EP3329067A1 - Floor covering comprising at least one electrical component and method for producing a floor covering - Google Patents
Floor covering comprising at least one electrical component and method for producing a floor coveringInfo
- Publication number
- EP3329067A1 EP3329067A1 EP16745088.1A EP16745088A EP3329067A1 EP 3329067 A1 EP3329067 A1 EP 3329067A1 EP 16745088 A EP16745088 A EP 16745088A EP 3329067 A1 EP3329067 A1 EP 3329067A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- floor covering
- electrical component
- subfloor
- covering according
- reinforcing fabric
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F15/00—Flooring
- E04F15/12—Flooring or floor layers made of masses in situ, e.g. seamless magnesite floors, terrazzo gypsum floors
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F15/00—Flooring
- E04F15/18—Separately-laid insulating layers; Other additional insulating measures; Floating floors
- E04F15/186—Underlayers covered with a mesh or the like
-
- E—FIXED CONSTRUCTIONS
- E04—BUILDING
- E04F—FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
- E04F2290/00—Specially adapted covering, lining or flooring elements not otherwise provided for
Definitions
- the invention relates to a floor covering as a covering for a subfloor, wherein the floor covering has a layer of a curable material which is cured in the finished state of the floor covering and in which a reinforcing mesh and at least one electrical component are embedded.
- the electrical component is in this floor covering, for example, an electronic component, in particular an RFID chip. It is proposed that the electronic component is applied to the reinforcing fabric or introduced into the reinforcing fabric and this reinforcing fabric is then laid on the substrate before the curable material is incorporated into the reinforcing fabric. The electronic component is inserted, for example, in windows of the reinforcing fabric or arranged therein, so that it is covered by the curable material on the upper side.
- the disadvantage of this construction is that damage to the electronic components can occur, for example when the hardenable material is filled in a still soft state between the electronic components with a spatula or another processing tool.
- the maintenance of electronic components on or in the floor to improve.
- the at least one electrical component is connected with its underside with a subfloor, especially a raw floor, based on a bond and the reinforcing fabric facing away from the underbody at least one electrical component with its Side covered, so that the at least one electrical component is covered on the upper side by the reinforcing fabric and the curable material.
- the adhesive layer may be a continuous adhesive layer that extends over the entire subfloor or larger surface areas or even an adhesive layer, which is only provided immediately below the respective electrical component. It is thus possible for the adhesive layer to cover a larger area than the electrical component or the electrical components.
- the adhesive layer adheres only portions of the electrical component to the subfloor, for example, that one or more adhesive dots are present.
- the electrical component does not have to be glued over its entire surface to the subfloor, but can also be glued to the subfloor at only one section or several subsections of its underside.
- the electrical component is glued to the subfloor at only one edge region.
- the electrical component is glued indirectly to the subfloor, namely by being attached to a carrier material, for example to a lamination, which in turn is glued to the subfloor.
- the at least one electrical component such as an electronic component and / or an electrical sensor conductor is connected by a bond to the substrate, so that the jewei- Do not lift or float floating electrical components from the substrate when the curable material is applied.
- a bonding layer is present between the at least one electrical component, such as an electronic component and / or electrical sensor conductor, and the substrate.
- the respective electrical component is thus reliably fixed at the predetermined location, so that it can optimally provide its electrical function.
- reliably maintaining grid spacings between the electrical components, locating functions, sensor functions or the like can be optimally realized.
- the at least one electrical or electronic component or the sensor conductor thus remain in place when the curable material is applied, which then additionally provides a firm hold of the at least one electrical component or the sensor conductor with respect to the ground.
- the hardenable material and the reinforcement fabric are arranged above the at least one electronic component or the at least one sensor conductor, so that the reinforcement fabric protects these components against mechanical influences, in particular during processing of the curable material and / or during use of the flooring.
- the reinforcing fabric forms from the curable material comprising, for example, a synthetic resin such as epoxy resin, polyurethane resin or the like, an integrated upper composite seal of the floor covering, which brings some advantages.
- a synthetic resin such as epoxy resin, polyurethane resin or the like
- an integrated upper composite seal of the floor covering which brings some advantages.
- wet-stressed areas of a building for example kitchens, sanitary facilities or the like, can be equipped with the floor covering.
- the reinforcing fabric advantageously covers at least one fiber, preferably a fiber arrangement with a plurality of fibers or interwoven fibers, the electrical component on its upper side.
- the floor covering can thus, for example, provide an upper-side seal, in particular also a seal against moisture, of the underbody as well as of the electrical components sandwiched between the underbody and the reinforcing mesh, for example RFID tags.
- the functionally upgraded by the electrical components flooring so to speak, for example, is suitable for use in an industrial environment, in commercial kitchens, in the clinical field or the like.
- the floor covering may be covered on the upper side, for example, with tiles or, in particular, continuous, jointless coverings, for example likewise made of a synthetic resin material. Not only does the upper layer form a moisture barrier or moisture barrier, but also the curable material together with the reinforcing fabric.
- the flooring also improves the so-called adhesive tensile strength and / or ensures optimum crack bridging. If, for example, the subfloor, for example the unfinished floor, has cracks, joints or the like, the floor covering according to the invention forms a stable bridge over it.
- the reinforcement fabric above the at least one electrical component provides optimum protection.
- a pressure load from above does not affect the electrical component or at least only to a lesser extent, so that the device is not or only slightly affected.
- the floor covering forms a stable base for further coverings or covering layers, e.g. Carpet, tiles, parquet or an elastic covering or the like.
- the floor covering is virtually monolithic, i. it can also be arranged little elastic coverings above the flooring, for example, synthetic resin coverings, tiles or the like.
- the flooring according to the invention is expediently seamless and / or continuous between peripheral walls or side walls of a building, so without interruption.
- On the floor covering according to the invention can advantageously also jointless or between side walls or peripheral walls of a building continuous top coverings, for example PVC, linoleum, synthetic resin coverings or the like can be arranged.
- the flooring is a stable carrier for it.
- the at least one electrical component can be, for example, at least one electronic component, in particular a semiconductor element, a sensor, a locating element or the like, and / or at least one electrical sensor conductor of a sensor arrangement.
- the sensor conductor is provided and / or configured, for example, for sensory detection of at least one physical variable, in particular a magnetic field and / or an electric field or a pressure.
- the sensor conductor is preferably provided and / or configured to physically detect a person or an object located on the floor covering.
- the electronic components are or include, for example, so-called locating elements, in particular radio tags or RFID tags. Furthermore, the electronic components may also include sensor elements, i. For example, load sensors, capacitive sensors, inductive sensors, acceleration sensors or the like include.
- the flooring can only comprise electronic components or only sensor conductors.
- the combination is particularly advantageous. For example, it is possible to locate an object or a person on the floor covering using the sensor conductor or the sensor conductor.
- a vehicle On the basis of the electronic component or electronic components, for example, a vehicle, in particular a self-propelled vehicle or a robot, determine its position.
- the vehicle is, for example, a cleaning robot, a storage vehicle, a transport robot or the like.
- the electronic components pass on location information to the vehicle, so that this on the floor covering can navigate.
- vehicles can be autonomously movable on the floor covering or can navigate independently. Based on the sensor conductor, the position of the respective vehicle is actively detected, ie regardless of the functionality of the vehicle, for example, arranged on the edge of the flooring sensor arrangement can detect its position.
- the functions of the sensors expediently include security functions.
- a person who is traveling on the floor covering independently of the vehicle or the vehicles, for example, can be located.
- the sensor arrangement can detect, for example, whether a person is standing, that is traveling unhurt, or lying on the ground.
- a high level of security can be realized by, for example, when a person lies on the ground or threatens a collision with a vehicle, the respective vehicle or vehicles or other automation systems and devices in the field of flooring according to the invention are automatically stopped.
- the electronic component is or comprises, for example, a semiconductor chip, in particular an RFID chip.
- the electronic component may also be a sensor, in particular a load sensor, force sensor or the like. It is possible, for example, for a plurality of different electronic components, for example sensor elements and RFID chips, to be provided.
- a so-called synthetic resin primer for example epoxy primer, polyurethane resin primer, acrylic resin primer or the like may be used.
- the at least one sensor conductor comprises, for example, an electrical conductor track which is fixed on the substrate on the basis of the adhesive bond.
- electrically conductive metal strips in particular aluminum strips and / or copper strips, are suitable as sensor conductors.
- Metal bands have a flat shape and are band-like.
- electrical cables, that is electrical see ladder, which have no flat shape, can be successfully used in practice as a sensor conductor.
- the at least one sensor conductor can form, for example, a component of a grid, that is, a conductor grid is provided. Fields are then formed between the respective sensor conductors, which are detectable by sensor based on the respectively limiting sensor conductor.
- the at least one electrical component expediently comprises a plurality of parallel in a grid in a transverse direction or parallel in a longitudinal direction or a plurality of longitudinally parallel to each other and a plurality of transversely parallel to each other arranged sensor conductor.
- the sensor conductors are arranged at right angles to one another, so that rectangular fields are present between the conductor tracks or sensor conductors.
- the sensor conductors are not arranged at right angles to each other, so that, for example, diamond-like fields are formed between the sensor conductor.
- the sensor conductors are connected, for example, to a sensor, for example a capacitive or inductive sensor.
- a sensor for example a capacitive or inductive sensor.
- An advantageous method of attachment of the at least one electrical component to the subfloor provides, for example, that this is arranged on a laminating material, wherein the laminating material is glued to the electrical component disposed thereon with the subfloor or Rohfußboden.
- the laminating material is, so to speak, the carrier for the at least one electrical component in order to advantageously affix it to the substrate or unfinished floor.
- an areal extent, for example width, of the laminating material is greater than a surface extent or width of the at least one electrical component, so that the laminating material adjoins at least one side protrudes in front of the electrical component, which facilitates the attachment to the ground.
- the laminating material can be designed like a ribbon, for example forming a band, and the electrical components can be arranged one behind the other on the laminating material in a row direction. But it is also possible that the electrical components are arranged in a matrix-like manner or in a grid next to each other on the laminating material.
- the band material or Kaschiermaterial is relatively narrow, so that it is easy to handle.
- a width of the strip material or Kaschiermaterials of about 5-15 cm, preferably about 8-12 cm. In practice, the laying of such Kaschiermaterials on the subfloor has been found to be particularly favorable.
- the components are arranged at the desired distances on the laminating material, which is then designed only on the subfloor and glued to it.
- the laminating material may for example be rolled up and already contain the electrical components.
- the laminating material is then rolled out, for example, on the underbody and thereby preferably glued simultaneously.
- the laminating material comprises a fabric or is formed by a fabric. It is possible that the laminating material consists of the same material as the reinforcing fabric. It is preferably provided that a mechanical load capacity of the laminating material is significantly lower than that of the reinforcing fabric. Namely, the reinforcing fabric has a protective function for the at least one electrical component, while the laminating material represents, as it were, a mounting aid on the substrate.
- the laminating material is preferably a material that is permeable to the adhesive layer.
- a fabric, non-woven or the like can be advantageously used.
- the laminating material is chemically resistant with respect to the adhesive material for the adhesive layer to the subfloor, so is not or only slightly dissolved by the adhesive material.
- the laminating material does not lengthen and / or dissolves due to the adhesive material.
- a paper fleece can be dissolved or elongated by the adhesive material.
- the laminating material consists of or at least comprises a plastic material and / or textile material and / or glass fibers.
- the laminating material is very thin, so that it has no or only insignificant effects in terms of the height of the subfloor.
- a height of Kaschiermaterials between 0.5 and 2 mm, more preferably about 1 mm.
- the laminating material is expediently flexible or yielding, so that it is rollable together with the electrical components arranged thereon. Thus, for example, it can be rolled up into a roll that can be easily rolled out on the underbody.
- the at least one electrical component expediently has an adhesive layer for attachment to the reinforcement fabric or the underbody.
- adhesive layers may be present on a lower side and an upper side of the electrical component, so that on the one hand it can be connected to the Underbody and on the other hand can be glued to the reinforcing fabric.
- the adhesive layers may be covered by a protective film or protective layer which is removed prior to attachment to the subfloor or prior to application of the reinforcing fabric.
- the component it is also readily possible for the component to have only one adhesive layer, for example on its upper side for the reinforcing mesh or on its underside for the lower base.
- the electrical component in particular the electronic component, it is advantageous if it is arranged in a protective capsule.
- the raw floor or subfloor is usually sharp-edged or uneven. This can lead to damage of electrical components, such as chips or other semiconductors. Even electrical conductors or conductors, namely the sensor conductors can be damaged by being mounted directly on the unfinished floor.
- the at least one electrical component is provided with a protective layer or a protective capsule.
- the at least one electrical component is covered on at least one side, preferably on several or all sides, with a foam material, in particular a layer of foam material.
- the foam material may be, for example, a mineral
- Foam acts. Particularly preferred is a plastic foam.
- polyurethane has proven itself as a foam material.
- a jacket material made of an elastic material is possible, for example, an elastic plastic, rubber or the like.
- the sensor conductor may also have a protective layer, for example a foam layer or other elastic layer on its upper side or its lower side or both.
- a protective layer for example a foam layer or other elastic layer on its upper side or its lower side or both.
- an elastic or soft protective layer provided, which compensates for any irregularities, in particular sharp-edged protrusions of the subfloor, so to speak.
- the foam material has the advantage that it forms a compound with the curable material or that the curable material can penetrate into the foam material, which represents a particularly firm hold of the at least one electrical component in the curable material when it is cured.
- Particularly preferred is a kind of protective capsule, which consists of foam material.
- the foam material or even the elastic material has the advantage that it has a certain flexibility, i. that a load, which occurs in the direction of the electrical component, is resiliently absorbed by the foam material.
- a locating element, sensor element or another electronic component is arranged in a hard capsule in a floor covering according to the invention.
- a combination of hard capsule and soft capsule namely, for example, a hard plastic and a
- the at least one electrical component is provided on its underside facing the underside with an electrical shield.
- the electrical shield comprises, for example, an electrically conductive layer or electrically conductive plate.
- the shield may also be or include a shielding fabric.
- the electrical shield may be connected to earth or ground. It is possible that the shield is glued to the subfloor. Furthermore, it is possible that the shield forms a part of the electrical component.
- the at least one curable material and / or the adhesive provided for bonding the at least one electrical component may, for example, be comprise a synthetic resin material, in particular synthetic resin, for example epoxy resin, polyurethane resin, acrylic resin or the like, or a mixture of at least two synthetic resins, for example epoxy resin, polyurethane resin, acrylic resin or the like.
- the synthetic resin such as epoxy resin, polyurethane resin, acrylic resin or the like is, for example, a synthetic resin resin to which a hardener is added so as to be cured into a thermosetting plastic having high strength and chemical resistance.
- a hardener is added so as to be cured into a thermosetting plastic having high strength and chemical resistance.
- the originally liquid or pasty mixture hardens, for example within a few minutes to a few hours or days.
- the curable material may also comprise a dispersion adhesive material.
- the at least one curable material may comprise a mineral material, for example containing cement, comprising concrete or a plastic-modified filler or the like.
- the material of the adhesive for the at least one electrical component for bonding to the subfloor may consist of or comprise such a material.
- the curable material e.g. a synthetic resin material, for example, synthetic resin, for example, epoxy resin, polyurethane resin, acrylic resin or the like, or a mixture of a plurality of synthetic resins, forms a bond to the subfloor, for example, a screed or concrete or hollow floor system or a double floor system.
- the floor system may include sub-elements whose transition areas are covered by the flooring according to the invention.
- there is a so-called hollow floor system o- the double floor system of floor elements, which rest side by side on carriers or the like other ground.
- curable material is preferably homogeneous, ie that only a single curable material is used. It is but also a layer structure possible, ie that, for example, a mineral layer of the curable material directly to the subfloor
- the reinforcing fabric is, for example, a fabric with fibers of polyethylene or polypropylene or polyester. Also carbon fibers or glass fibers or natural fibers are readily possible.
- the reinforcing fabric expediently comprises an electrically non-conductive tissue, so that it has no influence on the electrical function of the electrical component or of the electrical component, for example the sensor conductor or the chip.
- the reinforcing fabric is expediently a roll material that can be easily processed or rolled out.
- a width of Arm istsgewebes of about 80-120 cm has been found to be advantageous and easy to process.
- the reinforcing fabric can be unfolded favorably at this width, on the other hand it is sufficiently wide to provide tensile strength and thus mechanical strength over larger surface areas.
- a suitable layer thickness of the curable material is preferably about 1 to 10 mm, in particular 5 to 8 mm.
- a layer thickness of, for example, 1 mm to 2 mm or 2 mm to 3 mm is also advantageous.
- a layer thickness or material thickness of the curable material is expediently chosen so that the at least one electrical component or all electrical components are covered by the curable material.
- a layer of the curable material above the at least one electrical component is about 2-3 mm, in particular 4-5 mm.
- the reinforcing fabric is expediently flat on the at least one electrical component or the electrical components.
- the reinforcing fabric is expediently flat on the at least one electrical component or the electrical components.
- An expedient embodiment of the invention provides that the floor covering has an elastic layer or an elastic covering above the curable material.
- the elastic layer is expediently applied to this after curing of the curable material.
- the elastic covering can for example form a damping for impact sound. Also from an ergonomic point of view, for example the protection of muscles and / or joints of the users of the floor covering, the elastic covering is advantageous. Also a room acoustics can be improved by the floor covering of the elastic layer.
- the flooring is therefore on the one hand functionally equipped on the basis of the electrical component or electrical components for example, navigation purposes or sensory purposes, on the other hand ergonomic, namely by flexibly dampening the elastic layer or the elastic covering, for example, kicks.
- the elastic covering or the elastic layer also has advantages in that any pressure loads do not impact directly on the electrical component or components, but are cushioned.
- a hard layer or a topsoil may be arranged on the elastic covering and / or the curable material.
- the hard layer floats on the elastic surface, so to speak.
- the hard coating is harder than the elastic coating.
- the hard layer consists of a synthetic resin material, in particular of a synthetic resin, for example, epoxy resin, polyurethane resin, acrylic resin or the like. In any case, it is possible that a seamless layer or a jointless covering is arranged above the elastic covering.
- a hard covering for example of polyurethane resin, is arranged above the elastic covering, whose elastic modulus is equal to or approximately equal to that of the elastic covering.
- the hard covering may also have a modulus of elasticity which is greater than that of the elastic covering.
- a rubber granulate is suitable as elastic layer or elastic covering.
- the granules can be spread as it were and then bound with a binder or be covered only by another, arranged above the elastic layer further covering.
- preference is given to a mat material for example a rubber granulate in the form of a mat or as a roll material.
- a particularly preferred layer thickness of the elastic layer is for example about 2-5 mm. But it can also be slightly higher or thicker, for example 6-8 mm.
- An expedient embodiment of the invention provides that the subfloor or unfinished floor, for example by grinding and / or shot peening, or other abrasive working methods is pretreated so that it is optimally prepared for the bonding of the at least one electrical component. It is preferred if the subfloor or unfinished floor is evenly even.
- An advantageous measure provides that the subfloor or unfinished floor before the attachment of the flooring according to the invention is compensated or preprocessed to the extent that it is flat.
- the subfloor or unfinished floor either by nature or by the aforementioned processing absorbency, so that it allows a connection with the adhesive layer and thus the electrical components and / or a connection with the curable material.
- the unfinished floor or subfloor is cleaned after the abrasive pretreatment, for example by suction filtration or washing.
- the aim is to create a dust-free surface as possible for the attachment of the at least one electrical component and later the curable material.
- the electronic components or electrical components are expediently glued to the subfloor or raw floor with a curable adhesive or adhesive material.
- the adhesive or adhesive material is expediently the same curable material in which the electrical component or the electrical components are embedded later.
- the adhesive thickness of this adhesive layer is lower than the height of the electrical component or the electrical components. Thus, therefore, the or the electrical components are up in front of the adhesive layer.
- reinforcing fabric is applied above the electrical component or the electrical components and finally introduced the curable material. It is also possible that the curable material and then the reinforcing fabric is applied to the components bonded to the subfloor or unfinished floor.
- the electrical components or the electrical component are thus glued, for example, with a synthetic resin bonding agent or a polyurethane adhesive on the subfloor before the reinforcing fabric and then the curable material or initially the curable material and then the reinforcing fabric are applied.
- the adhesive matehal is not yet set and capable of binding when the curable material is applied or introduced, that is, the second bonding layer is applied.
- the second bonding agent bonds to the first bonding layer, the adhesive layer, with which the at least one electrical component is bonded to the subfloor or the substrate.
- the curable material it is possible for the curable material to be applied first to the at least one electrical component and then the reinforcing fabric to be pressed into the still bondable or soft curable material. It is also conceivable, conversely, that initially the reinforcing mesh is designed, that is, the at least one electrical component or the arrangement reliably covers a plurality of electrical components before the curable material is applied.
- a preferred method provides that the reinforcing fabric by filling, i. using a spatula tool, is pressed into the curable material. It is also possible that the reinforcement fabric already on the at least one electrical component is provided with the curable material from above, i. that the curable material is introduced through the reinforcing fabric with a spatula or other machining tool in the interstices of the reinforcing fabric and the spaces between the electrical components.
- the adhesive for bonding the at least one electrical component to the subfloor and / or the curable material have a predetermined elasticity even after curing, so that, for example, cracks in the subfloor can be bridged.
- the curable material and / or the adhesive has a modulus of elasticity or modulus of elasticity of 100 to 3000 N mm 2 , in particular 100 to 300 Nm 2 or 50 to 500 N mm 2 .
- the curable material and / or the adhesive may also have a modulus of elasticity of For example, 2000 to 5000 N / mm 2 , in particular 3000 to 4500 ⁇ ⁇ 2 , have.
- the curable material and / or the adhesive has a modulus of elasticity or modulus of from 1500 to 2500 N nm 2 .
- a tensile strength of the curable material and / or the adhesive is preferably 80 to 120 N nm 2 .
- the elasticity of the adhesive and / or of the curable material is sufficient at least for bridging a crack width of 0.5-1.5 mm, in particular of more than 1 mm.
- Flexibilized and / or crystallization-inhibited construction chemicals are useful as an adhesive and / or the curable material.
- the at least one electrical component is embedded so to speak elastically or flexibly floating in the adhesive and the curable material.
- the embedding of the electrical component in the layer of curable material and / or the adhesive is so flexible that, for example, by a cracking of the subsoil acting forces may possibly lead to a local displacement of the device, but not to its destruction.
- screeds are often applied to dwindling or floating layers, for example footfall sound insulation, which leads to cracking of the screed and thus of the subfloor.
- creates the correspondingly flexible and elastic material of the adhesive and / or the curable material remedy by bridging such cracks and at the same time avoids a tensile load or other mechanical stress on the electrical component or at least significantly reduced.
- a hard layer or covering layer of the floor covering which is arranged above the curable material preferably has a compressive strength of at least 35 N in 2 , preferably at least 40 N in 2 , particularly preferably at least 45 N in 2 .
- FIG. 1 shows a schematic cross-sectional view of a floor covering
- FIG. 2 shows a view of the floor covering according to FIG. 1 during production
- FIG. 3 shows a plan view of the floor covering according to FIG. 2, approximately corresponding to an arrow A,
- FIG. 4 shows a top view of the floor covering according to FIG. 2, approximately corresponding to an arrow B,
- FIG. 5 shows a schematic cross-sectional view through an electrical component, for example locating element, of the floor covering according to the preceding figures
- Figure 6 is a schematic plan view of the electrical component or
- Figure 7 shows a variant of the arrangement according to Figure 5, but with a shield.
- a floor covering 10 according to the drawing has a layer structure which is constructed on a subfloor 20, for example a raw floor.
- the unfinished floor can be, for example, a screed or concrete floor or a hollow floor system, in any case a load-bearing structure for the floor covering 10.
- the subfloor 20 can also be, for example, a double floor system be. On the exact design of the unfinished floor or subfloor, it may not necessarily, with the aforementioned variants or at least a stable substrate are preferred.
- electrical components 85 are glued on the basis of an adhesive layer.
- various electrical components are provided, which need not necessarily be, however, represents an advantageous option.
- sensor conductors 71, 71 are provided, which are arranged in a grid grid.
- the sensor conductors 70, 71 are connected to evaluation elements 72, 73 of a sensor arrangement 74, which are arranged, for example, on the edge of the floor covering 10.
- the evaluation elements can also be arranged on the upper side of the floor covering 10.
- the evaluation elements 72, 73 detect objects and / or persons located on the floor covering 10, for example a vehicle 100 or a person 140.
- a field grid is spanned between the evaluation elements 72, 73, ie that, for example, grid areas 75 are provided, of which grid areas 75a, 75b and 75c are designated individually. Other grid areas or grids are not specified for reasons of simplicity, but recognizable also present.
- the sensor arrangement 74 can determine that the person 140 is lying on the floor covering 10 and no longer stands. Namely, if the subject 140 were standing, it would affect only one or two grid areas 75. Furthermore, with reference to the adhesive layer 40, locating elements 80 and sensor elements 81 are bonded to the subfloor 20. The locating elements 80 and sensor elements 81 may be electrical components 85.
- the locating elements 80 are arranged, for example, on laminating tapes 41, the locating elements 81 on laminating tapes 42.
- the laminating tapes 41, 42 are adhesively bonded to the underfloor 20 in a grid pattern. Equal distances are provided between the locating elements 80 on the laminating strips 41 and the sensor elements 81 on the laminating strips 42.
- the Kaschierb sections 41 are each parallel to each other, as well as the Kaschierb section 42 also arranged side by side parallel to each other on the lower floor 20.
- the laminating strips 41, 42 extend at right angles to each other, wherein other angular arrangements are also possible.
- the sensor conductors, locating elements and sensor elements are arranged in a floor covering according to the invention in a grid on the subfloor.
- the sensor elements 81 and the locating elements 80 are thus glued in a grid on the underbody itself.
- the laminating tapes 41, 42, that is a laminating material 43, facilitate their attachment to the subfloor 20 in the aforementioned grid.
- the locating elements 80 are or include, for example, RFID tags 82 that can be read by a corresponding reader 101 of a vehicle 100.
- the vehicle 100 can navigate on the floor covering 10.
- the locating elements 80 each comprise a chip 87 and an antenna 86, which form constituents of the RFID tag.
- the structure of such components is known. In any case, these components do not need an energy source, but are supplied with the corresponding energy during reading by the reader 101, namely via the antennas 86th
- the sensor elements 81 are, for example, pressure sensors, load sensors or the like, which can detect a load on the floor covering 10 and thus a presence of, for example, the vehicle 100 or the person 1 14.
- other sensory functions such as electric fields, inductive influences or the like are sensory detected by sensor elements in the nature of the sensor elements 81.
- the sensor elements 81 represent an advantageous option.
- the sensor elements 81, the locating elements 80 and the sensor conductors 70, 71 are, as it were, unprotected on their upper side, when they are adhesively bonded to the underbody 20.
- a reinforcing fabric 30 is arranged above the electrical components 85, which protects the sensitive electrical components 85 on their upper side facing away from the underbody 20.
- the reinforcing fabric 30 is placed above the electrical components 85 before a hardenable material 45 is introduced between the electrical components 85 and above the components 85.
- a hardenable material 45 is introduced between the electrical components 85 and above the components 85.
- the mass of the curable material 45 as long as it is still liquid o- pasty, with a spatula 130 spatulas.
- the curable material 45 or the entire curable material 45 is first poured onto the adhesive layer 40 and the components 85, before the reinforcing fabric 30, for example, using the spatula tool 130 or other machining tool in the still soft mass of Materials 45 is filled or pressed.
- the components 85 are protected on the upper side by the reinforcing fabric 30, when the spatula tool 130 or another machining tool is used. The machining tool can not damage the components 85.
- the adhesive layer 40 In the aforementioned processing of the curable material 45 is preferably wet-on-wet, that is, the adhesive layer 40 should not be cured before the curable material 45 is introduced.
- the adhesive layer 40 forms a bonding with the subfloor 20, on the other hand, the curable material 45, a bonding with the adhesive layer 40 and the components 85. It creates a homogeneous mass.
- the material of the adhesive layer 40 is desirably the same as that of the hardenable material 45, for example, a synthetic resin material such as epoxy resin material, polyurethane resin material, acrylic resin material or the like.
- the hardenable material 45 When cured, the hardenable material 45 reliably packs components 85, so that mechanical stresses on the components 85 are at least largely avoided.
- the curable material 45 when cured, forms a homogeneous, continuous, and no-gap layer above the components 85.
- the hardened material 45 represents a moisture barrier or moisture barrier, so that, for example, moisture can not reach the components 85 from above. These are hermetically covered and protected from above, so to speak.
- the elastic layer 50 comprises, for example, a rubber granulate, in particular in the form of a mat.
- the elastic See layer 50 acts as a damping layer or compliant layer, even if above the elastic layer 50 nor a topsoil 60 in the form of, for example, a hard layer 61, a hard floor, linoleum, carpet or the like, is arranged. Possibly from the top of the floor covering 10 acting shocks are thus cushioned.
- the use of the flooring 10 is extremely ergonomic, because this gives way resiliently.
- the floor covering 10 can thus provide, for example, a soundproofing, soundproofing or the like.
- the elastic pad 50 is an option that is advantageous.
- the hard layer 61 it is possible for the hard layer 61 to be arranged above the hardenable material 45 without the elastic covering 50 lying therebetween, in particular directly.
- the hard layer 61 may, for example, also comprise or be formed by synthetic resin, for example epoxy resin, polyurethane resin, acrylic resin or the like. Conveniently, the modulus of elasticity of the hard layer 61 is equal to that of the elastic layer 50.
- the hard layer 61 has on its upper side a compressive strength of at least 35 N nm 2 , preferably at least 40 N nm 2 , particularly preferably at least 45 N nm 2 .
- the hard layer 61 can thus easily support the weight of the vehicle 100.
- the reinforcing fabric 30 has, for example, longitudinal fiber 31 and transverse fibers 32, and the reinforcing fabric 30 is expediently made of a glass fiber material.
- the reinforcing fabric 30 is electrically non-conductive, so that the functions of the sensor conductors 70, 71 and the locating elements 80 and the sensor elements 81 are not affected by the reinforcing fabric 30.
- the locating element 80 comprises the RFID tag, which is arranged in a protective capsule 83.
- the protective capsule 83 has, for example, an adhesive layer 84 for attachment to the reinforcing fabric 30 and / or the subfloor 20 or the laminating material 43 is suitable. Without further ado, an additional adhesive layer may be provided, for example on the upper side of the protective capsule 83 opposite the adhesive layer 85.
- the protective capsule 83 expediently consists of a foam material 88, in particular polyurethane.
- the protective capsule 83 is somewhat yielding, so that it can absorb and absorb impacts or force effects, for example by the spatula 130. This will not damage the sensitive RFID tag.
- the locating element 80 is encased on all sides with the foam material 88. It would also be conceivable that the locating element 80 or any other electronic or electrical component in a floor covering according to the invention only upper side, i. facing away from the subfloor, only on the underside, i. only subfloor facing, or only laterally protected with the foam material or sheathed
- This technology i. a protective capsule in the manner of the protective capsule 83 are also used in the sensor element 81.
- an electrical shield 89 is provided between the electrical component 85 and the underbody 20.
- the shield 89 reduces or avoids, for example, electrical and / or electromagnetic and / or capacitive influences of a steel reinforcement 21 which forms part of the subfloor 20 or is located below the subfloor 20.
- the shield 89 includes, for example, a shield plate, a shielding cloth, or the like.
- the shield 89 may be glued to the subfloor 20, for example, based on the adhesive layer 40. It is possible that the shielding 89 forms a component of the electrical component 85, in particular of the locating element 80.
- the electrical component 85 is adhesively bonded to the subfloor 20, for example, on the basis of the adhesive layer 40.
- the component 85 is preferably firmly connected to the shield 89, for example glued or pressed or both.
- the Abschirnnung 89 is glued on the basis of the adhesive layer 40 to the subfloor 20.
Abstract
Description
Claims
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102015112214.6A DE102015112214A1 (en) | 2015-07-27 | 2015-07-27 | Floor covering with at least one electrical component and method for producing a floor covering |
PCT/EP2016/067582 WO2017017033A1 (en) | 2015-07-27 | 2016-07-22 | Floor covering comprising at least one electrical component and method for producing a floor covering |
Publications (2)
Publication Number | Publication Date |
---|---|
EP3329067A1 true EP3329067A1 (en) | 2018-06-06 |
EP3329067B1 EP3329067B1 (en) | 2023-04-12 |
Family
ID=56555378
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP16745088.1A Active EP3329067B1 (en) | 2015-07-27 | 2016-07-22 | Floor covering comprising at least one electrical component and method for producing a floor covering |
Country Status (4)
Country | Link |
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US (1) | US10316528B2 (en) |
EP (1) | EP3329067B1 (en) |
DE (2) | DE102015112214A1 (en) |
WO (1) | WO2017017033A1 (en) |
Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
NL2017083B1 (en) * | 2016-07-01 | 2018-01-19 | 2D2 Systems B V | Floor provided with observation means and method for manufacturing such a floor. |
DE102017119425A1 (en) | 2017-02-01 | 2018-08-02 | <BARIT>(R) - Kunstharz-BELAGSTECHNIK GmbH | Floor covering with at least one electrical component and electrical component for a floor covering |
LU100187B1 (en) * | 2017-05-03 | 2018-11-05 | Tarkett Gdl Sa | Sensor Wiring System and Sensing System for Room Boundary Surfaces |
WO2022192550A2 (en) * | 2021-03-11 | 2022-09-15 | Serpent Scale Systems Llc | Multi-use composite |
CN114232939A (en) * | 2021-12-08 | 2022-03-25 | 北京华创空港工程有限公司 | Wear-resistant concrete ground construction process |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6114046A (en) * | 1997-07-24 | 2000-09-05 | Evergreen Solar, Inc. | Encapsulant material for solar cell module and laminated glass applications |
US6478229B1 (en) | 2000-03-14 | 2002-11-12 | Harvey Epstein | Packaging tape with radio frequency identification technology |
DE10307505B4 (en) * | 2003-02-21 | 2005-03-03 | Infineon Technologies Ag | A textile fabric structure, surface covering structure and method for determining a spacing of microelectronic elements of the textile fabric structure to at least one reference position |
DE102005045549A1 (en) * | 2005-09-23 | 2007-04-05 | Vorwerk & Co. Interholding Gmbh | Method for equipping a carpet with electronic components, device therefor, and carpet with electronic components |
DE102006027213A1 (en) | 2006-06-12 | 2007-12-13 | Future-Shape Gmbh | Textile layer arrangement, textile layer array and method for producing a textile layer arrangement |
DE102007001225A1 (en) * | 2007-01-08 | 2008-07-10 | Future-Shape Gmbh | Surface covering element, surface covering element arrangement and method for producing a surface covering element |
CN101646737B (en) | 2007-03-27 | 2013-07-17 | 因特菲斯有限公司 | System and method for floor covering installation |
DE102007030829A1 (en) * | 2007-07-03 | 2009-01-08 | Christl Lauterbach | Surface covering structure and method for producing a surface covering structure |
DE102008010530A1 (en) | 2008-02-22 | 2009-08-27 | Future-Shape Gmbh | A method of making a flooring pad and method of making a flooring layer for a flooring pad having at least one electronic component integrated therein |
FR2956137B1 (en) * | 2010-02-11 | 2012-07-06 | Varidal Compagny Ltd | SLAB FOR SURFACE OF DETECTION AND METHOD OF INSTALLATION OF SUCH SLAB |
DE102012107412B4 (en) * | 2012-08-13 | 2016-03-24 | Jaromir Remes | Activity sensor, floor or wall construction method and activity evaluation method |
-
2015
- 2015-07-27 DE DE102015112214.6A patent/DE102015112214A1/en not_active Withdrawn
-
2016
- 2016-07-22 EP EP16745088.1A patent/EP3329067B1/en active Active
- 2016-07-22 DE DE112016002789.3T patent/DE112016002789A5/en not_active Withdrawn
- 2016-07-22 WO PCT/EP2016/067582 patent/WO2017017033A1/en active Application Filing
- 2016-07-22 US US15/747,659 patent/US10316528B2/en active Active
Also Published As
Publication number | Publication date |
---|---|
EP3329067B1 (en) | 2023-04-12 |
US20180216354A1 (en) | 2018-08-02 |
DE102015112214A1 (en) | 2017-02-02 |
WO2017017033A1 (en) | 2017-02-02 |
DE112016002789A5 (en) | 2018-03-15 |
US10316528B2 (en) | 2019-06-11 |
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