Infrared electrothermal raised floor piece and floor comprising the same
Abstract
Provided is an infrared electrothermal raised floor piece, comprising a faceplate layer, a carbon fiber far-infrared heat layer, a force support structure layer, at least a pair of electrodes and a plurality of power line connection terminals; wherein the electrodes are connected to the carbon fiber far-infrared heat layer; and the power line connection terminals are connected to the electrode. Also provided is an infrared electrothermal raised floor, comprising a plurality of infrared electrothermal raised floor pieces each comprising a plurality of power line connection terminals, and a supporter; wherein the infrared electrothermal raised floor pieces are transversely or lengthwisely arranged and flexibly installed on the supporter.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. An infrared electrothermal raised floor piece ( 1 ) comprising:
a bottom protection layer ( 19 );
a plurality of power line connection terminals ( 7 );
a force support structure layer ( 18 );
a connection layer ( 17 );
an insulation support structure layer ( 16 );
a far-infrared reflection layer ( 15 );
at least a pair of electrodes ( 4 );
a carbon fiber far-infrared heat layer ( 13 );
an adhesive layer ( 12 ); and
a faceplate layer ( 11 );
wherein the force support structure layer ( 18 ) is sandwiched between the bottom protection layer ( 19 ) and the connection layer ( 17 ); the insulation support structure layer ( 16 ) is fixed on the force support structure layer ( 18 ) via the connection layer ( 17 ); the far-infrared reflection layer ( 15 ) is sandwiched between the electrodes ( 4 ) and the insulation support structure layer ( 16 ); the electrodes ( 4 ) are connected to the carbon fiber far-infrared heat layer ( 13 ) and sandwiched between carbon fiber far-infrared heat layer ( 13 ) and the far-infrared reflection layer ( 15 ); the faceplate layer ( 11 ) is adhered to the carbon fiber far-infrared heat layer ( 13 ) by the adhesive layer ( 12 ); and
wherein one end of the power line connection terminals ( 7 ) is connected to the electrodes ( 4 ) by penetrating through the protection layer ( 19 ), the force support structure layer ( 18 ), the connection layer ( 17 ), the insulation support structure layer ( 16 ) and the far-infrared reflection layer ( 15 ); and another end of the power line connection terminals ( 7 ) is connected to an external power supply via a temperature adjustment and control device ( 6 ).
2. The infrared electrothermal raised floor piece ( 1 ) of claim 1 , wherein the power line connection terminals ( 7 ) comprise a pair of power line inlet connection terminals ( 71 ) and a pair of power line outlet connection terminals ( 72 ).
3. The infrared electrothermal raised floor piece ( 1 ) of claim 1 , further comprising a seal ( 5 ) being disposed around a peripheral of the infrared electrothermal raised floor piece ( 1 ).
4. The infrared electrothermal raised floor piece ( 1 ) of claim 3 , wherein the faceplate layer ( 11 ), the seal ( 5 ) and the protection layer ( 19 ) are made of anti-electrostatic materials.
5. The infrared electrothermal raised floor piece ( 1 ) of claim 1 , wherein the force support structure layer ( 18 ) is a calcium sulfate plate, a wood fiber plate or a combination thereof.
6. The infrared electrothermal raised floor piece ( 1 ) of claim 1 , wherein the faceplate layer ( 11 ) is a fireproof decorative faceplate or a wood plate.
7. An infrared electrothermal raised floor comprising:
a plurality of infrared electrothermal raised floor pieces ( 1 );
a supporter ( 2 ) comprising:
a cross beam ( 8 );
a longitudinal beam ( 9 ); and
a supporting pedestal ( 10 );
wherein each of the infrared electrothermal raised floor pieces ( 1 ) comprises
a bottom protection layer ( 19 );
a plurality of power line connection terminals ( 7 ) comprising a pair of power line inlet connection terminals ( 71 ) and a pair of power line outlet connection terminals ( 72 );
a force support structure layer ( 18 );
a connection layer ( 17 );
an insulation support structure layer ( 16 );
a far-infrared reflection layer ( 15 );
at least a pair of electrodes ( 4 );
a carbon fiber far-infrared heat layer ( 13 );
an adhesive layer ( 12 ); and
a faceplate layer ( 11 );
wherein the force support structure layer ( 18 ) is sandwiched between the bottom protection layer ( 19 ) and the connection layer ( 17 ); the insulation support structure layer ( 16 ) is fixed on the force support structure layer ( 18 ) via the connection layer ( 17 ); the far-infrared reflection layer ( 15 ) is sandwiched between the electrodes ( 4 ) and the insulation support structure layer ( 16 ); the electrodes ( 4 ) are connected to the carbon fiber far-infrared heat layer ( 13 ) and sandwiched between carbon fiber far-infrared heat layer ( 13 ) and the far-infrared reflection layer ( 15 ); the faceplate layer ( 11 ) is adhered to the carbon fiber far-infrared heat layer ( 13 ) by the adhesive layer ( 12 );
wherein one end of the power line connection terminals ( 7 ) is connected to the electrodes ( 4 ) by penetrating through the protection layer ( 19 ), the force support structure layer ( 18 ), the connection layer ( 17 ), the insulation support structure layer ( 16 ) and the far-infrared reflection layer ( 15 ); another end of the power line connection terminals ( 7 ) is connected to an external power supply via a temperature adjustment and control device ( 6 );
wherein the infrared electrothermal raised floor pieces ( 1 ) are transversely or longitudinal arranged and flexibly installed on the supporter ( 2 ); and
wherein the infrared electrothermal raised floor pieces ( 1 ) are connected to each other via the power line inlet connection terminals ( 71 ) and the power line outlet connection terminals ( 72 ).Join the waitlist — get patent alerts
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