CN201567749U - Compound dry-type ground heating module - Google Patents

Abstract

The utility model relates to a compound dry-type ground heating module. The ground heating module comprises a thermal insulating layer and a thermal conducting layer which correspond to ground heating coil slots, wherein the thermal conducting layer is connected with and positioned above the thermal insulating layer; the ground heating coil slots are formed in the thermal insulating layer and the thermal conducting layer; and an auxiliary thermal conducting layer precast by ceramics, rubber, tiles, plaster or cement mortar is connected onto the thermal conducting layer. The utility model has the benefits that the compound thermal conducting layer increases the height of a traditional ground heating module to be matched with the height of a wet-type ground heating module, so that the problem of height difference between the traditional ground heating module and the wet-type ground heating module is solved; and as the auxiliary thermal conducting layer can be made of plaster, ceramics and the like with more rough outer surfaces, the dry-type ground heating module can be fixedly connected with tiles through cement, so that the application range of the dry-type ground heating module is enlarged, and the possibility of all dry-type ground heating module pavement is achieved, therefore, the project implementation is more convenient and simpler, and the cost is reduced.

Description

Compound dry floor heating module

Technical field

The utility model relates to a kind of floor heating module, especially a kind of compound dry floor heating module.

Background technology

Floor heating has become the main flow of domestic heating system, but traditional floor heating mounting means is for being called the wet type floor heating, its technology is that the multilayer scene is compound, surface layer cast sandstone concrete is as load-bearing and heat transfer medium, construct very loaded down with trivial details, energy consumption is very high, fuel factor is chronic, account for about 10 centimeters of building floor heights, and is big to the building load capacity.Many deficiencies at wet type floor heating technology, the dry floor heating technical products has appearred in recent years, it is dry floor heating device etc., be used for dry floor heating heating occasion and use, overcome the some shortcomings of wet type floor heating technology, products such as existing dry floor heating device generally comprise heat-conducting layer, isolation layer, heat-conducting layer is connected with isolation layer, the corresponding floor heating coil pipe groove that is provided with on heat-conducting layer and the isolation layer, floor heating coil pipe groove is a semicircular arc all generally, the floor directly is layed on the heat-conducting layer.Because dry floor heating technology need not to carry out backfill, it is lower that dry floor heating accounts for the building floor height, only is about 5 centimeters, and perfect heat-dissipating, fuel factor time are short, are a kind of preferred floor heating technology.But because floor heating technology is only applicable to lay composite floor board, running into and to make adhesive with cement, as: lay under the situation of floor tile, still need use wet type floor heating technology to carry out backfill, thereby caused the ground after two kinds of technologies are laid to produce height fall at the technology joining place, can't smooth transition.

And because the dry floor heating module heat-conducting layer directly connects with the floor, there is not the additional guide thermosphere with respect to the wet type floor heating, heat can't be saved, keep constant temperature as need, then need the floor heating heating source constantly to heat, otherwise the heat in the heating space promptly can leave in the short time, recover the preceding temperature of heating, cause great energy waste, and heat up fast, lower the temperature and also can cause discomfort for the user, diseases induced.

The utility model content

In order to overcome the above problems, the utility model proposes a kind of compound dry floor heating module that has the composite heat-conducting layer, to adjust height, be connected with the wet type floor heating module, made the smooth transition of disparate modules seam crossing, solve the floor heating module compatibling problem of dry type, wet mixed situation, and this module makes to have certain thickness additional guide thermosphere, storing heat, energy conservation, and when the floor heating open and close, relaxed gradient of temperature speed, give the certain procedure of adaptation of human body.

The purpose of this utility model can be achieved through the following technical solutions:

Compound dry floor heating module, comprise and be provided with the isolation layer 1 and the heat-conducting layer 2 of warming plate tube seat accordingly, heat-conducting layer 2 connects isolation layer 1 and is positioned at isolation layer 1 top, is provided with floor heating coil pipe groove 4 in isolation layer 1, the heat-conducting layer 2, it is characterized in that: connect an additional guide thermosphere on the heat-conducting layer 2.

The thickness of described heat-conducting layer 2 is 0.2-1mm, and the thickness of additional guide thermosphere 3 is 1～2cm.

The material of described heat-conducting layer 2 adopts metal.

Described metal is aluminium, red copper, brass or galvanized sheet.

The material of described additional guide thermosphere 3 adopts pottery, rubber, ceramic tile, gypsum or cement mortar.

Described additional guide thermosphere 3 is prefabricated profiled.

The additional guide thermosphere 3 of described employing pottery is a lamina, these lamina laminar surface backup land warming plate tube seat 4 aperture positions, identical with shape, the area of heat-conducting layer 2 surface levels part.

Described prefabricated gypsum additional guide thermosphere 3 is for covering the whole lamina that comprises floor heating coil pipe opening.

Described isolation layer is high density extrusion molding flaggy, extrusion molding flaggy, expanded polystyrene (EPS) warming plate or extruded polystyrene warming plate.

Described floor heating coil pipe groove 4 is the type of falling Ω.

When above-mentioned floor heating module uses, as laying floor, then need not any adhesive and connect, the floor directly places on the floor heating module; As lay ceramic tile, then use cement or adhesive to bond.

The beneficial effects of the utility model are: by using compound heat-conducting layer, the height that increases heating module traditionally is with wet type floor heating module matched, solved the height fall problem of heating module and wet type floor heating module traditionally.

And compound heat-conducting layer of the present utility model is to use the Heat Conduction Material that the accumulation of heat effect is arranged as pottery, gypsum etc. on the metal heat-conducting layer on basis, and when floor heating was opened, storing heat shed when closing, lengthening temperature retention time, energy conservation consumption.In floor heating opening and closing process, variations in temperature relaxes relatively, gives the user with suitable impression.

In addition, since the additional guide thermosphere can choose external surface comparatively coarse as materials such as gypsum, potteries, solved former dry floor heating module metal heat-conducting layer can't closely bind, lack adhesive power with cement problem, make dry floor heating module can directly pass through the affixed ceramic tile of cement, widen the scope of application of dry floor heating module, realized the possibility of the laying of dry type floor heating module, all need not to carry out again the wet type backfilling process in any case, make engineering construction more easy, reduced cost.The type of falling Ω on the draw-in groove also makes the floor heating coil pipe further fixing, the situation that can not occur moving, sticking up.

Aspect manufacturing process, the utility model can be based on the specification of existing floor heating module, set additional guide thermosphere height, only carry out large-scale production, prefabricated forming with regard to the additional guide thermosphere, carry out combination with existing floor heating module again, heating module traditionally can be converted into can with the compound floor heating module of wet type floor heating module coupling, or directly carry out the dry type floor heating module and lay, and then produce in batches, the additional guide thermosphere material price selected for use of the utility model is cheap in addition, thus have that cost of production is low, transplantability strong, engineering efficient is high a bit.

Description of drawings

Fig. 1 is the elevation of the utility model embodiment one.

Fig. 2 is the schematic perspective view of the utility model embodiment one.

Fig. 3 is the elevation of the utility model embodiment two.

Fig. 4 is the schematic perspective view of the utility model embodiment two.

Description of reference numerals:

Among Fig. 1 ~ Fig. 41 is isolation layer, and what thick line 2 was represented is heat-conducting layer, and 3 is the additional guide thermosphere, and 4 are floor heating coil pipe groove.

The specific embodiment

Embodiment one

The elevation of present embodiment as shown in Figure 1, compound floor heating module is by the isolation layer 1 that is provided with floor heating pipe dish groove 4 and be consolidated in the heat-conducting layer of being represented by thick line on the isolation layer 12, and is connected in the additional guide thermosphere 3 on the heat-conducting layer 2.Wherein, the additional guide thermosphere 3 in the present embodiment is the independent Prefabricated block of lamina structure, and module level face shape, area partly adapt with the horizontal surface of heat-conducting layer 2 non-draw-in grooves, adopts magnetic once to form by a firing.Additional guide thermosphere 3 has been reserved floor heating coil pipe channel opening in prefabricated process, cause additional guide thermosphere 3 pressure inequalities, stressed frangible problem because of the tube seat opening is unsettled to solve pottery (under the situation that full wafer covers).Heat-conducting layer 2 is selected the metal aluminium flake for use.Isolation layer 1 adopts the extruded sheet material of high density heat-insulating environment-protection, in be provided with floor heating coil pipe groove 4, heat-conducting layer 2 is selected the metal aluminium flake for use, is provided with floor heating coil pipe groove 4 shapes and disposable compacting equally and forms.Isolation layer 1, heat-conducting layer 2, additional guide thermosphere 3 connect according to floor heating coil pipe groove 4 fixed in shape by adhesive.Floor heating coil pipe groove 4 is the tube seat of falling Ω that cell body is big, notch is little, jumps, moves outward after the floor heating heated coil preventing.

Tomograph of the present utility model as shown in Figure 2.During laying, as laying the situation of floor tile on the floor heating module, then building certain thickness on the additional guide thermosphere 3 with small amount of cement, above ceramic tile being covered, compacting gets final product again; As laying floor, then can directly lay the floor, need not adhesive.Because pottery is the material that the good heat conductive performance is arranged, the heat that heat-conducting layer 2 can be shed is suitable fast must to be communicated to the floor that is layered on the additional guide thermosphere, but, taken into account the double requirements of heat conduction and accumulation of heat because the certain thickness of additional guide thermosphere has certain accumulation of heat effect again concurrently.

Embodiment two

Embodiment two additional guide thermospheres 3 are selected gypsum plank for use, and need not backup land warming plate tube seat notch opening on the plate, and this plate area is identical with the floor heating module horizontal area, disposable prefabricated forming, and other are with embodiment one.Because gypsum board surface is coarse, can directly connect with the ceramic tile that is laid on the floor heating module by adhesive, stronger adhesive power is arranged, removed the trouble of using cement from, if laying floor is directly laid, need not adhesive.The relative wet type floor heating of this embodiment, it is simple and easy, with low cost to construct, and but can keep the good accumulation of heat of wet type floor heating, energy conservation.And because the floor that the overall structure of not slotting makes is heated evenly, and has good holding capacity, non-friable, can not temperature distortion, erasure effect be remarkable simultaneously, is a preferred embodiment.

Above-mentioned two preferred embodiments, the additional guide thermosphere is prefabricated, adjustable-height, can be connected with the wet type floor heating, also can replace the wet type floor heating with this, and its characteristic of each tool, can select according to demand not, widen the range of application of dry floor heating module.

Being preferred embodiment of the present utility model only in sum, is not to be used for limiting practical range of the present utility model.Be that all equivalences of doing according to the content of the utility model claim change and modification, all should be technology category of the present utility model.

Claims (10)

1. compound dry floor heating module, comprise and be provided with isolation layer of warming plate tube seat (1) and heat-conducting layer (2) accordingly, heat-conducting layer (2) connects isolation layer (1) and is positioned at isolation layer (1) top, be provided with floor heating coil pipe groove (4) in isolation layer (1), the heat-conducting layer (2), it is characterized in that: heat-conducting layer (2) is gone up and is connected an additional guide thermosphere.

2. floor heating module as claimed in claim 1 is characterized in that: the thickness of described heat-conducting layer (2) is 0.2-1mm, and the thickness of additional guide thermosphere (3) is 1～2cm.

3. floor heating module as claimed in claim 1 is characterized in that: the material of described heat-conducting layer (2) adopts metal.

4. floor heating module as claimed in claim 3 is characterized in that: described metal is aluminium, red copper, brass or galvanized sheet.

5. floor heating module as claimed in claim 1 is characterized in that: the material of described additional guide thermosphere (3) adopts pottery, rubber, ceramic tile, gypsum or cement mortar.

6. floor heating module as claimed in claim 5 is characterized in that: described additional guide thermosphere (3) is for prefabricated profiled.

7. floor heating module as claimed in claim 5, it is characterized in that: the additional guide thermosphere (3) of described employing pottery is a lamina, and shape, the area of this lamina laminar surface backup land warming plate tube seat (4) aperture position, same heat-conducting layer (2) surface level part are identical.

8. floor heating module as claimed in claim 4 is characterized in that: described prefabricated gypsum additional guide thermosphere (3) is for covering the whole lamina that comprises floor heating coil pipe opening.

9. floor heating module as claimed in claim 1 is characterized in that: described isolation layer is high density extrusion molding flaggy, extrusion molding flaggy, expanded polystyrene (EPS) warming plate or extruded polystyrene warming plate.

10. floor heating module as claimed in claim 1 is characterized in that: described floor heating coil pipe groove (4) is the type of falling Ω.

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