The carbon crystal silicon super-thermal conductivity film has excellent lateral thermal conductivity, and the thermal conductivity is 6 times higher than that of aluminum, which can make the heat in the floor heating pipe evenly and quickly conduct to the whole module surface, forming a surface heat dissipation effect, and greatly improving the heat dissipation rate to the room. It is the product form with the best heat preservation and heat transfer effect in the floor radiant heating system at present.
Carbon crystal silicon super-thermal conductive film is a nonmetallic polymer material (commonly known as carbon crystal silicon), with soft texture, gray-black color, metallic luster, Mohs hardness 1-2, specific gravity of 2.2-2.5, capacity 1.5- 1.8, strong chemical stability and high temperature resistance of 470.
At the same time, it is acid-resistant, alkali-resistant and organic solvent-resistant, with excellent thermal conductivity, and its thermal conductivity is 6 times faster than that of aluminum plate.
The comparison of thermal conductivity is as follows: model with thermal conductivity: aluminum 200W/mk copper 380W/mk carbon crystal silicon superconducting film 1500W/mk solidification force, rapid heating floor heating, 8 advantages: 1. Unique patent design, ISO900 1 certification, more professional 2. "Pure material" covered with "carbon crystal silicon superconducting film" is more professional. More comfortable and warm. 4. Backfilling-free technology increases the net height of the room by 4~5cm, making it brighter. 5. Backfilling-free technology greatly reduces the ground load and makes it safer. 6. Block the external damage, ensure the quality of the floor heating pipe, and feel more at ease. 7. Modular construction ensures the quality of floor heating and is more reliable. 8. Professional technical team, super convenient and fast construction, faster curing force. 1. Floor flatness requirements and construction technical scheme of simple treatment.
2. Simple treatment of uneven ground in a small area: cement and sand can be mixed according to the ratio of 1:4, and a small amount of water can be added to keep the sand ash wet and spread to the uneven place, and the thickness is appropriate to fill the low-lying place, but not too thick.
Then, directly lay the floor heating module.
Second, the floor heating module installation location planning room can be divided into filling area and module layout area.
According to the installation specification of floor heating module, the distance between the floor heating pipe and the wall should be 200~300mm to avoid heat loss to the wall.
The area from the wall to the nearest floor heating pipe is the filling area.
At the same time, according to the furniture layout in the room, try to arrange the module layout area in the middle of the room, where it is not occupied by furniture.
Under the condition of ensuring the number of pipes per square meter, the distance between the module layout area and the wall is 300mm~500mm, and the floor heating pipe is laid in the middle area of the room, which is more conducive to reducing heat loss and maintaining the comfort of heating.
Integral connection installation scheme 1. The installation of floor heating module must first determine the location of distribution manifold.
Determine the location of the distribution main, and then determine the layout of the pipes leading to each room.
2. Close to the distribution main, in an area of about 2m2, the floor heating pipes need to be densely arranged, so it is not suitable to use the floor heating module.
The following three methods can be adopted: a, laying a reflective film or a thin insulation board under it in a conventional way, and backfilling after laying a floor heating pipe above it.
B, adopting a plastic floor heating module with dense pipe distribution as a transition, and respectively connecting the plastic floor heating module with the distribution manifold and the superconducting floor heating module.
C, using 30mm extruded board as insulation layer, slotting with special electric cutting machine according to the direction of the pipeline, and embedding the pipeline into the groove.
3. In general, the floor heating pipes in each room are directly connected with the distribution main pipe in a single way.
According to the number of rooms, determine the direction of the pipeline leading to each room, start laying the floor heating module at a position slightly away from the water separator, and pay attention to ensure that the floor heating pipeline near the distribution manifold can be easily connected to the module.
4. The location of the filling area should be reserved against the wall. If there is extra space in the corridor, you can arrange the modules by increasing the number of in-line pipes.
5. The specific pipeline layout scheme can be adjusted according to the reference diagram of the floor heating module layout scheme.
Can also be commissioned to design the pipeline layout.
The corridor and living room should be filled with walls.
Three. Installation steps and precautions 1. In a single room, it can be laid from the corner farthest from the door.
According to the calculated size, starting from the far corner, first lay insulation boards for filling along the two side walls.
Then the heat conduction modules are arranged in turn.
See the layout plan of each room module for the specific layout plan.
(For example, if the filling area is filled with other schemes, the heat conduction module can be laid directly after the space is reserved, and the module at the top corner can be fixed with insulating nails first.
2. For the installation near the corridor and distribution main, according to the drawings or pre-planning, the corresponding modules of water supply and return pipes in rooms far away from the water separator should be arranged from far to near first, and then the modules near the water separator should be arranged.
For pipes near the distribution manifold, select a rectangular area without modules.
Install the floor heating pipeline according to the pipeline construction practice near the distribution manifold.
3. In the process of module laying, construction workers wear soft-soled shoes, and the soles have no sharp or lumpy protrusions to avoid module damage.
The local blank position can cut the module into small pieces for filling.
At the joint of the module, paste it with aluminum foil tape.
4. Fixation of modules: After the modules are laid, firstly, select the modules near the four corners of the room and fix them with insulating nails, and then select the semicircular modules and diagonal connection modules to fix them properly.
5. Pipeline laying.
Arrange the floor heating pipes along the pipe grooves in the module, and slow down the moving speed at corners and arcs to avoid the pipes being folded or damaging the module.
If the pipeline inclines during laying, it can be partially fixed with pipe clamp or transparent tape.
6. Laying grid cloth. In order to protect the module and facilitate the subsequent construction, a layer of grid cloth is laid on the surface after the pipeline is laid and the water is tested.
At the same time, according to the field situation, the grid cloth and the module are fixed with insulating nails.
The position of heat preservation nails should be based on the principle of more peripheral corners and less middle, and the spacing should be 600 mm ~1000 mm.