CN112815380A - Graphene modified self-leveling concrete and application thereof - Google Patents

Abstract

The invention belongs to the technical field of graphene application, and particularly relates to graphene modified self-leveling concrete and application thereof, which are characterized in that: including the waterproof encapsulation cover body of a plurality of, every be provided with a plurality of encapsulation bag in the encapsulation cover body, every install graphite alkene electric heat membrane and copper foil in the encapsulation bag respectively, the circuit both ends of graphite alkene electric heat membrane are connected with the copper foil electricity of both sides respectively, a plurality of copper foil lead wire parallel connection in the encapsulation bag has the power supply line, every graphite alkene electric heat membrane top installs the controller through the wiring end, it has the electricity subassembly to peg graft at the controller top, install the power cord in the electricity subassembly, power cord top fixed mounting has the plug, power cord bottom fixed mounting has the connector. The graphene modified self-leveling concrete has high waterproof performance, ensures heating uniformity, can control the temperature in real time, is convenient for arranging wires, and is convenient for workers to overhaul.

Description

Graphene modified self-leveling concrete and application thereof

Technical Field

The invention belongs to the technical field of graphene application, and particularly relates to graphene modified self-leveling concrete and application thereof.

Background

With the improvement of the living standard of people, floor heating is more and more applied to the life of people. The Floor Heating is short for Floor radiation Heating, and is called radiation Floor Heating, the whole Floor is used as a radiator, the whole Floor is uniformly heated through a Heating medium in a Floor radiation layer, and the Heating is achieved by conducting from bottom to top by utilizing the law of heat storage and upward radiation of the Floor, the existing Floor Heating is processed through graphene, the graphene is a two-dimensional carbon nano material which is formed by carbon atoms through sp2 hybrid tracks and is hexagonal in a honeycomb lattice, the graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug transfer and the like, and is considered as a revolutionary material in the future. At present, common floor heating systems comprise water floor heating systems using low-temperature water level media and electric floor heating systems using electric heating materials and heat sources. The defects of the water floor heating system are that the hot water flow speed is low, the return water temperature is low, the temperature rising speed is also low, the early-stage installation cost is high, the wall-mounted furnace occupies a large part, the maintenance is troublesome, and the floor heating pipe and the wall-mounted furnace need to be cleaned and maintained regularly. The electric floor heating has the defects that slight radiation can be generated in the operation process, the electric floor heating is used in a large area, the energy-saving performance is not as good as that of water floor heating in the long run, once a bad area appears, the bad area needs to be completely replaced, the temperature of the floor heating cannot be controlled, the indoor temperature is easy to be unstable, the cold rate of people is easy to increase, the traditional floor heating can be realized in 3-5 hours, and the heat conduction effect is not good. Therefore, there is a need for graphene modified self-leveling concrete and application thereof.

Disclosure of Invention

The invention aims to solve the technical problems of providing graphene modified self-leveling concrete which is simple to operate, convenient to use, high in waterproof performance, capable of guaranteeing heating uniformity, capable of controlling temperature in real time, convenient to adjust according to temperature requirements to enable indoor temperature to reach a constant temperature state, better in heat conduction effect, resistant to cracking, heat-preserving, fast in heating, capable of avoiding winding and damage of a wire, capable of guaranteeing safety of the wire, convenient to arrange the wire, capable of guaranteeing orderliness of the wire and convenient for workers to overhaul, and application of the graphene modified self-leveling concrete.

In order to solve the above problems, the present invention provides the following technical solutions: including the waterproof encapsulation cover body of a plurality of, every be provided with a plurality of encapsulation bag in the encapsulation cover body, every install graphite alkene electric heat membrane and copper foil in the encapsulation bag respectively, the copper foil sets up in graphite alkene electric heat membrane both sides, the circuit both ends of graphite alkene electric heat membrane are connected with the copper foil electricity of both sides respectively, a plurality of copper foil lead wire parallel connection in the encapsulation bag has the power supply line, every the controller is installed through the wiring end in graphite alkene electric heat membrane top, it connects the electric subassembly to peg graft at the controller top, connect and install the power cord in the electric subassembly, power cord top fixed mounting has the plug, power cord bottom fixed mounting has the connector.

The size of each packaging bag is the same, and a plurality of packaging bags are arranged in an array manner and are connected in parallel.

The graphene electric heating films in the packaging bag are two, three copper foils are arranged on two sides and the middle of each graphene electric heating film, and the two graphene electric heating films are connected in series through circuits.

The temperature controller is installed in the controller, a lead is fixedly installed at the bottom end of the temperature controller, an anti-interference magnetic ring is fixedly installed in the lead, and a wire binding belt is sewn on the outer side of the lead.

And a temperature sensor is arranged on the graphene electrothermal film.

The invention has the beneficial effects that:

the invention has the advantages of convenient use, simple operation, high waterproof performance, ensured heating uniformity, real-time temperature control, convenient adjustment according to temperature requirements, realization of the indoor temperature reaching a constant temperature state, application of graphene on floor heating, better heat conduction effect, crack resistance, heat preservation, quick heating, avoidance of winding and damage of wires, wire safety guarantee, convenience for arranging wires, wire orderliness guarantee and convenience for maintenance work of workers.

Drawings

Fig. 1 is a structural schematic diagram of graphene modified self-leveling concrete and application thereof.

Fig. 2 is a schematic structural diagram of the graphene modified self-leveling concrete and the controller and the power connection assembly applied to the graphene modified self-leveling concrete. (1, waterproof packaging sleeve, 2, packaging bag, 3, graphene electrothermal film, 4, copper foil, 5, wiring tape, 6, wiring end, 7, controller, 8, electric connection component, 9, power line, 10, plug, 11 connector, 12, temperature controller, 13, wire, 14, anti-interference magnetic ring)

Detailed Description

The invention will be further explained with reference to the drawings.

The graphene modified self-leveling concrete and the application thereof are characterized in that: including the waterproof packaging cover body of a plurality of 1, every be provided with a plurality of packaging bag 2 in the packaging cover body 1, every install graphite alkene electric heat membrane 3 and copper foil 4 in the packaging bag 2 respectively, copper foil 4 sets up in graphite alkene electric heat membrane 3 both sides, graphite alkene electric heat membrane 3's circuit both ends are connected with the copper foil 4 electricity of both sides respectively, a plurality of copper foil 4 lead wire parallel connection in the packaging bag has the power supply line, every controller 7 is installed through wiring end 6 at 3 tops of graphite alkene electric heat membrane, 7 tops of controller are pegged graft and are connect electric subassembly 8, connect and install power cord 9 in the electric subassembly 8, 9 top fixed mounting of power cord has plug 10, power cord 9 bottom fixed mounting has connector 11.

Every the size of encapsulation bag 2 is the same, a plurality of encapsulation bag 2 is the array and arranges, parallel connection between the encapsulation bag 2, waterproof performance is high. The maintenance of construction and later stage has been made things convenient for, 3 mutually noninterferes of graphite alkene electric heat membrane in every minute bagging-off 2, if take place a graphite alkene electric heat membrane 3 and appear damaging, only need unpack the sack apart, pull out it change can, convenient operation.

The top of the controller 7 is plugged with an electricity connection assembly 8, and the electricity connection assembly 8 can be connected with a power supply to provide power.

Install temperature controller 12 in the controller 7, but temperature controller 12 adopts KT0011 thermostatic control ware, but through 12 real time control temperature of temperature controller, be convenient for adjust according to the temperature needs, also make its indoor temperature reach a constant temperature state simultaneously, avoid the temperature to neglect to hang down, guaranteed indoor temperature's stability.

The bottom end of the temperature controller 12 is fixedly provided with a wire 13, the wire 13 can transmit electric signals and current, and the power consumption can be provided for the graphene electrothermal film 3.

The anti-interference magnetic ring 14 is fixedly installed inside the lead 13, and the anti-interference magnetic ring 14 can absorb EM and magnetic ring electrostatic pulse impact force, so that the temperature controller 12 achieves corresponding international electromagnetic compatibility and electrostatic discharge, the damage of current to the lead 13 and the temperature controller 12 is reduced, the safety of the lead 13 and the temperature controller 12 is guaranteed, and the service life is prolonged.

The binding belt 5 is sewn on the outer side of the lead 13, the lead 13 can be conveniently wound through the binding belt 5, the phenomenon that the lead 13 is wound and damaged is avoided, the safety of the lead 13 is ensured, the lead 13 is also convenient to arrange, the orderliness of the lead 13 is ensured, and the maintenance work of workers is facilitated.

The temperature controller 7 is internally provided with a temperature controller 12, the bottom end of the temperature controller 12 is fixedly provided with a lead 13, the inside of the lead 13 is fixedly provided with an anti-interference magnetic ring 14, and the outer side of the lead 13 is sewn with a binding belt 5.

The principle of the invention is as follows:

the invention has simple operation and convenient use, before use, a user firstly detects the temperature and uses the temperature after confirming that no problem exists, the plug 10 of the electric connection component 8 is inserted and electrified, so as to realize the connection of a circuit, the bag mouth of each packaging bag 2 is sealed by hot pressing after the graphene electrothermal film 3 and the connection circuit are arranged, so as to play a better sealing, waterproof and dustproof role for the graphene electrothermal film 3 in the bag body, electric energy can be converted into heat energy through the graphene electrothermal film 3, the heat energy is heated from bottom to top, the surface temperature of the floor can be continuously raised, meanwhile, the heating temperature of the graphene electrothermal film 3 can be monitored in real time through the temperature sensor, when the temperature reaches a set value, the temperature sensor transmits electric signals through a connecting wire, the operation of the graphene electrothermal film 3 can be controlled through the temperature controller 12, the graphene electrothermal film 3 is ensured to be at a certain temperature, and the problem of, the constant temperature of the indoor temperature is ensured. The homogeneity of guaranteeing to generate heat, but real time control temperature is convenient for adjust according to the temperature needs, makes its indoor temperature reach the constant temperature state, with graphite alkene application warm up on, the heat conduction effect is better, anti the heat preservation that splits, just generates heat for an hour, generate heat soon, avoids the wire to take place to twine the damaged phenomenon, guarantees the wire security, the arrangement wire of being convenient for guarantees wire orderliness, the staff of being convenient for overhauls the work.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. The utility model provides a graphite alkene modified self-leveling concrete which characterized in that: comprises a plurality of waterproof packaging sleeve bodies (1), a plurality of packaging bags (2) are arranged in each packaging sleeve body (1), a graphene electrothermal film (3) and a copper foil (4) are respectively arranged in each packaging bag (2), the copper foils (4) are arranged on two sides of the graphene electrothermal film (3), two ends of a circuit of the graphene electrothermal film (3) are respectively electrically connected with the copper foils (4) on the two sides, leads of the copper foils (4) in the packaging bags are connected with power supply lines in parallel, a controller (7) is arranged at the top of each graphene electrothermal film (3) through a wiring end (6), the top of the controller (7) is inserted with an electric connection component (8), a power line (9) is installed in the electric connection component (8), the plug (10) is fixedly installed at the top end of the power line (9), and the connector (11) is fixedly installed at the bottom of the power line (9).

2. The graphene modified self-leveling concrete according to claim 1, wherein: the packaging bags (2) are the same in size, the packaging bags (2) are arranged in an array mode, and the packaging bags (2) are connected in parallel.

3. The graphene modified self-leveling concrete according to claim 1, wherein: the graphene electric heating films (3) in the packaging bag (2) are two, two three copper foils (4) are arranged on two sides and in the middle of the graphene electric heating films (3), and the two graphene electric heating films (3) are connected in series through circuits.

4. The graphene modified self-leveling concrete according to claim 1, wherein: the temperature controller (12) is installed in the controller (7), a lead (13) is fixedly installed at the bottom end of the temperature controller (12), an anti-interference magnetic ring (14) is fixedly installed in the lead (13), and a binding belt (5) is sewn on the outer side of the lead (13).

5. The graphene modified self-leveling concrete according to claim 1, wherein: and a temperature sensor is arranged on the graphene electrothermal film (3).

6. The application of the graphene modified self-leveling concrete according to claim 1 in floor heating.

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