CN204478223U - Floor heating structure - Google Patents

Abstract

The utility model discloses a kind of described floor heating structure, described floor heating structure is layed in underground or floor, described floor heating structure comprises reflectance coating, heat-insulation layer, heating cable, temperature sensor and cement layer, described underground or described floor are provided with building basic unit, described reflectance coating is layed in described building basic unit, described heat-insulation layer is layed on described reflectance coating, described heating cable is embedded at the upper surface of described heat-insulation layer, described temperature sensor is embedded in described cement layer, connect with described heating cable, described cement layer is covered on described heat-insulation layer, and reflectance coating is set under heat-insulation layer.The upper surface of described heat-insulation layer is embedded at by described heating cable, described temperature sensor is embedded in described cement layer, connect with described heating cable, both the temperature-controllable of described floor heating structure had been met, in turn ensure that the environmental protection of described floor heating structure, also improve the energy-saving effect of described floor heating structure simultaneously.

Description

Floor heating structure

Technical field

The utility model relates to furnishing fields, particularly relates to a kind of floor heating structure.

Background technology

Floor heating is the abbreviation of floor panel heating, is with whole ground for radiator, and by the heating agent in flooring radiation layer, the whole ground of homogeneous heating, utilizes the rule of the accumulation of heat on ground self and heat upwards radiation to conduct from the bottom to top, reach the object of heating.There is following shortcoming in traditional heating system: the first, installs on a large scale together with when building is built, can not install respectively as required; The second, temperature is uncontrollable, sometimes hot and sometimes cold; 3rd, necessary central heating, can not use or zonal control by single chamber; 4th, service life is limited, and there is potential safety hazard.5th, consume indoor oxygen, produce energy resource consumption etc.

Utility model content

In view of this, the utility model is for the disappearance of prior art existence, and its main purpose is to provide the floor heating structure of a kind of temperature-controllable environmental protection and energy saving simultaneously.

For achieving the above object, the utility model provides a kind of floor heating structure, wherein, described floor heating structure is layed in underground or floor, described floor heating structure comprises reflectance coating, heat-insulation layer, heating cable, temperature sensor and cement layer, described underground or described floor are provided with building basic unit, described reflectance coating is layed in described building basic unit, described heat-insulation layer is layed on described reflectance coating, described heating cable is embedded at the upper surface of described heat-insulation layer, described temperature sensor is embedded in described cement layer, connect with described heating cable, described cement layer is covered on described heat-insulation layer.

Wherein, described floor heating structure comprises watertight composition, and described watertight composition is layed between described reflectance coating and described building basic unit.

Wherein, be provided with fixed network between described heat-insulation layer and described cement layer, described fixed network secures the above heat-insulation layer and described heating cable.

Wherein, described cement layer is coated with stone material terrace.

Wherein, described watertight composition extends on house partition wall, and described house partition wall is provided with the cement layer covering described watertight composition, and covers the wall body decoration layer of described cement layer.

Wherein, described wall body decoration layer and described stone material terrace seal and splice.

The floor heating structure that the utility model provides, the upper surface of described heat-insulation layer is embedded at by described heating cable, described temperature sensor is embedded in described heat-insulation layer, connect with described heating cable, both the temperature-controllable of described floor heating structure had been met, in turn ensure that the environmental protection of described floor heating structure, also improve the energy-saving effect of described floor heating structure simultaneously.

Accompanying drawing explanation

For more clearly setting forth structural feature of the present utility model and effect, be described in detail below in conjunction with accompanying drawing and specific embodiment.

The schematic diagram of the floor heating structure that Fig. 1 provides for the utility model.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described.

Refer to Fig. 1, a kind of floor heating structure 100 that the utility model provides.Described floor heating structure 100 is layed in underground or floor, described floor heating structure 100 comprises reflectance coating 10, heat-insulation layer 20, heating cable 30, temperature sensor 40 and cement layer 50, described underground or described floor are provided with building basic unit 1, described reflectance coating 10 is layed in described building basic unit 1, described heat-insulation layer 20 is layed on described reflectance coating 10, described heating cable 30 is embedded at the upper surface of described heat-insulation layer 20, described temperature sensor 40 is embedded in described cement layer 50, connect with described heating cable 30, described cement layer 50 is covered on described heat-insulation layer.

The upper surface of described heat-insulation layer 20 is embedded at by described heating cable 30, state described in described temperature sensor 40 is embedded in cement layer 50,30 are connected with described heating cable, both the temperature-controllable of described floor heating structure 100 had been met, in turn ensure that the environmental protection of described floor heating structure 100, also improve the energy-saving effect of described floor heating structure 100 simultaneously.

In present embodiment, described floor heating structure 100 is layed in floor.Described reflectance coating 10 forms by the soft aluminium foil of specially treated and heat-proof polythene adhesive and with the polyester film of color grid printing and glass fibre Compound Machining.Described reflectance coating 10 directly high temperature extrusion is composited, and pastes solid not delamination, and owing to being encrypted by glass fibre, thus tensile strength increases, and more strengthens hardness, is easy to construction.The reflect heat that described heating cable 30 can be launched by described reflectance coating 10 to indoor, thus reaches the effect of heat build-up, and then improves room temperature.

In present embodiment, described heat-insulation layer 20 can be heat-insulating calcium silicate product, and it is high that described heat-insulation layer 20 has compression strength, and thermal conductivity factor is little, easy construction, can the feature such as Reusability.Thus increase the service efficiency of described floor heating structure 100.Described heat-insulation layer 20 comprises the upper surface 21 and lower surface 22 that are oppositely arranged, and described lower surface 22 fits on described reflectance coating 10.Described heat-insulation layer 20 prevents the heat of described heating cable 30 to run off to described lower surface 22, partial heat reflexes in described heat-insulation layer 20 by transmitting film 10 simultaneously, and then make can not running off of described heating cable 30, waste, thus reach the effect of energy-conserving and environment-protective.In other embodiments, described heat-insulation layer can also be alumina silicate heat-insulation layer.

In present embodiment, described heating cable 30 adopts single or many heating alloies as pyrotoxin, has the advantage such as high-purity, high-termal conductivity, utilize electric smelting crystal magnesium oxide to make heat carrier, seamless link stainless steel or copper pipe, as sheath, adopt special producing manufacture technics to form.Can ensure that described heating cable 30 continues distribute heat to described heating cable 30 energising, and power consumption is little.Described heating cable 30 can be along serpentine arrangement at the arrangement mode of described heat-insulation layer 20, also can be along " well " arrangement, or along " " arrangement.Described heating cable 30 connects household electricity by plug.In other embodiments, described heating cable can also be connect commercial power.

In present embodiment, described temperature sensor 40 comprises sensing head (not shown) and thermometric instrument (not shown), described sensing head inserts in described cement layer 50, can the temperature of heat-insulation layer 20 described in Real-Time Monitoring, when described temperature sensor 40 detects the temperature of described heat-insulation layer 20 higher than a certain value, described thermometric instrument can send temperature signal to the power supply unit of described heating cable 30, thus make the power supply unit of described heating cable 30 reduce delivery, thus reduce the temperature of described heating cable 30, and then realize reducing room temperature.Contrary, when described temperature sensor 40 detects the temperature of described heat-insulation layer 20 lower than a certain value, described thermometric instrument can send temperature signal to the power supply unit of described heating cable 30, thus make the power supply unit of described heating cable 30 improve delivery, thus improve the temperature of described heating cable 30, and then improve room temperature.Thus make described floor heating structure 100 temperature-controllable, reach constant temperature effect.In addition, can also be that the self-defined power supply unit to described heating cable 30 inputs a certain temperature value by described thermometric instrument, make described heating cable reach self-defined heating-up temperature.

In present embodiment, described cement layer 50 is covered on described heat-insulation layer 20, plays the protective effect to described heat-insulation layer 20.In other embodiments, described cement layer 50 can also be that concrete replaces.

Further, described floor heating structure 100 comprises watertight composition 60, and described watertight composition 60 is layed between described reflectance coating 10 and described building basic unit 1.Described watertight composition 60 for base-material with synthetic rubber, synthetic resin or the mixture both them, adds appropriate chemical assistant and inserts etc., processes rollable sheet waterproof material through different operation.Described watertight composition 60 prevents the infiltration in floor from entering described floor heating structure 100, thus damages described floor heating structure 100, prevents the short circuit of described heating cable 30 simultaneously, improves the security performance of described floor heating structure 100.In other embodiments, can also be that synthetic rubber, synthetic resin and synthetic fibers etc. are combined into two-layer or two-layer above rollable sheet waterproof material.

Further, be provided with fixed network 70 between described heat-insulation layer 20 and described cement layer 50, described fixed network 70 secures the above heat-insulation layer 20 and described heating cable 30.In present embodiment, described fixed network 70 can be worked out by steel wire, and described fixed network 70 is protected described heat-insulation layer 20, increases the crushing resistance of described heat-insulation layer 20, prevents described heat-insulation layer 20 from caving in, thus affects the use of described floor heating structure 100.、

Further, described cement layer 50 is coated with stone material terrace 51.In present embodiment, described stone material terrace 51 can be marble, can be ceramic tile or other decoration panels.Described stone material terrace 51, except playing a protective role to described cement layer 50, can also be the decoration function realizing described flooring.

Further, described watertight composition 60 extends on house partition wall 2, and described house partition wall 2 is provided with the cement layer 61 covering described watertight composition 60, and covers the wall body decoration layer 62 of described cement layer 61.Utilize described watertight composition 60 to extend on described house partition wall 2, thus more strengthen the water resistance of described floor heating structure 100, prevent the infiltration on described house partition wall 2 from entering described floor heating structure 100, thus improve the service life of described floor heating structure 100.Described cement layer 61 is protected described watertight composition 60, and described wall body decoration layer 62 is decorated described house partition wall 2.

Further, described wall body decoration layer 62 seals with described stone material terrace 51 and splices.Carry out seamless link by described wall body decoration layer 62 with described stone material terrace 51, thus make the sealing property of described floor heating structure 100 better, increase the heat build-up effect of described floor heating structure 100.

The floor heating structure that the utility model provides, the upper surface of described heat-insulation layer is embedded at by described heating cable, described temperature sensor is embedded in described heat-insulation layer, connect with described heating cable, both the temperature-controllable of described floor heating structure had been met, in turn ensure that the environmental protection of described floor heating structure, also improve the energy-saving effect of described floor heating structure simultaneously.

The above is preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (6)

1. a floor heating structure, it is characterized in that, described floor heating structure is layed in underground or floor, described floor heating structure comprises reflectance coating, heat-insulation layer, heating cable, temperature sensor and cement layer, described underground or described floor are provided with building basic unit, described reflectance coating is layed in described building basic unit, described heat-insulation layer is layed on described reflectance coating, described heating cable is embedded at the upper surface of described heat-insulation layer, described temperature sensor is embedded in described cement layer, connect with described heating cable, described cement layer is covered on described heat-insulation layer.

2. floor heating structure according to claim 1, is characterized in that, described floor heating structure comprises watertight composition, and described watertight composition is layed between described reflectance coating and described building basic unit.

3. floor heating structure according to claim 2, is characterized in that, is provided with fixed network between described heat-insulation layer and described cement layer, and described fixed network secures the above heat-insulation layer and described heating cable.

4. floor heating structure according to claim 3, is characterized in that, described cement layer is coated with stone material terrace.

5. floor heating structure according to claim 4, is characterized in that, described watertight composition extends on house partition wall, and described house partition wall is provided with the cement layer covering described watertight composition, and covers the wall body decoration layer of described cement layer.

6. floor heating structure according to claim 5, is characterized in that, described wall body decoration layer and described stone material terrace seal and splice.