CN105275183B - A kind of micro-nano carbon far-infrared physiotherapy floor - Google Patents

Abstract

The present invention provides a kind of micro-nano carbon far-infrared physiotherapy floor and preparation method thereof, and concrete operation step is：(1) compliant conductive base fabric is formed as fabric structure, weaving using warp rib as weft using the carbon fiber of PAN bases as warp, metallic fiber；(2) by the metal oxide of micro/nano level, micro/nano level graphite powder in add auxiliary agent, mixed grinding, then adds resin material, far infrared coating is obtained after homogeneous stirring；(3) surface of compliant conductive base fabric is set into conducting wire and electrode, then first coats one layer of far infrared coating, baking and curing, is coated with a layer insulating, and far infrared heating layer is obtained after curing sealing；(4) according to order from top to bottom, water proof and wearable layer, solid wood top layer, temperature control layer, far infrared heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom are cut out into laying together, heated pressurization is compound and perforate arranges to form micro-nano carbon far-infrared physiotherapy floor.

Description

A kind of micro-nano carbon far-infrared physiotherapy floor

Technical field：

The invention belongs to electric heating floor technical field, and in particular to a kind of micro-nano carbon far-infrared physiotherapy floor and its system Preparation Method.

Background technology：

From before more than 200 years, the mankind have found that every temperature can all have the outside spoke of infrared ray higher than any object of Kelvin zero degree Penetrate, the wavelength of infrared ray is different and different with all many conditions such as radiator material molecules structure and temperature, can produce 2.5-25 μm, the far infrared radiation more than 25 μm.It is high energy ripple that experiment, which finds that the wavelength of far infrared is 2.5-25 μm, to human body Have biological medical effect, can promote microcirculation in human body, to nursing one's health after being ill, angiocardiopathy, waist-leg pain, arthritis, scapulohumeral periarthritis, neck The diseases such as vertebra disease, enterogastritis eliminate and alleviation has remarkable effect, therefore have preferable application value.

With the continuous development of scientific technology, far infrared health care instrument from one generation to the next continuously emerges, such as far infrared bath Case, far infrared irradiator, far-infrared health apparatus, frequency spectrograph, energy device for rehabilitation etc., and in recent years, as people live Horizontal continuous improvement, not only increasingly increases the quality requirements of home environment, living space, but also environmental health situation is got over More to there is the attention of height, the product containing far-infrared functional will be increasingly subject to the pro-gaze and great kindness of extensive consumer.

Far-infrared health reinforced wood floor and its system disclosed in Chinese patent CN100353017C (publication date 2006.7.12) Method is made, which is made of remote red wearing layer, far infrared decorative layer, substrate layer and balance layer, wherein remote red wear-resisting Layer and far infrared decorative layer are all impregnated through far infrared glue, and macromolecule resin, far infrared powder, wear-resisting is contained in far infrared glue Property filler and auxiliary agent, so as to obtain to radiate 4-14 μm of far infrared to foot, promote blood circulation, play a role in health care.

A kind of Far infrared heating plate and its manufacturer disclosed in Chinese patent CN102104999B (publication date 2011.6.22) Method, first encloses heat safe Kapton on aluminum substrate, republishes infrared slurry, and it is good then to enclose insulation performance again Kapton, product is made in last perforate.Disclosed in Chinese patent CN102954524B (publication date 2013.3.6) absolutely Edge type Far-infrared heat energy floor, including at least two substrates layer and the far-infrared radiation that is arranged between adjacent two Primary layer Hotting mask, the upper and lower ends of far-infrared radiation geothermal film are connected with adjacent substrate layer by layer of insulation board, obtained vibrated respectively The dynamic and small far infrared heating floor of environmental change.

From the above-mentioned prior art, Far-infrared Heating floor is to use to handle base material containing far infrared materials mostly, With the performance of far infrared, but the coated obtained far-infrared functional that arranges is smaller, utilization rate and limited functionality. In recent years, low temperature radiation of far infrared ray technology is combined the Far-infrared Heating floor of preparation with gradually by consumer with flooring material It is known.At present, Far-infrared Heating floor is mostly using carbon fiber as function raw material, through under electric field action, carbon molecules crystal is done Similar Brownian movement, mutual frictional impact produce far infrared, and the far infrared with heat is earthward transmitted in a manner of radiating Heat, is brought rapidly up ground, and is nearly free from thermal losses, energy-saving safe.

The content of the invention：

The technical problem to be solved in the present invention is to provide a kind of micro-nano carbon far-infrared physiotherapy floor and preparation method thereof, By carbon fiber with metallic fiber is blended prepares compliant conductive base fabric, on the surface of compliant conductive base fabric, coating contains micro/nano level gold Belong to the far infrared coating of oxide and graphite powder, re-coating insulating layer forms far infrared heating layer, finally with solid wood layer, insulation Layer, temperature control layer, reflecting layer etc. are mutually compounded to form micro-nano carbon far-infrared physiotherapy floor.Micro-nano carbon prepared by the present invention is remote Contain a variety of functional mass that can be emitting far-infrared in infrared treatment floor, multiwave far infrared, physical therapy can be produced Effect is obvious, and is also equipped with the multiple functions such as beautiful, heating, environmental protection, safety.

In order to solve the above technical problems, the technical scheme is that：

A kind of micro-nano carbon far-infrared physiotherapy floor, it is characterised in that the micro-nano carbon far-infrared physiotherapy floor Including water proof and wearable layer, solid wood top layer, temperature control layer, far infrared heating layer, temperature-resistant insulation layer, reflecting layer and solid wood bottom, institute Far infrared heating layer is stated as modified compliant conductive base fabric, the compliant conductive base fabric of the modification coats far infrared coating for surface Carbon fiber metal fiber blend cloth, insulation processing is also passed through on the surface of the compliant conductive base fabric of the modification.

Preferably, in the far infrared coating each component dosage, by weight, including：20-30 parts of micro/nano level Metal oxide, the graphite powder of 15-25 parts of micro/nano level, 10-20 parts of auxiliary agent, 30-40 parts of resin material.

The present invention also provides a kind of preparation method on micro-nano carbon far-infrared physiotherapy floor, it is characterised in that：Including with Lower step：

(1) using the carbon fiber of PAN bases as warp, metallic fiber is as weft, using warp rib as fabric group Structure is knitted, weaving forms compliant conductive base fabric；

(2) by the metal oxide of micro/nano level, micro/nano level graphite powder in add auxiliary agent, mixed grinding, Ran Houjia Enter resin material, far infrared coating is obtained after homogeneous stirring；

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a layer insulating, and far infrared heating layer is obtained after curing sealing；

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

As the preferred of above-mentioned technical proposal, in the step (1), metallic fiber for copper-based fiber, silver-based fiber or Stainless steel fibre.

As the preferred of above-mentioned technical proposal, in the step (1), the grammes per square metre of compliant conductive base fabric is 250-300g/ cm²。

As the preferred of above-mentioned technical proposal, in the step (2), metal oxide is zinc oxide, magnesia, titanium dioxide One or more in titanium and silica.

As the preferred of above-mentioned technical proposal, in the step (2), resin material is butyl ether Lauxite.

As the preferred of above-mentioned technical proposal, in the step (2), auxiliary agent is lived for titanate coupling agent and quaternary ammonium salt surface Property agent.

As the preferred of above-mentioned technical proposal, in the step (3), insulating layer is Kapton.

Compared with prior art, the invention has the advantages that：

(1) a variety of functions that can be emitting far-infrared are contained in micro-nano carbon far-infrared physiotherapy floor prepared by the present invention Material：Carbon fiber, micro/nano level graphite powder and metal oxide, carbon fiber is from large scale, micro/nano level graphite powder and metal oxygen Compound is emitting far-infrared from small size, the micro-nano carbon far-infrared physiotherapy floor is produced multiwave far infrared Line, physiotherapy function are notable.

(2) the far infrared heating layer in micro-nano carbon far-infrared physiotherapy floor prepared by the present invention is by carbon fiber and gold Belong to fiber blend and prepare compliant conductive base fabric, coating contains micro/nano level metal oxide and stone on the surface of compliant conductive base fabric The far infrared coating of ink powder, re-coating insulating layer form far infrared heating layer, the far infrared transmission layer flexible strong, good toughness, machine Tool intensity is big, good conductivity, can guarantee that the usability on micro-nano carbon far-infrared physiotherapy floor is strong, from the shadow of floor vibration Ring, and far infrared coating processing is carried out to surface and further improves the electric conductivity of far infrared heating layer and emitting far-infrared Intensity, feature greatly improve, and finally carry out insulating coating processing to far infrared heating layer, reduce micro-nano carbon far infrared reason Treat floor is influenced by external environment, therefore micro-nano carbon far-infrared physiotherapy floor has excellent conductive exothermal performance, strong Big far infrared health care performance, and performance is stablized, it is free from the influence of the external environment, it is easy to use durable.

(2) metal oxide that micro-nano carbon far-infrared physiotherapy floor prepared by the present invention is contained also has antibacterial sterilization concurrently The effect of, there is temperature control layer, prevent temperature excessive and human body is caused to perplex, ensure the uniformity of indoor temperature, therefore the present invention Possess the multiple function such as beautiful, practical, comfortable, health care, environmental protection, safety in the micro-nano carbon far-infrared physiotherapy floor prepared, With very big market value.

Embodiment：

Below in conjunction with specific embodiment, the present invention will be described in detail, herein illustrative examples and explanation of the invention For explaining the present invention, but it is not as a limitation of the invention.

Embodiment 1：

(1) using the carbon fiber of PAN bases as warp, copper-based fiber is as weft, using warp rib as fabric group Structure is knitted, weaving forms 250g/cm²Compliant conductive base fabric.

(2) by weight, by the zinc oxide of 20 parts of micro/nano level and magnesia, the graphite powder of 15 parts of micro/nano level The middle titanate coupling agent and quaternary surfactant for adding 10 parts, the butyl ether ureaformaldehyde of mixed grinding, then 30 parts of addition Resin material, far infrared coating is obtained after homogeneous stirring.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

Embodiment 2：

(1) using the carbon fiber of PAN bases as warp, silver-based fiber is as weft, using warp rib as fabric group Structure is knitted, weaving forms 300g/cm²Compliant conductive base fabric.

(2) by weight, by the zinc oxide of 30 parts of micro/nano level, magnesia, titanium dioxide and silica, 25 parts Micro/nano level graphite powder in add 20 parts of titanate coupling agent and quaternary surfactant, mixed grinding, Ran Houjia Enter 40 parts of butyl ether urea-formaldehyde materials, far infrared coating is obtained after homogeneous stirring.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

Embodiment 3：

(1) using the carbon fiber of PAN bases as warp, stainless steel fibre is as weft, using warp rib as fabric Institutional framework, weaving form 280g/cm²Compliant conductive base fabric.

(2) by weight, by the zinc oxide of 25 parts of micro/nano level, titanium dioxide and silica, 20 parts of micro-nano 15 parts of titanate coupling agent and quaternary surfactant is added in the graphite powder of meter level, mixed grinding, then adds 35 parts Butyl ether urea-formaldehyde materials, homogeneous stirring after obtain far infrared coating.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

Embodiment 4：

(1) using the carbon fiber of PAN bases as warp, silver-based fiber is as weft, using warp rib as fabric group Structure is knitted, weaving forms 268g/cm²Compliant conductive base fabric.

(2) by weight, by the titanium dioxide of 24 parts of micro/nano level and silica, the stone of 18 parts of micro/nano level 14 parts of titanate coupling agent and quaternary surfactant, the butyl ether of mixed grinding, then 36 parts of addition are added in ink powder Urea-formaldehyde materials, far infrared coating is obtained after homogeneous stirring.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

Embodiment 5：

(1) using the carbon fiber of PAN bases as warp, copper-based fiber is as weft, using warp rib as fabric group Structure is knitted, weaving forms 275g/cm²Compliant conductive base fabric.

(2) by weight, by the magnesia of 24 parts of micro/nano level, titanium dioxide and silica, 21 parts of micro-nano 17 parts of titanate coupling agent and quaternary surfactant is added in the graphite powder of meter level, mixed grinding, then adds 33 parts Butyl ether urea-formaldehyde materials, homogeneous stirring after obtain far infrared coating.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

Embodiment 6：

(1) using the carbon fiber of PAN bases as warp, stainless steel fibre is as weft, using warp rib as fabric Institutional framework, weaving form 290g/cm²Compliant conductive base fabric.

(2) by weight, by the zinc oxide of 27 parts of micro/nano level, magnesia and silica, 25 parts micro-nano 10 parts of titanate coupling agent and quaternary surfactant is added in the graphite powder of level, mixed grinding, then adds 40 parts Butyl ether urea-formaldehyde materials, far infrared coating is obtained after homogeneous stirring.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

Embodiment 7：

(1) using the carbon fiber of PAN bases as warp, stainless steel fibre is as weft, using warp rib as fabric Institutional framework, weaving form 273g/cm²Compliant conductive base fabric.

(2) by weight, by the zinc oxide of 25 parts of micro/nano level, magnesia and silica, 16 parts micro-nano 14 parts of titanate coupling agent and quaternary surfactant is added in the graphite powder of level, mixed grinding, then adds 36 parts Butyl ether urea-formaldehyde materials, far infrared coating is obtained after homogeneous stirring.

(3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) far infrared coating prepared, baking and curing, is coated with a strata imide membrane, and far infrared heating is obtained after curing sealing Layer.

(4) according to order from top to bottom, prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) remote red Outer heating layer, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, and heated pressurization is compound and perforate arranges shape Into micro-nano carbon far-infrared physiotherapy floor.

It it is 20 DEG C in temperature, humidity 50%, atmospheric pressure is the 30min that is powered in the environment of an atmospheric pressure, after testing, real Apply the far infrared wave-length coverage on the micro-nano carbon far-infrared physiotherapy floor of 1-7 preparations, emissivity, heating rate, an Indoor Temperature The result of difference is as follows：

	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5	Embodiment 6	Embodiment 7
								Far infrared wave-length coverage (μm)	3-24	2.5-23	5-25	4-25	3-22	4-25	3-24
The maximum radiant intensity (milliwatt/surface of sphere) of far infrared	6.5	8.7	6.6	7.2	6.9	7.8	8.7
								Heating rate (DEG C/min)	0.42	0.53	0.46	0.49	0.46	0.50	0.51
The indoor temperature difference (DEG C)	2.0	1.7	1.8	1.9	1.6	1.7	1.6

As seen from the above table, the far infrared transmission excellent performance on micro-nano carbon far-infrared physiotherapy floor prepared by the present invention, Health-care effect is obvious, and the heat distributed makes indoor heating rate fast, but will not produce the larger temperature difference, ensures human body Comfortably, health care, safety.

The above-described embodiments merely illustrate the principles and effects of the present invention, not for the limitation present invention.It is any ripe Know the personage of this technology all can carry out modifications and changes under the spirit and scope without prejudice to the present invention to above-described embodiment.Cause This, those of ordinary skill in the art is complete without departing from disclosed spirit and institute under technological thought such as Into all equivalent modifications or change, should by the present invention claim be covered.

Claims (1)

1. A kind of 1. micro-nano carbon far-infrared physiotherapy floor, it is characterised in that the micro-nano carbon far-infrared physiotherapy floor bag Water proof and wearable layer, solid wood top layer, temperature control layer, far infrared heating layer, temperature-resistant insulation layer, reflecting layer and solid wood bottom are included, it is described Far infrared heating layer is modified compliant conductive base fabric, and the compliant conductive base fabric of the modification coats far infrared coating for surface Insulation processing is also passed through on carbon fiber metal fiber blend cloth, the surface of the compliant conductive base fabric of the modification；

   The dosage of each component in the far infrared coating, by weight, including：The metal oxidation of 20-30 parts of micro/nano level Thing, 15-25 parts of the graphite powder of micro/nano level, 10-20 parts of auxiliary agent, 30-40 parts of resin material；

   A kind of micro-nano carbon far-infrared physiotherapy floor is prepared by following preparation methods：

   (1) using the carbon fiber of PAN bases as warp, metallic fiber is as weft, using warp rib as fabric tissue knot Structure, weaving form compliant conductive base fabric；

   (2) by the metal oxide of micro/nano level, micro/nano level graphite powder in add auxiliary agent, mixed grinding, then adds tree Fat material, far infrared coating is obtained after homogeneous stirring；

   (3) surface for the compliant conductive base fabric for preparing step (1) sets conducting wire and electrode, then first coats one layer of step (2) The far infrared coating of preparation, baking and curing, is coated with a layer insulating, and far infrared heating layer is obtained after curing sealing；

   (4) according to order from top to bottom, far infrared prepared by water proof and wearable layer, solid wood top layer, temperature control layer, step (3) is sent out Thermosphere, temperature-resistant insulation layer, reflecting layer, solid wood bottom cut out laying together, the compound and perforate of heated pressurization arrange to be formed it is micro- Nano carbon far-infrared physiotherapy floor；

   In the step (1), metallic fiber is copper-based fiber, silver-based fiber or stainless steel fibre；

   In the step (1), the grammes per square metre of compliant conductive base fabric is 250-300g/cm²；

   In the step (2), metal oxide is the one or more in zinc oxide, magnesia, titanium dioxide and silica；

   In the step (2), resin material is butyl ether Lauxite；

   In the step (2), auxiliary agent is titanate coupling agent and quaternary surfactant；

   In the step (3), insulating layer is Kapton.