CN207568123U - A kind of high-efficiency quick heating type nanometer heating floor - Google Patents

Abstract

The utility model provides a kind of high-efficiency quick heating type nanometer heating floor, including plate body, plate body is equipped with upper decorative layer, upper substrate layer, lower substrate layer and lower decorative layer successively from top to bottom, the side of upper substrate layer and/or lower substrate layer is equipped with socket mounting groove, and opposite side is equipped with and the matched installation fixture block of socket mounting groove；Graphene heat-conducting plate is equipped in lower substrate layer upper surface, the lower substrate layer position distribution of corresponding graphene heat-conducting plate bottom has multiple vertical cores, the bottom of vertical core is equipped with the first heat conducting nano dope layer, and the tiling area of the first heat conducting nano dope layer is more than the tiling area of graphene heat-conducting plate；Second heat conducting nano dope layer of the lower substrate layer upper surface equipped with ring-shaped structure is extended upwardly to from the edge of the first heat conducting nano dope layer；The side that lower substrate layer is contacted with graphene graphene heat-conducting plate is equipped with conducting wire, and conducting wire is extended in socket mounting groove.The heating floor has the advantages that heating rate height and reduces energy consumption.

Description

A kind of high-efficiency quick heating type nanometer heating floor

Technical field

The utility model belongs to self-heating technical field of floor, more particularly to a kind of high-efficiency quick heating type nanometer heating floor.

Background technology

Floor panel heating, abbreviation floor heating are using entire ground as radiator, by the heating agent in flooring radiation layer, The even entire ground of heating, the rule radiated upwards using the accumulation of heat and heat on ground itself is conducted from the bottom to top, to reach The purpose of heating.Low-temperature ground heating agent forms the temperature gradient that sole to head is gradually successively decreased indoors, is warmed up so as to give foot Cool comfort, more traditional heating is more comfortable, conveniently.Electricity floor heating is to use to be laid on underfloor heater energization in advance Heat production carries out the mode of heating, has the advantages such as quick comfortable, energy-efficient, saving maintenance cost.Existing ground heating system The intelligent temperature control system that can arrange in pairs or groups uses, and voluntarily selects heating region, is achieved in personalized Heating Design.It is but traditional The floor type of floor heating is various, but is limited by the structure and material of existing floor, these floors reach expected setting temperature The time of degree is very long, has seriously affected the room effect of floor heating.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of high-efficiency quick heating type nanometer heating floor, has The advantages of heating rate height and reduction energy consumption.

The utility model specific technical solution is as follows：

A kind of high-efficiency quick heating type nanometer heating floor, including plate body, the plate body from top to bottom successively be equipped with upper decorative layer, The side of upper substrate layer, lower substrate layer and lower decorative layer, the upper substrate layer and/or lower substrate layer is equipped with socket mounting groove, Opposite side is equipped with and the matched installation fixture block of socket mounting groove；Graphene heat-conducting plate is equipped in the lower substrate layer upper surface, it is right Answering the lower substrate layer position distribution of the graphene heat-conducting plate bottom has multiple vertical cores, and the bottom of the vertical core is equipped with first Heat conducting nano dope layer, the tiling area of the first heat conducting nano dope layer are more than the flat spreading part of the graphene heat-conducting plate Product；Lower substrate layer upper surface second leading equipped with ring-shaped structure is extended upwardly to from the edge of the first heat conducting nano dope layer Hot nano paint layer；The side that the lower substrate layer is contacted with graphene graphene heat-conducting plate is equipped with conducting wire, the conduction Circuit is extended in the socket mounting groove.

Further, the ring thickness of the second heat conducting nano dope layer of the ring-shaped structure is more than 5mm, and less than 30mm.

Further, the upper surface of the upper substrate layer is equipped with third heat conducting nano dope layer, and the upper substrate layer is at least If there are one the through-hole for connecting the second heat conducting nano dope layer and third heat conducting nano dope layer, the through-hole is filled with and leads Thermal medium.

Further, several support columns, the support column and through-hole is distributed with along the second heat conducting nano dope layer Be staggered setting.

Further, heat-insulated polyester film is equipped between the lower substrate layer and lower decorative layer.

Further, the bottom of the lower decorative layer is additionally provided with waterproof layer.

Further, the socket mounting groove and installation fixture block are respectively arranged on the both sides on lower substrate layer top, it is corresponding described in One upper lateral part of upper backing material plate of socket mounting groove is equipped with a convex block, and another upper lateral part of upper backing material plate of the corresponding installation fixture block is set There is a notch, the convex block matches with notch.

Further, it is equipped with L-type along the upper surface of the side wall of the upper backing material plate of the notch side and the installation fixture block Splash guard.

The beneficial effects of the utility model are as follows：The utility model provides a kind of high-efficiency quick heating type nanometer heating floor, Graphene heat-conducting plate is powered, generates heat rapidly after unlatching, and the heat that graphene heat-conducting plate back side is sent out reaches first from vertical core Heat conducting nano dope layer, then conduct heat upwards through the second heat conducting nano dope layer, can also further it be led by the heat-conducting medium of through-hole Heat is to third heat conducting nano dope layer, so as to improve the thermal efficiency.Support column is set to improve the load-bearing capacity of plate body, ensure plank Superperformance.The socket mounting groove and installation fixture block of setting stitch wood board splicing to be staggered with conducting wire, even if the water on ground Into splicing seams, be also not easily penetrated into conducting wire, the heating floor it is safe.

Description of the drawings

Fig. 1 is the structure diagram of high-efficiency quick heating type nanometer heating floor described in embodiment 1；

Fig. 2 is the structure diagram of the high-efficiency quick heating type nanometer heating floor described in embodiment 2；

Fig. 3 is the structure diagram of lower substrate layer described in embodiment 3；

Fig. 4 is the structure diagram of the high-efficiency quick heating type nanometer heating floor described in embodiment 4.

Specific embodiment

The utility model is described in further detail with following embodiment below in conjunction with the accompanying drawings.

Embodiment 1

As shown in Figure 1, the utility model embodiment 1 provides a kind of high-efficiency quick heating type nanometer heating floor, including plate body 1。

The plate body 1 is equipped with upper decorative layer 11, upper substrate layer 12, lower substrate layer 13 and lower decorative layer successively from top to bottom 14, the side of the upper substrate layer 12 and/or lower substrate layer 13 is equipped with socket mounting groove 20, and opposite side is equipped with and socket mounting groove 20 matched installation fixture blocks 21；Graphene heat-conducting plate 15 is equipped in 13 upper surface of lower substrate layer, the corresponding graphene is led Lower 13 position distribution of substrate layer of 15 bottom of hot plate has multiple vertical cores 140, and the bottom of the vertical core 140 is led equipped with first Hot nano paint layer 141, the tiling area of the first heat conducting nano dope layer 141 are more than the graphene heat-conducting plate 15 Tile area；Lower 13 upper surface of substrate layer, which is extended upwardly to, from the edge of the first heat conducting nano dope layer 141 is equipped with ring-type Second heat conducting nano dope layer 142 of construction；The lower substrate layer 13 is set with the side that graphene graphene heat-conducting plate 16 contacts There is conducting wire, the conducting wire is extended in the socket mounting groove 20.

Wherein, the ring thickness of the second heat conducting nano dope layer 142 of the ring-shaped structure is more than 5mm, and less than 30mm.

High-efficiency quick heating type nanometer heating floor provided in this embodiment can lead to directly graphene heat-conducting plate after unlatching Electricity generates rapidly heat, and user can enjoy rapidly warm environment, and does not need to complicated wiring, easy to use, Its structure can effectively reduce scattering and disappearing for heat.

Embodiment 2

As shown in Fig. 2, the present embodiment 2 provides a kind of high-efficiency quick heating type nanometer heating floor on the basis of embodiment 1. The upper surface of the upper substrate layer 12 is equipped with third heat conducting nano dope layer 17, and the upper substrate layer 12 is at least provided with a connection The through-hole 120 of the second heat conducting nano dope layer 142 and third heat conducting nano dope layer 17, the through-hole 120 are filled with and lead Thermal medium.Further in scheme, 17 top of third heat conducting nano dope layer can also be laid with copper foil.Copper is a kind of good Heat Conduction Material, by setting copper foil on graphene heat-conducting plate 15, can further heat radiation performance, shorten indoor heating Time.

Embodiment 3

As shown in figure 3, the present embodiment 3 provides a kind of lower substrate layer 13 on the basis of embodiment 2, led along described second Hot nano paint layer 142 is distributed with several support columns 143, and the support column 143 and through-hole 120 are staggered setting.Setting support Superperformance of the column to improve the load-bearing capacity of plate body, ensure plank.

Embodiment 4

Shown in Fig. 4, the present embodiment 4 provides a kind of high-efficiency quick heating type nanometer heating floor on the basis of embodiment 3.

Heat-insulated polyester film 18 is equipped between the lower substrate layer 13 and lower decorative layer 14；The bottom of the lower decorative layer 14 is also Equipped with waterproof layer 19.

Be respectively arranged on the both sides on lower 13 top of substrate layer positioned at the socket mounting groove 20 and installation fixture block 21, it is corresponding described in 12 1 upper lateral part of upper backing material plate of socket mounting groove 20 is equipped with a convex block 123, the upper backing material plate 12 of the corresponding installation fixture block 21 Another upper lateral part is equipped with a notch 124, and the convex block 123 matches with notch 124.

Wherein, the upper surface of the side wall of the upper backing material plate 12 along 124 side of notch and the installation fixture block 21 is set There is the splash guard 22 of L-type.

The socket mounting groove of setting and installation fixture block stitch wood board splicing to be staggered with conducting wire, even if the water on ground into Splicing seams are also not easily penetrated into conducting wire, improve the security performance of heating floor.

The utility model is not limited to above-mentioned preferred forms, anyone can obtain under the enlightenment of the utility model Other various forms of products, however, make any variation in its shape or structure, it is every that there is same as the present application or phase Approximate technical solution, all falls within the scope of protection of the utility model.

Claims (8)

1. a kind of high-efficiency quick heating type nanometer heating floor, including plate body (1), which is characterized in that the plate body (1) from top to bottom according to It is secondary to be equipped with upper decorative layer (11), upper substrate layer (12), lower substrate layer (13) and lower decorative layer (14), the upper substrate layer (12) And/or the side of lower substrate layer (13) is equipped with socket mounting groove (20), opposite side is equipped with and socket mounting groove (20) matched peace Be loaded block (21)；Graphene heat-conducting plate (15), the corresponding graphene heat-conducting plate are equipped in lower substrate layer (13) upper surface (15) lower substrate layer (13) position distribution of bottom has multiple vertical cores (140), and the bottom of the vertical core (140) is equipped with first Heat conducting nano dope layer (141), the tiling area of the first heat conducting nano dope layer (141) are more than the graphene heat-conducting plate (15) tiling area；Lower substrate layer (13) upper table is extended upwardly to from the edge of the first heat conducting nano dope layer (141) Face is equipped with the second heat conducting nano dope layer (142) of ring-shaped structure；The lower substrate layer (13) and graphene graphene heat-conducting plate (16) side of contact is equipped with conducting wire, and the conducting wire is extended in the socket mounting groove (20).

2. high-efficiency quick heating type nanometer heating floor as described in claim 1, which is characterized in that the second of the ring-shaped structure is led The ring thickness of hot nano paint layer (142) is more than 5mm, and less than 30mm.

3. high-efficiency quick heating type nanometer heating floor as described in claim 1, which is characterized in that the upper substrate layer (12) it is upper Surface is equipped with third heat conducting nano dope layer (17), and the upper substrate layer (12) is received at least provided with connection second heat conduction The through-hole (120) of rice dope layer (142) and third heat conducting nano dope layer (17), the through-hole (120) is filled with heat-conducting medium.

4. high-efficiency quick heating type nanometer heating floor as claimed in claim 3, which is characterized in that applied along second heat conducting nano The bed of material (142) is distributed with several support columns (143), and the support column (143) and through-hole (120) are staggered setting.

5. high-efficiency quick heating type nanometer heating floor as described in claim 1, which is characterized in that the lower substrate layer (13) and under Heat-insulated polyester film (18) is equipped between decorative layer (14).

6. high-efficiency quick heating type nanometer heating floor as described in claim 1, which is characterized in that the bottom of the lower decorative layer (14) Portion is additionally provided with waterproof layer (19).

7. high-efficiency quick heating type nanometer heating floor as described in claim 1, which is characterized in that positioned at the socket mounting groove (20) and the both sides that fixture block (21) is respectively arranged on lower substrate layer (13) top are installed, correspond to the upper base of the socket mounting groove (20) (12) one upper lateral part of material layer is equipped with a convex block (123), upper substrate layer (12) another upper lateral part of the corresponding installation fixture block (21) Equipped with a notch (124), the convex block (123) matches with notch (124).

8. high-efficiency quick heating type nanometer heating floor as claimed in claim 7, which is characterized in that described along the notch (124) The upper surface of the side wall of the upper substrate layer (12) of side and the installation fixture block (21) is equipped with the splash guard (22) of L-type.