECTION|
    DE202010012382U1|2010-04-14|2010-12-02|Gassmann, Urs|Sealing and assembly tape|
    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
    CH01895/15A|CH711951B1|2015-12-22|2015-12-22|Cut protection strips, arrangement of a cut protection strip and method for creating an arrangement of a cut protection strip.|CH01895/15A| CH711951B1|2015-12-22|2015-12-22|Cut protection strips, arrangement of a cut protection strip and method for creating an arrangement of a cut protection strip.|
    DE102016124342.6A| DE102016124342A1|2015-12-22|2016-12-14|Cut protection strip, use of a cut protection strip and method of applying a cut protection strip|
    ATGM315/2016U| AT15706U1|2015-12-22|2016-12-20|Cut protection strip, use of a cut protection strip and method of applying a cut protection strip|
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