CN1099892A - Far infrared emitting image display device - Google Patents
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- CN1099892A CN1099892A CN 93117246 CN93117246A CN1099892A CN 1099892 A CN1099892 A CN 1099892A CN 93117246 CN93117246 CN 93117246 CN 93117246 A CN93117246 A CN 93117246A CN 1099892 A CN1099892 A CN 1099892A
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Abstract
This image display device has a machine casing which uses at least one of those selected from far infrared emitting material, far infrared lamp and far infrared emitting device for emitting far infrared ray. In light of this invention, the benefitial far infrared ray is emitted from the image display device which emits the harmful electromagnetic wave.
Description
The present invention relates to emitting far-infrared image display device, relate in particular to the emitting far-infrared image display device that makes by following method, promptly make image display device or the far infrared emitter is connected on the casing with emitting far-infrared by far infrared emitting material being written into casing.
In modern society, also promptly in information society, the perfect of image information transmission system is one of modern sign, yet misoperation might take place in image display device, and the electromagnetic wave that device sends can decrease the health of cutting the operator, if we refer to this thing, find that it will be that cost exchanges with health that this mistake has caused for convenience.It is called as the VDT(visual display limit to the influence of human body) syndrome, its symptom is eye fatigue, ophthalmodynia, vision impairment, headache, confirmed fatigue or the like.Once did many trials in order to eliminate and/or shield this harmful electromagnetic wave, for example antistatic treatment, filtrator is set and magnetic field generator etc. is set, but still have financial burden and efficiency, and now prove, all removal and/or shielding electromagnetic wave are impossible.
Far infrared is the electromagnetic wave (the standard wavelength zone of far infrared is strict definition not, and selected in the present invention scope does not comprise near infrared ray) of 5-1000 μ m.It has two kinds of forms to the effect of human body: heat effect and non-heat effect.Heat effect is meant and reaches to the effect of the heat energy of deep tissues or whole machine body absorbing from skin in the peripheral vessel, is the acceptor of stimulating endothelial or cell membrane corresponding to the non-heat effect of the light quantum of the far infrared of specific wavelength.The far-infrared radiation that this means specific wavelength is to the cell emission and make cell activation.Therefore, far infrared becomes the heat energy energy by thermal response, becomes light quantum source by non-thermal response.In a word, far infrared demonstrates the heat effect identical with infrared effect and the radiation indirectly-acting by the activation of hydrone, and demonstrates and stimulate that the impression of subcutaneous 100 μ m places is hot, cold, the non-heat effect of the acceptor of neurocyte bitterly etc.The release that stimulates circulation and accelerate old and feeble material by these effects.
Far infrared, particularly the far infrared in the 5.5-15 μ m zone is used as and helps hydrone to stretch and the crooked energy, far infrared in should the zone is emitted to human body, when plant and animal body, the most hydrone of forming these life entities is activated, promoted blood circulation, accelerate healthy recovery and shortened cooking required time, accelerate the opening of flower and kind of blooming period prolonging or the like and (seen Japan illumination society Vol.72 No.12 1988 for details, P717 " Application of far infrared to ghe human bodyI ", and the Vol.74 that ibid, No.12,1990, P795 " The present state of applyimg far infrared to the food industry and the future ", Japan ceramics, Vol.25, No.4 1988, P310 " Far infrared emitting mate rials and its application ", Seoul, Korean tourist information Co. publishes, and W.S.Park is translated into " Far infrared ").
Done a large amount of research and development for above-mentioned favourable far infrared.The open clear 63-198254 of No. of Jap.P., clear 63-236284, clear 63-248051, flat 1-65786, flat 1-77893 peace 1-169865 discloses the manufacturing technology of far infrared emission lamp.Many purposes of these far infrared emission lamps of known use.The flat 2-57883 peace of the open No. of Jap.P. 2-309169(Hitachi) refrigerator that uses far infrared emission lamp is disclosed; The open No. of Jap.P. has equalled-2-306028(Rinai) discloses the microwave oven of using far infrared emission lamp; The open flat 2-164365 of No. of Jap.P. discloses the bathtub that uses far infrared emission lamp.In all these applications, also have various experimental datas with the effect of using far infrared emission lamp is disclosed, and the result is gratifying.
Account for most water of human body and far infrared following relation is arranged.Fig. 1 is the transmissivity of water to various wavelength.As shown in the figure, glassware for drinking water has at 3 μ m, 6 μ m and be higher than the light absorbing characteristic in 6 μ m places.Because hydrone (H
2O, H-O-H) in O-H chain between oxygen and the hydrogen in 2.5-3.5 μ m stretching vibration, in 10-14 μ m place flexural vibrations, absorption light has promoted the vibration of hydrone simultaneously when water is exposed in the light of these wavelength region may.That is to say that when providing the light that is in these wavelength region may from the outside, hydrone is activated, their reorientations form an ideal structure then.
Can human body temperature be sample data, according to the relation of absolute temperature and wavelength, be that absolute temperature, λ are wavelength μ m as Wien formula λ=2897/T(T) calculate the wavelength of human body.Promptly when temperature T be 309.5(273+36.5) time, wavelength is 9.36 μ m, is that a wavelength is in the far infrared scope.
Fig. 2 A and 2B show that reflection is to the light transmission (2A) of each wavelength and the figure of light reflectivity (2B).The far infrared wavelength scope of human body skin emission be 3-50 μ m, the particularly wavelength of 8-14 μ m account for total emitted energy about 46%.The energy that is emitted to skin is by transmission, reflection or absorption, thus skin endergonic what can calculate according to Fig. 2 A and 2B.The major part of the luminous energy in the 8-14 μ m zone that for example, transmissivity and reflectivity are low is considered to absorbed by skin.
Therefore, prosperous by the energy of supplying with this scope, most of life entity of being made up of water absorbs this energy with kinetic force and is easy to be activated.This just can play following effect as making flower early open, and shortens the eggs incubation period, prolongs the florescence of flower arrangement etc.The effect of human body is equivalent to the effect of little massage, has promoted to perspire and secretion, accelerated to get well etc.
Far-infrared emission material is as follows: silico-aluminate (Al
2O
3-SiO
2), trichroite (MgO-Al
2O
3-SiO
2), zircon (ZrO
2-SiO
2), carbon, iron oxide (Fe
2O
3), manganese dioxide (MnO
2), cupric oxide (CuO), cobaltosic oxide (Co
3O
4), nickel monoxide (NiO), chromium oxide (Cr
2O
3), Lithia (Li
2O), zinc paste (ZnO), bismuth oxide (Bi
2O
3), baryta (BaO), titanium dioxide (TiO
2), boron oxide (B
2O
3), sodium oxide molybdena (Na
2O), kali (K
2O), phosphorus pentoxide (P
2O
5), two/molybdenum trioxide (Mo
2O
3), calcium oxide (CaO), or the like.
Fig. 3 A has represented that some far-infrared emission materials are according to the figure of wavelength to the emissive porwer of black matrix (40 ℃ measuring down).The far infrared wavelength region may of these material emissions is 5-25 μ m.
Fig. 4 A, 4B and 4C are respectively the diagrams of some far infrared emission potpourri emissive porwers to wavelength.The potpourri of Fig. 4 A correspondence is SiO
260wt%, Al
2O
320wt%, Fe
2O
3The TiO of 5wt% and 15wt%
2MnOCaOMgO; The potpourri of Fig. 4 B correspondence is: ZrO
250wt%, SiO
230wt%, Al
2O
38wt%, Fe
2O
33wt%, BaO 3wt%, the CaO of MgO 2wt% and 4wt%; Fig. 4 C corresponding mixture is SiO
250wt%, Al
2O
345wt%, K
2O 3wt% and Na
2O 2wt%.These figure show that various materials are emitting far-infrared in certain wavelengths zone separately.Therefore can select to use suitable material according to needs separately.
A part of casing or casing as image display device are the equipment that internal part is housed.This casing is used engineering plastics usually, particularly uses ABS resin, vestolit and acrylic resin manufacturing.By earlier the raw material tree is referred to, mixing such as dyestuff, stabilizing agent, this potpourri is sent into thrower then this potpourri is sprayed injection moulding and make casing.
Casing is mainly made with ABS resin.ABS resin is a kind of plastics of being made up of styrene, acrylonitrile and butadiene, has good impact resistance and heat impedance (93 ℃ of heat resistanceheat resistant temperature).Table 1 has been enumerated the thermal change temperature of some injection casing raw materials.
Table 1
| Sample | The thermal change temperature (℃) | |
| Thermoplastic resin | The plain styrene polyethylene of metering system ester vinyl chloride acid polyethylene nylon fluoride celluloid fiber polypropylene Merlon | 65-100 50-75 45-75 -180 120 50-70 70-110 70-115 40-80 80-100 130 |
| Thermosetting resin | Phenolic resin carbamide resin melamine resin unsaturated polyester (UP) alkyd resins silicone resin foamed polyurethane polyethylene | 70-120 100-130 150-200 -200 80-90 >250 -100 40-80 |
The purpose of this invention is to provide a kind of user's of reduction financial burden and reduce the user uncomfortable and provide the far infrared emission image display device with various favorable factors of a pleasant working environment.
In order to reach this purpose, a kind of emitting far-infrared image display device is provided in the present invention, it has the casing of support and containment means inner core, it is characterized in that this casing contains is selected from least a in following far infrared emitting material, far infrared lamp and the far infrared transmitter, so this image display device sends far-infrared radiation.
Can make by the far infrared emitting material that in the raw material of making casing, adds 1-30wt% and contain far-infrared emission material in the casing, spray injection moulding then, perhaps far infrared emitting material is coated to the casing surface with binder or dyestuff.
Above-mentioned purpose of the present invention also can be finished by having at least one far infrared emitter and emitting far-infrared image display device, this emitter has a heating arrangement provides heat to far-infrared emission material, and a baffle reflection is from inner outwards far infrared radiation of emission of described device and the bracing or strutting arrangement that is loaded with these equipment.
Specifically describe preferred version of the present invention with reference to following accompanying drawing and can more be clear that above-mentioned purpose of the present invention and other advantage:
Fig. 1 is the figure of the transmissivity of water to wavelength;
Fig. 2 A and 2B are that the light of skin is thoroughly than (2A) and the luminous reflectance figure to wavelength;
Fig. 3 is emissive porwer one wavelength graphs of various far-infrared emission materials to black matrix;
Fig. 4 A, 4B and 4C are emissive porwer one wavelength graphs that various far infrared emissions mix;
Fig. 5 A and 5B have illustrated the injection Shooting Technique of making casing;
Fig. 6 is the keychart that the present invention tests 1 method;
Fig. 7 A and 7B are the images of chrysanthemum, have proved the far infrared transmitter of the image display device made from the embodiment of the invention 1;
The image of Fig. 8 A and 8B rose has proved the far infrared emitter of the image display device that the embodiment of the invention 2 makes;
Fig. 9 A and Fig. 9 B are the front view (9A) and the side views (9B) of the image display device of second embodiment of the invention;
Figure 10 is the longitudinal diagram of the preferred far infrared emission lamp that uses among the present invention;
Figure 11 A and 11B are that the present invention tests 3 keychart;
Figure 12 A and 12B are that the present invention tests 4 key drawing;
Figure 13 A and 13B have illustrated the foundation structure of far infrared emitter of the present invention, and Figure 13 A is the skeleton view of this device; Figure 13 B is the sectional view of cutting open along the A-A line shown in Figure 13 A;
Figure 14 A is the sectional view of cutting open along the B-B line shown in Figure 15 B, and another embodiment of the present invention has been described, and with respect to Figure 13 B.
Figure 14 B is the sectional view of cutting open along the C-C line of the device shown in Figure 15 C, is another embodiment of the invention; With
Figure 15 A, 15B and 15C have illustrated the image display device of the use far infrared emitter of Figure 13 B, 14A and 14B illustrated respectively.
Specifically describe the preferred embodiments of the invention below.With embodiment the manufacturing method of anm image displaying apparatus that the present invention is emitting far-infrared is described, and with the effect of the emitting far-infrared image display device of description of test the present invention.
First embodiment of the present invention provides a kind of far infrared emission image display device that is used to support with the casing of containment means inner core that has, and it is characterized in that this casing contains far-infrared emission material.
This far-infrared emission material can be comprised in the casing or be coated in the surface of casing.
When emissive material being mixed with the raw material of making casing injection molded makes that far infrared emitting material is included in the casing then, the addition of far-infrared emission material accounts for the 1-30wt% of maker husk as raw material total amount.If adjuvant is less than 1wt%, then can only obtain not enough far infrared emission effect, if addition surpasses 30wt%, the shell impact resistance that then makes is crossed weak and is difficult to make casing.Preferred content range is 5-15wt%.
Emitting far-infrared preferred material is to be selected from least a in the following material, and these materials comprise: aluminium oxide (Al
2O
3), silicon dioxide (SiO
2), magnesium oxide (MgO), zirconia (ZrO
2), carbon, iron oxide (Fe
2O
3), manganese dioxide (MnO
2), manganese monoxide (MnO), cupric oxide (CuO), cobaltosic oxide (Co
3O
4), nickel monoxide (NiO), chromium oxide (Cr
2O
3), titanium dioxide (TiO
2), boron oxide (B
2O
3), sodium oxide molybdena (Na
2O), kali (K
2O), two/molybdenum trioxide (Mo
2O
3), calcium oxide (CaO), zinc paste (ZnO), Lithia (Li
2O), bismuth oxide (Bi
2O
3), phosphorus pentoxide (P
2O
5), baryta (BaO) and complex compound thereof.
When using domestic TV, during machines such as computer monitor, the casing temperature can reach about 40-70 ℃, thereby the far-infrared emission material that contains in the casing can be emitted more far infrared radiation.
Fig. 5 A and 5B have illustrated the injection Shooting Technique of making casing.This casing is by following method manufacturing particularly: raw mix is placed in the funnel 1, make potpourri press to outlet 4 with piston apparatus 2 then, mixture melt when it passes through heating arrangement 3 is infused in molten mixture in the pre-cover half shape of casing among the troy5 then.
<embodiment 1>
With 70wt%SiO
2, 25wt%, Al
2O
3And 5wt%, Fe
2O
3Be mixed and made into far infrared emission clay.Potpourri 15wt% is added and evenly spread in the raw material of making the ABS casing.Make the casing that is used to support and contain the image display device part as shown in Figure 5 with conventional method.
<embodiment 2>
With 60wt% ZrO
2, 25wt%, SiO
2, 5wt%, Al
2O
3, 3wt%Fe
2O
3, 3wt%MgO and 4wt%TiO
2Mixed that far infrared is launched clay.Except the 10wt% of addition for manufacturing ABS casing material quantity of clay, all the other steps are all described with embodiment 1.
<experiment 1>
The casing that uses embodiment 2 to make is made 14 " monitors.Fig. 6 is the annotated map of this experimental technique.Two identical chrysanthemums of degree in full bloom are inserted in respectively in two bottles, one bottle be placed on the monitor that contains far-infrared emission material in the casing before, another bottle is placed on casing with last identical, but does not contain 14 " before the monitor, as shown in Figure 6 of far infrared emitting material in the casing.Before the monitor of operation, will spend and place the variation of observing two flowers after 10 days.Fig. 7 A is the chrysanthemum photo before monitor turnon.Can affirm that two are spent degree in full bloom identical.Fig. 7 B is the chrysanthemum photo of shooting after 10 days, and wherein the left side is to be placed on the preceding chrysanthemum of monitor that uses general casing, and the right side is to be placed on to use the preceding chrysanthemum of monitor that contains far infrared emitting material.It is still fresh to be placed on the flower that uses before the monitor contain the far infrared emitting material casing among Fig. 7 B, and leaf is still in growth, and it is then withered to be rotated in the flower that uses before the conventional casing monitor.
Use far infrared emitting material to be to use bonding agent and/or sprayer these materials to be coated in the interior or outside surface of casing in the another kind of method of casing.
<embodiment 3>
The far infrared emission clay that 5wt% and embodiment 1 is identical mixes with 95% acryl binder.This potpourri is coated in the outside surface of ABS resin casing and the casing that heat drying makes the far infrared emitting material coating.
<embodiment 4>
3wt% and embodiment 1 identical far infrared emission clay is mixed with the chlorovinyl heat sensitive adhesive of 96wt%.In this potpourri, add low quantity of surfactant and polyvinyl alcohol (PVA) and evenly mixing.This potpourri is coated in the inside surface of ABS resin casing and, makes the casing of far infrared emitting material coating at 40-50 ℃ of heat drying.
<embodiment 5>
The far infrared emission clay that 25wt% and embodiment 2 is identical mixes with the vestolit of 50wt%, 15wt% propylene ester-based plasticizer, the zinc-base stabilizing agent of 1wt%, epoxy radicals stabilizing agent and the 7wt% acryl binder of 2wt%.This potpourri is coated on the surfaces externally and internally of ABS resin casing and dry, makes the casing of far infrared emitting material coating.
<experiment 2>
By with experiment 1 identical method, to use the common machine shell and to use 14 " effects of monitor proof far infrared of the far infrared emitting material coating casing that embodiment 5 makes.Two identical roses of degree of opening are inserted in the bottle separately respectively and are placed on as shown in Figure 6 each casing.Open the variation of observing flower behind the monitor.Fig. 8 A is the photo after a day.The left side flower is exposed to common monitor in this photo, and the flower on right side is exposed to the monitor that contains far infrared emitting material in the casing.Two flowers do not show difference.Fig. 8 B is the photo after 5 days.See the withered hardening of the flower that can be exposed to common monitor certainly from photo, and it is still fresh to be exposed to the flower of the monitor that contains far infrared emitting material.
Another embodiment of the invention provides a kind of emitting far-infrared image display device with casing, it is characterized in that this casing has at least one emission lamp.
Thereby preferably reduce the transmission of luminous ray, in order to avoid user's eye fatigue at the far infrared emitting material of tube face coating black.
Preferably use reflecting plate to increase the far infrared emission efficiency in addition at the bulb rear portion.Most preferably apply far infrared emitting material with further increase far infrared emission efficiency at reflecting surface.
For far infrared emitting material, can adopt those to be used to make the material of casing.Silicon dioxide (SiO preferably
2) aluminium oxide (Al
2O
3), manganese oxide (MnO), iron oxide (Fe
2O
3), titanium dioxide (TiO
2), zirconia (ZrO
2) and magnesium oxide (MgO).
In addition, preferably use coloured glass that plastics make or protective cover, make light avoid the influence of far infrared emission lamp simultaneously with the protection bulb.
The temperature that raises owing to far infrared emission lamp liberated heat should be lower than the fusing point (normally used ABS resin is 93 ℃) of casing composition material, preferably should be lower than 90 ℃ and keep supply power to be lower than 20W simultaneously.
For user's convenience, its direction can be installed launch lamp with the far infrared that user's orientation changes, and can select whether to open as required.
Fig. 9 A and 9B are respectively according to the front view of the image display device of the embodiment of the present invention and side view.Far infrared launched make this device before lamp 8 is installed in casing 7.What reference number 6 was indicated is cathode-ray tube (CRT).
Figure 10 is the sectional side elevation of the far infrared lamp that preferably uses of the present invention.Reflecting plate 9 is placed on the rear portion of far infrared emission bulb 11, and protective cover 10 is placed on casing 7 front portions.
Far infrared emission lamp can adopt any lamp that can be emitting far-infrared, for example incandescent lamp, halogen lamp etc.The heat release automatically of these lamps.Liberated heat has increased the far infrared emissive porwer.Yet because too much heat can make the case material fusing, the power and the temperature that should limit lamp should be above 90 ℃.(normally used ABS resin fusing point is 93 ℃).
In order to prevent the light dim eyesight of user because of sending, should handle bulb and make it have black, can use the far infrared emitting ceramic of black, or adopt the black protective cover.Also can adopt and to block part light and prevent any protective cover that light is bright excessively with this.
In addition, for far infrared being launched forward and, can around bulb reflecting plate being set as shown in Figure 10 towards the user and with light focusing.
Provide one or a plurality of far infrared emission lamps for each image display device selectivity, and every lamp can be preferred according to user's needs unlatching.Certainly, wish that lamp sets, so that can be) according to the height of user's orientation, chair and user's height regulated at will direction (light) at this direction focusing.
Use the effect of the image display device of far infrared emission lamp experimental results show that by following.
<experiment 3>
Figure 11 A explanation be to use far infrared emission lamp 14 " colour picture monitor, Figure 11 B explanation be not use far infrared emission lamp 14 " colour picture monitors.Other details of the image display device of use far infrared emission lamp is as follows among Figure 11 A: far-infrared lamp is contained on four angles of casing front portion as shown in the figure.With silicon dioxide (SiO
2), aluminium oxide (Al
2O
3), manganese oxide (MnO) and iron oxide (Fe
2O
3) potpourri of these metal oxides and the resin surface that is coated in incandescent bulb makes this lamp.Coating is deceived.Potpourri at reflecting plate surface applied 20wt% far infrared clay and water glass.Incandescent lamp power is 110V, 7W, and the bulb central temperature can reach 70 ℃ (turning on light back 5 minutes), and cigarette (25 ℃ of room temperatures, humidity 60%RH) is placed at the 50cm place as shown in the figure before two monitors of distance.The image demonstration monitor that cigarette is placed on unlatching is done the sense of taste experiment of cigarette by 15 people after preceding 24 hours.After organoleptic test finishes, 15 people all assert through the taste of the cigarette of far infrared irradiation be placed on conventional monitor before the taste of cigarette different, 12 people wherein point out that further the former is softer than the latter.
<experiment 4>
With with experiment in 3 identical method far-infrared lamp is installed on image display device.Will be by silicon dioxide (SiO
2), aluminium oxide (Al
2O
3), titanium dioxide (TiO
2) and the far infrared emission clay formed of magnesium oxide be coated in tube face.In these cases because coating almost is white, so protective cover should be set to reduce eye fatigue.Protective cover is made with coloured glass, 560nm place transmissivity 43%.
Figure 12 A and Figure 12 B are the annotated maps of this experiment.In this experiment, identical two roses of the degree of blooming be placed on respectively use far-infrared lamp " 30cm place before the colour picture monitor is through observing the variation of flower after a while with common 14.Far-infrared lamp power 7.5W120V, open monitor after 5 minutes the bulb surface temperature reach 65 ℃.25 ℃ of room temperatures, humidity 65%RH.
In this experimentation, be exposed to rose before the conventional monitor because the electromagnetic wave that cathode-ray tube (CRT) and circuit thereof send and very fast withered, and the rose that is exposed to before the emitting far-infrared monitor of the present invention can bloom (about 6 days or longer) for a long time.This is because the far infrared that device sends has been offset the infringement of unwanted electromagnetic wave.This means that infrared has activated hydrone, the freshness date that enough energy is provided and has prolonged it to plant growth.
As the third embodiment, a kind of emitting far-infrared image display device is provided in the present invention, this device uses at least a far infrared transmitter, it comprises the infrared material, give the heating arrangement of far infrared emitting material heat supply, from installing the inner fastening that the far infrared wire spoke is penetrated the reflecting plate that reflects away and contained these equipment.
For far infrared emitting material, efficient cryogenic far-infrared emission material such as aluminium oxide (Al that can be emitting far-infrared expeditiously at low temperatures
2O
3), silicon dioxide (SiO
2), zirconia (ZrO
2) to wait be preferred the use, so that do not make distortion such as support frame such as ABS resin, vinyl chloride-based resin, acryl resin.
For being connected, the far infrared transmitter needs to use fastening means on the image display device.Can fix by adhesive securement or by when making image display device, changing casing injection moulding shape.
The present embodiment is said thin description with reference to following accompanying drawing.
Figure 13 A and 13B have illustrated the foundation structure according to the far infrared transmitter of the present embodiment, and wherein Figure 13 A is that skeleton view, Figure 13 B are the device sectional views.As supporting and containing equipment 16, use and make the normally used ABS resin of image display device casing, reflecting plate 15 is set at an upper portion thereof, firing equipment 14 also is set launches with far infrared.The heat that is provided should not surpass the temperature that may influence this device quality; Be up to 50 ℃ just enough.On firing equipment top, be provided with by extruding.The far infrared emission layer 13 that injection moulding or coating far infrared emitting material make.Preferred low temperature, efficient far infrared emission clay such as aluminium oxide, silicon dioxide, the zirconias etc. of adopting are as far infrared emitting material.
This far infrared transmitter preferably with transparent acrylic resin layer 12 as its upper surface and inboard to guarantee the emission efficiency of far infrared.Yet owing to do not have far infrared reflecting plate 15 and heating arrangement 14 in this device, the layer of being made by opaque ABS resin and vinyl chloride-based resin etc. shows enough good effect, and well heater and power supply 17 are connected in outside the device.
The far infrared transmitter of the present embodiment design may not influence the image display device reproduced image, and links to each other or be installed in the front side of casing and be designed and make the casing that is used for installing this device.The flexible cord that is connected with power supply can be connected to maybe can be extracted out from the casing circuit element on the external power supply and be connected with external power supply when producing this device.
Because the image display device that makes has thus used far infrared transmitter towards the emitting far-infrared line in operator's position at its front end, so the operator can receive the effect of far infrared in a large number.
Figure 14 A and 14B have illustrated other embodiment with the far infrared transmitter (sectional view) of the far infrared transmitter same structure described in Figure 13 B, but clavate (Figure 14 A) and garden cylindricality (Figure 14 B), and they need to make by using.Parameter 18 is meant the connected mode as bonding agent.
What Figure 15 A, 15B and 15C illustrated is to use Figure 13 B respectively, the image display system of the far infrared transmitter described in 14A and the 14B.These devices are all emitting far-infrared forward, and arrow indicates it is the transmit direction of far infrared in Figure 15 A.
In order to prove the effect of the far infrared that uses far infrared transmitter (in image display device), carry out following experiment.
<experiment 5>
Give as the described far infrared transmitter of Figure 13 A disposes shown in Figure 15 14 " the COT(color picture tube).Well heater 14 is added on the power supply and with far infrared emitting material is heated to 40 ℃.Before two identical chrysanthemums of degree of opening being placed on 14 " colour picture monitor and common 14 " colour picture monitor of use far infrared transmitter respectively, the two all keeps the distance of 30cm.Observe flower after a while in variation (shown in Figure 12 A and 12B) after opening monitor.Keep identical temperature and other environmental factor.
In this experiment, two identical chrysanthemums of degree of opening show evident difference after seven days.It is serious to be placed on the withered degree of chrysanthemum that chrysanthemum before the normal image display device is placed on before the image display that uses the far infrared emitter, the chrysanthemum that is placed on behind the fortnight before the normal image display is almost completely withered, begins rudiment and be placed on still fresh and its leaf of chrysanthemum before the image display that uses far infrared transmitter.
As mentioned above, far infrared transmitter can be linked to each other with image display device simply and can send far infrared acts on the user, and this device is suitable for practicality and can be made into Any shape.
Sure as the foregoing description and experiment, owing to the image display device that has the far infrared emissive source sends the useful far infrared wire spoke of life entity is penetrated, the user of this class device can offset the harm that unwanted electromagnetic wave brings, and can obtain life and energy from far-infrared radiation.
Although specifically illustrate and described image display device of the present invention with reference to specific embodiments of the present invention, those skilled in the art should be able to expect in form and the various variations on the details.For example: TV, computing machine and monitor, LCD, PDP or the like all can be used for this and do not exceed the spirit and scope of the present invention of these claims definition.
Claims (20)
1, a kind of emitting far-infrared image display device, it has the casing that is used to support and contain its device inner core, wherein said casing contains far infrared emitting material and makes by following step: the described far infrared emitting material of 1-30wt% is mixed with the raw material of making described casing, then this potpourri injection mo(u)lding is made described casing.
2, according to the emitting far-infrared image display device of claim 1, the addition of wherein said far infrared emitting material is counted 5-15wt% with the raw material for preparing described casing.
3, according to the emitting far-infrared image display device of claim 1, wherein said far infrared emitting material is choosing to following at least a: aluminium oxide (Al
2O
3), silicon dioxide (SiO
2), magnesium oxide (MgO), zirconia (ZrO
2), carbon, iron oxide (Fe
2O
3), manganese dioxide (MnO
2), cupric oxide (CuO), cobaltosic oxide (Co
3O
4), nickel monoxide (NiO), chromium oxide (Cr
2O
3), titanium dioxide (TiO
2), boron oxide (B
2O
3), sodium oxide molybdena (Na
2O), kali (K
2O), two/molybdenum trioxide (Mo
2O
3), calcium oxide (CaO), Lithia (Li
2O), zinc paste (ZnO), bismuth oxide (Bi
2O
3), phosphorus pentoxide (P
2O
5), baryta (BaO) and complex compound thereof.
4, a kind of emitting far-infrared image display device, have the casing that supports and contain this device inner core, wherein said casing contains far infrared emitting material, and is coated in described casing surface by the potpourri with described far infrared emitting material and bonding agent or dyestuff and makes.
5, according to the emitting far-infrared image display device of claim 4, wherein said far infrared emitting material be selected from following at least a: aluminium oxide (Al
2O
3), silicon dioxide (SiO
2), magnesium oxide (MgO), zirconia (ZrO
2), carbon, iron oxide (Fe
2O
3), manganese dioxide (MnO
2), cupric oxide (CuO), cobaltosic oxide (Co
3O
4), nickel monoxide (NiO), chromium oxide (Cr
2O
3), titanium dioxide (TiO
2), boron oxide (B
2O
3), sodium oxide molybdena (Na
2O), kali (K
2O), two/molybdenum trioxide (Mo
2O
3), calcium oxide (CaO), Lithia (Li
2O), zinc paste (ZnO), bismuth oxide (Bi
2O
3), phosphorus pentoxide (P
2O
5), baryta (BaO) and complex compound thereof.
6, a kind of emitting far-infrared image display device is supporting and is containing this device inner core and casing (7) front side has far infrared lamp (8).
7, according to the emitting far-infrared image display device of claim 6, wherein said far-infrared lamp (8) also has reflecting plate (9) behind far infrared emission bulb (11).
8, according to the emitting far-infrared image display device of claim 6, the surface applied of the described bulb (11) of wherein said far-infrared lamp (8) has the far infrared emitting material of black.
9, according to the emitting far-infrared image display device of claim 6, wherein said far infrared emitting material be selected from following at least a: silicon dioxide (SiO
2), aluminium oxide (Al
2O
3), manganese oxide (MnO), manganese dioxide (MnO
2), iron oxide (Fe
2O
3), cupric oxide (CuO), cobaltosic oxide (Co
3O
4), nickel monoxide (NiO), chromium oxide (Cr
2O
3), boron oxide (B
2O
3), sodium oxide molybdena (Na
2O), kali (K
2O), two/molybdenum trioxide (Mo
2O
3), calcium oxide (CaO), Lithia (Li
2O), zinc paste (ZnO), bismuth oxide (Bi
2O
3), phosphorus pentoxide (P
2O
5), baryta (BaO) barium, titanium dioxide (TiO
2), zirconia (ZrO
2) and magnesium oxide (MgO).
10, according to the emitting far-infrared image display device of claim 6, wherein said far-infrared lamp (8) also has the protective cover made from coloured glass or plastics (10).
11, according to the emitting far-infrared image display device of claim 6, wherein the energy of Gong Geiing is lower than 20W, because the temperature that the heat release of far infrared emission lamp raises is lower than 90 ℃.
12,, described far-infrared lamp (8) wherein is installed so that the direction of this lamp is adjustable with user's orientation according to the emitting far-infrared image display device of claim 6.
13,, described far-infrared lamp (8) wherein is installed is opened so that can select as required according to the emitting far-infrared image display device of claim 6.
14, according to the emitting far-infrared image display device of claim 7, wherein said reflecting plate (9) is coated in the surface of described plate (9) with far infrared emitting material.
15, a kind of emitting far-infrared image display device, it has at least a emitting far-infrared equipment, this equipment has heating tool (14) and gives the far infrared emitting material heat supply, and reflecting plate (15) reflection is from inner outwards far-infrared radiation of emission of described device and the bracing or strutting arrangement (16) that contains these equipment.
16, according to the emitting far-infrared image display device of claim 15, wherein said far infrared emitting material be selected from following at least a: aluminium oxide (Al
2O
3), silicon dioxide (SiO
2), zirconia (ZrO
2), magnesium oxide (MgO), carbon, iron oxide (Fe
2O
3), manganese dioxide (MnO
2), cupric oxide (CuO), cobaltosic oxide (Co
3O
4), nickel monoxide (NiO), chromium oxide (Cr
2O
3), titania (TiO
2), boron oxide (B
2O
3), sodium oxide molybdena (Na
2O), kali (K
2O), two/molybdenum trioxide (Mo
2O
3), calcium oxide (CaO), Lithia (Li
2O), zinc paste (ZnO), bismuth oxide (Bi
2O
3), phosphorus pentoxide (P
2O
5), baryta (BaO) and its complex compound.
17, according to the emitting far-infrared image display device of claim 15, wherein said bracing or strutting arrangement (16) is by being selected from ABS resin, vinyl chloride-based resin and acrylic resin.
18, according to the emitting far-infrared image display device of claim 15, wherein said far infrared emitter also has the connected mode (18) that is used to connect on image display device.
19, according to the emitting far-infrared image display device of claim 18, wherein said connected mode (18) is a bonding agent.
20, a kind of emitting far-infrared image display device, it has the casing that is used to support and contain this device inner core, wherein said casing contains and is selected from far infrared emitting material, at least a to send far-infrared radiation in far-infrared lamp (8) and the far infrared emitter.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 93117246 CN1050954C (en) | 1993-08-31 | 1993-08-31 | Far infrared emitting image display device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 93117246 CN1050954C (en) | 1993-08-31 | 1993-08-31 | Far infrared emitting image display device |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1099892A true CN1099892A (en) | 1995-03-08 |
| CN1050954C CN1050954C (en) | 2000-03-29 |
Family
ID=4991942
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 93117246 Expired - Fee Related CN1050954C (en) | 1993-08-31 | 1993-08-31 | Far infrared emitting image display device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN1050954C (en) |
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1862628B (en) * | 2006-06-19 | 2010-12-08 | 上海序参量科技发展有限公司 | Display device with light shower function |
| CN104123045A (en) * | 2013-04-28 | 2014-10-29 | 北京京东方光电科技有限公司 | Touch screen, liquid-crystal display device and infrared material surface modification method |
| CN104122702A (en) * | 2013-04-28 | 2014-10-29 | 北京京东方光电科技有限公司 | Liquid crystal box, liquid crystal display device and infrared material surface modifying method |
| CN104121521A (en) * | 2013-04-28 | 2014-10-29 | 北京京东方光电科技有限公司 | Backlight source, liquid crystal display device and infrared material surface modification method |
| CN105268111A (en) * | 2014-07-18 | 2016-01-27 | 千岳生物科技股份有限公司 | Far infrared base material for electronic device |
| CN110264889A (en) * | 2019-07-04 | 2019-09-20 | 深圳市思坦科技有限公司 | A kind of display device |
| CN110264889B (en) * | 2019-07-04 | 2024-06-07 | 深圳市思坦科技有限公司 | Display device |
-
1993
- 1993-08-31 CN CN 93117246 patent/CN1050954C/en not_active Expired - Fee Related
Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1862628B (en) * | 2006-06-19 | 2010-12-08 | 上海序参量科技发展有限公司 | Display device with light shower function |
| CN104123045A (en) * | 2013-04-28 | 2014-10-29 | 北京京东方光电科技有限公司 | Touch screen, liquid-crystal display device and infrared material surface modification method |
| CN104122702A (en) * | 2013-04-28 | 2014-10-29 | 北京京东方光电科技有限公司 | Liquid crystal box, liquid crystal display device and infrared material surface modifying method |
| CN104121521A (en) * | 2013-04-28 | 2014-10-29 | 北京京东方光电科技有限公司 | Backlight source, liquid crystal display device and infrared material surface modification method |
| WO2014176847A1 (en) * | 2013-04-28 | 2014-11-06 | 北京京东方光电科技有限公司 | Liquid crystal cell, liquid crystal display apparatus, and surface modification method for infrared material |
| WO2014176848A1 (en) * | 2013-04-28 | 2014-11-06 | 北京京东方光电科技有限公司 | Backlight source, liquid crystal display apparatus, and infrared material surface modification method |
| CN104121521B (en) * | 2013-04-28 | 2016-06-08 | 北京京东方光电科技有限公司 | A kind of backlight, liquid crystal indicator and infra-red material surface modifying method |
| CN105268111A (en) * | 2014-07-18 | 2016-01-27 | 千岳生物科技股份有限公司 | Far infrared base material for electronic device |
| CN110264889A (en) * | 2019-07-04 | 2019-09-20 | 深圳市思坦科技有限公司 | A kind of display device |
| CN110264889B (en) * | 2019-07-04 | 2024-06-07 | 深圳市思坦科技有限公司 | Display device |
Also Published As
| Publication number | Publication date |
|---|---|
| CN1050954C (en) | 2000-03-29 |
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