CN103225384A - High thermal conductivity glass reinforced plastic ground heating floor - Google Patents

Abstract

The invention discloses a high thermal conductivity glass reinforced plastic ground heating floor which comprises a floor basal body, wherein concave patterns are formed on one side of the floor basal body, the floor basal body is made of high thermal conductivity glass reinforced plastic, the high thermal conductivity glass reinforced plastic is prepared through the following raw materials according to weight ratio: 25 to 30 parts of resin, 30 to 40 parts of heat conducting carbon fiber, and 20 to 40 parts of heat conducting metal powder. The floor has an excellent mechanical property and a heat-conducting property, is convenient to mount and construct, and is beautiful and elegant.

Description

A kind of high heat conduction glass fiber reinforced plastic ground heating floor

Technical field

The present invention relates to building material field, in particular to a kind of high heat conduction glass fiber reinforced plastic ground heating floor.

Background technology

In recent years, floor heating is as a kind of novel heating system, and, energy-saving advantages comfortable with it are in China's many areas extensive use.Ground heating system should be made of exothermic material and heat sink material theoretically, and the floor heating heat-generating system is made of water, electricity two big systems basically in the market, and is functional, various in style.But it is more rarely seen to be used for the floor with good heat radiating function of using in conjunction with floor heating, is also continuing to use ceramic floor, stone floor, wooden floor, compoiste wood floor etc. mostly, and these floors are made of low-density, non-crystal material, all belong to non-conductor.The former also need cover the cement mortar of thicker low heat conduction when mounted on exothermic material, use these materials can cause that thermal energy conduction speed is slow, heating efficiency is low, easily make exothermic material accelerated ageing and labor intensive material resources, improve construction cost.Utility model patent 201120037527.3 discloses a kind of new glass fibre reinforced plastic ground heating floor, utility model 201120573427.2 patent disclosures a kind of pressure-cliping glass fiber reinforced plastic ground heating floor, make by glass-reinforced plastic material on these two kinds of floors, by being set, dop firmly is connected with draw-in groove, do not need to cover on the ground thicker cement layer during use, reduce the heat transmission resistance of medium, radiating effect is better, energy conservation, can save great amount of manpower when installing simultaneously, reduce installation cost, when the floor heating exothermic material damages, because this floor convenient disassembly is very easy to change and keep in repair.But these glass fiber reinforced plastic ground heating floors all adopt common glass fiber reinforced plastic material, and it is on the low side to be limited to the coefficient of thermal conductivity of glass fiber reinforced plastic own, make the glass fiber reinforced plastic radiating effect also rest on reduced levels.

Summary of the invention

The purpose of this invention is to provide a kind of high heat conduction glass fiber reinforced plastic ground heating floor, material thermal conductivity in floor own is good, has the favorable mechanical performance simultaneously, and installation is convenient, and is elegant in appearance.

For achieving the above object, the present invention takes following technical scheme:

A kind of high heat conduction glass fiber reinforced plastic ground heating floor, comprise the ground board substrate, it is characterized in that being provided with spill figure line in ground board substrate one side, described ground board substrate is made by high heat conduction glass fiber reinforced plastic, this high heat conduction glass fiber reinforced plastic is prepared from by weight by following raw material: 25～30 parts of resins, 30～40 parts on heat conduction carbon fiber, 20～40 parts in heat-conducting metal powder.

Above-mentioned prescription can also add glass fiber and filler: 25～30 parts of resins, 30～40 parts on heat conduction carbon fiber, 20～40 parts in heat-conducting metal powder, 20～40 parts of glass fiber, 10～30 parts of fillers, described filler are selected from one or several of clay, calcium carbonate, dolomite, quartz sand, graphite, polyvinyl chloride powder.

Board substrate one side in described ground is provided with dop, and opposite side is provided with and the corresponding draw-in groove of dop.

In the such scheme, resin is selected from unsaturated polyester resin, vinylite, epoxy resin or phenolic resins, described heat-conducting metal powder is selected from one or more of copper powder, aluminium powder, iron powder, concrete, can be selected from the resin of the following trade mark: the adjacent benzene ordinary resin of 191#, 192# low shrink resin, 196-P# low shrink resin, 3200# vinyl ester resin.

The heat conduction carbon fiber is a kind of highly-conductive hot carbon fibrous material of developing for thermal performance design, the coefficient of thermal conductivity of this carbon fiber on machine direction can surpass copper, the highlyest can reach 700W/mk, have favorable mechanical performance, electric conductivity and excellent heat conduction and heat loss through radiation ability simultaneously, the fibrous highly-conductive hot carbon powder of being made by this carbon fiber itself is fibrous, can design the heat conduction orientation.

By technique scheme as can be seen, this floor is made by the modified glass steel, promptly heat conduction carbon fiber and heat-conducting metal powder have been added at traditional glass-reinforced plastic material, and be cured with resin, this makes this floor not only possess the common mechanical performance that glass fiber reinforced plastic possessed, and has a good coefficient of thermal conductivity, leave the figure line of spill simultaneously on the floor, can hold and directly contact floor heating heat-generating pipe spare, reduce the heat transfer medium resistance, strengthen thermal conductivity, avoid using constructional materialss such as cement in the construction, lower construction cost, the glass fiber reinforced plastic appearance is bright and clean, elegant in appearance can also compound other architectural surfaces.

Description of drawings

The high heat conduction glass fiber reinforced plastic of Fig. 1 ground heating floor structural representation.

The specific embodiment

Below in conjunction with accompanying drawing, the present invention will be further described:

As shown in Figure 1, floor 1 comprises ground board substrate 2, ground board substrate 2 is made by high heat conduction glass fiber reinforced plastic, on ground board substrate 2, leave spill figure line, spill figure line can be shapes such as circular groove 6,7 or rectangular recess 3, circular groove 6,7 is used for pipeline installation, and rectangular recess 3 can hold the floor heating heating pipe fitting of mutual UNICOM.Board substrate 2 inside in ground are heat conduction carbon fiber 4 and heat-conducting metal powder 5, and connect with resin solidification, also can add glass fiber to increase mechanical strength, but increase glass fiber and can lower heat conductivility, can also add filler and reduce the cost as the application of filling to reduce resin, in the actual fabrication according to the proportioning that degree is adjusted each constituent flexibly of beautifying of the mechanical performance on required floor and heat conductivility and outward appearance.Heat conduction carbon fiber 4 in the ground board substrate 2 and heat-conducting metal powder be interlaced to contact and extends to rectangular recess 3, and the heating pipe fitting is laid in the rectangular recess 3, and its heat can distribute for people by heat conducting fiber 4 and heat-conducting metal powder 5 and warm oneself.For the ease of the polylith floor is firmly spliced, leave dop 8 in ground board substrate 2 one sides, opposite side leaves and dop 8 corresponding draw-in grooves 9, and the dop 8 of floorboard can insert in the draw-in groove 9 of another floor and firmly connect according to this, is that the polylith floor snugly fits into together.

Carbon fiber 4 of heat conduction described in of the present invention and metal powder 5 are tiny because of diameter, generally invisible in actual product, for convenience of explanation, in Fig. 1, represent respectively with lines and stain, heat conduction carbon fiber 4 can be scattered in different shape, and the present invention is not had materially affect.

This floor stirs heat-conducting metal powder or filler and resin, and is applied on heat conduction carbon fiber and the glass fiber in manufacturing process, is cured then, and this preparation method is identical with the preparation method of glass fiber reinforced plastic, is well known to those skilled in the art.

Provide the composition of raw materials of some high heat conduction glass fiber reinforced plastic below:

25 parts of the adjacent benzene ordinary resins of prescription 1:191#, 30 parts on heat conduction carbon fiber, 40 parts of heat conduction copper powders.

30 parts of prescription 2:192# low shrink resins, 40 parts on heat conduction carbon fiber, 20 parts of heat conduction aluminium powders.

28 parts of prescription 3:196-P# low shrink resins, 35 parts on heat conduction carbon fiber, 30 parts of heat conduction iron powders.

Prescription 4:3200# vinyl ester resin, 30 parts on heat conduction carbon fiber, 40 parts of heat conduction aluminium powders, 20 parts of glass fiber, 10 parts of clays.

30 parts of prescription 5:3200# vinyl ester resins, 32 parts on heat conduction carbon fiber, 25 parts of heat conduction aluminium powders, 40 parts of glass fiber, 30 parts in calcium carbonate.

The adjacent benzene ordinary resin 26 of prescription 6:191#, 34 parts on heat conduction carbon fiber, 28 parts of heat conduction aluminium powders, 30 parts of glass fiber, 20 parts of dolomites (or selecting quartz sand, graphite, polyvinyl chloride powder).

Claims (5)

1. one kind high heat conduction glass fiber reinforced plastic ground heating floor comprises the ground board substrate, it is characterized in that being provided with spill figure line in ground board substrate one side, and described ground board substrate is made by high heat conduction glass fiber reinforced plastic, and this high heat conduction glass fiber reinforced plastic is prepared from by weight by following raw material:

25～30 parts of resins, 30～40 parts on heat conduction carbon fiber, 20～40 parts in heat-conducting metal powder.

2. high heat conduction glass fiber reinforced plastic ground heating floor as claimed in claim 1 is characterized in that described high heat conduction glass fiber reinforced plastic also comprises following materials of weight proportions:

20～40 parts of glass fiber, 10～30 parts of fillers, described filler are selected from one or several of clay, calcium carbonate, dolomite, quartz sand, graphite, polyvinyl chloride powder.

3. as claim 1 or 2 described high heat conduction glass fiber reinforced plastic ground heating floors, it is characterized in that described resin is selected from unsaturated polyester resin, vinylite, epoxy resin or phenolic resins, described heat-conducting metal powder is selected from one or more of copper powder, aluminium powder, iron powder.

4. high heat conduction glass fiber reinforced plastic ground heating floor as claimed in claim 3 is characterized in that described resin is selected from the adjacent benzene ordinary resin of 191#, 192# low shrink resin, 196-P# low shrink resin, 3200# vinyl ester resin.

5. as each described high heat conduction glass fiber reinforced plastic ground heating floor in the claim 1,2,4, it is characterized in that board substrate one side in described ground is provided with dop, opposite side is provided with and the corresponding draw-in groove of dop.