CN111396969A - Modularization graphite alkene ground heating structure and underfloor heating system - Google Patents

Abstract

The application relates to a modularization graphite alkene ground heating structure and underfloor heating system. Modular graphene floor heating structure provided by the application comprises: the wood protective layer, the graphene warm core layer, the plastic insulating layer and the bottom connecting layer are stacked one by one; the wood protective layer covers one side of the graphene warm core layer, and the plastic insulating layer and the bottom connecting layer are stacked and cover the other side of the graphene warm core layer; one end of the wood protective layer is protruded compared with one end of the plastic insulating layer to form a first step; the other end of the plastic insulating layer protrudes out of the other end of the wood protective layer to form a second step; the first step has the same lateral length as the second step. Modular graphene floor heating structure and floor heating system have easy to assemble and connect firm advantage.

Description

Modularization graphite alkene ground heating structure and underfloor heating system

Technical Field

The application relates to a ground heating assembly structure, in particular to a modular graphene ground heating structure and a ground heating system.

Background

The floor heating is short for floor radiation 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 purpose is achieved by conducting from bottom to top by utilizing the law of heat storage and upward radiation of the floor.

Existing floor heating mainly has hot-water heating and warm dual mode of electricity, and wherein the hot-water heating gives ground heating through circulation warm water to in radiating the room, thereby the hot-water heating needs to accomplish fine sealed requirement very high to sealed, and reveal because of long-term the use easily, again, the lower scheduling problem of thermal efficiency of hot-water heating, and become the form of heating up traditional gradually. The electric heating is not easy to leak compared with water heating, has reduced volume and convenient installation, and is loved. However, the electric heater in the prior art needs to be fixed in structure and paved with a cement layer, so that the electric heater is fixed and protected. The electric heater in the prior art has the problems of troublesome disassembly and maintenance and troublesome installation.

Disclosure of Invention

Based on this, the utility model aims at providing modularization graphite alkene ground heating structure and underfloor heating system, it has easy to assemble and connects firm advantage.

One aspect of the application provides a modular graphene floor heating structure, which comprises a wooden protective layer, a graphene heating core layer, a plastic insulating layer and a bottom connecting layer which are stacked one by one; the wood protective layer covers one side of the graphene warm core layer, and the plastic insulating layer and the bottom connecting layer are stacked and cover the other side of the graphene warm core layer;

one end of the wood protective layer is protruded compared with one end of the plastic insulating layer to form a first step; the other end of the plastic insulating layer protrudes out of the other end of the wood protective layer to form a second step; the first step has the same lateral length as the second step.

Modular graphite alkene ground heating structure and underfloor heating system, through forming first step and second step to one of them first step can cooperate with another second step overlap joint, make two arbitrary modular graphite alkene ground heating structures can conveniently splice, and need not adopt other connection structure, just can normally work, when having realized the modularization, also made things convenient for the installation.

The graphene warm core layer is covered by the flame-retardant layer, and the flame-retardant layer is arranged between the wood protective layer and the graphene warm core layer;

the transverse length of the flame-retardant layer is the same as that of the wood protective layer, and the flame-retardant layer and the wood protective layer are stacked in alignment to form the first step.

The magnetic attraction device further comprises a first magnetic attraction strip and a second magnetic attraction strip, wherein the first magnetic attraction strip is arranged on the surface of the first step, and the second magnetic attraction strip is arranged on the surface of the second step;

the first magnetic attraction strip and the second magnetic attraction strip are respectively connected with the graphene warm core layer.

Further, still include the protection frame, this protection frame transversely sets up respectively the warm sandwich layer both sides of graphite alkene.

Furthermore, the flame-retardant layer is located first step department is formed with the buckle, the plastic insulation layer is located second step department is formed with the draw-in groove, the buckle can with the draw-in groove joint cooperation.

On one hand, the graphene floor heating system comprises a connecting cable and the modular graphene floor heating structure in any scheme; a first step of one modular graphene floor heating structure is in lap joint with a second step of the other modular graphene floor heating structure to form a floor heating strip; the connecting cable is connected with the graphene warm core layer at the end part of the ground heating strip.

Further, still include temperature sensor and controller, temperature sensor with the warm sandwich layer of graphite alkene is connected, be provided with control switch on the connecting cable, control switch with temperature sensor respectively with the controller electricity is connected.

Furthermore, the floor heating device further comprises adhesive tapes, wherein the floor heating strips are arranged in parallel with the floor heating strips, and the two floor heating strips are connected with the adhesive tapes.

Further, the device also comprises a transformer, wherein the transformer is connected with the connecting cable and is electrically connected with the controller.

For a better understanding and practice, the present application is described in detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective structure view of an exemplary modular graphene floor heating structure of the present application;

fig. 2 is a side view of an exemplary modular graphene floor heating structure of the present application.

Detailed Description

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting of the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

Fig. 1 is a schematic perspective view of an exemplary modular graphene floor heating structure 10 according to the present application; fig. 2 is a side view of an exemplary modular graphene floor heating structure 10 of the present application. Referring to fig. 1 and 2, an exemplary modular graphene floor heating structure 10 includes a wood protective layer 11, a graphene heating core layer 13, a plastic insulating layer 14, and a bottom connecting layer 15 stacked one after another; the wood protective layer 11 covers one side of the graphene warm core layer 13, and the plastic insulating layer 14 and the bottom connecting layer 15 are stacked and cover the other side of the graphene warm core layer 13;

one end of the wood protective layer 11 protrudes out of one end of the plastic insulating layer 14 to form a first step; the other end of the plastic insulating layer 14 protrudes out of the other end of the wood protective layer 11 to form a second step; the first step has the same lateral length as the second step. In some further examples, the plastic insulating layer 14 is covered with an infrared reflective layer to reflect heat from the graphene warm core layer 13, thereby allowing more heat to rise.

In some preferred embodiments, the wood core-modified thermal insulation board further comprises a flame retardant layer 12, wherein the flame retardant layer 12 covers the graphene warm core layer 13 and is arranged between the wood protective layer 11 and the graphene warm core layer 13;

the transverse length of the flame retardant layer 12 is the same as that of the wood protective layer 11, and the flame retardant layer 12 and the wood protective layer 11 are stacked in alignment to form the first step. In some further examples, the fire retardant layer 12 comprises a plastic fire retardant board, a cement board, or the like having fire retardant properties.

In some preferred embodiments, the magnetic device further comprises a first magnetic strip 16 and a second magnetic strip 17, the surface of the first step is provided with the first magnetic strip 16, and the surface of the second step is provided with the second magnetic strip 17;

the first magnetic attraction strip 16 and the second magnetic attraction strip 17 are respectively connected with the graphene warm core layer 13.

In some preferred embodiments, the graphene core layer 13 further includes a protective frame (not shown in the figure), and the protective frame is respectively transversely disposed on two sides of the graphene core layer 13.

In some preferred embodiments, the flame retardant layer 12 is formed with a snap (not shown) at the first step, and the plastic insulating layer 14 is formed with a snap groove (not shown) at the second step, and the snap can be snap-fitted with the snap groove.

The graphene floor heating system comprises a connecting cable and the modular graphene floor heating structure 10 in any scheme; a first step of one of the modular graphene floor heating structures 10 is overlapped with a second step of the other modular graphene floor heating structure 10 to form a floor heating strip; the connecting cable is connected with the graphene warm core layer 13 at the end part of the ground heating strip.

In some preferred embodiments, the graphene core warming device further comprises a temperature sensor and a controller, the temperature sensor is connected with the graphene core warming layer 13, a control switch is arranged on the connection cable, and the control switch and the temperature sensor are respectively electrically connected with the controller.

In some preferred embodiments, the floor heating device further comprises adhesive tapes, one floor heating strip and the other floor heating strip are arranged in parallel, and the adhesive tapes are connected between the two floor heating strips.

In some preferred embodiments, the controller further comprises a transformer connected to the connection cable and electrically connected to the controller.

The working principle of the graphene floor heating system comprises the following steps:

wooden inoxidizing coating 11 and fire-retardant layer 12 align to pile up, and plastic insulation layer 14 and bottom articulamentum 15 align to pile up, and during placing, wooden inoxidizing coating 11 and fire-retardant layer 12 are located the warm sandwich layer 13 top of graphite alkene, and plastic insulation layer 14 and bottom articulamentum 15 are located the warm sandwich layer 13 below of graphite alkene. Wherein, the warm sandwich layer 13 of graphite alkene is located the terminal surface of first step along length direction's one end, and the other end is located the terminal surface of second step to first step and second step department all have the extension of the warm sandwich layer 13 of graphite alkene. Then, when a graphene floor heating structure is spliced with another graphene floor heating structure, a first step of the graphene floor heating structure is spliced with a second step of another graphene floor heating structure, so that two graphene floor heating structures are overlapped with each other in the graphene heating core layer 13, and a circuit on the corresponding graphene heating core layer 13 is conducted.

Like this, through the first step and the second step that this application formed, made things convenient for the connection and the cooperation of two blocks of graphite alkene warm core structures to still make the circuit after connecting switch on, can make things convenient for quick completion graphite alkene underfloor heating system build.

When the first step and the second step are spliced, the first magnetic attraction strip 16 and the second magnetic attraction strip 17 attract each other, so that the first step and the second step can be spliced quickly and accurately, and the connecting effect is further ensured. Moreover, the magnetic attraction can enhance the connection effect along with the electrification of the graphene warm core layer 13, and the connection stability is ensured.

The graphene floor heating system is built and completed, the temperature value sensed by the temperature sensor is transmitted to the controller and compared, if the temperature exceeds the threshold range, and when the temperature is higher than the threshold range, the power of the connecting cable is controlled to be cut off, or the voltage of the transformer is controlled to be reduced, so that the power consumption of the system is reduced. If the local temperature is detected to be overhigh, the alarm can be connected with the controller, and the controller controls the controller to alarm.

The graphene floor heating system has the advantages that the graphene floor heating structure which is modularized and convenient to connect is achieved, the rapid and convenient construction of the whole graphene floor heating system is guaranteed, and convenience is brought to the arrangement of the whole system.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (9)

1. The utility model provides a modular graphene floor heating structure which characterized in that: the composite material comprises successively stacked wood protective layers, a graphene warm core layer, a plastic insulating layer and a bottom connecting layer; the wood protective layer covers one side of the graphene warm core layer, and the plastic insulating layer and the bottom connecting layer are stacked and cover the other side of the graphene warm core layer;

one end of the wood protective layer is protruded compared with one end of the plastic insulating layer to form a first step; the other end of the plastic insulating layer protrudes out of the other end of the wood protective layer to form a second step; the first step has the same lateral length as the second step.

2. The modular graphene floor heating structure of claim 1, characterized in that: the graphene warm core layer is covered by the flame-retardant layer, and the flame-retardant layer is arranged between the wood protective layer and the graphene warm core layer;

the transverse length of the flame-retardant layer is the same as that of the wood protective layer, and the flame-retardant layer and the wood protective layer are stacked in alignment to form the first step.

3. The modular graphene floor heating structure of claim 2, characterized in that: the magnetic force sensor is characterized by further comprising a first magnetic attraction strip and a second magnetic attraction strip, wherein the first magnetic attraction strip is arranged on the surface of the first step, and the second magnetic attraction strip is arranged on the surface of the second step;

the first magnetic attraction strip and the second magnetic attraction strip are respectively connected with the graphene warm core layer.

4. The modular graphene floor heating structure of claim 3, characterized in that: still include the protection frame, this protection frame transversely sets up respectively the warm sandwich layer both sides of graphite alkene.

5. The modular graphene floor heating structure of claim 3, characterized in that: the flame-retardant layer is located first step department is formed with the buckle, the plastic insulation layer is located second step department is formed with the draw-in groove, the buckle can with the cooperation of draw-in groove joint.

6. The utility model provides a graphite alkene underfloor heating system which characterized in that: the modular graphene floor heating structure comprises a connecting cable and the modular graphene floor heating structure of any one of claims 1-5; a first step of one modular graphene floor heating structure is in lap joint with a second step of the other modular graphene floor heating structure to form a floor heating strip; the connecting cable is connected with the graphene warm core layer at the end part of the ground heating strip.

7. The graphene floor heating system of claim 6, wherein: still include temperature sensor and controller, temperature sensor with the warm sandwich layer of graphite alkene is connected, be provided with control switch on the connecting cable, control switch with temperature sensor respectively with the controller electricity is connected.

8. The graphene floor heating system of claim 6, wherein: the floor heating strip is characterized by further comprising adhesive tapes, wherein the floor heating strips are arranged in parallel with the floor heating strips, and the two floor heating strips are connected with the adhesive tapes.

9. The graphene floor heating system of claim 7, wherein: the transformer is connected with the connecting cable and electrically connected with the controller.

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