CN215716849U - Energy-saving type temperature-adjustable floor heating floor - Google Patents

Abstract

The utility model discloses an energy-saving temperature-adjustable floor heating, which relates to the technical field of floor heating, and comprises a surface shell and a bottom plate, wherein the periphery of the surface shell and the periphery of the bottom plate are fixedly connected, an installation cavity is formed inside the surface shell, a heat conduction layer and a heat insulation layer are arranged in the installation cavity from top to bottom, the heat conduction layer comprises a metal foil layer and a graphene electric heating layer, an adhesive layer and a temperature sensor are arranged between the metal foil layer and the inner surface of the surface shell, the temperature sensor is electrically connected with a controller, and a Bluetooth module capable of remotely controlling a mobile phone APP is arranged on the controller. The utility model discloses a through utilizing graphite alkene electricity to generate heat the layer and heat, guaranteed the homogeneity of heating, and the metal foil layer has high heat conductivity and quick heat-sinking capability, just can experience warm in the short time house and expect, heat utilization is higher, and the energy consumption is lower relatively, and the temperature can be regulated and control.

Description

Energy-saving type temperature-adjustable floor heating floor

Technical Field

The utility model relates to the technical field of heating of floor heating floors, in particular to an energy-saving temperature-adjustable floor heating floor.

Background

In recent years, a newly emerging heating mode of a floor heating floor is mainly a low-temperature hot water heating or heating wire heating mode, and mainly has the defects of relatively single function, limited temperature transfer efficiency, low high-temperature heat generation efficiency, large integral energy consumption and power, poor heat insulation effect under the condition of large laying area, and air drying after long-time use seriously affects the use comfort level. In addition, the temperature of the floor surface cannot be monitored at any time, and potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

In view of the problems in the prior art, the present invention is directed to an energy-saving temperature-adjustable floor, which has a fast heating rate, energy saving, consumption reduction, and adjustable temperature.

In order to achieve the purpose, the utility model adopts the following technical scheme that: the heat-conducting layer comprises a metal foil layer and a graphene electric heating layer, and the graphene electric heating layer is coated on one side of the metal foil layer, which is far away from the inner surface of the face shell, in a coating mode;

still be provided with glue film and temperature sensor in the installation cavity, temperature sensor bonds between face-piece internal surface and metal foil layer through the glue film, temperature sensor electric connection has the controller, install on the controller and carry out cell-phone APP remote control's bluetooth module to the temperature on floor surface.

Furthermore, the upper end surface of the face shell is provided with a decorative anti-skid layer.

Further, the face shell is a fiber reinforced composite face shell.

Furthermore, the material of the fiber reinforced composite material surface shell is glass fiber reinforced epoxy resin composite material or glass fiber reinforced plastic material.

Furthermore, a metal grid reinforcing layer is arranged between the heat insulation layer and the bottom plate.

Further, the material of glue film is the hot melt adhesive.

Furthermore, the metal foil is an aluminum foil or a copper foil, and the thickness of the metal foil layer is 10-15 um.

Furthermore, the graphene electric heating layer is coated on one side, far away from the inner surface of the face shell, of the metal foil layer in a silk-screen printing mode.

Further, the heat insulation and heat preservation plate is a polyurethane heat preservation plate or a polystyrene foam heat preservation plate.

Furthermore, a reflecting layer is arranged on the upper surface of one side, close to the graphene electric heating layer, of the heat insulation layer.

Compared with the prior art, the utility model has the beneficial effects that: the graphene electric heating layer is used for heating, so that the heating uniformity is ensured; the metal foil layer has extremely high heat conductivity and rapid heat dissipation capacity, so that the house can feel warmth in a short time, the heat utilization rate is high, and the energy consumption is relatively low.

Furthermore, the graphene electric heating layer has the functions of far infrared emission and negative ion release, plays a role in purification and disinfection, and the far infrared rays have the functions of health care and treatment on the human body.

In addition, temperature sensor can be used for monitoring the temperature on floor surface, in time with the information transmission who monitors for the cell-phone user, avoids sending too high temperature because of graphite alkene electricity heating layer, causes the condition such as floor burning out.

Drawings

FIG. 1 is a top exploded view of an energy saving type temperature adjustable floor heating according to the present invention;

fig. 2 is a bottom exploded structural view of an energy-saving type temperature-adjustable floor heating according to the present invention.

Fig. 3 is a front sectional exploded view of an energy-saving type temperature-adjustable floor heating according to the present invention.

In the figure: 1. a face shell; 2. a base plate; 3. a heat conductive layer; 31. a metal foil layer; 32. a graphene electrothermal layer; 4. a heat insulation layer; 5, a glue layer; 6. a temperature sensor; 7. a controller; 8. a Bluetooth module; 9. decorating the anti-skid layer; 10. a metal mesh reinforcement layer; 11. and a reflective layer.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments, and it is to be understood that the described embodiments are merely illustrative of some, but not all, of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An energy-saving temperature-adjustable floor for heating ground, referring to fig. 1-3, comprises a surface shell 1 and a bottom plate 2, wherein the periphery of the surface shell 1 and the periphery of the bottom plate 2 are fixedly connected, an installation cavity is formed inside the surface shell, a heat conduction layer 3 and a heat insulation layer 4 are arranged in the installation cavity from top to bottom, the heat conduction layer 3 comprises a metal foil layer 31 and a graphene electric heating layer 32, and the graphene electric heating layer 32 is coated on one side of the metal foil layer 31, which is far away from the inner surface of the surface shell 1, in a coating mode;

still be provided with glue film 5 and temperature sensor 6 in the installation cavity, temperature sensor 6 bonds between the internal surface of face-piece 1 and the upper surface of metal foil layer 31 through glue film 5, 6 electric connection of temperature sensor has controller 7, install on the controller 7 and carry out cell-phone APP remote control's bluetooth module 8 to the temperature on floor surface.

According to the specific embodiment of the utility model, the graphene electric heating layer 32 is used for heating, so that the heating uniformity is ensured, the metal foil layer 31 has extremely high thermal conductivity and rapid heat dissipation capability, the house can feel warm in a short time, and the energy consumption is relatively low.

Further, the graphene electric heating layer 32 has functions of far infrared emission and anion release, playing a role in purification and disinfection, and the far infrared ray has health care and treatment effects on the human body.

In addition, be connected power connection and 220V alternating current power supply during the use, make controller 7 form to open a way through cell-phone APP, graphite alkene electricity generates heat layer 32 and obtains the electric energy and begin to heat, and temperature sensor 6 is used for monitoring the temperature on floor surface, and when the high temperature, accessible cell-phone APP makes controller 7 form the closed circuit, stops the heating, and the avoidance that like this can be timely sends too high temperature because of graphite alkene electricity generates heat layer 32, causes the condition such as floor burning out.

In the embodiment of the utility model, the graphene electrothermal layer 32 comprises, by mass, 20% to 40% of conductive carbon black, 30% to 50% of graphene powder, and 10% to 50% of epoxy resin, wherein the epoxy resin in the graphene electrothermal layer 32 has an adhesion enhancing effect, so that graphene layers can be fixed and a stable conductive network can be formed, but the addition of the epoxy resin also increases the distance between graphene layers, which leads to unsatisfactory electrical conductivity, and the addition of the conductive carbon black is easier to form a dense conductive network in combination with the graphene layers, which can solve the problem of unsatisfactory electrical conductivity caused by the addition of the epoxy resin.

Preferably, the upper end surface of the face shell 1 is provided with a decorative antiskid layer 9.

The decorative antiskid layer 9 has the effect of decorating and beautifying the surface of the floor, and can adopt textures of different patterns to have the effect of decorating and antiskid.

Preferably, the face shell 1 is a fiber reinforced composite face shell.

The fiber reinforced composite material surface shell greatly improves the quality, the bearing capacity, the stability and the waterproof performance of the floor and prolongs the service life.

Preferably, the material of the fiber reinforced composite material surface shell is glass fiber reinforced epoxy resin composite material or glass fiber reinforced plastic material.

Specifically, the glass fiber reinforced epoxy resin composite material has the advantages of small density, high strength, wide raw material source, simple and convenient processing and forming, high production efficiency, strong designability and the like; the glass fiber reinforced plastic material is an inorganic non-metallic material with excellent performance, and has strong heat resistance, good corrosion resistance, high mechanical strength and large tensile strength.

Preferably, a metal grid reinforcing layer 10 is arranged between the heat insulation layer 4 and the bottom plate 2.

In order to further improve the overall strength of the floor and prolong the service life of the floor, a metal grid reinforcing layer 10 is arranged between the heat-insulating layer 4 and the bottom plate 2 according to the specific embodiment of the utility model.

Preferably, the glue layer 5 is made of hot melt glue.

The hot melt adhesive has the characteristics of stable bonding capability and water and moisture resistance, can play a better role in water and moisture prevention and has better concealment, and compared with a mechanical fastener and a sealing adhesive tape, the hot melt adhesive has no influence on the integral attractiveness of the floor.

Preferably, the metal foil layer 31 is an aluminum foil or a copper foil, and the thickness of the metal foil layer 31 is 10-15 um.

Due to the excellent heat conductivity and the quick heat dissipation capacity of the aluminum foil and the copper foil, heat generated by heating the graphene electric heating layer 32 can be transferred to the upper surface of the face shell 1 in a short time, so that heat loss in the transfer process is avoided, and the heat utilization rate is improved.

Preferably, the graphene electrothermal layer 32 is coated on one side of the metal foil layer 31 far away from the inner surface of the face shell 1 by a silk-screen printing method.

The silk-screen printing process is simple, the processing time is short, the uniformity and flatness of the thickness of the graphene electric heating coating are guaranteed, and the electric conductivity and the heat conductivity are improved. In the embodiment of the present invention, the thickness of the graphene electrothermal layer 32 is 30-50 um.

Preferably, the heat insulation and heat preservation plate 4 is a polyurethane heat preservation plate or a polystyrene foam heat preservation plate.

The polyurethane insulation board is a good thermal insulation material, and can reduce heat loss; the polystyrene foam heat-insulating board is a foamed hard plastic board formed by using polystyrene resin as raw material, adding other polymers and heating and extruding, and has the characteristics of strong bearing capacity, good water-proofing property, chemical corrosion resistance and strong ageing resistance.

Preferably, the upper surface of the heat insulation layer 4 close to one side of the graphene electric heating layer 32 is provided with a reflection layer 11.

In order to weaken downward conduction of heat generated by the graphene electric heating layer 32 and enable most of the heat to be transferred to the upper side of the floor for indoor heating, according to the specific embodiment of the utility model, the reflective layer 11 is arranged on the upper surface of the heat insulation layer 4 close to one side of the graphene electric heating layer 32, and the arrangement of the reflective layer 11 improves the heat utilization rate and can effectively save energy.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (10)

1. An energy-saving temperature-adjustable floor heating floor comprises a face shell and a bottom plate, and is characterized in that the periphery of the face shell and the periphery of the bottom plate are fixedly connected, an installation cavity is formed inside the installation cavity, a heat conduction layer and a heat insulation layer are arranged in the installation cavity from top to bottom, the heat conduction layer comprises a metal foil layer and a graphene electric heating layer, and the graphene electric heating layer is coated on one side, far away from the inner surface of the face shell, of the metal foil layer in a coating mode;

still be provided with glue film and temperature sensor in the installation cavity, temperature sensor bonds between face-piece internal surface and metal foil layer through the glue film, temperature sensor electric connection has the controller, install on the controller and carry out cell-phone APP remote control's bluetooth module to the temperature on floor surface.

2. An energy-saving type temperature-adjustable floor as claimed in claim 1, wherein the upper end surface of the face shell is provided with a decorative anti-slip layer.

3. An energy saving type temperature adjustable floor heating according to claim 2, wherein the face shell is a fiber reinforced composite face shell.

4. The floor of claim 3, wherein the fiber reinforced composite material cover shell is made of glass fiber reinforced epoxy resin composite material or glass fiber reinforced plastic material.

5. An energy-saving type temperature-adjustable floor as claimed in claim 1, wherein a metal mesh reinforcement layer is provided between the heat insulating layer and the bottom plate.

6. The energy-saving type temperature-adjustable floor as claimed in claim 1, wherein the adhesive layer is made of hot melt adhesive.

7. The energy-saving type temperature-adjustable floor as claimed in claim 1, wherein the metal foil layer is aluminum foil or copper foil, and the thickness of the metal foil layer is 10-15 um.

8. The energy-saving type temperature-adjustable floor as claimed in claim 1, wherein the graphene electric heating layer is coated on a side of the metal foil layer away from the inner surface of the surface shell by silk-screen printing.

9. The energy-saving type temperature-adjustable floor as claimed in claim 1, wherein the heat insulation and heat preservation board is a polyurethane heat preservation board or a polystyrene foam heat preservation board.

10. The energy-saving type temperature-adjustable floor as claimed in claim 1, wherein a reflective layer is disposed on an upper surface of the heat insulating layer adjacent to the graphene electric heating layer.

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