CN202792187U - Assembled floor heating structure - Google Patents

Abstract

The utility model discloses an assembled floor heating structure. The structure is characterized by mainly comprising a bottom plate, a heat source pipe and a cover plate, wherein the bottom plate comprises a heat conduction layer and a heat insulation layer; the heat conduction layer covers the heat insulation layer and is fixed to the heat insulation layer; a guide slot matched with the heat source pipe is formed in the heat conduction layer; the heat source pipe is paved in the guide slot; and the cover plate covers the guide slot. The assembled floor heating structure improves the conventional installation mode of directly burying a floor heating structure, can be installed in place at one time, allows construction to be convenient and rapid, ensures high floor heating efficiency, and is more energy-saving and efficient.

Description

A kind of assembly unit floor heating structure

Technical field

The utility model relates to a kind of floor heating, is specifically related to a kind of combinable floor heating structure.

Background technology

Floor heating have comfort level height, health care, energy-conservation, take up an area the outstanding advantages such as few, more and more welcomed by the people.Existing dry floor heating paving mode is after laying heat-insulation layer, heat source tube is embedded in the tube seat of heat-insulation layer, it is just in time consistent with the insulation flaggy after the grounding heat coil tube dish is good, then mat formation re-lay above the layer one deck aluminium-foil paper be used for the heat radiation, above the floor directly is layered on, adopt this paving mode, heat source tube is subject to the extruding of external force easily, the hidden danger of seepage occurs.Also having a kind of paving mode is directly to be layed in heat source tube on the thermal insulation layer; again in the radiation template of heat source tube laying with thermal trough; take this mode can protect well heat source tube; but lay relatively trouble; need precalculated size positions to be installed again; in case heating tube leaks, maintenance is got up and is unusually bothered.Therefore, dismounting is convenient in a kind of easy construction, and the assembly unit floor heating that heat supply is even, heat loss rate is less demands urgently occurring.

The utility model content

For solving the problems of the technologies described above, the purpose of this utility model is to provide a kind of pin-connected panel floor heating, convenient and quick construction, and the hot journey of floor heating is short, quick heating, heat radiation is even, and the compression strength of product is high, safeguards simple.

For achieving the above object, the technical solution of the utility model is as follows: a kind of assembly unit floor heating structure, mainly comprise base plate, heat source tube and cover plate, described base plate comprises heat-conducting layer and heat insulation layer, described heat-conducting layer is covered on the described heat insulation layer, and fixes with described heat insulation layer, and described heat-conducting layer is provided with the guide groove that is complementary with described heat source tube, described heat source tube is layed in the described guide groove, and described cover plate is covered on the described guide groove.

Preferably, described cover plate bottom surface is provided with the thermal trough that is complementary with described heat source tube.

Preferably, described cover plate and described base plate are provided with buckle or elastic fastener or the screw that is complementary.

Preferably, described pipeline groove is straight-line groove or curved groove or both combinations, and the shape of described radiation shape of template and described pipeline groove is complementary.

Preferably, described heat source tube is hot-water line or electrothermal tube or heating cable.

Preferably, the described base plate back side is the cavity body structure of hollow, is provided with reinforcement in the described cavity body structure, and described reinforcement is distributed as groove strip or latticed.

Preferably, the thickness of described heat-conducting layer is less than the thickness of heat insulation layer.

Adopt the beneficial effect of above technical scheme to be:

Base plate is laid first in the pin-connected panel operation, re-lays heat source tube, lays at last cover plate, convenient and quick construction.Base plate adopts the double-decker of heat-conducting layer and heat insulation layer, and heat-conducting layer closely in conjunction with conducting heat, can conduct heat to the bottom surface by guide groove and heat source tube fully rapidly, and carries out heat exchange with air in the room, and quickening is to the lifting of environment temperature.And the hot journey of this structure is short, and heating effect is good, energy savings.

Description of drawings

In order to be illustrated more clearly in the technical scheme in the utility model embodiment technology, the below will do to introduce simply to the accompanying drawing of required use in the embodiment technical description, apparently, accompanying drawing in the following describes only is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation of a kind of assembly unit floor heating of the utility model;

Fig. 2 is the base plate top view with linear pattern pipeline groove of a kind of radiation template of the utility model floor heating device;

Fig. 3 is the base plate top view with straight line and the combined pipeline groove of camber line of a kind of radiation template of the utility model floor heating device;

Fig. 4 is the top view at the base plate back side of a kind of radiation template of the utility model floor heating device.

The represented corresponding component title of numeral among the figure:

1, cover plate 2, thermal insulation layer 3, heat source tube 11, thermal trough 12, buckle 21, guide groove 22, heat-conducting layer 23, draw-in groove.

The specific embodiment

Below in conjunction with the accompanying drawing among the utility model embodiment, the technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment only is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

The utility model provides a kind of assembly unit floor heating structure, mainly comprise base plate, heat source tube and cover plate, described base plate comprises heat-conducting layer and heat insulation layer, described heat-conducting layer is covered on the described heat insulation layer, and fix with described heat insulation layer, described heat-conducting layer is provided with the guide groove that is complementary with described heat source tube, and described heat source tube is layed in the described guide groove, and described cover plate is covered on the described guide groove.

Embodiment 1

As shown in Figure 1, heat-conducting layer 22 is covered on the thermal insulation layer 2 and is adhesively fixed with it, is compounded to form base plate, and default guide groove 21 is arranged on the heat-conducting layer 22, and the size of the size of guide groove 21 and hot-water line 3 is complementary.Guide groove 21 is straight-line groove or curved groove, base plate 2 is laid out " U " shape or " returning " font thermal trough according to the needs of pipeline, adopt base plate as shown in Figure 2 when laying the linear pattern pipeline, adopt base plate as shown in Figure 3 during the pipeline bending, after pipeline sets up, again hot-water line 3 is layed in the guide groove 21.

After pipe laying is complete, cover plate 1 is covered on the guide groove 21, cover plate 1 is complementary with guide groove 21 shapes, is linear pattern or arc line shaped cover plate, and is concordant with base plate 2 after cover plate 1 is laid.Cover plate 1 both sides are provided with buckle 12, are complementary with draw-in groove 23 positions on the base plate, can play the effect of securing cover plate 1, also are convenient to dismounting when maintenance.

In the present embodiment, as shown in Figure 4, the back side of heat insulation layer 2 can also be the cavity body structure of hollow, is provided with latticed reinforcement in the cavity, in the weight that reduces base plate, can guarantee again the compression strength of base plate.

In the present embodiment, being connected between cover plate 1 and the base plate can also be passed through elastic fastener, screw or thread gluing or gluing connection.

Embodiment 2

As shown in Figure 1, heat-conducting layer 22 is covered on the thermal insulation layer 2 and is adhesively fixed with it, is compounded to form base plate, and default guide groove 21 is arranged on the heat-conducting layer 22, and the size of the size of guide groove 21 and hot-water line 3 is complementary.Guide groove 21 is straight-line groove or curved groove, base plate 2 is laid out " U " shape or " returning " font thermal trough according to the needs of pipeline, adopt base plate as shown in Figure 2 when laying the linear pattern pipeline, adopt base plate as shown in Figure 3 during the pipeline bending, after pipeline sets up, again hot-water line 3 is layed in the guide groove 21.

After pipe laying is complete, cover plate 1 is covered on the guide groove 21, cover plate 1 is complementary with guide groove 21 shapes, is linear pattern or arc line shaped cover plate, and is concordant with base plate 2 after cover plate 1 is laid.Cover plate 1 both sides are provided with buckle 12, are complementary with draw-in groove 23 positions on the base plate, can play the effect of securing cover plate 1, also are convenient to dismounting when maintenance.

Cover plate 1 is provided with thermal trough 12, and thermal trough 12 is complementary with hot-water line 3, and thermal trough 12 cover heating water pipes 3 after cover plate 1 is laid play the effect of heat conduction and protection pipeline.

In the present embodiment, as shown in Figure 4, the back side of heat insulation layer 2 can also be the cavity body structure of hollow, is provided with latticed reinforcement in the cavity, in the weight that reduces base plate, can guarantee again the compression strength of base plate.

Because base plate and heat source tube contact-making surface are heat-conducting layer, and thermal trough size and heat source tube are complementary, lower floor is thermal insulation layer, and floor heating is after laying, and heat only can conduct the top layer in floor heating structure, lower floor does not have thermal loss substantially, the cover plate thermal trough also is covered on the heat source tube, and base plate and cover plate can effectively absorb heat and the heat conduction of hot-water line, and heat-conducting layer thickness is less than the thickness of heat insulation layer, the hot journey of floor heating is short, quick heating.The structure that the heat insulation layer back side also adopts interior hollow to combine with reinforcement, the weight of whole base arrangement is lighter, has eliminated the distortion hidden danger that cause because of long-term pressure-bearing on ground.

The also available securing member with thermal insulation layer of heat-conducting layer is fixed connection in the present embodiment, connects or is directly formed by the special equipment pressing such as screw fastening.

The radiation template can also be fixedly connected with by the screw that the position is complementary with base plate in the present embodiment, or is fixed and is connected by being arranged at elastic fastener that base plate and radiation mode Board position be complementary.

What heat source tube adopted in above-described embodiment is hot-water line, so long as can provide the supplying heat source of enough hot water can be suitable for this floor heating, such as wall-type gas furnace, central heating, electric boiler, air source heat pump etc., can as the thermal source of water heating type, only be that respectively connection device is different.Also can adopt in an embodiment electrothermal tube or heating cable as supplying heat source, because the pin-connected panel floor heating thermal efficiency is high, heat supply is fast, and the heat supply temperature of heat source tube just can satisfied the demand below 60 ℃ fully, and is more energy-conservation with respect to traditional floor heating, more efficient.Because the supplying heat source temperature is lower, can guarantee ground heating system long service life fully.

Adopt the beneficial effect of above technical scheme to be:

1, base plate is laid first in pin-connected panel operation, re-lays heat source tube, lays at last cover plate, convenient and quick construction.Base plate adopts the double-decker of heat-conducting layer and heat insulation layer, and heat-conducting layer closely in conjunction with conducting heat, can conduct heat to the bottom surface by guide groove and heat source tube fully rapidly, and carries out heat exchange with air in the room, and quickening is to the lifting of environment temperature.And the hot journey of this structure is short, and heating effect is good, energy savings.

2, the floor heating layer thickness is low; seldom take floor height, the base plate reverse side is the cavity of hollow, can reduce weight and the cost of floor heating; reinforcement in the cavity can improve again the compression strength of floor heating, and the structure of the thermal trough of base plate can well protect heat source tube not bear external pressure.

3, heat-conducting layer and cover plate all adopt the good radiation template of thermal conductivity, quick heating, and hot journey is short, and heating effect is good, energy savings.

To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the utility model.Multiple modification to these embodiment will be apparent concerning those skilled in the art, and General Principle as defined herein can in the situation that does not break away from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (7)

1. assembly unit floor heating structure, it is characterized in that, mainly comprise base plate, heat source tube and cover plate, described base plate comprises heat-conducting layer and heat insulation layer, described heat-conducting layer is covered on the described heat insulation layer, and fixes with described heat insulation layer, and described heat-conducting layer is provided with the guide groove that is complementary with described heat source tube, described heat source tube is layed in the described guide groove, and described cover plate is covered on the described guide groove.

2. assembly unit floor heating structure according to claim 1 is characterized in that, described cover plate bottom surface is provided with the thermal trough that is complementary with described heat source tube.

3. assembly unit floor heating structure according to claim 1 and 2 is characterized in that, described cover plate and described base plate are provided with buckle or elastic fastener or the screw that is complementary.

4. assembly unit floor heating structure according to claim 3 is characterized in that, described guide groove is straight-line groove or curved groove or both combinations, and the shape of described cover plate shape and described guide groove is complementary.

5. assembly unit floor heating structure according to claim 3 is characterized in that, described heat source tube is hot-water line or electrothermal tube or heating cable.

6. assembly unit floor heating structure according to claim 3 is characterized in that, the described base plate back side is the cavity body structure of hollow, is provided with reinforcement in the described cavity body structure, and described reinforcement is distributed as groove strip or latticed.

7. assembly unit floor heating structure according to claim 3 is characterized in that, the thickness of described heat-conducting layer is less than the thickness of heat insulation layer.

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