CN113216490B

CN113216490B - FC floor sound insulation and heat preservation system and preparation process thereof

Info

Publication number: CN113216490B
Application number: CN202110511130.1A
Authority: CN
Inventors: 钦炳华; 周伟; 秦岳; 宋建英
Original assignee: Changxing Besepon Building Material Technology Co ltd
Current assignee: Changxing Besepon Building Material Technology Co ltd
Priority date: 2021-05-11
Filing date: 2021-05-11
Publication date: 2022-12-27
Anticipated expiration: 2041-05-11
Also published as: CN113216490A

Abstract

The invention discloses an FC floor sound insulation and heat preservation system and a preparation process thereof, and aims to provide an FC floor sound insulation and heat preservation system with a limiting protection component and a preparation process thereof. The heat-insulation board comprises a heat-insulation board and two protection plates, wherein a plurality of connecting grooves are formed in the heat-insulation board, the protection plates comprise two connecting grooves, folded edges are installed on the protection plates, one ends of the folded edges are connected with one ends of the protection plates, the folded edges are perpendicular to the protection plates, connecting blocks are arranged on the inner side walls of the folded edges and the inner side walls of the protection plates, and the connecting blocks correspond to the connecting grooves one to one. The invention has the beneficial effects that: the purpose of protecting the component with a limiting effect can be achieved; the effect of raising the temperature can be achieved; the function that the external influence is avoided to the heated board can be played.

Description

FC floor sound insulation and heat preservation system and preparation process thereof

Technical Field

The invention relates to the technical field of stem cell culture, in particular to an FC floor sound insulation and heat preservation system and a preparation process thereof.

Background

The FC board is an abbreviation of Fiber Cement board English Fiber Cement board, is a novel building material, is originally used in Europe and America, is introduced into China in the middle of the last eighties, is produced and registered with an FC trademark by the building material factory in Ach of Jiangsu, and is also called as an FC board in China. "FC" boards have become a wide variety of building boards.

With the improvement of life quality, the sound insulation and heat preservation effects are gradually popularized while building boards are used, and the FC board is generally produced by using fibers and cement as main raw materials and adding other auxiliary materials through the working procedures of pulping, copying, pressurizing, maintaining and the like, has good waterproof and fireproof effects, and has good sound insulation and heat preservation effects. However, in the use process, the protection of the FC plate is generally directly adhered to the protection plate without a special limit structure design, so that the protection plate may be separated from the FC plate in use.

Disclosure of Invention

The invention provides an FC floor sound insulation and heat preservation system with a protection component with a limiting effect and a preparation process thereof, aiming at overcoming the defect of the protection design of directly bonding an upper protection plate in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a FC floor sound insulation heat preservation system, includes heated board and protection shield, be equipped with a plurality of spread groove on the heated board, the protection shield contains two, install the hem on the protection shield, the one end of hem and the one end of protection shield are connected, hem and protection shield mutually perpendicular, all be equipped with the connecting block on the inside wall of hem and on the inside wall of protection shield, connecting block and spread groove one-to-one.

Can cover on the lateral wall of heated board through perpendicular form hem and protection shield, the protection shield includes two, so alright let two protection shields all entangle four lateral walls all around the heated board, a plurality of spread groove that sets up on the heated board then can cooperate the connecting block to play fine connection effect, all install the connecting block on the inside wall of hem and on the inside wall of protection shield, like this when the protection shield overlaps in the heated board, the cooperation through connecting block and spread groove can let the protection shield receive limiting displacement, so just reached the purpose that is equipped with the protection part of spacing effect, connecting block and spread groove one-to-one are the design of mutually supporting certainly.

Preferably, the other end face of the protection plate is provided with a limiting block, the other end face of the folded edge is provided with a limiting groove, and the limiting block is matched with the limiting groove. The design can insert the spacing inslot on another protection shield through the stopper of installing on a protection shield like this, so two protection shields have spacing effect each other.

Preferably, the insulation board is provided with a protective layer and a base layer, the protective layer is arranged on the top surface of the insulation board, the base layer is arranged on the bottom surface of the insulation board, and the protective layer and the base layer are both connected with the insulation board. The inoxidizing coating of connecting on the top surface through the heated board of design like this can have a guard action to the top surface of heated board, avoids the external top surface to the heated board to produce the influence, and the basic unit on the bottom surface of heated board then has a guard action to the bottom surface of heated board, avoids the external bottom surface to the heated board to produce the influence.

Preferably, the top of the connecting groove is arranged on the protective layer, the bottom of the connecting groove is arranged on the base layer, and the protective layer, the heat-insulating plate and the base layer are connected with the protective plate through the matching of the connecting groove and the connecting block. On the inoxidizing coating was arranged in through the top to the design like this, when the spread groove on the basic unit was arranged in to the bottom can let the connecting block insert, inoxidizing coating, heated board and basic unit received spacingly simultaneously, and the removal that can not be random is changed the place position.

Preferably, the protective layer comprises a top plate and a bottom plate, the top plate is arranged above the bottom plate and connected with the bottom plate, the top surface of the heat-insulation plate is connected with the bottom surface of the bottom plate, and a ground heating pipe is arranged between the top plate and the bottom plate. The design can produce the effect of raising the temperature through the ground heating coil of installation in the protective layer.

As preferred, be equipped with pipeline two on the top surface of bottom plate, the distribution shape of pipeline two is the S-shaped, the one end of pipeline two is close to in the left surface of bottom plate, the right flank of bottom plate is passed to the other end of pipeline two, be equipped with pipeline one on the bottom surface of roof, pipeline one matches with pipeline two, the ground heating coil is arranged in between pipeline one and the pipeline two, the inside of pipeline two and the outside of pipeline two are arranged respectively in the both ends of ground heating coil, be equipped with the roof plate hole that runs through on roof leading flank and the roof trailing flank on the roof, be equipped with the bottom plate hole that runs through bottom plate leading flank and bottom plate trailing flank on the bottom plate, install the wire net in the protective layer, the shape of wire net is the annular, the wire net passes the roof plate hole and is connected with the roof, the wire net pass the bottom plate hole and be connected with the bottom plate. Design like this and let roof and bottom plate when combining through pipeline two on the pipeline one on the roof can cooperate the bottom plate, ground heating coil receives spacing not more displaceable position, here, the right flank of bottom plate is passed to the one end of S-shaped pipeline two, the other end of pipeline two is close to the left surface in the bottom plate, pipeline two and pipeline are the assorted, the inside and the outside of roof can be arranged respectively in at the both ends of ground heating coil like this, need be through the preceding lateral wall of roof and the preceding lateral wall of the back lateral wall of roof on roof hole cooperation bottom plate and the back lateral wall of bottom plate on the bottom plate hole can let the wire net become an annular structure, ground heating coil then all arranges the steel wire in, so can not only play roof and bottom plate and receive the wire net influence to reduce kibbling probability, and also strengthened the connection of roof and bottom plate, both can not random shift position, and the wire net on the roof still have a spacing effect to ground heating coil between the two, and the wire net has still played the effect that reduces ground heating coil production heat and give off.

Preferably, a through hole is formed in one of the protection plates, a sealing block is sleeved on the through hole, and the ground heating pipe penetrates through the through hole and is arranged outside the protection plate. The through hole on one of them protection shield can let ground heating coil pass the through hole and arrange the outside in the protection shield through the design like this, and the sealed piece of suit has then avoided protection shield inner structure to receive external influence on the through hole.

Preferably, the pattern block is arranged on the top surface of the protective layer, the bottom surface of the protective layer is connected with the heat insulation plate, the pattern block is provided with a heat conduction groove, the floor heating pipe is provided with a plurality of heat conduction wires which are uniformly distributed, one end of each heat conduction wire is sleeved on the floor heating pipe, and the other end of each heat conduction wire penetrates through the steel wire mesh and is arranged in the heat conduction groove. The design has not only increased the friction through the decorative pattern piece on the protective layer top lateral wall like this, is convenient for the external world through decorative pattern operation inoxidizing coating, and through the conveying heat conduction silk that a plurality of heat conduction silk that the suit was gone up on the ground heating coil can produce the ground heating coil even, what the heat conduction silk passed the wire net and arranged in the heat conduction inslot on the decorative pattern piece in, just so influenced on the decorative pattern piece has the heating effect.

Preferably, the pattern blocks are provided with protective layers, the protective layers cover the heat conduction grooves, and the protective layers are connected with the pattern blocks. The protective layer covering the heat conduction groove can prevent the heat in the heat conduction groove from being too large to scald external objects.

The invention also provides a preparation process of the FC floor sound insulation and heat preservation system, which comprises the following steps:

the method comprises the following steps: placing the floor heating pipe on the second pipeline of the bottom plate, and placing one end of the floor heating pipe outside the bottom plate;

step two: connecting a steel wire mesh with the protective layer, enabling the steel wire mesh to penetrate through a top plate hole and a bottom plate hole to be sleeved on the ground heating pipe, connecting the top plate and the bottom plate, in the connecting process, distributing a plurality of heat-conducting wires sleeved on the ground heating pipe into heat-conducting grooves of pattern blocks through the steel wire mesh, and connecting the steel wire mesh with the pattern blocks;

step three: on the premise that the first pipeline is aligned with the second pipeline, the top plate is connected to the bottom plate, and the floor heating pipe is arranged between the first pipeline and the second pipeline;

step four: connecting the protective layer to the top surface of the insulation board, connecting a base layer to the surface of the insulation board to protect the insulation board, and then arranging a plurality of connecting grooves on the left and right surfaces of the structure formed by connecting the protective layer, the insulation board and the base layer, wherein the top parts of the connecting grooves are arranged on the protective layer, and the bottom parts of the connecting grooves are arranged on the base layer;

step five: the connecting blocks on the protection plates are aligned to the connecting grooves and arranged well, when the connecting blocks are arranged, the limiting block on the end face of one protection plate is inserted into the limiting groove on the end face of the folded edge on the other protection plate, the ground heating pipe needs to penetrate through the through hole in one protection plate and is arranged outside the protection plate, and then the protection layer, the insulation plate and the base layer are well connected with the protection plate.

The invention has the beneficial effects that: the purpose of protecting the component with a limiting effect can be achieved; the effect of temperature increase can be achieved; the function that the external influence is avoided to the heated board can be played.

Drawings

FIG. 1 is a structural layout of the present invention;

fig. 2 is a connection layout of the protection board of the present invention;

FIG. 3 is a connection arrangement of the connection block of the present invention;

FIG. 4 is a structural layout of a protective layer of the present invention;

FIG. 5 is a structural layout of the steel wire mesh of the present invention;

FIG. 6 is a schematic view of the connection of the floor heating pipe of the present invention;

fig. 7 is a schematic structural view of the heat conductive wire of the present invention.

In the figure: 1. the protective layer, 2, the heated board, 3, the basic unit, 4, the protection shield, 5, the spread groove, 6, the hem, 7, the connecting block, 8, the roof, 9, the bottom plate, 10, the bottom plate hole, 11, the roof hole, 12, pipeline one, 13, pipeline two, 14, the ground heating coil, 15, the wire net, 16, the spacing groove, 17, the stopper, 18, the through-hole, 19, sealed piece, 20, the decorative block, 21, the heat conduction silk, 22, the heat conduction groove, 23, the protective layer.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

In the embodiment shown in fig. 1, fig. 2 and fig. 3, an FC floor sound insulation and heat preservation system includes a heat preservation board 2 and a protection board 4, the heat preservation board 2 is provided with a plurality of connecting grooves 5, the protection board 4 includes two, a folded edge 6 is installed on the protection board 4, one end of the folded edge 6 is connected with one end of the protection board 4, the folded edge 6 is perpendicular to the protection board 4, connecting blocks 7 are respectively arranged on the inner side wall of the folded edge 6 and the inner side wall of the protection board 4, and the connecting blocks 7 are in one-to-one correspondence with the connecting grooves 5. And a limiting block 17 is arranged on the end face of the other end of the protective plate 4, a limiting groove 16 is arranged on the end face of the other end of the folded edge 6, and the limiting block 17 is matched with the limiting groove 16. Be equipped with inoxidizing coating 1 and basic unit 3 on the heated board 2, on the top surface of heated board 2 was arranged in to inoxidizing coating 1, on the bottom surface of heated board 2 was arranged in to basic unit 3, inoxidizing coating 1 and basic unit 3 all were connected with heated board 2. On the inoxidizing coating 1 was arranged in at the top of spread groove 5, on base layer 3 was arranged in to the bottom of spread groove 5, inoxidizing coating 1, heated board 2 and base layer 3 all were connected with protection shield 4 through the cooperation of spread groove 5 and connecting block 7.

As shown in fig. 4, 5, 6 and 7, the protective layer 1 includes a top plate 8 and a bottom plate 9, the top plate 8 is disposed above the bottom plate 9 and connected to the bottom plate 9, the top surface of the insulation board 2 is connected to the bottom surface of the bottom plate 9, and a ground heating pipe 14 is installed between the top plate 8 and the bottom plate 9. Be equipped with pipeline two 13 on bottom plate 9 ' S the top surface, the distribution shape of pipeline two 13 is the S-shaped, the one end of pipeline two 13 is close to in the left surface of bottom plate 9, the other end of pipeline two 13 passes the right flank of bottom plate 9, be equipped with pipeline one 12 on the bottom surface of roof 8, pipeline one 12 and two 13 phase-matchs of pipeline, ground heating coil 14 arranges in between pipeline one 12 and pipeline two 13, the inside of pipeline two 13 and the outside of pipeline two 13 are arranged respectively in at ground heating coil 14 ' S both ends, be equipped with the roof hole 11 that runs through on 8 leading flank of roof and the 8 trailing flank of roof on the roof 8, be equipped with the bottom plate hole 10 that runs through 9 leading flank of bottom plate and 9 trailing flank on the bottom plate 9, install wire net 15 in the inoxidizing coating 1, wire net 15 ' S shape is the annular, wire net 15 passes roof hole 11 and is connected with roof 8, wire net 15 passes bottom plate hole 10 and is connected with bottom plate 9.

As shown in fig. 1, 2, 4 and 5, one of the protection plates 4 is provided with a through hole 18, a sealing block 19 is sleeved on the through hole 18, and the ground heating pipe 14 passes through the through hole 18 and is disposed outside the protection plate 4. The top surface of the protective layer 1 is provided with a pattern block 20, the bottom surface of the protective layer 1 is connected with the insulation board 2, the pattern block 20 is provided with a heat conduction groove 22, the ground heating pipe 14 is provided with a plurality of heat conduction wires 21, the plurality of heat conduction wires 21 are uniformly distributed, one end of each heat conduction wire 21 is sleeved on the ground heating pipe 14, and the other end of each heat conduction wire 21 penetrates through the steel wire mesh 15 and is arranged in the heat conduction groove 22. The pattern block 20 is provided with a protective layer 23, the protective layer 23 covers the heat conduction groove 22, and the protective layer 23 is connected with the pattern block 20.

the method comprises the following steps: placing the floor heating pipes 14 on the second pipelines 13 of the bottom plate 9, and placing one ends of the floor heating pipes 14 outside the bottom plate 9;

the method specifically comprises the following steps: and placing a ground heating pipe 14 with the same shape as the second pipeline 13 on the top of the bottom plate 9 on the second pipeline 13, so that the ground heating pipe 14 is limited by the second pipeline 13.

Step two: connecting a steel wire mesh 15 with a protective layer 1, so that the steel wire mesh 15 penetrates through a top plate hole 11 and a bottom plate hole 10 to be sleeved on a ground heating pipe 14, connecting a top plate 8 with a bottom plate 9, distributing a plurality of heat-conducting wires 21 sleeved on the ground heating pipe 14 into heat-conducting grooves 22 of pattern blocks 20 after penetrating through the steel wire mesh 15 in the connecting process, and connecting the steel wire mesh 15 with the pattern blocks 20;

the method specifically comprises the following steps: it will connect steel wire net 15 in inoxidizing coating 1, when connecting, steel wire net 15 passes roof hole 11 and bottom plate hole 10, then all make roof 8 and bottom plate 9 be connected with steel wire net 15, so just let steel wire net 15's shape be the annular, and ground heating coil 14 is suit in steel wire net 15, under steel wire net 15's effect, not only ground heating coil 14's spacing effect is better, and roof 8 and bottom plate 9 are also inseparabler of connecting, still play simultaneously and reduce roof 8 and the kibbling probability of bottom plate 9, steel wire net 15 has still played the radiating effect that reduces ground heating coil 14 production heat. In the arrangement process of the steel wire mesh 15, a plurality of heat conducting wires 21 are required to be sleeved on the ground heating pipe 14, one ends of the heat conducting wires 21 penetrate through the steel wire mesh 15 to be distributed into the heat conducting grooves 22 of the pattern blocks 20, the heat conducting wires 21 are connected with the pattern blocks 20, and the heat conducting grooves 22 are covered with the protective layer 23, so that the heat conducting wires 21 in the heat conducting grooves 22 are prevented from generating too much heat to scald external objects.

Step three: on the premise that the first pipeline 12 is aligned with the second pipeline 13, the top plate 8 is connected to the bottom plate 9, and the floor heating pipe 14 is arranged between the first pipeline 12 and the second pipeline 13;

the method comprises the following specific steps: under the prerequisite of 8 with roof 8 with the pipeline 12 of roof 8 bottom to the pipeline two 13 at bottom plate 9 top, be connected roof 8 with bottom plate 9, warm braw 14 just like this has received better spacing effect under the cooperation of pipeline 12 and pipeline two 13, the change position that can not be random. The distribution shape of the first pipeline 12 is S-shaped, one end of the second pipeline 13 is close to the left side face of the bottom plate 9, the other end of the second pipeline 13 penetrates through the right side face of the bottom plate 9, the second pipeline 13 is matched with the first pipeline 12, two ends of the ground heating pipe 14 are respectively arranged inside the second pipeline 13 and outside the second pipeline 13, the top plate 8 and the bottom plate 9 are connected to form the protective layer 1, so that two ends of the ground heating pipe 14 are respectively arranged inside the protective layer 1 and outside the protective layer 1, then the ground heating pipe 14 outside the protective layer 1 can be connected with an external power supply through an external switch, and the effect of improving the temperature of the protective layer 1 can be achieved by opening the switch when needed.

Step four: connecting a protective layer 1 to the top surface of a heat insulation board 2, connecting a base layer 3 to the bottom surface of the heat insulation board 2, so that the protective layer 1 and the base layer 3 protect the heat insulation board 2, then arranging a plurality of connecting grooves 5 on the left and right surfaces of a structure formed by connecting the protective layer 1, the heat insulation board 2 and the base layer 3, wherein the tops of the connecting grooves 5 are arranged on the protective layer 1, and the bottoms of the connecting grooves 5 are arranged on the base layer 3;

the method specifically comprises the following steps: be connected to bottom plate 9 on the top lateral wall of heated board 2, the top lateral wall of heated board 2 has just been arranged in to inoxidizing coating 1 like this, connect a basic unit 3 on the end lateral wall of heated board 2 after that, so the top lateral wall and the end lateral wall of heated board 2 have all received the guard action, the top lateral wall and the end lateral wall of having avoided heated board 2 receive external influence, after that at inoxidizing coating 1, set up a plurality of spread groove 5 on the lateral wall about the structure that heated board 2 and basic unit 3 are connected, the top of spread groove 5 is arranged in on inoxidizing coating 1, the bottom of spread groove 5 is then arranged in on basic unit 3.

Step five: the connecting blocks 7 on the protection plates 4 are well arranged by aligning with the connecting grooves 5, when the connecting blocks are arranged, the limiting block 17 on the end face of one protection plate 4 is inserted into the limiting groove 16 on the end face of the upper folded edge 6 of the other protection plate 4, the ground heating pipe 14 needs to penetrate through the through hole 18 on one protection plate 4 and is arranged outside the protection plate 4, and then the protection layer 1, the insulation plate 2 and the base layer 3 are well connected with the protection plate 4.

The method specifically comprises the following steps: the connecting blocks 7 on the two protection plates 4 are aligned to the connecting grooves 5 and are placed on the left side wall and the right side wall of the structure with the connected insulation plates 2 and base layers 3, so that the connection positions of the protection plates 1, the insulation plates 2 and the base layers 3 can be limited by the connecting blocks 7 and can not be moved randomly, when the protection plates are arranged, the limiting block 17 on one protection plate 4 is inserted into the limiting groove 16 on the other protection plate 4, the limiting block 17 is installed at one end of the protection plate 4, the limiting groove 16 is arranged on the folded edge 6, the folded edge 6 is installed at the other end of the protection plate 4, the connection between the folded edge 6 and the protection plate 4 is vertical, when the two protection plates 4 are connected, the mutual limiting effect is achieved, meanwhile, one protection plate 4 is provided with the through hole 18, and the ground heating pipes 14 in the protection plate 1 need to penetrate through the through hole 18 and are arranged outside the protection plate 4.

Firstly, a floor heating pipe 14 with the same shape as the second pipeline 13 on the top of the bottom plate 9 is placed on the second pipeline 13, and thus the floor heating pipe 14 is limited by the second pipeline 13. It will connect and go up wire net 15 in inoxidizing coating 1, during the connection, wire net 15 passes top plate hole 11 and bottom plate hole 10, then all make roof 8 and bottom plate 9 be connected with wire net 15, so just let wire net 15's shape be the annular, and ground heating coil 14 is suit in wire net 15, under wire net 15's effect, not only ground heating coil 14's spacing effect is better, and roof 8 and bottom plate 9 are also connected inseparabler, still play simultaneously and reduce roof 8 and the kibbling probability of bottom plate 9, wire net 15 has still played the radiating effect that reduces ground heating coil 14 and produce the heat. In the arrangement process of the steel wire mesh 15, the ground heating pipe 14 is required to be sleeved with the plurality of heat conducting wires 21, one ends of the heat conducting wires 21 penetrate through the steel wire mesh 15 and are distributed into the heat conducting grooves 22 of the pattern blocks 20, the connection between the heat conducting wires 21 and the pattern blocks 20 is made, the heat conducting grooves 22 are covered with the protective layers 23, the situation that the heat conducting wires 21 in the heat conducting grooves 22 generate too much heat to scald external objects is avoided, the protective layers 23 can be made of toughened glass, heat can be conducted, and the heat conducting wires 21 in the heat conducting grooves 22 are firm and practical and can be immediately observed.

Then, the top plate 8 is well connected with the bottom plate 9 on the premise that the first pipeline 12 at the bottom of the top plate 8 is aligned to the second pipeline 13 at the top of the bottom plate 9, so that the heating pipe 14 is better in limiting effect under the matching of the first pipeline 12 and the second pipeline 13, and the position of the heating pipe cannot be changed at will. The distribution shape of the first pipeline 12 is S-shaped, one end of the second pipeline 13 is close to the left side face of the bottom plate 9, the other end of the second pipeline 13 penetrates through the right side face of the bottom plate 9, the second pipeline 13 is matched with the first pipeline 12, two ends of the ground heating pipe 14 are respectively arranged inside the second pipeline 13 and outside the second pipeline 13, the protective layer 1 is formed by connecting the top plate 8 and the bottom plate 9, so that two ends of the ground heating pipe 14 are respectively arranged inside the protective layer 1 and outside the protective layer 1, then the ground heating pipe 14 outside the protective layer 1 can be connected with an external power supply through an external switch, and the effect of improving the temperature of the protective layer 1 can be achieved by turning on the switch when needed.

Then the connecting blocks 7 on the two protection plates 4 are aligned with the connecting grooves 5 and placed on the left side wall and the right side wall of the structure with the connected protection layer 1, the insulation plate 2 and the base layer 3, so that the protection layer 1, the insulation plate 2 and the base layer 3 can be limited by the connecting blocks 7 and can not move randomly, when the protection plate is arranged, the limiting block 17 on one protection plate 4 is inserted into the limiting groove 16 on the other protection plate 4, the limiting block 17 is installed on one end of the protection plate 4, the limiting groove 16 is arranged on the folded edge 6, the folded edge 6 is installed at the other end of the protection plate 4, the connection between the folded edge 6 and the protection plate 4 is vertical, when the two protection plates 4 are connected, the mutual limiting effect is achieved, meanwhile, one protection plate 4 is provided with a through hole 18, and the ground heating pipe 14 in the protection layer 1 needs to penetrate through the through hole 18 and be arranged outside the protection plate 4.

The 2 selection of heated board here are the FC board, use the fibre, cement is main raw and other materials, be equipped with other auxiliary materials, through the slurrying, copy, pressurization, the FC board that processes production such as maintenance formed not only possesses good waterproof and fireproof effect, and have good sound insulation heat preservation effect, and 4 optional rock wools of protection shield, the heat conduction effect is poor to have the better heat preservation effect of beating, the heat that has reduced the FC floor gives off, and 21 optional copper wires of conducting wire, not only toughness is good to be difficult for being damaged, and the heat conduction effect is splendid, even can produce the heat with ground heating coil 14 and transmit to decorative block 20 on.

Claims

1. The utility model provides a FC floor sound insulation heat preservation system, characterized by includes heated board (2) and protection shield (4), be equipped with inoxidizing coating (1), basic unit (3) and a plurality of spread groove (5) on heated board (2), inoxidizing coating (1) includes roof (8) and bottom plate (9), roof (8) are arranged in the top of bottom plate (9) and are connected with bottom plate (9), the top surface of heated board (2) and the bottom surface of bottom plate (9) are connected, install ground heating coil (14) between roof (8) and bottom plate (9), basic unit (3) are arranged in on the bottom surface of heated board (2), basic unit (3) are connected with heated board (2), protection shield (4) contain two, install hem (6) on protection shield (4), the one end of hem (6) is connected with the one end of protection shield (4), hem (6) and protection shield (4) mutually perpendicular, all be equipped with connecting block (7) on the inside wall of hem (6) and on the inside wall of protection shield (4), connecting block (7) and spread groove (5) one-to-one, spread groove (5) are arranged in on the top of spread groove (1), spread groove (3), the protection layer (1), the insulation board (2) and the base layer (3) are connected with the protection board (4) through the matching of the connecting grooves (5) and the connecting blocks (7), two pipelines (13) are arranged on the top surface of the bottom board (9), the distribution shape of the two pipelines (13) is S-shaped, one end of the two pipelines (13) is close to the left side surface of the bottom board (9), the other end of the two pipelines (13) passes through the right side surface of the bottom board (9), one pipeline (12) is arranged on the bottom surface of the top board (8), one pipeline (12) is matched with the two pipelines (13), the ground heating pipe (14) is arranged between the pipeline (12) and the two pipelines (13), the two ends of the ground heating pipe (14) are respectively arranged inside the two pipelines (13) and outside the two pipelines (13), a top board hole (11) which runs through the front side surface of the top board (8) and the back side surface of the top board (8) is arranged on the bottom board (8), a steel wire mesh (15) is arranged on the bottom board (9), and the steel wire mesh (15) is connected with the steel wire mesh (15), the steel wire mesh (15) penetrates through the bottom plate hole (10) to be connected with the bottom plate (9).

2. An FC floor sound insulation and heat preservation system as claimed in claim 1, wherein the other end face of the protection plate (4) is provided with a limiting block (17), the other end face of the flange (6) is provided with a limiting groove (16), and the limiting block (17) is matched with the limiting groove (16).

3. The FC floor sound insulation and heat preservation system as claimed in claim 1, wherein one of the protection plates (4) is provided with a through hole (18), the through hole (18) is sleeved with a sealing block (19), and the floor heating pipe (14) is arranged outside the protection plate (4) through the through hole (18).

4. The FC floor sound insulation and heat preservation system is characterized in that pattern blocks (20) are arranged on the top surface of the protective layer (1), the bottom surface of the protective layer (1) is connected with the heat preservation plate (2), heat conduction grooves (22) are formed in the pattern blocks (20), a plurality of heat conduction wires (21) are arranged on the floor heating pipe (14), the plurality of heat conduction wires (21) are uniformly distributed, one ends of the heat conduction wires (21) are sleeved on the floor heating pipe (14), and the other ends of the heat conduction wires (21) penetrate through the steel wire meshes (15) and are placed in the heat conduction grooves (22).

5. An FC floor sound insulation and heat preservation system according to claim 4, characterized in that the blocks (20) are provided with protective layers (23), the protective layers (23) cover the heat conduction grooves (22), and the protective layers (23) are connected with the blocks (20).

6. The preparation process of the FC floor sound insulation and heat preservation system according to claim 5 is characterized by comprising the following steps of:

the method comprises the following steps: placing the floor heating pipe (14) on the second pipeline (13) of the bottom plate (9), and placing one end of the floor heating pipe (14) outside the bottom plate (9);

step two: connecting a steel wire mesh (15) with a protective layer (1) well, so that the steel wire mesh (15) penetrates through a top plate hole (11) and a bottom plate hole (10) to be sleeved on a ground heating pipe (14), connecting a top plate (8) and a bottom plate (9) well, in the connecting process, penetrating a plurality of heat conduction wires (21) sleeved on the ground heating pipe (14) through the steel wire mesh (15) to be distributed into heat conduction grooves (22) of pattern blocks (20), and connecting the steel wire mesh (15) with the pattern blocks (20);

step three: on the premise that the first pipeline (12) is aligned with the second pipeline (13), the top plate (8) is connected to the bottom plate (9), and the floor heating pipe (14) is arranged between the first pipeline (12) and the second pipeline (13);

step four: connecting a protective layer (1) to the top surface of an insulation board (2), connecting a base layer (3) to the bottom surface of the insulation board (2), and protecting the insulation board (2) by the protective layer (1) and the base layer (3), then arranging a plurality of connecting grooves (5) on the left and right surfaces of a structure formed by connecting the protective layer (1), the insulation board (2) and the base layer (3), wherein the tops of the connecting grooves (5) are arranged on the protective layer (1), and the bottoms of the connecting grooves (5) are arranged on the base layer (3);

step five: the connecting blocks (7) on the protection plates (4) are aligned to the connecting grooves (5) and arranged well, when the connecting blocks are arranged, the limiting block (17) on the end face of one protection plate (4) is inserted into the limiting groove (16) on the end face of the upper folded edge (6) of the other protection plate (4), the ground heating pipe (14) needs to penetrate through the through hole (18) on one protection plate (4) and is arranged outside the protection plate (4), and then the protection layer (1), the insulation plate (2) and the base layer (3) are well connected with the protection plate (4).