DE102016009983A1 - BLANKET - Google Patents

Abstract

The invention describes a glass ceiling made of solid glass beads together and if necessary additional plastic particles of Makrolon and polyurethane for the construction of a ceiling for road superstructure for walking and driving on pedestrians and vehicles. Carbon fibers and glass fibers reinforce the walkable or passable ceiling with your loops, knits and knits. By the textile reinforcements curvatures of the glass ceiling can be better designed. Lenses on the glass ceiling amplify the light in a given direction. Sensors and / or RFID detect and transmit signals, for example for unmanned vehicles. Alternatively eig net described the glass ceiling as the outer facade of a building.

Description

Road surfaces on paths and roads serve better locomotion especially passers-by and vehicles and are exposed to different forces depending on the use. Pressure, lateral and shear forces, weather conditions set the roadway to be particularly by the speed as well as through sole and tire wear taken.

In the DE 10 2014 015 411 and the DE 10 2014 016 383 transparent routes and streets are known under which facilities for light and electricity generation are located and a further development of the previous representation.

The ceiling is the upper part of the road superstructure. Below the cover layer are several base layers. A compound of both parts is called the wearing surface layer. The volumes of the ceiling correspond to the road construction laws and vary according to requirements.

A brochure of the company Hansegrand describes an open-pored bearing layer consisting of splinters and binder. However, these fine grains are opaque and can be made of different colors. It is obvious that the electronic components and the ceiling reinforcing grid structures made of carbon fiber, as well as glass fibers with integrated electronics, as described in the following example in i built a street made of splinters and polyurethanes, so that the advantage of reinforcing textile lattice structures seamless, for example when driving a Ceiling merges seamlessly from the transparent ceiling to the opaque ceiling, covering the whole area with shocks from objects on the ceiling, as well as navigation of a vehicle.

The object of the invention is to provide a bullet-resistant, water-permeable, transparent and / or translucent carrier top layer of recycled glass and / or recycled makrolone and / or polyurethane, polymethylmetracrelate which is bonded together by an adhesive (reaction or polymerization adhesive) and textile reinforcements from suspensions of impact forces and shear forces. And on the glass ceiling additionally coated with a transparent or translucent self-adhesive silicone rubber film. Sensors count the volume of vehicles, impurities and pollutants, measuring the temperature, the load of the fibers and filaments, light intensity, signal pulses for controlling unmanned cars and the like. The ceiling is not only for parks, roads, but also on airfields for the orientation of vehicles and Aircraft on the airfield of use. The dimensions of a glass ceiling are freely selectable depending on applications in the field of road construction regulations.

White glass from packaging is often recycled after use. It is smashed into broken glass and then ground into fine glass grains. The geometry and arrangement of several connected transparent glass grains together forms the load-bearing capacity of the base layer. The backing layer can also be a Mischanodnung of glass grains and polymethylacrelate, markrolone and polyurethane particles form a few mm in size and arrange themselves in different geometries with each other to form a composite optionally with the help of a transparent polyurethane, transparent epoxy adhesive, resin, polyurethane casting resin, Polyurethane adhesive, polyester resins, silicone rubber connect. The art particles of Makrolon or polyurethane, polymethylacrelate include trapped iron particles which align the plastic particles by a magnetic force for advantageous alignment and position of the plastic particles in front of the mutually hardening adjacent attachment compound of the plastic particles, so that further pore openings are given in the glass brick. At the same time, microleds can be embedded in the polyurethane particles or macrolone particles, polymethylacrelate particles, which can make the floor glow in different colors. By means of an integrated electronic device, the LEDs enclosed in the plastic particles would be supplied with power wirelessly. These plastic parts would be a few millimeters in size. The plastic particles can take on different shapes such as elongated, round, angular. As a binder, a polyurethane adhesive encloses the macrolone particles and polyurethane particles and / or glass particles firmly together. The base layers consist of several superimposed glass and / or glass plastic layers between which in equal and / or irregular distance 2 Dimensional and / or 3 Dimensional textile reinforcements of glass fibers or carbon fibers or a mixture of the two is integrated. The fibers and filaments form a 3 dimensional structure (close-meshed or coarse-meshed design) for the lateral attachment of a recess in the glass brick with anchors that exit in four directions into the interior of the glass brick. The recesses of the glass ceiling have holding fixtures for attachment to charging stations for electric vehicles, battery / battery cabinets, street lighting, and fixtures for house facades. The filaments of glass or carbon fibers form Endlosrovings grid structure, as a conductor for DC and / or AC, pulse current. Fibers and filaments are used for better crosslinking impregnated with the glass in a styrene-butanediene, resin or polyurethane binder. As a conductor, individual filaments may be surrounded by an insulating silicone film. The conductive fiber or carbon fiber filaments supply RFID, sensors to measuring and control devices, as well as one or more micro leds which are mounted in the filaments and fibers and are supplied with power. Using an IC chip and software as an interface, the flow of current and sensors, RFID can be controlled with different tasks. The results from the sensors are transmitted wirelessly to a radio antenna and forwarded by the radio signal to a receiver. For example, to control unmanned vehicles, wheelchairs as a car-to-car interface. The fibers and filaments with integrated sensors and / or microleds are also located on the inner, inner facing surface layer of a glass brick and are surrounded by a transparent silicone rubber film. The fibers and filaments can be equipped with RFID chips that can be provided with information and recognized by a reader. The scanner is not in direct contact with the RFID chip, but is located on the vehicle. If the vehicle, wheelchair in wireless contact with the glass ceiling so it follows the commands from the information of the RFID (Radio Frequency Three-dimensional) and the on-board computer of the vehicle. The RFID chips are mounted at the same distance on the road in at least one direction and are positioned just below the surface of the ceiling. In addition, in particular in low light conditions or darkness, the LEDs embedded in the ceiling can be activated in order to better perceive a vehicle approaching.

Lattice structures made of textile reinforcements with angle profiles would enclose the sides of a ceiling, as well as double T structures will provide a support of the ceiling to the ground. Instead of using glass and / or plastic parts, the angles and double T lattice structures can also be filled with concrete, which in turn is followed by the glass particles. Endless rovings, angle profiles, double T lattice structures and their carbon and / or glass fibers can be combined to form a static supporting unit to form a stable ceiling.

Grid structures are inserted into an empty field, for example given by shuttering. The aim is the two- and three-dimensional lattice structures extended to position the same distance and a coincidence of the lattice structures by filling the bed to form the ceiling of glass and / or plastic material by spacers on which the checkerboard longitudinal and transverse fiber filaments, as well the edges of the sheathing boards are attached to the holders of the spacers are stretched to be detected at superposed and parallel grating structures at both ends by spacers and remain in an extended position. The spacers can be firmly positioned on the formwork. Spacers are already out of the WO2015 / 039869 known.

Glass particles, Makrolonteilchen, Polyuretanteilchen, Polymethylacrelatteilchen less than 20 mm are provided with diffractive elements on their surfaces which divides the laser beam into two beams and formed by means of a laser sintering patterning into pixels and lenses, its arrangement and light amplification increases. The lenses can be attached to the upper and lower boundary layer of the glass ceiling. The diffractive lenses can be arranged so the light intensity, both rises to the solar cells located in the shaft below the glass ceiling, as well as in the dark light emitted from the shaft exit through existing lens structures on the Deckenbegrenzungsseite reinforced leaks into the open.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102014015411 [0002]
• DE 102014016383 [0002]
• WO 2015/039869 [0008]

Claims (12)

Glass ceiling made of glued with polyurethane binders glass grains, characterized in that the grains are transparent and / or translucent. Glass ceiling of interconnected transparent / translucent makrolon particles and / or polyurethane particles and / or polymethylacrelat particles according to claim 1, characterized in that they are bonded together with binder. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles and / or polymethylacrelat particles according to claims 1 and 2, characterized in that the at least one plastic particle of Makrolon or polyurethane and / or Polymethyacrelat of interconnected glass grains is completely surrounded. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1 and 2, characterized in an indiscriminate arrangement of bulk material of glass grains and at least one plastic particles of Makrolon and / or polyurethane and / or Polymethylacrelat solid and durable together connected is. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-4, characterized in that the textile reinforcements of carbon fibers and / or glass fibers solidify permanently and permanently with the bulk material with a binder. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-5, characterized in that the textile reinforcements of carbon fibers and / or glass fibers form different two-dimensional and / or three-dimensional geometric arrangements to the impact force and strength of the glass ceiling increase. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-4, characterized in that an inclusion of microleds and wireless connections for switching on and off the illumination in the Kunsstoffpartikeln of Makrolon and / or polyurethane and Polymethylacrelat consists. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-4, characterized in that an inclusion of magnetically influenced iron particles in the plastic particles of Makrolon and / or polyurethane and this is in front of a solid incoming connection Align grains with each other. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-4, characterized in that a sensor receives signals and processes measured quantities and wirelessly transmits by antenna and radio. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-6, 8, characterized in that the lattice structures formed from textile filaments are held by spacers under tension at equal intervals. Glass ceiling of interconnected glass grains and / or makrolon particles and / or polyurethane particles according to claims 1-6, 8, characterized in that the lenses of diffractive elements on the glass, Makrolon-, polyurethane elements, Polymetylacrelat enhance the light intensity and depending on the orientation of the Lenses radiates to the supporting body. Glass ceiling of interconnected glass grains and / or macrolone particles and / or polyurethane particles according to claims 1-6 and 9, characterized in that an RFID chip with information in the ceiling is fixed at intervals and with the vehicle and the recessed LEDs in the ceiling wirelessly communicates.