CN207019150U - A kind of floor heating Rotating fields - Google Patents

Abstract

The utility model discloses a kind of floor heating Rotating fields, including to it is lower and on the cement mortar screeding layer, thermal insulating warm-keeping layer, reflecting layer, grounding heat coil tube, pea gravel concrete layer and the ground decoration layer that set gradually, grounding heat coil tube is located in pea gravel concrete layer, the long strip type heat carrier extended along grounding heat coil tube length direction is provided with above the grounding heat coil tube, heat carrier is located in pea gravel concrete layer, the heat carrier lower end coats grounding heat coil tube, and upper end is in be close to set with ground decoration layer lower surface.Most heats are first transferred to the lower end of heat carrier as caused by grounding heat coil tube, it is passed up to then along heat carrier behind its upper end and is directly radiated to ground decoration layer, fraction heat caused by grounding heat coil tube is transferred to ground decoration layer after at left and right sides of heat carrier after being radiated to pea gravel concrete layer；Coated by heat carrier lower end and heat carrier extends laying along grounding heat coil tube length direction, increase heat transfer area, and then lift the heat transfer efficiency of floor heating structure.

Description

A kind of floor heating Rotating fields

Technical field

Home decoration field is the utility model is related to, more specifically to a kind of floor heating Rotating fields.

Background technology

Floor heating is the abbreviation of floor panel heating, be using whole ground as radiator, by the heating agent in flooring radiation layer, Whole ground is uniformly heated, the rule radiated upwards using the accumulation of heat and heat on ground itself is conducted from the bottom to top, to reach To the purpose of heating, wet type floor heating is the leading technology of current domestic floor heating market.So-called wet type, just refer to concrete confession Hot-water line embedding is got up, and the earth materials such as ground, ceramic tile are then re-layed on concrete layer.

The patent document of Application No. 201620145079.1 discloses a kind of floor heating structure, floor heating structure from lower to upper according to Secondary is reinforced concrete floor, heat-insulation layer, pea gravel concrete layer and ground decoration layer, and reflectance coating is provided with the pea gravel concrete layer Layer, steel screen layer, heat supply water pipe and the pipe clamp for fixing heat supply water pipe, the heat supply water pipe distinguish laying steel wire over and under Layer, the steel screen layer bottom below heat supply water pipe is reflective coating, and reflective coating is tightly layered on heat-insulation layer, the heat supply water pipe by The pipe clamp being connected on heat-insulation layer is fixed, and heat supply water pipe is filled by pea gravel concrete and covered.

It is used to increase heat conduction efficiency by being distributed steel screen layer in above-mentioned floor heating structure, steel screen layer is laid immediately on confession Above hot-water line, although steel wire has preferable heat conduction efficiency, the contact area between steel wire and heat supply water pipe compared with To be limited, cause that heat conduction efficiency lifting is not notable, and prior art has improvements.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of floor heating Rotating fields, the floor heating Rotating fields increase heat transfer area, and then lift the heat transfer efficiency of floor heating structure by setting heat carrier.

To achieve the above object, the utility model provides following technical scheme：A kind of floor heating Rotating fields, including to lower and On set gradually cement mortar screeding layer, thermal insulating warm-keeping layer, reflecting layer, grounding heat coil tube, pea gravel concrete layer and ground dress Layer is adornd, the grounding heat coil tube is located in pea gravel concrete layer, is provided with above the grounding heat coil tube along grounding heat coil tube length direction The long strip type heat carrier of extension, heat carrier are located in pea gravel concrete layer, and the heat carrier lower end coats grounding heat coil tube, upper end with Ground decoration layer lower surface is in be close to set.

By using above-mentioned technical proposal, most heats are first transferred under heat carrier as caused by grounding heat coil tube End, is passed up to behind its upper end then along heat carrier and is directly radiated to ground decoration layer, small portion caused by grounding heat coil tube Heat is divided to be transferred to ground decoration layer after being radiated to pea gravel concrete layer after at left and right sides of heat carrier；Pass through heat carrier Lower end coats and heat carrier extends laying along grounding heat coil tube length direction, increases heat transfer area, and then lift floor heating structure Heat transfer efficiency.

The utility model is further arranged to：The heat carrier lower end, which upwardly extends, offers positioning chamber, the positioning chamber For being embedded grounding heat coil tube, the grounding heat coil tube surface is mutually close to positioning cavity wall.

By using above-mentioned technical proposal, positioning chamber is simple in construction, conveniently opens up, and upwardly extends and opens up to heat carrier lower end Positioning chamber be advantageous to be embedded assembling with grounding heat coil tube.

The utility model is further arranged to：Stretch out at left and right sides of the heat carrier upper end edge local width direction Formed with extension plane, the extension plane is in be close to set with ground decoration layer lower surface.

By using above-mentioned technical proposal, extension plane is set to be advantageous to increase the area of heat derives, and then cause ground The heat of warming plate pipe can quickly be transferred to ground decoration layer, be advantageous to further improve heat conduction efficiency.

The utility model is further arranged to：The heat carrier is set with respect to the left and right sides of itself upper end in arc surface.

By using above-mentioned technical proposal, because ground decoration layer is close in heat carrier upper end, directly by ground decoration Action of Gravity Field on layer, stress concentration during stress can be reduced in arc surface so that have one at left and right sides of heat carrier upper end Fixed downward deformability, and then extend the service life of heat carrier；Secondly, convenient construction personnel are gone back in arc surface setting to take Take, and then the purpose being easily installed.

The utility model is further arranged to：The heat carrier lower end is extended into thermal insulating warm-keeping layer.

By using above-mentioned technical proposal, heat carrier can not only play a part of heat conduction, and its lower end extends into Enter to thermal insulating warm-keeping layer, additionally it is possible to play a part of plastic staple bolt in the prior art so that grounding heat coil tube can be fixed on Above reflecting layer, simplify flow chart, can effectively lift the installation effectiveness of floor heating structure.

The utility model is further arranged to：The positioning chamber is set with respect to the inner side of heat carrier lower end in enlarging.

By using above-mentioned technical proposal, workmen is caused to carry out heat carrier peace on the inside of the positioning chamber set in enlarging Conveniently it is caught in during dress, reduces generation friction and rigidity between heat carrier lower end and grounding heat coil tube and abut phenomenon.

The utility model is further arranged to：Auxiliary heat conduction body is filled between the grounding heat coil tube and reflecting layer, it is described Auxiliary heat conduction body is heat-conducting daub, and heat-conducting daub abuts against with grounding heat coil tube, reflecting layer and positioning cavity wall respectively.

By using above-mentioned technical proposal, by filling heat-conducting daub in correspondence position, avoid grounding heat coil tube, reflecting layer with And gap is produced between positioning cavity wall, reduce heat and scatter and disappear, while increase the globality of floor heating structure, avoid making because of gap Into local deformation.

The utility model is further arranged to：The heat carrier has aluminium alloy to be made.

By using above-mentioned technical proposal, on the one hand aluminum alloy material has preferable heat conduction of velocity, on the other hand, Aluminium alloy cost is relatively low, is easy to purchase, and also has preferable structural strength, is advantageous to improve the service life of heat carrier.

The utility model is further arranged to：The thermal insulating warm-keeping layer is perlite heat insulating sand pulp layer.

By using above-mentioned technical proposal, on the one hand, perlite heat insulating sand pulp layer thermal conductivity factor is relatively low, have preferably every Hot property, the material solidification time is shorter, is advantageous to shorten the duration, has higher structural strength after solidification, be advantageous to prolongedly The service life of warm structure；On the other hand, perlite heat insulating sand pulp layer is to carry out levelling construction at the scene, and then can reduce water The flatness and technological requirement of cement mortar screed-coat, advantageously reduce difficulty of construction.

The utility model is further arranged to：Alkali-proof glass is provided between the pea gravel concrete layer and ground decoration layer Fiber mesh layer of cloth.

By using above-mentioned technical proposal, the setting of alkali-proof glass fiber mesh layer can reduce concrete and be shunk Power and the phenomenon for producing crack, be advantageous to extend the service life of floor heating structure.

In summary, the utility model has the advantages that：

One：The floor heating Rotating fields have higher heat conduction efficiency, can effectively improve comfort；Secondly： The construction of floor heating Rotating fields is more convenient, and its overall structure has stronger integraty, and then can effectively improve making for itself Use the life-span.

Brief description of the drawings

Fig. 1 is the sectional view of embodiment floor heating Rotating fields；

Fig. 2 is the structural representation of examples of implementation pieces conduct heat body.

Reference：1st, cement mortar screeding layer；2nd, thermal insulating warm-keeping layer；3rd, reflecting layer；4th, pea gravel concrete layer；5th, floor heating Coil pipe；6th, heat carrier；61st, positioning chamber；62nd, plane is extended；7th, alkali-proof glass fiber mesh layer；8th, ground decoration layer；9th, it is auxiliary Help heat carrier.

Embodiment

The utility model embodiment is described further referring to figs. 1 to Fig. 2.

As shown in figure 1, a kind of floor heating Rotating fields, including from surface infrastructure layer to it is lower and on the cement mortar that sets gradually look for Flat bed 1, thermal insulating warm-keeping layer 2, reflecting layer 3, pea gravel concrete layer 4 and ground decoration layer 8, laid in pea gravel concrete layer 4 There is grounding heat coil tube 5.

In order to reduce difficulty of construction, while the structural strength of floor heating Rotating fields is improved, above-mentioned thermal insulating warm-keeping layer 2 is specifically adopted With perlite heat insulating sand pulp layer；Reflecting layer 3 specifically uses floor heating reflectance coating.

With reference to shown in Fig. 2, in order to improve the efficiency of heat conduction, it is provided with along grounding heat coil tube 5 and grows above grounding heat coil tube 5 The long strip type heat carrier 6 of direction extension is spent, heat carrier 6 is made up of aluminum alloy material, and heat carrier 6 is located in pea gravel concrete layer 4, Upwardly extended in the lower end of heat carrier 6 and offer positioning chamber 61, positioning chamber 61 opens up along the length direction of heat carrier 6, grounding heat coil tube 5 It is embedded in positioning chamber 61, the outer surface of grounding heat coil tube 5 is held against with the inwall of positioning chamber 61, and heat carrier 6 passes through positioning chamber 61 For structure to form the cladding to the surface of grounding heat coil tube 5, upper end and the lower surface of ground decoration layer 8 of heat carrier 6 are in be close to set.For Further raising heat conduction efficiency, stretches out to be formed at left and right sides of the upper end edge local width direction of heat carrier 6 There is extension plane 62, the purpose for improving heat conduction efficiency, a left side for heat carrier 6 are reached by way of increasing heat derives area Right both sides are set in circular arc planar, and the extension plane 62 on heat carrier 6 is easily directly made by the gravity on ground decoration layer 8 With stress concentration during stress can be reduced in the structure setting of arc surface so that have at left and right sides of the upper end of heat carrier 6 certain Downward deformability, reach extend the service life of heat carrier 6 purpose.

The above-mentioned lower end of heat carrier 6 is extended into thermal insulating warm-keeping layer 2 after wearing reflecting layer 3, can play prior art The effect of middle plastic staple bolt so that grounding heat coil tube 5 can be fixed on the top in reflecting layer 3 by heat carrier 6.In order to facilitate heat carrier 6 coordinate with the installation of grounding heat coil tube 5, and the inner side of positioning chamber 61 of the lower end of heat carrier 6 is in enlarging shape.

Scattered and disappeared to further reduce heat, between grounding heat coil tube 5, reflecting layer 3 and the inwall of positioning chamber 61 between Auxiliary heat conduction body 96 is filled with gap, auxiliary heat conduction body 96 is specially heat-conducting daub.

The phenomenon in crack is produced to slow down concrete by convergent force, in pea gravel concrete layer 4 and ground decoration layer 8 Between be additionally provided with an alkali-proof glass fiber mesh layer 7.

Specific processing mode：

Laying cement mortar screeding layer 1, perlite heat insulating sand pulp layer and floor heating reflectance coating on surface infrastructure layer successively, Grounding heat coil tube 5 is then uniformly distributed on floor heating reflectance coating, is filled in the gap between grounding heat coil tube 5 and floor heating reflectance coating A certain amount of heat-conducting daub, then heat carrier 6 is inserted perpendicularly into, grounding heat coil tube 5 is embedded to positioning chamber 61, apply for convenience Work, when implementing above-mentioned insertion process, perlite heat insulating sand pulp layer is not fully cured, anti-in floor heating after the installation of heat carrier 6 Penetrate and pea gravel concrete layer 4 is laid on film so that the extension plane 62 of the upper end of heat carrier 6 completely enters to pea gravel concrete layer 4 It is interior, continue in the surface of pea gravel concrete layer 4 laying alkali-proof glass fiber mesh layer 7 and ground decoration layer 8, solidification a period of time Afterwards, the installation of floor heating Rotating fields is completed.

Described above is only preferred embodiment of the present utility model, and the scope of protection of the utility model is not limited merely to Above-described embodiment, all technical schemes belonged under the utility model thinking belong to the scope of protection of the utility model.It should refer to Go out, for those skilled in the art, some improvement under the premise of the utility model principle is not departed from and Retouching, these improvements and modifications also should be regarded as the scope of protection of the utility model.

Claims (10)

1. a kind of floor heating Rotating fields, including to it is lower and on the cement mortar screeding layer that sets gradually（1）, thermal insulating warm-keeping layer（2）, it is anti- Penetrate layer（3）, grounding heat coil tube（5）, pea gravel concrete layer（4）And ground decoration layer（8）, the grounding heat coil tube（5）Positioned at peastone Concrete layer（4）It is interior, it is characterised in that the grounding heat coil tube（5）Top is provided with along grounding heat coil tube（5）Length direction extension Long strip type heat carrier（6）, heat carrier（6）Positioned at pea gravel concrete layer（4）It is interior, the heat carrier（6）Lower end coats grounding heat coil tube （5）, upper end and ground decoration layer（8）Lower surface is in be close to set.

A kind of 2. floor heating Rotating fields according to claim 1, it is characterised in that the heat carrier（6）Lower end upwardly extends Offer positioning chamber（61）, the positioning chamber（61）For being embedded grounding heat coil tube（5）, the grounding heat coil tube（5）Surface and positioning Chamber（61）Inwall is mutually close to.

A kind of 3. floor heating Rotating fields according to claim 2, it is characterised in that the heat carrier（6）Upper end edge itself is wide Stretch out at left and right sides of degree direction formed with extension plane（62）, the extension plane（62）With ground decoration layer（8）Under Surface is in be close to set.

A kind of 4. floor heating Rotating fields according to claim 3, it is characterised in that the heat carrier（6）With respect to itself upper end The left and right sides in arc surface set.

A kind of 5. floor heating Rotating fields according to claim 4, it is characterised in that the heat carrier（6）Lower end extends into To thermal insulating warm-keeping layer（2）.

A kind of 6. floor heating Rotating fields according to claim 5, it is characterised in that the positioning chamber（61）With respect to heat carrier （6）The inner side of lower end is set in enlarging.

A kind of 7. floor heating Rotating fields according to claim 6, it is characterised in that the grounding heat coil tube（5）With reflecting layer（3） Between be filled with auxiliary heat conduction body（9）, the auxiliary heat conduction body（9）For heat-conducting daub, heat-conducting daub respectively with grounding heat coil tube （5）, reflecting layer（3）And positioning chamber（61）Inwall abuts against.

A kind of 8. floor heating Rotating fields according to claim 1, it is characterised in that the heat carrier（6）There is aluminium alloy to be made.

A kind of 9. floor heating Rotating fields according to claim 1, it is characterised in that the thermal insulating warm-keeping layer（2）For perlite Heat insulating sand pulp layer.

A kind of 10. floor heating Rotating fields according to claim 1, it is characterised in that the pea gravel concrete layer（4）With ground Decorative layer（8）Between be provided with alkali-proof glass fiber mesh layer（7）.