CN208635183U - A kind of modularization film for floor heating - Google Patents

Abstract

The utility model discloses a kind of modularization films for floor heating, modularization film includes several groups double-layer film structure, double-layer film structure includes lower film and upper layer array of protrusions, upper layer array of protrusions is fixed on the upper surface of lower film by heat bonding, upper layer array of protrusions includes several groups protrusion row, the cable installation region for installing heating cable is formed between every two groups of protrusions row, heating cable is wound on fixed on protrusion row behind cable installation region, every group of protrusion row is along upper several bulge-structures of setting, bulge-structure squeezes out hot repressing by coiled plastic material and is formed.The utility model thermal coefficient is lower while higher melting-point plastic production is at modularization film, promotion installation speed, reduction integral installation thickness degree, reduces the risk that floor tile ruptures or floor joint becomes larger at reduction mounting material, and there is no limit for the shape of raising floor tile, the uniform-compression of floor bottom and installation ground.

Description

A kind of modularization film for floor heating

Technical field

The utility model relates to heating technology fields, and in particular to a kind of modularization film for floor heating.

Background technique

Floor heating is formed reasonable from bottom to top because its energy conservation and environmental protection, room temperature are uniformly more and more favored Temperature gradient also more improves the level of comfort of inhabitation.Current floor heating divides hot-water heating and electric heating.The heat source of electric heating is mainly sent out Electric heating cable and heating film.The installation method of existing floor heating is usually first ground (usually cement flooring) guarantee for a person given by a shopkeeper after levelling Warm plate, in insulation board upper berth reflectance coating, repave steel wire.Then installer is laid with heating cable along wire netting and is spaced one Heating cable is fixed on steel wire by set a distance with plastic button, and cement is covered with after having spread on floor tile or floor.Due to paving If layer is more, the speed for being laid with cable is slow；The material needed simultaneously is more, will lead to set-up time mistake according to existing installation steps It is long.As mentioned previously, because need insulation board, reflectance coating, steel wire and plastic button, floor overall thickness increase it is excessive, insulating layer and Performance of the reflectance coating without anti-slide causes floor tile to rupture or floor joint a possibility that becoming larger height.Simultaneously because heating cable It needs to be wrapped up with concrete after laying, package thickness will lead to poor thermal conductivity, and wrapping layer is thin to cause crushing resistance poor, that is to say, that by Pressure is uneven, and be pressurized uneven or poor thermal conductivity, influences heating temperature.In floor heating installation process, due to installing ground shape Shape can be restricted according to the difference of environment, and when installing ground is not the rectangle of rule, the cutting of steel wire is more troublesome.

The patent application of CN201620057614.8 discloses a kind of modularly warm plate, including ground heating floor ontology, described Floor heating ontology have cavity, multiple reinforcing ribs are arranged in cavity in length and breadth, the upper surface of floor heating ontology is equipped with multiple constant temperature structures, The laying space for being laid with floor heating pipeline is formed between constant temperature structure, and pipeline clamping structure is equipped in the laying space, it is described Constant temperature structure include the first constant temperature structure between adjacent four pipeline clamping structures, on four side of the upper surface of floor heating ontology The second constant temperature structure and third constant temperature structure in the upper surface quadrangle of floor heating ontology, first constant temperature structure, second It is equipped with mounting hole on constant temperature structure and third constant temperature structure, the snap-in structure in the patent, install convenient is efficient, floor heating pipeline Laying is convenient, substantially reduces the set-up time, and equally distributed constant temperature structure keeps heat and radiates uniformly, adding in cavity Strengthening tendons reinforce integral strength, and the increased reinforcement structure of pipeline clamping structure lowers installation loss, increases service life.But this is specially Structure is complicated for benefit, it is also necessary to use pipeline clamping structure fixed -piping, increase installation cost.

Utility model content

In order to solve the above-mentioned technical problem, the purpose of the utility model is to provide a kind of modularization film for floor heating, Overcome deficiency in the prior art, lower while higher melting-point plastic production promotes peace at modularization film with thermal coefficient Dress speed reduces mounting material, reduces integral installation thickness degree, reduces the risk that floor tile ruptures or floor joint becomes larger, and mentions There is no limit for the shape of high floor tile, the uniform-compression of floor bottom and installation ground.

To realize that above-mentioned purpose of utility model, the technical solution that the utility model is taken are as follows:

A kind of modularization film for floor heating, the modularization film include several groups membrane structure, the film knot Structure includes upper layer array of protrusions, and the upper layer array of protrusions includes several groups protrusion row, is formed between the row of protrusion described in every two groups For installing the cable installation region of heating cable, heating cable is wound on the protrusion row after passing through the cable installation region Fixed, protrusion described in every group is arranged along upper several bulge-structures of setting, and the bulge-structure is formed by plastic extrusion hot repressing.

Preferably, the modularization film includes a cluster film structure.

Preferably, the membrane structure is double-layer film structure, and the double-layer film structure includes lower film and described Upper layer array of protrusions, the upper layer array of protrusions are fixed on the upper surface of the lower film by heat bonding, and the lower layer is thin The lower surface of film is bonded on ground to be onstructed.

Preferably, the double-layer film structure uses thermal coefficient lower while higher melting-point plastic production, passes through heat It presses technique to make the bulge-structure, the bulge-structure is arranged into the protrusion row, several groups on the lower film Protrusion row's arrangement forms the upper layer array of protrusions, forms the cable for installing heating cable between the row of protrusion described in every two groups Installation region is pasted together the upper layer array of protrusions and the lower film to form the module by thermal bonding technology Change film, modularization film can whole coiling form coiled material convenient for whole transport and storage；It can also be with partition, cutting at not The sheet of similar shape, which stacks, places, and convenient for applying modularization film of different shapes according to installation environment, ensure that modularization is thin Comprehensive, the landform suitable for complexity of film installation.

Preferably, the double-layer film structure is made of polypropylene material.Since polypropylene material thermal coefficient is lower Fusing point is higher simultaneously, it is therefore prevented that heating cable is during the work time due to the excessively high pyrolytic damage to double-layer film structure of heat, together When the loss of heat is avoided since thermal coefficient is lower.

Preferably, the cable installation region requires to adjust according to the diameter and installation environment of heating cable, Spacing between the row of protrusion described in adjusting every two groups, when the calorific value needed for installation environment is high, can reduce described in every two groups Spacing between protrusion row makes to arrange that more protrusion rows increase to wind the more heating cables of quantity on lower film Calorific value.

Preferably, the upper layer array of protrusions includes that equally distributed several groups are convex along the length direction of the lower film The row of rising, protrusion described in every group arrange in along the width direction of the lower film include several bulge-structures, it is convex described in every two groups The cable installation region is formed between the row of rising.The upper layer array of protrusions forms Polygonal arrays, and heating cable is convex from upper layer It is bypassed after playing one group of protrusion row rear end warp in array from adjacent one group of protrusion row front end, so that heating cable be made to be mounted on two In cable installation region between a adjacent protrusion row.

Preferably, the upper layer array of protrusions is spaced apart several groups protrusion along the center of the lower film around Row, and protrusion described in every group is arranged using the center of the lower film as the rounded distribution in the center of circle, protrusion row's described in every two groups Between formed loop cable installation region.The upper layer array of protrusions forms annular array, and heating cable is from the lower film Center is gradually laid in loop cable installation region around, compared to relatively with the Polygonal arrays under homalographic, loop cable Installation region will increase the laying overall length of heating cable, improve calorific value.

Preferably, cavity is arranged in the center of the bulge-structure, and the upper end of the cavity is open type open end, institute The bottom cross sectional dimensions for stating cavity is less than the open end cross sectional dimensions of the cavity, is convenient for passing through heat pressing process production in this way It is convenient for depanning when bulge-structure, reduces Mold Making cost and difficulty.Ceramic tile is bonded on the cavities open end in bulge-structure, Open end increases the contact area of bulge-structure and ceramic tile or wood floors, makes to install stronger.

Preferably, adhesive is added in the cavity, the additive amount of described adhesive is greater than the size of the cavity, when When connection between bulge-structure and ceramic tile or wood floors occurs loosening degumming, the heat for increasing heating cable makes in cavity Adhesive expanded by heating and thawing overflowed from cavity, the adhesive of spilling can continue connection bump structure and ceramic tile or wooden Floor, it is ensured that the two is not in separation.

Preferably, the side wall of the cavity is to be obliquely installed along the cavity bottom to the open end, the cavity Cross sectional dimensions is gradually increased by the cavity bottom to the open end.The sidewall slope setting of cavity may insure raised knot Intensity in structure installation and use process makes the lower half of bulge-structure have enough strength support bottom plates or wood floors.

It preferably, include several grades of step structures along the cavity bottom to the open end on the side wall of the cavity, The quantity of the step structure is at least 1.Step structure may insure to increase under the premise of support strength and add in the cavities The dosage of adhesive.

Preferably, the lateral wall of the bulge-structure is arranged along the bottom of the bulge-structure to top droop.In this way may be used To increase the space of cable installation region, the heat in the heating cable course of work is made to obtain maximum storage, increases cable peace Fill the thermally conductive space in region.

Preferably, the cross section of the bulge-structure is one of round or polygonized structure, the cavity it is transversal Face is one of round or polygonized structure, and the bottom cross sectional dimensions of the bulge-structure is equal to the top of the bulge-structure Cross section size.

Preferably, the cross section of the bulge-structure is quadrangle, and the cross section of the cavity is circle, this ensure that The upper surface region domain sizes ratio formed between the open end and bulge-structure upper surface of cavity is in bulge-structure and the same ruler of cavity Very little other shapes are big, and the size of the surface area is sufficiently large, can not only guarantee the connection with ceramic tile or floor, but also can be with Guarantee when adhesive in the cavities with being connect on heating cable with ceramic tile or floor when, surface area can form air thermal preservation Layer guarantees to obtain long-acting heat preservation during fever, prevents heat loss.

It is furthermore preferred that the cross section of the bulge-structure is square, the bottom of the bulge-structure and lower film connect Chamfering structure is arranged in the side wall at the external place connect, and the cross section of the cavity is circle.

Preferably, the bulge-structure on the adjacent protrusion row is identical.Identical bulge-structure is convenient for production and installation.

Preferably, the bulge-structure on the adjacent protrusion row is not identical.

Preferably, the quantity of the double-layer film structure is greater than two groups, and the double-layer film structure stacking of difference group is set Set, the lower film in one group of double-layer film structure be bonded in another group described in double-layer film structure the upper layer protrusion On array, the upper layer array of protrusions upper end of the double-layer film structure of top layer bonds floor in the modularization film Or ceramic tile.The stacking setting of multibilayer membrane structure can guarantee the installation of the floor heating under the high environment of load-bearing requirements, multiple groups Double-layer film structure can provide enough support strengths and be used to support ceramic tile or wood floors, and multibilayer membrane structure Also the laying amount that will increase heating cable, improves the calorific value of floor heating.

The modularization film installation steps of the utility model are as follows:

(1) makes the bulge-structure by heat pressing process, and the bulge-structure is arranged on the lower film The protrusion row, the row's arrangement of several groups protrusion form the upper layer array of protrusions, are formed and be used between the row of protrusion described in every two groups The upper layer array of protrusions and the lower film are pasted by thermal bonding technology in the cable installation region for installing heating cable The modularization film is formed together；

(2) the modularization film is applied to different scenes at different shapes according to construction scene cut by；

(3) coats adhesive on ground to be onstructed, by the institute in the modularization film in step (1) and (2) It states lower film to be pasted on ground to be onstructed by adhesive, is laid with heating cable in the cable installation region, it is described Adhesive is coated in upper layer array of protrusions upper surface after heating cable laying, tiling or timber floor are passed through into adhesive It is pasted onto the upper layer array of protrusions.

Preferably, of different shapes according to the shape selection at ground different location to be onstructed under same installation space Modularization film is laid with installation.

Compared with the existing technology, the utility model achieves beneficial technical effect:

A kind of modularization film for floor heating disclosed by the utility model, it is lower while higher melting-point with thermal coefficient Plastic production is at modularization film, insulation board, reflectance coating, steel wire and the plastic button for replacing conventional mounting arrangements to use with this. The bulge-structure is made by heat pressing process, the bulge-structure is arranged into the protrusion row on the lower film, The row's arrangement of several groups protrusion forms the upper layer array of protrusions, is formed between the row of protrusion described in every two groups for installing heating cable Cable installation region, be pasted together the upper layer array of protrusions and the lower film to form institute by thermal bonding technology State modularization film, modularization film can whole coiling form coiled material convenient for whole transport and storage；Sanction can also be divided It is cut into sheet of different shapes and stacks placement, convenient for applying modularization film of different shapes according to installation environment, ensure that mould Comprehensive, the landform suitable for complexity of block film installation.The double-layer film structure is made of polypropylene material.Due to Polypropylene material thermal coefficient is lower while fusing point is higher, it is therefore prevented that heating cable is during the work time since heat is excessively high to double The pyrolytic damage of layer film structure, simultaneously because the lower loss for avoiding heat of thermal coefficient.And due to cable installation region In air conduction coefficient it is low, heating cable work when cable installation region in air can guarantee that heat will not largely flow It loses, while heat is transferred directly to ceramic tile or wood floors in cable installation region, avoids influencing heating temperature.

Modularization film during the installation process being capable of significant increase installation speed, reduction mounting material, reduction integral installation Thickness degree reduces the risk that floor tile ruptures or floor joint becomes larger, the uniform-compression for improving floor tile, floor bottom, and There is no limit for the shape on installation ground.

Detailed description of the invention

Fig. 1 is a kind of top view of the first embodiment of the modularization film for floor heating disclosed by the utility model；

Fig. 2 is a kind of schematic structural diagram of the second embodiment of the modularization film for floor heating disclosed by the utility model；

Fig. 3 is a kind of main view of the first embodiment of the modularization film for floor heating disclosed by the utility model；

Fig. 4 is a kind of main view of the fourth embodiment of the modularization film for floor heating disclosed by the utility model；

Fig. 5 be it is adjacent in a kind of first embodiment for the modularization film of floor heating disclosed by the utility model described in The different partial schematic diagram of bulge-structure on protrusion row；

Fig. 6 is a kind of main view of the sixth embodiment of the modularization film for floor heating disclosed by the utility model.

Appended drawing reference

1. lower film；2. upper layer array of protrusions；21. bulge-structure；211. cavity；212. surface area；3. fever Cable；4. cable installation region.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, with reference to embodiments to this Utility model is further elaborated, but the range of the requires of the utility model protection is not limited to following specific implementations Example.

Embodiment 1

As shown in figs. 1 and 3, a kind of modularization film for floor heating, the modularization film include several cluster film knots Structure, the membrane structure include upper layer array of protrusions 2, and the upper layer array of protrusions 2 is arranged including several groups protrusion, described in every two groups The cable installation region 4 for installing heating cable 3 is formed between protrusion row, after heating cable passes through the cable installation region It is wound on the protrusion row and fixes, for the row of protrusion described in every group along upper several bulge-structures 21 of setting, the bulge-structure 21 is logical Plastic extrusion hot repressing is crossed to be formed.

The embodiment of the present invention membrane structure is double-layer film structure, and the double-layer film structure includes 1 He of lower film Upper layer array of protrusions 2, the upper layer array of protrusions 2 are fixed on the upper surface of the lower film 1, the upper layer by heat bonding Array of protrusions 2 is arranged including several groups protrusion, is formed the cable for installing heating cable 3 between the row of protrusion described in every two groups and is installed Region 4, heating cable 3 are wound on the protrusion row behind the cable installation region 4 and fix, and protrusion described in every group is arranged along upper Several bulge-structures 21 are set, and the bulge-structure 21 is formed by plastic extrusion hot repressing.According to actually required floor heating The difference of fever environment, can be laid with heating cable 3 at each in cable installation region 4, can also be at interval of multiple electricity Then cable installation region 4 is installed by heating cable 3.By coating adhesive on ground to be onstructed, by the modularization film In the lower film 1 be pasted on ground to be onstructed by adhesive, be laid with heating electric in the cable installation region Cable coats adhesive in 2 upper surface of upper layer array of protrusions after the heating cable laying, tiling or timber floor is led to Adhesive is crossed to be pasted onto the upper layer array of protrusions 2.

The preferred modularization film includes one group of double-layer film structure in the present embodiment, and the double-layer film structure is adopted The lower while higher melting-point plastic production with thermal coefficient, the present embodiment is preferred, and the double-layer film structure uses poly- third Alkene material is made.Since polypropylene material thermal coefficient is lower while fusing point is higher, it is therefore prevented that heating cable 3 is during the work time Due to the excessively high pyrolytic damage to double-layer film structure of heat, simultaneously because the lower loss for avoiding heat of thermal coefficient.

The cable installation region 4 requires to adjust according to the diameter and installation environment of heating cable 3, that is, adjusts Protrusion described in every two groups row between spacing, when the calorific value needed for installation environment is high, can reduce every two groups described in protrusion arrange Between spacing, make to arrange that more protrusion rows increase fever to wind the more heating cables 3 of quantity on lower film 1 Amount.

The upper layer array of protrusions 2 includes equally distributed several groups protrusion row along the length direction of the lower film 1, Width direction in the row of protrusion described in every group along the lower film 1 includes several bulge-structures 21, protrusion described in every two groups The cable installation region 4 is formed between row.The upper layer array of protrusions 2 forms Polygonal arrays, and heating cable 3 is convex from upper layer It is bypassed after playing one group of protrusion row rear end warp in array 2 from adjacent one group of protrusion row front end, so that heating cable 3 be made to be mounted on In cable installation region 4 between two adjacent protrusion rows.

As shown in figure 3, cavity 211 is arranged in the center of the bulge-structure 21, the upper end of the cavity 211 is unlimited Formula open end, the bottom cross sectional dimensions of the cavity 211 are less than the open end cross sectional dimensions of the cavity 211, so just It is convenient for depanning when making bulge-structure 21 by heat pressing process, reduces Mold Making cost and difficulty.Ceramic tile is bonded in protrusion On 211 open end of cavity in structure 21, open end increases the contact area of bulge-structure 21 and ceramic tile or wood floors, makes It installs stronger.

The side wall of the cavity 211 is to be obliquely installed along 211 bottom of cavity to the open end, the cavity 211 Cross sectional dimensions be gradually increased by 211 bottom of cavity to the open end.The sidewall slope setting of cavity 211 can be true The intensity in the installation of bulge-structure 21 and use process is protected, makes the lower half of bulge-structure 21 that there is enough strength support bottom plates Or wood floors.

As shown in figure 5, the cross section of the bulge-structure 21 is one of round or polygonized structure.The cavity 211 cross section is one of round or polygonized structure, and the present embodiment is preferred, and the bottom of the bulge-structure 21 is transversal Face size is equal to the top cross-sectional size of the bulge-structure 21.The lateral wall size of the i.e. described bulge-structure 21 from bottom to Top is identical.Bulge-structure 21 on the adjacent protrusion row is identical or not identical.When convex on the adjacent protrusion row The identical identical bulge-structure 21 of structure 21 is played convenient for production and installation.

As shown in figure 5, the present embodiment is preferred, the cross section of the bulge-structure 21 is quadrangle, it is furthermore preferred that described The cross section of bulge-structure 21 is square, the side wall at the external place that the bottom of the bulge-structure 21 is connect with lower film 1 Chamfering structure is set, and the cross section of the cavity 211 is circle, this ensure that the open end of cavity 211 and bulge-structure 21 212 size of surface area formed between upper surface is bigger than the other shapes in 211 comparable size of bulge-structure 21 and cavity, The size of the surface area 212 is sufficiently large, can not only guarantee the connection with ceramic tile or floor, but also can guarantee to work as adhesive When connecting in cavity 211 and on heating cable 3 with ceramic tile or floor, surface area 212 can form air heat insulating layer, protect Long-acting heat preservation is obtained during card fever, prevents heat loss.

Specifically, the bulge-structure 21 is formed using the crystalline p p sheet hot pressing with a thickness of 0.5~1.0mm, using thickness Polypropylene industrial cloth of the degree no more than 0.2mm makes lower film 1, and polypropylene industrial cloth is by braiding or the polypropylene not woven Fiber is made.The bulge-structure 21 is arranged into the protrusion row, several groups protrusion row's arrangement shape on the lower film 1 At the upper layer array of protrusions 2, formed between the row of protrusion described in every two groups for installing the cable installing zone for being laid with heating cable 3 Domain 4 is pasted together the upper layer array of protrusions 2 and the lower film 1 to form the modularization by thermal bonding technology Film, modularization film can whole coiling form coiled material convenient for whole transport and storage, coiled material can be made width 1~ The big volume that 1~2m of rouleau or width that 2m, length are 4~5m, length are 10~15m；It can also be with partition, cutting at not similar shape The sheet film of shape, which stacks, to be placed, and convenient for applying modularization film of different shapes according to installation environment, ensure that modularization is thin Comprehensive, the landform suitable for complexity of film installation.

Embodiment 2

As shown in Fig. 2, the embodiment only describes and the difference of above-described embodiment, remaining technical characteristic and above-mentioned implementation Example is identical.It is convex that the embodiment of the present invention upper layer array of protrusions 2 along the center of the lower film 1 is spaced apart several groups around The row of rising, and the row of protrusion described in every group, using the center of the lower film 1 as the rounded distribution in the center of circle, protrusion described in every two groups is arranged Between formed loop cable installation region 4.The upper layer array of protrusions 2 forms annular array, and heating cable 3 is thin from the lower layer The center of film 1 is gradually laid in loop cable installation region 4 around, compared to relatively with the Polygonal arrays under homalographic, ring Shape cable installation region 4 will increase the laying overall length of heating cable 3, improve calorific value.

Embodiment 3

The embodiment only describes and the difference of above-described embodiment, remaining technical characteristic is same as the previously described embodiments.This Embodiment adds adhesive in the cavity 211, and the additive amount of described adhesive is greater than the size of the cavity 211, when convex When playing the connection appearance loosening degumming between structure 21 and ceramic tile or wood floors, the heat for increasing heating cable 3 makes cavity 211 In adhesive expanded by heating and melt overflowed from cavity 211, the adhesive of spilling can continue 21 He of connection bump structure Ceramic tile or wood floors, it is ensured that the two is not in separation.

Embodiment 4

As shown in figure 4, the embodiment only describes and the difference of above-described embodiment, remaining technical characteristic and above-mentioned implementation Example is identical.It along 211 bottom of cavity to the open end include several grades of platforms on the side wall of the embodiment of the present invention cavity 211 Stage structure, the quantity of the step structure are at least 1.Step structure may insure to increase under the premise of support strength in cavity The dosage of adhesive is added in 211.

Embodiment 5

The embodiment only describes and the difference of above-described embodiment, remaining technical characteristic is same as the previously described embodiments.This The lateral wall of the bulge-structure 21 of embodiment is arranged along the bottom of the bulge-structure 21 to top droop.It can increase in this way It is powered on the space of cable installation region 4, the heat in 3 course of work of heating cable is made to obtain maximum storage, increases cable installation The thermally conductive space in region 4.

Embodiment 6

As shown in fig. 6, the embodiment only describes and the difference of above-described embodiment, remaining technical characteristic and above-mentioned implementation Example is identical.The quantity of the embodiment of the present invention double-layer film structure is greater than two groups, and the double-layer film structure of difference group stacks Setting, the lower film 1 in one group of double-layer film structure be bonded in another group described in double-layer film structure the upper layer In array of protrusions 2, the upper layer array of protrusions upper end of the double-layer film structure of top layer is viscous in the modularization film Close floor or ceramic tile.The stacking setting of multibilayer membrane structure can guarantee the peace of the floor heating under the high environment of load-bearing requirements Dress, multibilayer membrane structure can provide enough support strengths and be used to support ceramic tile or wood floors, and multibilayer Membrane structure also will increase the laying amount of heating cable 3, improve the calorific value of floor heating.

A kind of modularization film for floor heating disclosed by the utility model, it is lower while higher melting-point with thermal coefficient Plastic production is at modularization film, insulation board, reflectance coating, steel wire and the plastic button for replacing conventional mounting arrangements to use with this. Modularization film can whole coiling form coiled material convenient for whole transport and storage；It can also be with partition, cutting at of different shapes Sheet, which stacks, places, and convenient for applying modularization film of different shapes according to installation environment, ensure that the installation of modularization film It is comprehensive, suitable for complicated landform.The double-layer film structure is made of polypropylene material.Since polypropylene material is thermally conductive Coefficient is lower while fusing point is higher, it is therefore prevented that heating cable 3 is during the work time since heat is excessively high to double-layer film structure Pyrolytic damage, simultaneously because the lower loss for avoiding heat of thermal coefficient.And due to the air conduction in cable installation region 4 Coefficient is low, and the air when heating cable 3 works in cable installation region 4 can guarantee that heat will not be largely lost, while in Heat is transferred directly to ceramic tile or wood floors in cable installation region 4, avoids influencing heating temperature.Modularization film is being installed It in the process being capable of significant increase installation speed, reduction mounting material, reduction integral installation thickness degree, the rupture of reduction floor tile or ground Risk that plate stitch gap becomes larger, the uniform-compression for improving floor tile, floor bottom, and installation ground shape there is no limit.

The invention also discloses a kind of laying method of floor heating, the laying method application module film, floor heating Laying method include the following steps:

(1) makes the bulge-structure 21 by heat pressing process, by the bulge-structure 21 on the lower film 1 It is arranged into the protrusion row, the row's arrangement of several groups protrusion forms the upper layer array of protrusions 2, shape between the row of protrusion described in every two groups At the cable installation region 4 for installing heating cable 3, by thermal bonding technology by the upper layer array of protrusions 2 and it is described under Layer film 1 is pasted together to form the modularization film；

(2) the modularization film is applied to different scenes at different shapes according to construction scene cut by；

(3) coats adhesive on ground to be onstructed, by the institute in the modularization film in step (1) and (2) It states lower film 1 to be pasted on ground to be onstructed by adhesive, gently be flattened by tools such as claying knifes, pacified in the cable It fills and is laid with heating cable 3 in region 4, in 2 upper surface of upper layer array of protrusions or heating cable after the laying of heating cable 3 Adhesive is coated on 3, and tiling or timber floor are pasted onto the upper layer array of protrusions 2 by adhesive.

(4) can select not similar shape according to the shape at ground different location to be onstructed when under same installation space The modularization film of shape is laid with installation.

According to the disclosure and teachings of the above specification, the utility model those skilled in the art can also be to above-mentioned reality The mode of applying is changed and is modified.Therefore, the utility model is not limited to specific embodiment disclosed and described above, right Some modifications and changes of utility model should also be as falling into the protection scope of the claims of the present utility model.In addition, although It is used some specific terms in this specification, these terms are merely for convenience of description, does not constitute to utility model Any restrictions.

Claims (9)

1. a kind of modularization film for floor heating, which is characterized in that the modularization film includes several groups membrane structure, institute Stating membrane structure includes upper layer array of protrusions, and the upper layer array of protrusions includes several groups protrusion row, the row of protrusion described in every two groups Between form the cable installation region for installing heating cable, heating cable pass through be wound on behind the cable installation region it is described Fixed on protrusion row, the row of protrusion described in every group passes through plastic extrusion again along upper several bulge-structures of setting, the bulge-structure Hot pressing is formed.

2. a kind of modularization film for floor heating according to claim 1, which is characterized in that the membrane structure is double Layer film structure, the double-layer film structure include lower film and the upper layer array of protrusions, and the upper layer array of protrusions is logical Overheat is adhesively fixed in the upper surface of the lower film, and the lower surface of the lower film is bonded on ground to be onstructed.

3. a kind of modularization film for floor heating according to claim 2, which is characterized in that the upper layer array of protrusions Length direction along the lower film includes that equally distributed several groups protrusion is arranged, along the lower layer in the row of protrusion described in every group The width direction of film includes several bulge-structures, forms the cable installation region between the row of protrusion described in every two groups.

4. a kind of modularization film for floor heating according to claim 2, which is characterized in that the upper layer array of protrusions It is spaced apart several groups protrusion row around along the center of the lower film, and the row of protrusion described in every group is thin with the lower layer The center of film is the rounded distribution in the center of circle, forms loop cable installation region between the row of protrusion described in every two groups.

5. a kind of modularization film for floor heating according to claim 1,2,3 or 4, which is characterized in that the protrusion Cavity is arranged in the center of structure, and the upper end of the cavity is open type open end, the bottom cross sectional dimensions of the cavity Less than the open end cross sectional dimensions of the cavity.

6. a kind of modularization film for floor heating according to claim 5, which is characterized in that the side wall edge of the cavity The cavity bottom is to be obliquely installed to the open end, and the cross sectional dimensions of the cavity is opened by the cavity bottom to described Mouth end is gradually increased.

7. a kind of modularization film for floor heating according to claim 5, which is characterized in that on the side wall of the cavity It include several grades of step structures along the cavity bottom to the open end, the quantity of the step structure is at least 1.

8. a kind of modularization film for floor heating according to claim 1,2,3 or 4, which is characterized in that the protrusion The lateral wall of structure is arranged along the bottom of the bulge-structure to top droop.

9. a kind of modularization film for floor heating according to claim 5, which is characterized in that the cross of the bulge-structure Section is one of round or polygonized structure, and the cross section of the cavity is one of round or polygonized structure, institute The bottom cross sectional dimensions for stating bulge-structure is equal to the top cross-sectional size of the bulge-structure.