CN215212094U - Aluminum-based composite heating floor - Google Patents

Abstract

The utility model discloses an aluminium base compound floor that generates heat, including timber apron, heat conduction silica gel layer and the zone of heating of laying in proper order from top to bottom, the zone of heating have aluminium base board and install in heating tube in the aluminium base board. The aluminum-based composite heating floor has the characteristics of high heat conductivity and uniform heating.

Description

Aluminum-based composite heating floor

Technical Field

The utility model relates to a geothermal heating technical field, in particular to aluminium base composite heating floor.

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.

The existing floor heating has two heating media, one is low-temperature hot water ground radiation heating, namely water floor heating, and the other is heating cable ground radiation heating, namely electric floor heating. The existing floor heating has the problems of low heat conductivity and uneven heating, the water heating type is easy to scale and leak, and a floor heating film is easy to damage in construction to cause electric leakage.

Therefore, how to provide an aluminum-based composite heating floor with high thermal conductivity and uniform heating is a technical problem that needs to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an aluminium base composite heating floor has the high and even characteristics that generate heat of thermal conductivity.

In order to realize the purpose, the utility model provides an aluminium base compound floor that generates heat, including timber apron, heat conduction silica gel layer and the zone of heating of laying in proper order from top to bottom, the zone of heating have aluminium base board and install in heating tube in the aluminium base board.

Preferably, the heating tubes are distributed on the aluminum substrate in a U shape or a spiral shape.

Preferably, the aluminum substrate is provided with an embedded groove for embedding and installing the heating tube.

Preferably, the pre-buried groove is formed by the aluminum substrate in a die pressing manner.

Preferably, the embedded groove is formed by milling the aluminum substrate.

Preferably, the heating tube and the aluminum substrate are fixed in an integral molding manner.

Preferably, the heating tube and the aluminum substrate are fixed in a multi-point die pressing manner.

Preferably, the heating tube and the aluminum substrate are fixed in an adhesion manner.

Preferably, the heating tube and the aluminum substrate are fixed in a multi-point die pressing and bonding mode.

Preferably, the heating tube is a stainless steel heating tube.

Compared with the prior art, the aluminum-based composite heating floor provided by the utility model comprises a wood floor, a heat-conducting silica gel layer and a heating layer, wherein the three layers are sequentially laid from top to bottom, the heating layer is provided with an aluminum substrate and a heating tube, and the heating tube is arranged in the aluminum substrate; the heat-conducting silica gel layer of the aluminum-based composite heating floor is positioned between the wood floor at the top layer and the heating layer at the bottom layer, so that the heat-conducting and heat-transferring effects are achieved, and the heating pipe in the heating layer plays a role in heating and heat production; when using, the heating tube in the zone of heating sends the heat, and aluminium base board heat conduction is good, and the diffusion is even on aluminium base board, and heat conduction silica gel layer heat conduction is good, further evenly transmits to timber apron through heat conduction silica gel layer, and the heating warms up to the space of timber apron installation through the timber apron, has the high and even characteristics that generate heat of heat conductivity.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic view of an aluminum-based composite heating floor provided in an embodiment of the present invention;

fig. 2 is an installation diagram of an aluminum-based composite heating floor provided by the embodiment of the utility model.

Wherein:

1-wood floor, 2-heat conduction silica gel layer, 3-aluminum substrate and 4-heating tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In order to make the technical field of the present invention better understand, the present invention will be described in detail with reference to the accompanying drawings and the detailed description.

Please refer to fig. 1 and fig. 2, wherein fig. 1 is a schematic diagram of an aluminum-based composite heating floor provided in an embodiment of the present invention, and fig. 2 is an installation diagram of the aluminum-based composite heating floor provided in an embodiment of the present invention.

In a first specific embodiment, the aluminum-based composite heating floor provided by the present invention mainly comprises three layers, specifically comprising a wood floor 1, a heat-conducting silica gel layer 2 and a heating layer, wherein the three layers are sequentially laid from top to bottom, the wood floor 1 is a top layer, the heating layer is a bottom layer, and the heat-conducting silica gel layer 2 is a middle layer between the top layer and the bottom layer; the heating layer is provided with an aluminum substrate 3 and a heating tube 4, the heating tube 4 is used as a heat source in the heating layer, the aluminum substrate 3 is used as a setting reference of the heat source and a bearing main body, when the heating tube 4 is installed at the bottom of the aluminum substrate 3, the upper surface of the aluminum substrate 3 is flush with the lower surface of the heat conduction silica gel layer 2, and the upper surface of the heat conduction silica gel layer 2 is flush with the lower surface of the wood floor 1.

It should be noted that the aluminum-based composite heating floor in this embodiment is an electric floor heating, the heating tube 4 is made of a mineral insulating heat conductive material, and the mineral mainly refers to inorganic substances such as magnesium oxide powder. When the aluminum substrate is used, the heating tube 4 emits heat by supplying power to the heating tube 4, the aluminum substrate 3 has good heat conduction, and the heat is quickly and uniformly diffused on the aluminum substrate 3; then, heat is upwards diffused to the middle layer from the heating layer, the heat conduction silica gel layer 2 serving as the middle layer conducts heat well, and the heat is further uniformly transmitted to the wood floor 1 through the heat conduction silica gel layer 2; the heat absorbed by the wood floor 1 as the top layer is radiated outwards to heat the indoor space where the wood floor is located by radiation. Compared with water heating floor heating, the aluminum-based composite heating floor replaces a heat conduction water pipe in an electric heating mode, and the problems of easy scaling and water leakage are solved; compared with the floor heating system with electric heating, the structure and the process of the electric heating are simplified, the floor heating film is not needed, the aluminum substrate 3 has good bearing, protecting and heat conducting effects on the heating tube 4, the problems of easy damage and electric leakage in construction are avoided, and the floor heating system is high in heat conductivity, high in heating efficiency, uniform in heating, good in safety and long in service life.

Illustratively, the heat generating tube 4 is a stainless steel heat generating tube, and the heat generating tube 4 has a housing made of stainless steel.

In a specific embodiment, the heating tubes 4 are distributed on the aluminum substrate 3 in a U-shape or spiral shape, and at this time, the heating tubes 4 are distributed comprehensively at the bottom of the aluminum substrate 3 while the length is limited, so that the generated heat can be effectively and uniformly transferred out, and meanwhile, the problems of local heat surplus and heat concentration are avoided.

For better technical effect, an embedded groove for embedding and installing the heating tube 4 is formed in the aluminum substrate 3, so that the aluminum substrate 3 is embedded and assembled before being installed with the aluminum substrate 3, and the heating tube 4 after being assembled is limited and positioned in the embedded groove, so that shaking and falling off are avoided.

It should be noted that, there are various ways of setting the pre-buried groove, including but not limited to integral setting and split type assembly, and the way should belong to the description scope of this embodiment.

Illustratively, the embedded groove is formed by molding the aluminum substrate 3, and the embedded groove and the aluminum substrate 3 are of an integral structure.

Illustratively, the embedded groove is formed by milling the aluminum substrate 3, and the embedded groove and the aluminum substrate 3 are of an integral structure.

On this basis, there are various fixing manners of the heat pipe 4 and the aluminum substrate 3, including but not limited to, fixing manners such as bonding, pressing, and the like, and the fixing manners should also fall within the scope of the description of the embodiment.

Illustratively, the heat generating tube 4 and the aluminum substrate 3 are integrally molded.

Illustratively, the heating tube 4 and the aluminum substrate 3 are fixed by multi-point molding.

Illustratively, the heat pipe 4 and the aluminum substrate 3 are fixed by bonding.

Besides, the heating tube 4 and the aluminum substrate 3 can be fixed by combining the above two methods, such as multi-point molding and bonding.

It is noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The aluminum-based composite heating floor provided by the utility model is introduced in detail. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (10)

1. The utility model provides an aluminium base composite heating floor, its characterized in that, includes timber apron (1), heat conduction silica gel layer (2) and the zone of heating that from top to bottom lays in proper order, the zone of heating have aluminium base board (3) and install in heating tube (4) of aluminium base board (3).

2. The aluminum-based composite heating floor according to claim 1, wherein the heating tubes (4) are distributed on the aluminum substrate (3) in a U-shape or a spiral shape.

3. The aluminum-based composite heating floor as claimed in claim 2, wherein the aluminum substrate (3) is provided with pre-embedded grooves for embedding and installing the heating tubes (4).

4. The aluminum-based composite heating floor as claimed in claim 3, wherein the pre-buried grooves are formed by molding the aluminum substrate (3).

5. The aluminum-based composite heating floor as claimed in claim 3, wherein the pre-embedded grooves are formed by milling the aluminum substrate (3).

6. The aluminum-based composite heating floor as claimed in claim 3, wherein the heating tube (4) is fixed to the aluminum substrate (3) by integral molding.

7. The aluminum-based composite heating floor as claimed in claim 3, wherein the heating tube (4) and the aluminum substrate (3) are fixed by multi-point molding.

8. The aluminum-based composite heating floor as claimed in claim 3, wherein the heating tube (4) is fixed to the aluminum substrate (3) by bonding.

9. The aluminum-based composite heating floor as claimed in claim 3, wherein the heating tube (4) is fixed to the aluminum substrate (3) by a combination of multi-point molding and bonding.

10. The aluminum-based composite heating floor according to any one of claims 1 to 9, wherein the heating tube (4) is a stainless steel heating tube.

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