CN107019847A - Far infrared membrane structure and its manufacture method - Google Patents

Abstract

The present invention is that, on a kind of far infrared membrane structure and its manufacture method, the far infrared membrane structure includes monoxide film, and the monoxide gel that sull is mixed into by monoxide powder and a colloidal sol is constituted.One Electric radiant Heating Film, with reference on the sull, the Electric radiant Heating Film and the sull collectively constitute a flexible thin plate, the Electric radiant Heating Film includes a flexible electrothermal plate and at least two electrodes, the flexible electrothermal plate is coated with electrical-conductive nanometer carbon dust coating, two electrode gap is set and is embedded in the flexible electrothermal plate, and two electrode is electrically connected with the flexible electrothermal plate；And a barrier layer, be coated on a surface of the Electric radiant Heating Film away from the sull, the barrier layer in adiabatic material or isolation material at least one constituted.Thus, far infrared membrane structure is bent to paste body curve and oxide powder containing high content, allow far infrared membrane structure that there is good ease of use and far infrared irradiation rate.

Description

Far infrared membrane structure and its manufacture method

Technical field

The invention relates to a kind of medical health device for producing far infrared, espespecially a kind of far infrared Membrane structure and its manufacture method.

Background technology

Far infrared (Far Infrared, FIR) refers to spectrally positioned at 8,000~14,000nm regions The molecule of light wave, far-infrared engergy and human body produces resonance, with reach stimulate circulation, accelerates it is newly old Metabolism, increase body immunity, in balanced body the advantages of pH-value.Therefore, health care on the market Device also begins to be used in combination with far infrared.

In medical health device by taking heating component as an example, heating component mainly comprising a substrate and is combined in base An Electric radiant Heating Film on plate, and then fomentation effect is reached, and make to make heating component be combined with far infrared With this base material is usually that can radiate the rigid plate made by the ore or ceramic material of far infrared, or is Added with the ore that can radiate far infrared or the soft board of ceramic powders.

However, above-mentioned heating component has the disadvantages that：One, base material are that can radiate the ore deposit of far infrared During rigid plate made by stone or ceramic material, because rigid plate can not be bent to paste body curve, cause User feels profit inconvenient for use；Secondly, base material be added with the ore or ceramic powder of far infrared can be radiated During the soft board at end, because soft board is keeps enough pliability and pliability, cause ore or ceramic powder The content reduction at end, or be that fixed ore or ceramic powders are fixed using cladding or glued mode, Jin Erying Ring the efficiency of far infrared.

The content of the invention

The main object of the present invention, is to provide a kind of far infrared membrane structure and its manufacture method, it is It can be bent to paste body curve and oxide powder containing high content, allowed using far infrared membrane structure Far infrared membrane structure has good ease of use and far infrared irradiation rate.

In order to reach above-mentioned purpose, the present invention provides a kind of far infrared membrane structure, including：Monoxide Film, the monoxide gel being mixed into by monoxide powder and a colloidal sol is constituted；One Electric radiant Heating Film, With reference on the sull, the Electric radiant Heating Film and the sull collectively constitute a flexible thin plate, The Electric radiant Heating Film includes a flexible electrothermal plate and at least two electrodes, and the flexible electrothermal plate is coated with conduction and received Rice carbon dust coating, two electrode gap set and be embedded in the flexible electrothermal plate, two electrode with The flexible electrothermal plate is electrically connected with；And a barrier layer, it is coated on the Electric radiant Heating Film thin away from the oxide One surface of film, the barrier layer in adiabatic material or isolation material at least one constituted.

Far infrared membrane structure of the present invention, wherein, the oxide powder be iron, manganese, chromium, One or more are mixed in the oxide of cobalt, magnesium or titanium, and the colloidal sol is silica gel or sodium metasilicate.

Far infrared membrane structure of the present invention, wherein, the oxide powder accounts for the sull weight It is 50~70% to measure percentage range.

Far infrared membrane structure of the present invention, wherein, the colloidal sol accounts for the sull weight percent It is 30~50% than scope.

Far infrared membrane structure of the present invention, wherein, a carrier is further included, the carrier is layered in this Between sull and the Electric radiant Heating Film, the carrier is tinsel.

In order to reach above-mentioned purpose, the present invention provides a kind of manufacture method of far infrared membrane structure, and it is walked Suddenly include：A) monoxide powder and a colloidal sol is provided, by the oxide powder add the colloidal sol and with this Colloidal sol is mixed into monoxide gel；B) operation is processed to the oxide gel in shape on a carrier Into monoxide film；C) one Electric radiant Heating Film is provided, the sull is combined in the Electric radiant Heating Film and common With one flexible thin plate of composition, the Electric radiant Heating Film includes a flexible electrothermal plate and at least two electrodes, and this is flexible Property electric heating piece be coated with electrical-conductive nanometer carbon dust coating, two electrode gap sets and is embedded in the pliability In electric heating piece, two electrode is electrically connected with the flexible electrothermal plate；And d) provide a barrier layer, The Electric radiant Heating Film has the surface away from the sull, the barrier layer is coated on into the surface, the resistance Exhausted layer in adiabatic material or isolation material at least one constituted.

The manufacture method of far infrared membrane structure of the present invention, wherein, the processing operation of this in b step It is heat-treated again for the oxide gel is coated on into the carrier, the carrier is tinsel.

The manufacture method of far infrared membrane structure of the present invention, wherein, the processing operation of this in b step Carry out air-drying processing again for the oxide gel is coated on into the carrier, the carrier is tinsel.

The manufacture method of far infrared membrane structure of the present invention, wherein, the oxidate powder in a steps One or more are mixed in the last oxide for iron, manganese, chromium, cobalt, magnesium or titanium, the colloidal sol For silica gel or sodium metasilicate.

The manufacture method of far infrared membrane structure of the present invention, wherein, the oxidate powder in a steps It is 50~70% that end, which accounts for the sull weight percentage ranges,.

The manufacture method of far infrared membrane structure of the present invention, wherein, the colloidal sol accounts for this in a steps Sull weight percentage ranges are 30~50%.

The present invention also has following effect：Firstth, sull is mixed into by oxide powder and colloidal sol Oxide gel constituted, make sull that there is enough pliabilitys and pliability, simultaneous oxidation Thing film radiates far infrared powder with high content again, and carrier is that tinsel can will be far from human body The far infrared irradiation heat energy that reflects towards human body and produce electric heating piece accelerate conduction to far infrared Film, to reach that far infrared membrane structure has dynamical ease of use, far infrared irradiation rate and guarantor Strong efficiency.

Secondth, far infrared membrane structure of the present invention further includes Electric radiant Heating Film and barrier layer, and sull is combined In Electric radiant Heating Film, barrier layer is coated on Electric radiant Heating Film, and this barrier layer is by adiabatic material and isolation material institute structure Into making far infrared membrane structure that there is safety in utilization, heat to concentrate, save the energy and insulative effectiveness.

Brief description of the drawings

Fig. 1 is the three-dimensional exploded view of far infrared membrane structure of the present invention.

Fig. 2 is the combination diagram of far infrared membrane structure of the present invention.

Fig. 3 is the step flow chart of far infrared film structure making process of the present invention.

Fig. 4 is the schematic diagram that oxide powder of the present invention and colloidal sol are mixed into oxide gel.

Fig. 5 is that sull of the present invention is intended to combine the schematic diagram in Electric radiant Heating Film.

Fig. 6 is the three-dimensional exploded view in barrier layer of the present invention Electric radiant Heating Film to be coated on.

Fig. 7 is the use state schematic diagram of far infrared membrane structure of the present invention.

Fig. 8 is the far infrared irradiation rate distribution map of sull of the present invention.

Fig. 9 is another far infrared irradiation rate distribution map of sull of the present invention.

Figure 10 is the far infrared transmission power distribution figure of sull of the present invention.

Figure 11 is the another far infrared irradiation rate distribution map of sull of the present invention.

Wherein, reference：

10 ... far infrared membrane structures

1 ... Electric radiant Heating Film

11 ... surfaces

12 ... flexible electrothermal plates

13 ... electrodes

2 ... sulls

3 ... flexible thin plates

4 ... barrier layers

5 ... oxide gels

6 ... carriers

A~d ... steps

Embodiment

Detailed description for the present invention and technology contents, by coordinating, brief description of the drawings is as follows, but accompanying drawing is only As illustrative purposes, the limitation present invention is not intended to.

It refer to shown in Fig. 1 to 7, the present invention provides a kind of far infrared membrane structure and its manufacture method, This far infrared membrane structure 10 mainly includes monoxide film 2, an Electric radiant Heating Film 1 and a barrier layer 4.

As shown in Fig. 1 to 2, Electric radiant Heating Film 1 has the surface 11 away from sull 2, electric heating Film 1 includes a flexible electrothermal plate 12 and at least two electrodes 13, and two electrodes 13 are arranged at intervals at flexible It is electrically connected with property electric heating piece 12 and with flexible electrothermal plate 12.Wherein, flexible electrothermal plate 12 is applied Electrical-conductive nanometer carbon dust coating is furnished with, because the coating of electrical-conductive nanometer carbon dust coating is continuous, makes electrical-conductive nanometer carbon Powder coating is the calandria of plane continous way, so far infrared membrane structure 10 of the present invention has thermoelectricity Uniform effect

As shown in Fig. 1 to 2, sull 2 is combined in Electric radiant Heating Film 1, but is not limited system, Sull 2 also may be incorporated on other articles.

The monoxide gel that sull 2 is mixed into by monoxide powder and a colloidal sol is constituted, Electric radiant Heating Film 1 and sull 2 collectively constitute a flexible thin plate 3.

Wherein, oxide powder for can radiate the mineral dust of far infrared, i.e. oxide powder be iron, One or more are mixed in the oxide of the metals such as manganese, chromium, cobalt, magnesium, titanium, for example：SiO₂、 Al₂O₃、Na₂O、K₂O、MgO、CaO、TiO₂、Fe₂O₃、CoO、Cr₂O₃、MnO₂In One or more are mixed；Colloidal sol is silica gel or sodium metasilicate.Wherein, to account for oxide thin for oxide powder The weight percentage ranges of film 2 are 50~70%, and colloidal sol accounts for the weight percentage ranges of sull 2 and is 30~50%, no matter and the ratio change between oxide powder and colloidal sol, what both was mixed The pliability and function of sull 2 are all unaffected.

As shown in Fig. 2 barrier layer 4 is coated on the surface 11 of Electric radiant Heating Film 1, this barrier layer 4 is by thermal insulation At least one in material or isolation material is constituted, outside electric current of the isolation material to prevent electrode 13 Leakage, also, there is adiabatic material heat collection to neutralize effect of heat insulation.

As shown in Fig. 2 the combination of far infrared membrane structure 10 of the present invention, it utilizes sull 2 The oxide gel being mixed into by oxide powder and colloidal sol is constituted.Thus, far infrared membrane structure is made 10 can bend to paste body curve and oxide powder containing high content, allow far infrared membrane structure 10 have good ease of use and far infrared irradiation rate.

As shown in figure 3, the step of being the manufacture method of far infrared membrane structure 10 of the present invention, first, There is provided oxide powder and colloidal sol as shown in Fig. 3 step a and Fig. 4, oxide powder is added molten Glue is simultaneously mixed into monoxide gel 5 with colloidal sol.

Furthermore, as shown in Fig. 3 step b, operation is processed to oxide gel 5 in a carrier 6 Sull 2 above is formed, this processing operation is carried out again for oxide gel 5 is coated on into carrier 6 Heat treatment air-dries processing, oxide gel 5 is solidified into sull 2, carrier 6 is layered in oxygen Between compound film 2 and Electric radiant Heating Film 1, carrier 6 is tinsel, and this carrier 6 can will be far from human body The heat energy that far infrared irradiation reflection is produced towards human body and by electric heating piece 12 accelerates conduction to far infrared Film.

Finally, there is provided Electric radiant Heating Film 1 as shown in Fig. 3 step c and Fig. 5, by the knot of sull 2 Close in Electric radiant Heating Film 1 and collectively constitute flexible thin plate 3.

In addition, there is provided barrier layer 4 as shown in Fig. 3 step d and Fig. 6, Electric radiant Heating Film 1 has remote The surface 11 of sull 2, surface 11 is coated on by barrier layer 4.

As shown in fig. 7, being the use state of far infrared membrane structure 10 of the present invention, wherein oxide is thin The oxide gel that film 2 is mixed into by oxide powder and colloidal sol is constituted, and has sull 2 Enough pliabilitys and pliability, simultaneous oxidation thing film 2 radiates far infrared with high content again Powder, then Electric radiant Heating Film 1 of arranging in pairs or groups collectively constitute flexible thin plate 3, and barrier layer 4 is coated on Electric radiant Heating Film 1 Surface 11, makes film layer superposition (Electric radiant Heating Film 1, oxide that far infrared membrane structure 10 is unlike material Film 2, barrier layer 4 are layered on top of each other) with as with radiation far infrared function film layer structure, because Far infrared membrane structure 10 is film layer structure, so far infrared membrane structure 10 can be combined in skin, cloth The flexible materials such as part, or single oxide film 2 also may be incorporated in the flexible materials such as skin, cloth member On, so that far infrared membrane structure 10 can arbitrarily be bent, and drive the correspondence human body of sull 2 bent Line is pasted, and the persistent fever of Electric radiant Heating Film 1 and produce applying hot compression, and then reach far infrared membrane structure 10 have dynamical ease of use, far infrared irradiation rate and health care efficiency.

In addition, sull 2 also may be incorporated on the various articles such as soft or hard, article appearance is allowed Far infrared is produced by heat and sull 2 that article is produced, has infrared ray membrane structure 10 There are dynamical use popularity and health care efficiency.

Furthermore, far infrared membrane structure 10 of the present invention further includes barrier layer 4, and barrier layer 4 is coated on electricity Hotting mask 1, the barrier layer 4 of this embodiment is made up of adiabatic material and isolation material, to prevent electrode 13 Electric current leak outside and have heat collection neutralize effect of heat insulation, make far infrared membrane structure 10 have using safety Property, heat concentrates, saves the energy and insulative effectiveness.

It refer to shown in Fig. 8 to 11, be the far infrared irradiation rate and hair of sull 2 of the present invention Power profile is penetrated, as shown in figure 8, its far infrared detected by Taiwan industrial technology research institute is put Rate distribution map is penetrated, this environmental condition is：Laboratory ambient temperature is 25 DEG C, relative humidity is 60%； As shown in figure 9, its far infrared irradiation rate distribution map for being detected by Korea National laboratory, this environment Condition is：Laboratory ambient temperature is 60 DEG C；As shown in Figure 10, it is examined by Korea National laboratory The far infrared transmission power distribution figure of survey, this environmental condition is：Laboratory ambient temperature is 60 DEG C, Wherein curve S is the data of sull 2 of the present invention, and curve B is nature theoretical upper values； As shown in figure 11, its far infrared irradiation rate point detected by the state-run technical study centre of development in Taiwan Butut, this environmental condition is：Laboratory ambient temperature is 34 DEG C, relative humidity is 45%.By above-mentioned The far infrared irradiation rate and transmission power distribution figure of sull 2 learn, sull of the present invention 2 far-infrared ray power is high and with excellent ground infrared emission ability.

Certainly, the present invention can also have other various embodiments, without departing substantially from of the invention spiritual and its essence In the case of, those skilled in the art can make various corresponding changes and deformation according to the present invention, But these corresponding changes and deformation should all belong to the protection domain of the claims in the present invention.

Claims (11)

1. a kind of far infrared membrane structure, it is characterised in that including：

Monoxide film, the monoxide gel institute structure being mixed into by monoxide powder and a colloidal sol Into；One Electric radiant Heating Film, with reference on the sull, the Electric radiant Heating Film and the sull are collectively constituted One flexible thin plate, the Electric radiant Heating Film includes a flexible electrothermal plate and at least two electrodes, the pliability electric heating Piece is coated with electrical-conductive nanometer carbon dust coating, and two electrode gap sets and is embedded in the flexible electrothermal plate In, two electrode is electrically connected with the flexible electrothermal plate；And a barrier layer, it is coated on the Electric radiant Heating Film Away from the sull a surface, the barrier layer in adiabatic material or isolation material at least within it One is constituted.

2. far infrared membrane structure as claimed in claim 1, it is characterised in that the oxide powder Mixed for one or more in the oxide of iron, manganese, chromium, cobalt, magnesium or titanium, the colloidal sol is Silica gel or sodium metasilicate.

3. far infrared membrane structure as claimed in claim 2, it is characterised in that the oxide powder It is 50~70% to account for the sull weight percentage ranges.

4. far infrared membrane structure as claimed in claim 2, it is characterised in that the colloidal sol accounts for the oxygen Compound film weight percentage range is 30~50%.

5. far infrared membrane structure as claimed in claim 1, it is characterised in that further include a load Body, the carrier is layered between the sull and the Electric radiant Heating Film, and the carrier is tinsel.

6. a kind of manufacture method of far infrared membrane structure, it is characterised in that this method step includes：

A) monoxide powder and a colloidal sol is provided, by the oxide powder add the colloidal sol and with the colloidal sol It is mixed into monoxide gel；B) operation is processed to the oxide gel in formation one on a carrier Sull；C) one Electric radiant Heating Film is provided, the sull is combined in the Electric radiant Heating Film and common group Into a flexible thin plate, the Electric radiant Heating Film includes a flexible electrothermal plate and at least two electrodes, pliability electricity Backing is coated with electrical-conductive nanometer carbon dust coating, and two electrode gap sets and is embedded in the pliability electric heating In piece, two electrode is electrically connected with the flexible electrothermal plate；And a barrier layer, the electricity d) are provided Hotting mask has the surface away from the sull, the barrier layer is coated on into the surface, the barrier layer At least one is constituted in adiabatic material or isolation material.

7. the manufacture method of far infrared membrane structure as claimed in claim 6, it is characterised in that b The processing of this in step operation is heat-treated again for the oxide gel is coated on into the carrier, and the carrier is Tinsel.

8. the manufacture method of far infrared membrane structure as claimed in claim 6, it is characterised in that b The processing of this in step operation is that the oxide gel is coated on into the carrier to carry out air-drying processing, the carrier again For tinsel.

9. the manufacture method of far infrared membrane structure as claimed in claim 6, it is characterised in that a The oxide powder of this in step be iron, manganese, chromium, cobalt, magnesium or titanium oxide in it is one or more Mix, the colloidal sol is silica gel or sodium metasilicate.

10. the manufacture method of far infrared membrane structure as claimed in claim 9, it is characterised in that a It is 50~70% that the oxide powder of this in step, which accounts for the sull weight percentage ranges,.

11. the manufacture method of far infrared membrane structure as claimed in claim 9, it is characterised in that a It is 30~50% that the colloidal sol of this in step, which accounts for the sull weight percentage ranges,.